ORF » Species Summary » Nannospalax galili » Kcnma1 cDNA ORF clone

Kcnma1 cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

The following Kcnma1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Kcnma1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ONa135688 XM_029554477.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $69.30
$99.00
ONa135687 XM_029554476.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
ONa135681 XM_029554470.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa135682 XM_029554471.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa135683 XM_029554472.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa135684 XM_029554473.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa135685 XM_029554474.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa135686 XM_029554475.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa135689 XM_029554478.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ONa32274 XM_008849853.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32275 XM_008849854.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32276 XM_008849855.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32277 XM_008849856.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32278 XM_008849857.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32279 XM_008849858.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32280 XM_008849859.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32281 XM_017802381.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32282 XM_008849861.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32283 XM_008849863.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32284 XM_008849864.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32285 XM_008849865.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32286 XM_008849866.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32287 XM_008849867.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32288 XM_008849870.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32289 XM_008849871.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32290 XM_008849872.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32291 XM_008849873.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32292 XM_008849875.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32293 XM_008849876.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32294 XM_008849878.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32295 XM_008849877.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32296 XM_017802382.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32297 XM_008849880.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32298 XM_008849881.3
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32299 XM_008849882.3
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32300 XM_008849883.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32301 XM_008849885.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32302 XM_008849887.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32303 XM_008849888.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32304 XM_008849889.2
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32305 XM_017802383.1
Latest version!		 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
View Old Accession Versions >>
ONa32298 XM_008849881.2 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
ONa32299 XM_008849882.2 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    Kcnma1 ( XM_029554477.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410337.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID ONa135688
    Clone ID Related Accession (Same CDS sequence) XM_029554477.1
    Accession Version XM_029554477.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTGT CTTCGTGTTC AGGTCTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410337.1
    CDS156..725
    Translation

    Target ORF information:

    RefSeq Version XM_029554477.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554477.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTGT CTTCGTGTTC AGGTCTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554476.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410336.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID ONa135687
    Clone ID Related Accession (Same CDS sequence) XM_029554476.1
    Accession Version XM_029554476.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2127bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X21
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTG TGAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410336.1
    CDS156..2282
    Translation

    Target ORF information:

    RefSeq Version XM_029554476.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554476.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTG TGAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554470.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410330.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa135681
    Clone ID Related Accession (Same CDS sequence) XM_029554470.1
    Accession Version XM_029554470.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3966bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAATGCAA CAAGGATGAA TAGGATGGGC CAAGAAAAGA AATGGTTTAC AGATGAACCG 
    GATAATGCCT ATCCCAGAAA CATTCAAATC AAGCCCATGA GTACCCACAT GGCTAACCAG 
    ATCAACCAAT ATAAATCCAC AAGCAGCCTG ATCCCTCCAA TCAGAGAAGT TGAAGATGAA 
    TGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410330.1
    CDS156..4121
    Translation

    Target ORF information:

    RefSeq Version XM_029554470.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554470.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAATGCAA CAAGGATGAA TAGGATGGGC CAAGAAAAGA AATGGTTTAC AGATGAACCG 
    GATAATGCCT ATCCCAGAAA CATTCAAATC AAGCCCATGA GTACCCACAT GGCTAACCAG 
    ATCAACCAAT ATAAATCCAC AAGCAGCCTG ATCCCTCCAA TCAGAGAAGT TGAAGATGAA 
    TGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554471.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410331.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONa135682
    Clone ID Related Accession (Same CDS sequence) XM_029554471.1
    Accession Version XM_029554471.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3957bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGCTAAACCG GGCAAGTTGC CTTTGGTATC AGTCAATCAG 
    GAAAAAAACA GTGGGACGCA CATTCTAATG ATAACGGAAT TGGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAATGCAACA 
    AGGATGAATA GGATGGGCCA AGCAGAAAAG AAATGGTTTA CAGATGAACC GGATAATGCC 
    TATCCCAGAA ACATTCAAAT CAAGCCCATG AGTACCCACA TGGCTAACCA GATCAACCAA 
    TATAAATCCA CAAGCAGCCT GATCCCTCCA ATCAGAGAAG TTGAAGATGA ATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410331.1
    CDS156..4112
    Translation

    Target ORF information:

    RefSeq Version XM_029554471.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554471.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGCTAAACCG GGCAAGTTGC CTTTGGTATC AGTCAATCAG 
    GAAAAAAACA GTGGGACGCA CATTCTAATG ATAACGGAAT TGGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAATGCAACA 
    AGGATGAATA GGATGGGCCA AGCAGAAAAG AAATGGTTTA CAGATGAACC GGATAATGCC 
    TATCCCAGAA ACATTCAAAT CAAGCCCATG AGTACCCACA TGGCTAACCA GATCAACCAA 
    TATAAATCCA CAAGCAGCCT GATCCCTCCA ATCAGAGAAG TTGAAGATGA ATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554472.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410332.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONa135683
    Clone ID Related Accession (Same CDS sequence) XM_029554472.1
    Accession Version XM_029554472.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3888bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAATGCAAC AAGGATGAAT 
    AGGATGGGCC AAGCAGAAAA GAAATGGTTT ACAGATGAAC CGGATAATGC CTATCCCAGA 
    AACATTCAAA TCAAGCCCAT GAGTACCCAC ATGGCTAACC AGATCAACCA ATATAAATCC 
    ACAAGCAGCC TGATCCCTCC AATCAGAGAA GTTGAAGATG AATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410332.1
    CDS156..4043
    Translation

    Target ORF information:

    RefSeq Version XM_029554472.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554472.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAATGCAAC AAGGATGAAT 
    AGGATGGGCC AAGCAGAAAA GAAATGGTTT ACAGATGAAC CGGATAATGC CTATCCCAGA 
    AACATTCAAA TCAAGCCCAT GAGTACCCAC ATGGCTAACC AGATCAACCA ATATAAATCC 
    ACAAGCAGCC TGATCCCTCC AATCAGAGAA GTTGAAGATG AATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554473.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410333.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONa135684
    Clone ID Related Accession (Same CDS sequence) XM_029554473.1
    Accession Version XM_029554473.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3885bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAATGCAAC AAGGATGAAT 
    AGGATGGGCC AAGAAAAGAA ATGGTTTACA GATGAACCGG ATAATGCCTA TCCCAGAAAC 
    ATTCAAATCA AGCCCATGAG TACCCACATG GCTAACCAGA TCAACCAATA TAAATCCACA 
    AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410333.1
    CDS156..4040
    Translation

    Target ORF information:

    RefSeq Version XM_029554473.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554473.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAATGCAAC AAGGATGAAT 
    AGGATGGGCC AAGAAAAGAA ATGGTTTACA GATGAACCGG ATAATGCCTA TCCCAGAAAC 
    ATTCAAATCA AGCCCATGAG TACCCACATG GCTAACCAGA TCAACCAATA TAAATCCACA 
    AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554474.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410334.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONa135685
    Clone ID Related Accession (Same CDS sequence) XM_029554474.1
    Accession Version XM_029554474.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3810bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAACAGAA AAGAAATGGT TTACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410334.1
    CDS156..3965
    Translation

    Target ORF information:

    RefSeq Version XM_029554474.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554474.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAACAGAA AAGAAATGGT TTACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554475.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410335.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONa135686
    Clone ID Related Accession (Same CDS sequence) XM_029554475.1
    Accession Version XM_029554475.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAAAAAAG AAATGGTTTA CAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410335.1
    CDS156..3962
    Translation

    Target ORF information:

    RefSeq Version XM_029554475.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554475.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAAAAAAG AAATGGTTTA CAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_029554478.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029410338.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID ONa135689
    Clone ID Related Accession (Same CDS sequence) XM_029554478.1
    Accession Version XM_029554478.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3795bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGCTAAACCG GGCAAGTTGC CTTTGGTATC AGTCAATCAG 
    GAAAAAAACA GTGGGACGCA CATTCTAATG ATAACGGAAT TGGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAAAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029410338.1
    CDS156..3950
    Translation

    Target ORF information:

    RefSeq Version XM_029554478.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029554478.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGCTAAACCG GGCAAGTTGC CTTTGGTATC AGTCAATCAG 
    GAAAAAAACA GTGGGACGCA CATTCTAATG ATAACGGAAT TGGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAAAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849853.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848075.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa32274
    Clone ID Related Accession (Same CDS sequence) XM_008849853.2
    Accession Version XM_008849853.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3978bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849853.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAATGCAAC AAGGATGAAT AGGATGGGCC AAGCAGAAAA GAAATGGTTT 
    ACAGATGAAC CGGATAATGC CTATCCCAGA AACATTCAAA TCAAGCCCAT GAGTACCCAC 
    ATGGCTAACC AGATCAACCA ATATAAATCC ACAAGCAGCC TGATCCCTCC AATCAGAGAA 
    GTTGAAGATG AATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848075.1
    CDS156..4133
    Translation

    Target ORF information:

    RefSeq Version XM_008849853.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849853.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAATGCAAC AAGGATGAAT AGGATGGGCC AAGCAGAAAA GAAATGGTTT 
    ACAGATGAAC CGGATAATGC CTATCCCAGA AACATTCAAA TCAAGCCCAT GAGTACCCAC 
    ATGGCTAACC AGATCAACCA ATATAAATCC ACAAGCAGCC TGATCCCTCC AATCAGAGAA 
    GTTGAAGATG AATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849854.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848076.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa32275
    Clone ID Related Accession (Same CDS sequence) XM_008849854.2
    Accession Version XM_008849854.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849854.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAATGCAAC AAGGATGAAT AGGATGGGCC AAGAAAAGAA ATGGTTTACA 
    GATGAACCGG ATAATGCCTA TCCCAGAAAC ATTCAAATCA AGCCCATGAG TACCCACATG 
    GCTAACCAGA TCAACCAATA TAAATCCACA AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT 
    GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848076.1
    CDS156..4130
    Translation

    Target ORF information:

    RefSeq Version XM_008849854.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849854.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAATGCAAC AAGGATGAAT AGGATGGGCC AAGAAAAGAA ATGGTTTACA 
    GATGAACCGG ATAATGCCTA TCCCAGAAAC ATTCAAATCA AGCCCATGAG TACCCACATG 
    GCTAACCAGA TCAACCAATA TAAATCCACA AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT 
    GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849855.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848077.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa32276
    Clone ID Related Accession (Same CDS sequence) XM_008849855.2
    Accession Version XM_008849855.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3969bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849855.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAATGCAA CAAGGATGAA TAGGATGGGC CAAGCAGAAA AGAAATGGTT TACAGATGAA 
    CCGGATAATG CCTATCCCAG AAACATTCAA ATCAAGCCCA TGAGTACCCA CATGGCTAAC 
    CAGATCAACC AATATAAATC CACAAGCAGC CTGATCCCTC CAATCAGAGA AGTTGAAGAT 
    GAATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848077.1
    CDS156..4124
    Translation

    Target ORF information:

    RefSeq Version XM_008849855.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849855.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGCTAAAC CGGGCAAGTT GCCTTTGGTA 
    TCAGTCAATC AGGAAAAAAA CAGTGGGACG CACATTCTAA TGATAACGGA ATTGGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAATGCAA CAAGGATGAA TAGGATGGGC CAAGCAGAAA AGAAATGGTT TACAGATGAA 
    CCGGATAATG CCTATCCCAG AAACATTCAA ATCAAGCCCA TGAGTACCCA CATGGCTAAC 
    CAGATCAACC AATATAAATC CACAAGCAGC CTGATCCCTC CAATCAGAGA AGTTGAAGAT 
    GAATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849856.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848078.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONa32277
    Clone ID Related Accession (Same CDS sequence) XM_008849856.2
    Accession Version XM_008849856.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3966bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849856.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTG 
    ATCTATTCCA AGACGTCCAT CTACAAGAGA ATGAGCCGAG CATGTTGTTT TGATTGCGGA 
    CGTTCTGAGC GTGACTGCTC ATGCATGTCA GGCCGTGTGC GTGGTAACGT GGACACCCCT 
    GAGAGAACCT TCCCGCTTTC TTCTGTCTCT GTTAATGATT GCGCCACCAG TTTCCGTGCC 
    TTTGAAGATG AACAGCCGTC AACGCTGTCA CCCAAAAAAA AACAGCGCAA CGGGGGCATG 
    AGGAACTCGC CCAACTCCTC CCCGAAGCTG ATGAGGCATG ACCCCTTACT AATTCCTGGC 
    AATGATCAGA TCGACAACAT GGACTCCAAT GTGAAGAAAT ACGACTCTAC AGGGATGTTT 
    CACTGGTGCG CAGCCAAGGA GATCGAGAAA GTCATCCTGA CTCGAAGCGA AGCTGCCATG 
    ACTGTCCTGA GTGGCCACGT CGTAGTCTGC ATCTTTGGGG ATGTCAGCTC AGCCCTGATT 
    GGCCTCCGGA ACCTGGTGAT GCCGCTTCGT GCCAGCAACT TCCACTACCA TGAGCTCAAA 
    CACATTGTGT TTGTGGGATC CATTGAGTAC CTCAAGCGGG AATGGGAGAC ACTTCACAAC 
    TTCCCCAAAG TGTCCATATT GCCGGGTACG CCATTAAGTC GGGCTGATTT AAGGGCTGTC 
    AACATCAACC TCTGTGACAT GTGCGTTATC CTGTCAGCCA ATCAGAATAA TATTGATGAT 
    ACTTCGCTGC AGGACAAGGA ATGCATCTTG GCGTCACTCA ACATCAAATC TATGCAGTTT 
    GATGACAGCA TCGGGGTCTT GCAGGCTAAT TCCCAAGGAT TCACACCTCC AGGAATGGAC 
    AGATCCTCTC CTGACAACAG CCCAGTGCAC GGGATGTTAC GGCAGCCATC CATCACGACT 
    GGGGTCAATA TCCCCATCAT CACAGAACTC GCTAAACCGG GCAAGTTGCC TTTGGTATCA 
    GTCAATCAGG AAAAAAACAG TGGGACGCAC ATTCTAATGA TAACGGAATT GGTGAATGAC 
    ACTAATGTTC AGTTTTTGGA CCAAGATGAT GACGATGACC CCGACACAGA GCTGTACCTC 
    ACGCAACCCT TTGCGTGTGG GACAGCTTTT GCCGTCAGCG TCCTGGACTC GCTCATGAGT 
    GCGACATACT TCAATGACAA TATCCTCACC CTGATACGGA CCTTGGTGAC AGGAGGAGCC 
    ACACCAGAGC TCGAGGCTCT GATTGCTGAG GAGAATGCAC TTCGAGGGGG CTACAGCACT 
    CCCCAGACAC TGGCCAACAG GGACCGTTGC AGAGTGGCCC AGTTAGCTCT GTTGGATGGG 
    CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT TATGGTGATT TGTTCTGCAA AGCTCTGAAA 
    ACATATAATA TGCTTTGTTT TGGAATTTAC CGGCTGAGAG ATGCCCACCT CAGCACCCCC 
    AGCCAGTGTA CGAAAAGGTA CGTCATCACC AACCCCCCCT ACGAGTTTGA GCTGGTGCCG 
    ACAGACCTGA TCTTCTGCCT GATGCAGTTT GACCACAACG CCGGCCAGTC CCGGGCCAGC 
    CTGTCCCATT CCTCCCACTC ATCACAGTCC TCCAGCAAGA AGAGCTCCTC TGTCCACTCC 
    ATCCCGTCCA CAGCAAACCG GCCAAACCGG CCCAAGTCCA GGGAGTCCCG CGACAAACAG 
    AATGCAACAA GGATGAATAG GATGGGCCAA GCAGAAAAGA AATGGTTTAC AGATGAACCG 
    GATAATGCCT ATCCCAGAAA CATTCAAATC AAGCCCATGA GTACCCACAT GGCTAACCAG 
    ATCAACCAAT ATAAATCCAC AAGCAGCCTG ATCCCTCCAA TCAGAGAAGT TGAAGATGAA 
    TGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848078.1
    CDS156..4121
    Translation

    Target ORF information:

    RefSeq Version XM_008849856.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849856.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTG 
    ATCTATTCCA AGACGTCCAT CTACAAGAGA ATGAGCCGAG CATGTTGTTT TGATTGCGGA 
    CGTTCTGAGC GTGACTGCTC ATGCATGTCA GGCCGTGTGC GTGGTAACGT GGACACCCCT 
    GAGAGAACCT TCCCGCTTTC TTCTGTCTCT GTTAATGATT GCGCCACCAG TTTCCGTGCC 
    TTTGAAGATG AACAGCCGTC AACGCTGTCA CCCAAAAAAA AACAGCGCAA CGGGGGCATG 
    AGGAACTCGC CCAACTCCTC CCCGAAGCTG ATGAGGCATG ACCCCTTACT AATTCCTGGC 
    AATGATCAGA TCGACAACAT GGACTCCAAT GTGAAGAAAT ACGACTCTAC AGGGATGTTT 
    CACTGGTGCG CAGCCAAGGA GATCGAGAAA GTCATCCTGA CTCGAAGCGA AGCTGCCATG 
    ACTGTCCTGA GTGGCCACGT CGTAGTCTGC ATCTTTGGGG ATGTCAGCTC AGCCCTGATT 
    GGCCTCCGGA ACCTGGTGAT GCCGCTTCGT GCCAGCAACT TCCACTACCA TGAGCTCAAA 
    CACATTGTGT TTGTGGGATC CATTGAGTAC CTCAAGCGGG AATGGGAGAC ACTTCACAAC 
    TTCCCCAAAG TGTCCATATT GCCGGGTACG CCATTAAGTC GGGCTGATTT AAGGGCTGTC 
    AACATCAACC TCTGTGACAT GTGCGTTATC CTGTCAGCCA ATCAGAATAA TATTGATGAT 
    ACTTCGCTGC AGGACAAGGA ATGCATCTTG GCGTCACTCA ACATCAAATC TATGCAGTTT 
    GATGACAGCA TCGGGGTCTT GCAGGCTAAT TCCCAAGGAT TCACACCTCC AGGAATGGAC 
    AGATCCTCTC CTGACAACAG CCCAGTGCAC GGGATGTTAC GGCAGCCATC CATCACGACT 
    GGGGTCAATA TCCCCATCAT CACAGAACTC GCTAAACCGG GCAAGTTGCC TTTGGTATCA 
    GTCAATCAGG AAAAAAACAG TGGGACGCAC ATTCTAATGA TAACGGAATT GGTGAATGAC 
    ACTAATGTTC AGTTTTTGGA CCAAGATGAT GACGATGACC CCGACACAGA GCTGTACCTC 
    ACGCAACCCT TTGCGTGTGG GACAGCTTTT GCCGTCAGCG TCCTGGACTC GCTCATGAGT 
    GCGACATACT TCAATGACAA TATCCTCACC CTGATACGGA CCTTGGTGAC AGGAGGAGCC 
    ACACCAGAGC TCGAGGCTCT GATTGCTGAG GAGAATGCAC TTCGAGGGGG CTACAGCACT 
    CCCCAGACAC TGGCCAACAG GGACCGTTGC AGAGTGGCCC AGTTAGCTCT GTTGGATGGG 
    CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT TATGGTGATT TGTTCTGCAA AGCTCTGAAA 
    ACATATAATA TGCTTTGTTT TGGAATTTAC CGGCTGAGAG ATGCCCACCT CAGCACCCCC 
    AGCCAGTGTA CGAAAAGGTA CGTCATCACC AACCCCCCCT ACGAGTTTGA GCTGGTGCCG 
    ACAGACCTGA TCTTCTGCCT GATGCAGTTT GACCACAACG CCGGCCAGTC CCGGGCCAGC 
    CTGTCCCATT CCTCCCACTC ATCACAGTCC TCCAGCAAGA AGAGCTCCTC TGTCCACTCC 
    ATCCCGTCCA CAGCAAACCG GCCAAACCGG CCCAAGTCCA GGGAGTCCCG CGACAAACAG 
    AATGCAACAA GGATGAATAG GATGGGCCAA GCAGAAAAGA AATGGTTTAC AGATGAACCG 
    GATAATGCCT ATCCCAGAAA CATTCAAATC AAGCCCATGA GTACCCACAT GGCTAACCAG 
    ATCAACCAAT ATAAATCCAC AAGCAGCCTG ATCCCTCCAA TCAGAGAAGT TGAAGATGAA 
    TGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849857.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848079.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONa32278
    Clone ID Related Accession (Same CDS sequence) XM_008849857.2
    Accession Version XM_008849857.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849857.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAATGCAACA 
    AGGATGAATA GGATGGGCCA AGCAGAAAAG AAATGGTTTA CAGATGAACC GGATAATGCC 
    TATCCCAGAA ACATTCAAAT CAAGCCCATG AGTACCCACA TGGCTAACCA GATCAACCAA 
    TATAAATCCA CAAGCAGCCT GATCCCTCCA ATCAGAGAAG TTGAAGATGA ATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848079.1
    CDS156..4052
    Translation

    Target ORF information:

    RefSeq Version XM_008849857.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849857.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAATGCAACA 
    AGGATGAATA GGATGGGCCA AGCAGAAAAG AAATGGTTTA CAGATGAACC GGATAATGCC 
    TATCCCAGAA ACATTCAAAT CAAGCCCATG AGTACCCACA TGGCTAACCA GATCAACCAA 
    TATAAATCCA CAAGCAGCCT GATCCCTCCA ATCAGAGAAG TTGAAGATGA ATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849858.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848080.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONa32279
    Clone ID Related Accession (Same CDS sequence) XM_008849858.2
    Accession Version XM_008849858.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3894bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849858.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAATGCAACA 
    AGGATGAATA GGATGGGCCA AGAAAAGAAA TGGTTTACAG ATGAACCGGA TAATGCCTAT 
    CCCAGAAACA TTCAAATCAA GCCCATGAGT ACCCACATGG CTAACCAGAT CAACCAATAT 
    AAATCCACAA GCAGCCTGAT CCCTCCAATC AGAGAAGTTG AAGATGAATG TTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848080.1
    CDS156..4049
    Translation

    Target ORF information:

    RefSeq Version XM_008849858.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849858.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAATGCAACA 
    AGGATGAATA GGATGGGCCA AGAAAAGAAA TGGTTTACAG ATGAACCGGA TAATGCCTAT 
    CCCAGAAACA TTCAAATCAA GCCCATGAGT ACCCACATGG CTAACCAGAT CAACCAATAT 
    AAATCCACAA GCAGCCTGAT CCCTCCAATC AGAGAAGTTG AAGATGAATG TTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849859.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848081.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONa32280
    Clone ID Related Accession (Same CDS sequence) XM_008849859.2
    Accession Version XM_008849859.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3885bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849859.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG CTAAACCGGG CAAGTTGCCT TTGGTATCAG TCAATCAGGA AAAAAACAGT 
    GGGACGCACA TTCTAATGAT AACGGAATTG GTGAATGACA CTAATGTTCA GTTTTTGGAC 
    CAAGATGATG ACGATGACCC CGACACAGAG CTGTACCTCA CGCAACCCTT TGCGTGTGGG 
    ACAGCTTTTG CCGTCAGCGT CCTGGACTCG CTCATGAGTG CGACATACTT CAATGACAAT 
    ATCCTCACCC TGATACGGAC CTTGGTGACA GGAGGAGCCA CACCAGAGCT CGAGGCTCTG 
    ATTGCTGAGG AGAATGCACT TCGAGGGGGC TACAGCACTC CCCAGACACT GGCCAACAGG 
    GACCGTTGCA GAGTGGCCCA GTTAGCTCTG TTGGATGGGC CCTTTGCAGA CTTAGGGGAT 
    GGTGGTTGTT ATGGTGATTT GTTCTGCAAA GCTCTGAAAA CATATAATAT GCTTTGTTTT 
    GGAATTTACC GGCTGAGAGA TGCCCACCTC AGCACCCCCA GCCAGTGTAC GAAAAGGTAC 
    GTCATCACCA ACCCCCCCTA CGAGTTTGAG CTGGTGCCGA CAGACCTGAT CTTCTGCCTG 
    ATGCAGTTTG ACCACAACGC CGGCCAGTCC CGGGCCAGCC TGTCCCATTC CTCCCACTCA 
    TCACAGTCCT CCAGCAAGAA GAGCTCCTCT GTCCACTCCA TCCCGTCCAC AGCAAACCGG 
    CCAAACCGGC CCAAGTCCAG GGAGTCCCGC GACAAACAGA ATGCAACAAG GATGAATAGG 
    ATGGGCCAAG CAGAAAAGAA ATGGTTTACA GATGAACCGG ATAATGCCTA TCCCAGAAAC 
    ATTCAAATCA AGCCCATGAG TACCCACATG GCTAACCAGA TCAACCAATA TAAATCCACA 
    AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848081.1
    CDS156..4040
    Translation

    Target ORF information:

    RefSeq Version XM_008849859.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849859.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG CTAAACCGGG CAAGTTGCCT TTGGTATCAG TCAATCAGGA AAAAAACAGT 
    GGGACGCACA TTCTAATGAT AACGGAATTG GTGAATGACA CTAATGTTCA GTTTTTGGAC 
    CAAGATGATG ACGATGACCC CGACACAGAG CTGTACCTCA CGCAACCCTT TGCGTGTGGG 
    ACAGCTTTTG CCGTCAGCGT CCTGGACTCG CTCATGAGTG CGACATACTT CAATGACAAT 
    ATCCTCACCC TGATACGGAC CTTGGTGACA GGAGGAGCCA CACCAGAGCT CGAGGCTCTG 
    ATTGCTGAGG AGAATGCACT TCGAGGGGGC TACAGCACTC CCCAGACACT GGCCAACAGG 
    GACCGTTGCA GAGTGGCCCA GTTAGCTCTG TTGGATGGGC CCTTTGCAGA CTTAGGGGAT 
    GGTGGTTGTT ATGGTGATTT GTTCTGCAAA GCTCTGAAAA CATATAATAT GCTTTGTTTT 
    GGAATTTACC GGCTGAGAGA TGCCCACCTC AGCACCCCCA GCCAGTGTAC GAAAAGGTAC 
    GTCATCACCA ACCCCCCCTA CGAGTTTGAG CTGGTGCCGA CAGACCTGAT CTTCTGCCTG 
    ATGCAGTTTG ACCACAACGC CGGCCAGTCC CGGGCCAGCC TGTCCCATTC CTCCCACTCA 
    TCACAGTCCT CCAGCAAGAA GAGCTCCTCT GTCCACTCCA TCCCGTCCAC AGCAAACCGG 
    CCAAACCGGC CCAAGTCCAG GGAGTCCCGC GACAAACAGA ATGCAACAAG GATGAATAGG 
    ATGGGCCAAG CAGAAAAGAA ATGGTTTACA GATGAACCGG ATAATGCCTA TCCCAGAAAC 
    ATTCAAATCA AGCCCATGAG TACCCACATG GCTAACCAGA TCAACCAATA TAAATCCACA 
    AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_017802381.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017657870.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONa32281
    Clone ID Related Accession (Same CDS sequence) XM_017802381.1
    Accession Version XM_017802381.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3873bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGTGAATGAC ACTAATGTTC AGTTTTTGGA CCAAGATGAT 
    GACGATGACC CCGACACAGA GCTGTACCTC ACGCAACCCT TTGCGTGTGG GACAGCTTTT 
    GCCGTCAGCG TCCTGGACTC GCTCATGAGT GCGACATACT TCAATGACAA TATCCTCACC 
    CTGATACGGA CCTTGGTGAC AGGAGGAGCC ACACCAGAGC TCGAGGCTCT GATTGCTGAG 
    GAGAATGCAC TTCGAGGGGG CTACAGCACT CCCCAGACAC TGGCCAACAG GGACCGTTGC 
    AGAGTGGCCC AGTTAGCTCT GTTGGATGGG CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT 
    TATGGTGATT TGTTCTGCAA AGCTCTGAAA ACATATAATA TGCTTTGTTT TGGAATTTAC 
    CGGCTGAGAG ATGCCCACCT CAGCACCCCC AGCCAGTGTA CGAAAAGGTA CGTCATCACC 
    AACCCCCCCT ACGAGTTTGA GCTGGTGCCG ACAGACCTGA TCTTCTGCCT GATGCAGTTT 
    GACCACAACG CCGGCCAGTC CCGGGCCAGC CTGTCCCATT CCTCCCACTC ATCACAGTCC 
    TCCAGCAAGA AGAGCTCCTC TGTCCACTCC ATCCCGTCCA CAGCAAACCG GCCAAACCGG 
    CCCAAGTCCA GGGAGTCCCG CGACAAACAG AATGCAACAA GGATGAATAG GATGGGCCAA 
    GAAAAGAAAT GGTTTACAGA TGAACCGGAT AATGCCTATC CCAGAAACAT TCAAATCAAG 
    CCCATGAGTA CCCACATGGC TAACCAGATC AACCAATATA AATCCACAAG CAGCCTGATC 
    CCTCCAATCA GAGAAGTTGA AGATGAATGT TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017657870.1
    CDS156..4028
    Translation

    Target ORF information:

    RefSeq Version XM_017802381.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017802381.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGTGAATGAC ACTAATGTTC AGTTTTTGGA CCAAGATGAT 
    GACGATGACC CCGACACAGA GCTGTACCTC ACGCAACCCT TTGCGTGTGG GACAGCTTTT 
    GCCGTCAGCG TCCTGGACTC GCTCATGAGT GCGACATACT TCAATGACAA TATCCTCACC 
    CTGATACGGA CCTTGGTGAC AGGAGGAGCC ACACCAGAGC TCGAGGCTCT GATTGCTGAG 
    GAGAATGCAC TTCGAGGGGG CTACAGCACT CCCCAGACAC TGGCCAACAG GGACCGTTGC 
    AGAGTGGCCC AGTTAGCTCT GTTGGATGGG CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT 
    TATGGTGATT TGTTCTGCAA AGCTCTGAAA ACATATAATA TGCTTTGTTT TGGAATTTAC 
    CGGCTGAGAG ATGCCCACCT CAGCACCCCC AGCCAGTGTA CGAAAAGGTA CGTCATCACC 
    AACCCCCCCT ACGAGTTTGA GCTGGTGCCG ACAGACCTGA TCTTCTGCCT GATGCAGTTT 
    GACCACAACG CCGGCCAGTC CCGGGCCAGC CTGTCCCATT CCTCCCACTC ATCACAGTCC 
    TCCAGCAAGA AGAGCTCCTC TGTCCACTCC ATCCCGTCCA CAGCAAACCG GCCAAACCGG 
    CCCAAGTCCA GGGAGTCCCG CGACAAACAG AATGCAACAA GGATGAATAG GATGGGCCAA 
    GAAAAGAAAT GGTTTACAGA TGAACCGGAT AATGCCTATC CCAGAAACAT TCAAATCAAG 
    CCCATGAGTA CCCACATGGC TAACCAGATC AACCAATATA AATCCACAAG CAGCCTGATC 
    CCTCCAATCA GAGAAGTTGA AGATGAATGT TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849861.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848083.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID ONa32282
    Clone ID Related Accession (Same CDS sequence) XM_008849861.2
    Accession Version XM_008849861.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3819bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849861.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAACAGAAA AGAAATGGTT TACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848083.1
    CDS156..3974
    Translation

    Target ORF information:

    RefSeq Version XM_008849861.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849861.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAACAGAAA AGAAATGGTT TACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849863.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848085.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID ONa32283
    Clone ID Related Accession (Same CDS sequence) XM_008849863.2
    Accession Version XM_008849863.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3816bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849863.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAAAAAAGA AATGGTTTAC AGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848085.1
    CDS156..3971
    Translation

    Target ORF information:

    RefSeq Version XM_008849863.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849863.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGCTAAACC GGGCAAGTTG 
    CCTTTGGTAT CAGTCAATCA GGAAAAAAAC AGTGGGACGC ACATTCTAAT GATAACGGAA 
    TTGGTGAATG ACACTAATGT TCAGTTTTTG GACCAAGATG ATGACGATGA CCCCGACACA 
    GAGCTGTACC TCACGCAACC CTTTGCGTGT GGGACAGCTT TTGCCGTCAG CGTCCTGGAC 
    TCGCTCATGA GTGCGACATA CTTCAATGAC AATATCCTCA CCCTGATACG GACCTTGGTG 
    ACAGGAGGAG CCACACCAGA GCTCGAGGCT CTGATTGCTG AGGAGAATGC ACTTCGAGGG 
    GGCTACAGCA CTCCCCAGAC ACTGGCCAAC AGGGACCGTT GCAGAGTGGC CCAGTTAGCT 
    CTGTTGGATG GGCCCTTTGC AGACTTAGGG GATGGTGGTT GTTATGGTGA TTTGTTCTGC 
    AAAGCTCTGA AAACATATAA TATGCTTTGT TTTGGAATTT ACCGGCTGAG AGATGCCCAC 
    CTCAGCACCC CCAGCCAGTG TACGAAAAGG TACGTCATCA CCAACCCCCC CTACGAGTTT 
    GAGCTGGTGC CGACAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCCGGCCAG 
    TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC TCATCACAGT CCTCCAGCAA GAAGAGCTCC 
    TCTGTCCACT CCATCCCGTC CACAGCAAAC CGGCCAAACC GGCCCAAGTC CAGGGAGTCC 
    CGCGACAAAC AGAAAAAAGA AATGGTTTAC AGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849864.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848086.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONa32284
    Clone ID Related Accession (Same CDS sequence) XM_008849864.2
    Accession Version XM_008849864.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3795bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849864.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA ATGCAACAAG GATGAATAGG ATGGGCCAAG CAGAAAAGAA ATGGTTTACA 
    GATGAACCGG ATAATGCCTA TCCCAGAAAC ATTCAAATCA AGCCCATGAG TACCCACATG 
    GCTAACCAGA TCAACCAATA TAAATCCACA AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT 
    GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848086.1
    CDS156..3950
    Translation

    Target ORF information:

    RefSeq Version XM_008849864.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849864.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA ATGCAACAAG GATGAATAGG ATGGGCCAAG CAGAAAAGAA ATGGTTTACA 
    GATGAACCGG ATAATGCCTA TCCCAGAAAC ATTCAAATCA AGCCCATGAG TACCCACATG 
    GCTAACCAGA TCAACCAATA TAAATCCACA AGCAGCCTGA TCCCTCCAAT CAGAGAAGTT 
    GAAGATGAAT GTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849865.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848087.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID ONa32285
    Clone ID Related Accession (Same CDS sequence) XM_008849865.2
    Accession Version XM_008849865.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3783bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849865.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGCT AAACCGGGCA AGTTGCCTTT GGTATCAGTC 
    AATCAGGAAA AAAACAGTGG GACGCACATT CTAATGATAA CGGAATTGGT GAATGACACT 
    AATGTTCAGT TTTTGGACCA AGATGATGAC GATGACCCCG ACACAGAGCT GTACCTCACG 
    CAACCCTTTG CGTGTGGGAC AGCTTTTGCC GTCAGCGTCC TGGACTCGCT CATGAGTGCG 
    ACATACTTCA ATGACAATAT CCTCACCCTG ATACGGACCT TGGTGACAGG AGGAGCCACA 
    CCAGAGCTCG AGGCTCTGAT TGCTGAGGAG AATGCACTTC GAGGGGGCTA CAGCACTCCC 
    CAGACACTGG CCAACAGGGA CCGTTGCAGA GTGGCCCAGT TAGCTCTGTT GGATGGGCCC 
    TTTGCAGACT TAGGGGATGG TGGTTGTTAT GGTGATTTGT TCTGCAAAGC TCTGAAAACA 
    TATAATATGC TTTGTTTTGG AATTTACCGG CTGAGAGATG CCCACCTCAG CACCCCCAGC 
    CAGTGTACGA AAAGGTACGT CATCACCAAC CCCCCCTACG AGTTTGAGCT GGTGCCGACA 
    GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCCG GCCAGTCCCG GGCCAGCCTG 
    TCCCATTCCT CCCACTCATC ACAGTCCTCC AGCAAGAAGA GCTCCTCTGT CCACTCCATC 
    CCGTCCACAG CAAACCGGCC AAACCGGCCC AAGTCCAGGG AGTCCCGCGA CAAACAGAAT 
    GCAACAAGGA TGAATAGGAT GGGCCAAGCA GAAAAGAAAT GGTTTACAGA TGAACCGGAT 
    AATGCCTATC CCAGAAACAT TCAAATCAAG CCCATGAGTA CCCACATGGC TAACCAGATC 
    AACCAATATA AATCCACAAG CAGCCTGATC CCTCCAATCA GAGAAGTTGA AGATGAATGT 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848087.1
    CDS156..3938
    Translation

    Target ORF information:

    RefSeq Version XM_008849865.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849865.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGCT AAACCGGGCA AGTTGCCTTT GGTATCAGTC 
    AATCAGGAAA AAAACAGTGG GACGCACATT CTAATGATAA CGGAATTGGT GAATGACACT 
    AATGTTCAGT TTTTGGACCA AGATGATGAC GATGACCCCG ACACAGAGCT GTACCTCACG 
    CAACCCTTTG CGTGTGGGAC AGCTTTTGCC GTCAGCGTCC TGGACTCGCT CATGAGTGCG 
    ACATACTTCA ATGACAATAT CCTCACCCTG ATACGGACCT TGGTGACAGG AGGAGCCACA 
    CCAGAGCTCG AGGCTCTGAT TGCTGAGGAG AATGCACTTC GAGGGGGCTA CAGCACTCCC 
    CAGACACTGG CCAACAGGGA CCGTTGCAGA GTGGCCCAGT TAGCTCTGTT GGATGGGCCC 
    TTTGCAGACT TAGGGGATGG TGGTTGTTAT GGTGATTTGT TCTGCAAAGC TCTGAAAACA 
    TATAATATGC TTTGTTTTGG AATTTACCGG CTGAGAGATG CCCACCTCAG CACCCCCAGC 
    CAGTGTACGA AAAGGTACGT CATCACCAAC CCCCCCTACG AGTTTGAGCT GGTGCCGACA 
    GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCCG GCCAGTCCCG GGCCAGCCTG 
    TCCCATTCCT CCCACTCATC ACAGTCCTCC AGCAAGAAGA GCTCCTCTGT CCACTCCATC 
    CCGTCCACAG CAAACCGGCC AAACCGGCCC AAGTCCAGGG AGTCCCGCGA CAAACAGAAT 
    GCAACAAGGA TGAATAGGAT GGGCCAAGCA GAAAAGAAAT GGTTTACAGA TGAACCGGAT 
    AATGCCTATC CCAGAAACAT TCAAATCAAG CCCATGAGTA CCCACATGGC TAACCAGATC 
    AACCAATATA AATCCACAAG CAGCCTGATC CCTCCAATCA GAGAAGTTGA AGATGAATGT 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849866.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848088.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID ONa32286
    Clone ID Related Accession (Same CDS sequence) XM_008849866.2
    Accession Version XM_008849866.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3780bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849866.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGCT AAACCGGGCA AGTTGCCTTT GGTATCAGTC 
    AATCAGGAAA AAAACAGTGG GACGCACATT CTAATGATAA CGGAATTGGT GAATGACACT 
    AATGTTCAGT TTTTGGACCA AGATGATGAC GATGACCCCG ACACAGAGCT GTACCTCACG 
    CAACCCTTTG CGTGTGGGAC AGCTTTTGCC GTCAGCGTCC TGGACTCGCT CATGAGTGCG 
    ACATACTTCA ATGACAATAT CCTCACCCTG ATACGGACCT TGGTGACAGG AGGAGCCACA 
    CCAGAGCTCG AGGCTCTGAT TGCTGAGGAG AATGCACTTC GAGGGGGCTA CAGCACTCCC 
    CAGACACTGG CCAACAGGGA CCGTTGCAGA GTGGCCCAGT TAGCTCTGTT GGATGGGCCC 
    TTTGCAGACT TAGGGGATGG TGGTTGTTAT GGTGATTTGT TCTGCAAAGC TCTGAAAACA 
    TATAATATGC TTTGTTTTGG AATTTACCGG CTGAGAGATG CCCACCTCAG CACCCCCAGC 
    CAGTGTACGA AAAGGTACGT CATCACCAAC CCCCCCTACG AGTTTGAGCT GGTGCCGACA 
    GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCCG GCCAGTCCCG GGCCAGCCTG 
    TCCCATTCCT CCCACTCATC ACAGTCCTCC AGCAAGAAGA GCTCCTCTGT CCACTCCATC 
    CCGTCCACAG CAAACCGGCC AAACCGGCCC AAGTCCAGGG AGTCCCGCGA CAAACAGAAT 
    GCAACAAGGA TGAATAGGAT GGGCCAAGAA AAGAAATGGT TTACAGATGA ACCGGATAAT 
    GCCTATCCCA GAAACATTCA AATCAAGCCC ATGAGTACCC ACATGGCTAA CCAGATCAAC 
    CAATATAAAT CCACAAGCAG CCTGATCCCT CCAATCAGAG AAGTTGAAGA TGAATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848088.1
    CDS156..3935
    Translation

    Target ORF information:

    RefSeq Version XM_008849866.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849866.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGCT AAACCGGGCA AGTTGCCTTT GGTATCAGTC 
    AATCAGGAAA AAAACAGTGG GACGCACATT CTAATGATAA CGGAATTGGT GAATGACACT 
    AATGTTCAGT TTTTGGACCA AGATGATGAC GATGACCCCG ACACAGAGCT GTACCTCACG 
    CAACCCTTTG CGTGTGGGAC AGCTTTTGCC GTCAGCGTCC TGGACTCGCT CATGAGTGCG 
    ACATACTTCA ATGACAATAT CCTCACCCTG ATACGGACCT TGGTGACAGG AGGAGCCACA 
    CCAGAGCTCG AGGCTCTGAT TGCTGAGGAG AATGCACTTC GAGGGGGCTA CAGCACTCCC 
    CAGACACTGG CCAACAGGGA CCGTTGCAGA GTGGCCCAGT TAGCTCTGTT GGATGGGCCC 
    TTTGCAGACT TAGGGGATGG TGGTTGTTAT GGTGATTTGT TCTGCAAAGC TCTGAAAACA 
    TATAATATGC TTTGTTTTGG AATTTACCGG CTGAGAGATG CCCACCTCAG CACCCCCAGC 
    CAGTGTACGA AAAGGTACGT CATCACCAAC CCCCCCTACG AGTTTGAGCT GGTGCCGACA 
    GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCCG GCCAGTCCCG GGCCAGCCTG 
    TCCCATTCCT CCCACTCATC ACAGTCCTCC AGCAAGAAGA GCTCCTCTGT CCACTCCATC 
    CCGTCCACAG CAAACCGGCC AAACCGGCCC AAGTCCAGGG AGTCCCGCGA CAAACAGAAT 
    GCAACAAGGA TGAATAGGAT GGGCCAAGAA AAGAAATGGT TTACAGATGA ACCGGATAAT 
    GCCTATCCCA GAAACATTCA AATCAAGCCC ATGAGTACCC ACATGGCTAA CCAGATCAAC 
    CAATATAAAT CCACAAGCAG CCTGATCCCT CCAATCAGAG AAGTTGAAGA TGAATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849867.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848089.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID ONa32287
    Clone ID Related Accession (Same CDS sequence) XM_008849867.2
    Accession Version XM_008849867.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3738bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849867.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAACAGAAAA 
    GAAATGGTTT ACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848089.1
    CDS156..3893
    Translation

    Target ORF information:

    RefSeq Version XM_008849867.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849867.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAACAGAAAA 
    GAAATGGTTT ACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849870.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848092.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID ONa32288
    Clone ID Related Accession (Same CDS sequence) XM_008849870.2
    Accession Version XM_008849870.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3735bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849870.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAAAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848092.1
    CDS156..3890
    Translation

    Target ORF information:

    RefSeq Version XM_008849870.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849870.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TGATCTATTC CAAGACGTCC ATCTACAAGA GAATGAGCCG AGCATGTTGT 
    TTTGATTGCG GACGTTCTGA GCGTGACTGC TCATGCATGT CAGGCCGTGT GCGTGGTAAC 
    GTGGACACCC CTGAGAGAAC CTTCCCGCTT TCTTCTGTCT CTGTTAATGA TTGCGCCACC 
    AGTTTCCGTG CCTTTGAAGA TGAACAGCCG TCAACGCTGT CACCCAAAAA AAAACAGCGC 
    AACGGGGGCA TGAGGAACTC GCCCAACTCC TCCCCGAAGC TGATGAGGCA TGACCCCTTA 
    CTAATTCCTG GCAATGATCA GATCGACAAC ATGGACTCCA ATGTGAAGAA ATACGACTCT 
    ACAGGGATGT TTCACTGGTG CGCAGCCAAG GAGATCGAGA AAGTCATCCT GACTCGAAGC 
    GAAGCTGCCA TGACTGTCCT GAGTGGCCAC GTCGTAGTCT GCATCTTTGG GGATGTCAGC 
    TCAGCCCTGA TTGGCCTCCG GAACCTGGTG ATGCCGCTTC GTGCCAGCAA CTTCCACTAC 
    CATGAGCTCA AACACATTGT GTTTGTGGGA TCCATTGAGT ACCTCAAGCG GGAATGGGAG 
    ACACTTCACA ACTTCCCCAA AGTGTCCATA TTGCCGGGTA CGCCATTAAG TCGGGCTGAT 
    TTAAGGGCTG TCAACATCAA CCTCTGTGAC ATGTGCGTTA TCCTGTCAGC CAATCAGAAT 
    AATATTGATG ATACTTCGCT GCAGGACAAG GAATGCATCT TGGCGTCACT CAACATCAAA 
    TCTATGCAGT TTGATGACAG CATCGGGGTC TTGCAGGCTA ATTCCCAAGG ATTCACACCT 
    CCAGGAATGG ACAGATCCTC TCCTGACAAC AGCCCAGTGC ACGGGATGTT ACGGCAGCCA 
    TCCATCACGA CTGGGGTCAA TATCCCCATC ATCACAGAAC TCGTGAATGA CACTAATGTT 
    CAGTTTTTGG ACCAAGATGA TGACGATGAC CCCGACACAG AGCTGTACCT CACGCAACCC 
    TTTGCGTGTG GGACAGCTTT TGCCGTCAGC GTCCTGGACT CGCTCATGAG TGCGACATAC 
    TTCAATGACA ATATCCTCAC CCTGATACGG ACCTTGGTGA CAGGAGGAGC CACACCAGAG 
    CTCGAGGCTC TGATTGCTGA GGAGAATGCA CTTCGAGGGG GCTACAGCAC TCCCCAGACA 
    CTGGCCAACA GGGACCGTTG CAGAGTGGCC CAGTTAGCTC TGTTGGATGG GCCCTTTGCA 
    GACTTAGGGG ATGGTGGTTG TTATGGTGAT TTGTTCTGCA AAGCTCTGAA AACATATAAT 
    ATGCTTTGTT TTGGAATTTA CCGGCTGAGA GATGCCCACC TCAGCACCCC CAGCCAGTGT 
    ACGAAAAGGT ACGTCATCAC CAACCCCCCC TACGAGTTTG AGCTGGTGCC GACAGACCTG 
    ATCTTCTGCC TGATGCAGTT TGACCACAAC GCCGGCCAGT CCCGGGCCAG CCTGTCCCAT 
    TCCTCCCACT CATCACAGTC CTCCAGCAAG AAGAGCTCCT CTGTCCACTC CATCCCGTCC 
    ACAGCAAACC GGCCAAACCG GCCCAAGTCC AGGGAGTCCC GCGACAAACA GAAAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849871.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848093.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID ONa32289
    Clone ID Related Accession (Same CDS sequence) XM_008849871.2
    Accession Version XM_008849871.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849871.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAACAGAAA AGAAATGGTT 
    TACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848093.1
    CDS156..3884
    Translation

    Target ORF information:

    RefSeq Version XM_008849871.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849871.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAACAGAAA AGAAATGGTT 
    TACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849872.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848094.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID ONa32290
    Clone ID Related Accession (Same CDS sequence) XM_008849872.2
    Accession Version XM_008849872.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3726bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849872.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAAAAAAGA AATGGTTTAC 
    AGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848094.1
    CDS156..3881
    Translation

    Target ORF information:

    RefSeq Version XM_008849872.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849872.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CCAAGACGTC CATCTACAAG AGAATGAGCC GAGCATGTTG TTTTGATTGC 
    GGACGTTCTG AGCGTGACTG CTCATGCATG TCAGGCCGTG TGCGTGGTAA CGTGGACACC 
    CCTGAGAGAA CCTTCCCGCT TTCTTCTGTC TCTGTTAATG ATTGCGCCAC CAGTTTCCGT 
    GCCTTTGAAG ATGAACAGCC GTCAACGCTG TCACCCAAAA AAAAACAGCG CAACGGGGGC 
    ATGAGGAACT CGCCCAACTC CTCCCCGAAG CTGATGAGGC ATGACCCCTT ACTAATTCCT 
    GGCAATGATC AGATCGACAA CATGGACTCC AATGTGAAGA AATACGACTC TACAGGGATG 
    TTTCACTGGT GCGCAGCCAA GGAGATCGAG AAAGTCATCC TGACTCGAAG CGAAGCTGCC 
    ATGACTGTCC TGAGTGGCCA CGTCGTAGTC TGCATCTTTG GGGATGTCAG CTCAGCCCTG 
    ATTGGCCTCC GGAACCTGGT GATGCCGCTT CGTGCCAGCA ACTTCCACTA CCATGAGCTC 
    AAACACATTG TGTTTGTGGG ATCCATTGAG TACCTCAAGC GGGAATGGGA GACACTTCAC 
    AACTTCCCCA AAGTGTCCAT ATTGCCGGGT ACGCCATTAA GTCGGGCTGA TTTAAGGGCT 
    GTCAACATCA ACCTCTGTGA CATGTGCGTT ATCCTGTCAG CCAATCAGAA TAATATTGAT 
    GATACTTCGC TGCAGGACAA GGAATGCATC TTGGCGTCAC TCAACATCAA ATCTATGCAG 
    TTTGATGACA GCATCGGGGT CTTGCAGGCT AATTCCCAAG GATTCACACC TCCAGGAATG 
    GACAGATCCT CTCCTGACAA CAGCCCAGTG CACGGGATGT TACGGCAGCC ATCCATCACG 
    ACTGGGGTCA ATATCCCCAT CATCACAGAA CTCGTGAATG ACACTAATGT TCAGTTTTTG 
    GACCAAGATG ATGACGATGA CCCCGACACA GAGCTGTACC TCACGCAACC CTTTGCGTGT 
    GGGACAGCTT TTGCCGTCAG CGTCCTGGAC TCGCTCATGA GTGCGACATA CTTCAATGAC 
    AATATCCTCA CCCTGATACG GACCTTGGTG ACAGGAGGAG CCACACCAGA GCTCGAGGCT 
    CTGATTGCTG AGGAGAATGC ACTTCGAGGG GGCTACAGCA CTCCCCAGAC ACTGGCCAAC 
    AGGGACCGTT GCAGAGTGGC CCAGTTAGCT CTGTTGGATG GGCCCTTTGC AGACTTAGGG 
    GATGGTGGTT GTTATGGTGA TTTGTTCTGC AAAGCTCTGA AAACATATAA TATGCTTTGT 
    TTTGGAATTT ACCGGCTGAG AGATGCCCAC CTCAGCACCC CCAGCCAGTG TACGAAAAGG 
    TACGTCATCA CCAACCCCCC CTACGAGTTT GAGCTGGTGC CGACAGACCT GATCTTCTGC 
    CTGATGCAGT TTGACCACAA CGCCGGCCAG TCCCGGGCCA GCCTGTCCCA TTCCTCCCAC 
    TCATCACAGT CCTCCAGCAA GAAGAGCTCC TCTGTCCACT CCATCCCGTC CACAGCAAAC 
    CGGCCAAACC GGCCCAAGTC CAGGGAGTCC CGCGACAAAC AGAAAAAAGA AATGGTTTAC 
    AGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849873.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848095.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID ONa32291
    Clone ID Related Accession (Same CDS sequence) XM_008849873.2
    Accession Version XM_008849873.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3717bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849873.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGTGAATGAC ACTAATGTTC AGTTTTTGGA CCAAGATGAT 
    GACGATGACC CCGACACAGA GCTGTACCTC ACGCAACCCT TTGCGTGTGG GACAGCTTTT 
    GCCGTCAGCG TCCTGGACTC GCTCATGAGT GCGACATACT TCAATGACAA TATCCTCACC 
    CTGATACGGA CCTTGGTGAC AGGAGGAGCC ACACCAGAGC TCGAGGCTCT GATTGCTGAG 
    GAGAATGCAC TTCGAGGGGG CTACAGCACT CCCCAGACAC TGGCCAACAG GGACCGTTGC 
    AGAGTGGCCC AGTTAGCTCT GTTGGATGGG CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT 
    TATGGTGATT TGTTCTGCAA AGCTCTGAAA ACATATAATA TGCTTTGTTT TGGAATTTAC 
    CGGCTGAGAG ATGCCCACCT CAGCACCCCC AGCCAGTGTA CGAAAAGGTA CGTCATCACC 
    AACCCCCCCT ACGAGTTTGA GCTGGTGCCG ACAGACCTGA TCTTCTGCCT GATGCAGTTT 
    GACCACAACG CCGGCCAGTC CCGGGCCAGC CTGTCCCATT CCTCCCACTC ATCACAGTCC 
    TCCAGCAAGA AGAGCTCCTC TGTCCACTCC ATCCCGTCCA CAGCAAACCG GCCAAACCGG 
    CCCAAGTCCA GGGAGTCCCG CGACAAACAG AACAGAAAAG AAATGGTTTA CAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848095.1
    CDS156..3872
    Translation

    Target ORF information:

    RefSeq Version XM_008849873.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849873.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCCC 
    AAGACGTCCA TCTACAAGAG AATGAGCCGA GCATGTTGTT TTGATTGCGG ACGTTCTGAG 
    CGTGACTGCT CATGCATGTC AGGCCGTGTG CGTGGTAACG TGGACACCCC TGAGAGAACC 
    TTCCCGCTTT CTTCTGTCTC TGTTAATGAT TGCGCCACCA GTTTCCGTGC CTTTGAAGAT 
    GAACAGCCGT CAACGCTGTC ACCCAAAAAA AAACAGCGCA ACGGGGGCAT GAGGAACTCG 
    CCCAACTCCT CCCCGAAGCT GATGAGGCAT GACCCCTTAC TAATTCCTGG CAATGATCAG 
    ATCGACAACA TGGACTCCAA TGTGAAGAAA TACGACTCTA CAGGGATGTT TCACTGGTGC 
    GCAGCCAAGG AGATCGAGAA AGTCATCCTG ACTCGAAGCG AAGCTGCCAT GACTGTCCTG 
    AGTGGCCACG TCGTAGTCTG CATCTTTGGG GATGTCAGCT CAGCCCTGAT TGGCCTCCGG 
    AACCTGGTGA TGCCGCTTCG TGCCAGCAAC TTCCACTACC ATGAGCTCAA ACACATTGTG 
    TTTGTGGGAT CCATTGAGTA CCTCAAGCGG GAATGGGAGA CACTTCACAA CTTCCCCAAA 
    GTGTCCATAT TGCCGGGTAC GCCATTAAGT CGGGCTGATT TAAGGGCTGT CAACATCAAC 
    CTCTGTGACA TGTGCGTTAT CCTGTCAGCC AATCAGAATA ATATTGATGA TACTTCGCTG 
    CAGGACAAGG AATGCATCTT GGCGTCACTC AACATCAAAT CTATGCAGTT TGATGACAGC 
    ATCGGGGTCT TGCAGGCTAA TTCCCAAGGA TTCACACCTC CAGGAATGGA CAGATCCTCT 
    CCTGACAACA GCCCAGTGCA CGGGATGTTA CGGCAGCCAT CCATCACGAC TGGGGTCAAT 
    ATCCCCATCA TCACAGAACT CGTGAATGAC ACTAATGTTC AGTTTTTGGA CCAAGATGAT 
    GACGATGACC CCGACACAGA GCTGTACCTC ACGCAACCCT TTGCGTGTGG GACAGCTTTT 
    GCCGTCAGCG TCCTGGACTC GCTCATGAGT GCGACATACT TCAATGACAA TATCCTCACC 
    CTGATACGGA CCTTGGTGAC AGGAGGAGCC ACACCAGAGC TCGAGGCTCT GATTGCTGAG 
    GAGAATGCAC TTCGAGGGGG CTACAGCACT CCCCAGACAC TGGCCAACAG GGACCGTTGC 
    AGAGTGGCCC AGTTAGCTCT GTTGGATGGG CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT 
    TATGGTGATT TGTTCTGCAA AGCTCTGAAA ACATATAATA TGCTTTGTTT TGGAATTTAC 
    CGGCTGAGAG ATGCCCACCT CAGCACCCCC AGCCAGTGTA CGAAAAGGTA CGTCATCACC 
    AACCCCCCCT ACGAGTTTGA GCTGGTGCCG ACAGACCTGA TCTTCTGCCT GATGCAGTTT 
    GACCACAACG CCGGCCAGTC CCGGGCCAGC CTGTCCCATT CCTCCCACTC ATCACAGTCC 
    TCCAGCAAGA AGAGCTCCTC TGTCCACTCC ATCCCGTCCA CAGCAAACCG GCCAAACCGG 
    CCCAAGTCCA GGGAGTCCCG CGACAAACAG AACAGAAAAG AAATGGTTTA CAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849875.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848097.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID ONa32292
    Clone ID Related Accession (Same CDS sequence) XM_008849875.2
    Accession Version XM_008849875.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849875.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAATG CAACAAGGAT GAATAGGATG 
    GGCCAAGCAG AAAAGAAATG GTTTACAGAT GAACCGGATA ATGCCTATCC CAGAAACATT 
    CAAATCAAGC CCATGAGTAC CCACATGGCT AACCAGATCA ACCAATATAA ATCCACAAGC 
    AGCCTGATCC CTCCAATCAG AGAAGTTGAA GATGAATGTT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848097.1
    CDS156..3857
    Translation

    Target ORF information:

    RefSeq Version XM_008849875.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849875.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAATG CAACAAGGAT GAATAGGATG 
    GGCCAAGCAG AAAAGAAATG GTTTACAGAT GAACCGGATA ATGCCTATCC CAGAAACATT 
    CAAATCAAGC CCATGAGTAC CCACATGGCT AACCAGATCA ACCAATATAA ATCCACAAGC 
    AGCCTGATCC CTCCAATCAG AGAAGTTGAA GATGAATGTT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849876.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848098.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID ONa32293
    Clone ID Related Accession (Same CDS sequence) XM_008849876.2
    Accession Version XM_008849876.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849876.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAATG CAACAAGGAT GAATAGGATG 
    GGCCAAGAAA AGAAATGGTT TACAGATGAA CCGGATAATG CCTATCCCAG AAACATTCAA 
    ATCAAGCCCA TGAGTACCCA CATGGCTAAC CAGATCAACC AATATAAATC CACAAGCAGC 
    CTGATCCCTC CAATCAGAGA AGTTGAAGAT GAATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848098.1
    CDS156..3854
    Translation

    Target ORF information:

    RefSeq Version XM_008849876.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849876.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAATG CAACAAGGAT GAATAGGATG 
    GGCCAAGAAA AGAAATGGTT TACAGATGAA CCGGATAATG CCTATCCCAG AAACATTCAA 
    ATCAAGCCCA TGAGTACCCA CATGGCTAAC CAGATCAACC AATATAAATC CACAAGCAGC 
    CTGATCCCTC CAATCAGAGA AGTTGAAGAT GAATGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849878.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848100.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID ONa32294
    Clone ID Related Accession (Same CDS sequence) XM_008849878.1
    Accession Version XM_008849878.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X21
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG TGAATGACAC TAATGTTCAG TTTTTGGACC AAGATGATGA CGATGACCCC 
    GACACAGAGC TGTACCTCAC GCAACCCTTT GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC 
    CTGGACTCGC TCATGAGTGC GACATACTTC AATGACAATA TCCTCACCCT GATACGGACC 
    TTGGTGACAG GAGGAGCCAC ACCAGAGCTC GAGGCTCTGA TTGCTGAGGA GAATGCACTT 
    CGAGGGGGCT ACAGCACTCC CCAGACACTG GCCAACAGGG ACCGTTGCAG AGTGGCCCAG 
    TTAGCTCTGT TGGATGGGCC CTTTGCAGAC TTAGGGGATG GTGGTTGTTA TGGTGATTTG 
    TTCTGCAAAG CTCTGAAAAC ATATAATATG CTTTGTTTTG GAATTTACCG GCTGAGAGAT 
    GCCCACCTCA GCACCCCCAG CCAGTGTACG AAAAGGTACG TCATCACCAA CCCCCCCTAC 
    GAGTTTGAGC TGGTGCCGAC AGACCTGATC TTCTGCCTGA TGCAGTTTGA CCACAACGCC 
    GGCCAGTCCC GGGCCAGCCT GTCCCATTCC TCCCACTCAT CACAGTCCTC CAGCAAGAAG 
    AGCTCCTCTG TCCACTCCAT CCCGTCCACA GCAAACCGGC CAAACCGGCC CAAGTCCAGG 
    GAGTCCCGCG ACAAACAGAA GTACGTTCAG GAAGAACGGC TTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848100.1
    CDS156..3800
    Translation

    Target ORF information:

    RefSeq Version XM_008849878.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849878.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG TGAATGACAC TAATGTTCAG TTTTTGGACC AAGATGATGA CGATGACCCC 
    GACACAGAGC TGTACCTCAC GCAACCCTTT GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC 
    CTGGACTCGC TCATGAGTGC GACATACTTC AATGACAATA TCCTCACCCT GATACGGACC 
    TTGGTGACAG GAGGAGCCAC ACCAGAGCTC GAGGCTCTGA TTGCTGAGGA GAATGCACTT 
    CGAGGGGGCT ACAGCACTCC CCAGACACTG GCCAACAGGG ACCGTTGCAG AGTGGCCCAG 
    TTAGCTCTGT TGGATGGGCC CTTTGCAGAC TTAGGGGATG GTGGTTGTTA TGGTGATTTG 
    TTCTGCAAAG CTCTGAAAAC ATATAATATG CTTTGTTTTG GAATTTACCG GCTGAGAGAT 
    GCCCACCTCA GCACCCCCAG CCAGTGTACG AAAAGGTACG TCATCACCAA CCCCCCCTAC 
    GAGTTTGAGC TGGTGCCGAC AGACCTGATC TTCTGCCTGA TGCAGTTTGA CCACAACGCC 
    GGCCAGTCCC GGGCCAGCCT GTCCCATTCC TCCCACTCAT CACAGTCCTC CAGCAAGAAG 
    AGCTCCTCTG TCCACTCCAT CCCGTCCACA GCAAACCGGC CAAACCGGCC CAAGTCCAGG 
    GAGTCCCGCG ACAAACAGAA GTACGTTCAG GAAGAACGGC TTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849877.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848099.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID ONa32295
    Clone ID Related Accession (Same CDS sequence) XM_008849877.2
    Accession Version XM_008849877.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849877.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG TGAATGACAC TAATGTTCAG TTTTTGGACC AAGATGATGA CGATGACCCC 
    GACACAGAGC TGTACCTCAC GCAACCCTTT GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC 
    CTGGACTCGC TCATGAGTGC GACATACTTC AATGACAATA TCCTCACCCT GATACGGACC 
    TTGGTGACAG GAGGAGCCAC ACCAGAGCTC GAGGCTCTGA TTGCTGAGGA GAATGCACTT 
    CGAGGGGGCT ACAGCACTCC CCAGACACTG GCCAACAGGG ACCGTTGCAG AGTGGCCCAG 
    TTAGCTCTGT TGGATGGGCC CTTTGCAGAC TTAGGGGATG GTGGTTGTTA TGGTGATTTG 
    TTCTGCAAAG CTCTGAAAAC ATATAATATG CTTTGTTTTG GAATTTACCG GCTGAGAGAT 
    GCCCACCTCA GCACCCCCAG CCAGTGTACG AAAAGGTACG TCATCACCAA CCCCCCCTAC 
    GAGTTTGAGC TGGTGCCGAC AGACCTGATC TTCTGCCTGA TGCAGTTTGA CCACAACGCC 
    GGCCAGTCCC GGGCCAGCCT GTCCCATTCC TCCCACTCAT CACAGTCCTC CAGCAAGAAG 
    AGCTCCTCTG TCCACTCCAT CCCGTCCACA GCAAACCGGC CAAACCGGCC CAAGTCCAGG 
    GAGTCCCGCG ACAAACAGAA CAGAAAAGAA ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848099.1
    CDS156..3800
    Translation

    Target ORF information:

    RefSeq Version XM_008849877.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849877.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG TGAATGACAC TAATGTTCAG TTTTTGGACC AAGATGATGA CGATGACCCC 
    GACACAGAGC TGTACCTCAC GCAACCCTTT GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC 
    CTGGACTCGC TCATGAGTGC GACATACTTC AATGACAATA TCCTCACCCT GATACGGACC 
    TTGGTGACAG GAGGAGCCAC ACCAGAGCTC GAGGCTCTGA TTGCTGAGGA GAATGCACTT 
    CGAGGGGGCT ACAGCACTCC CCAGACACTG GCCAACAGGG ACCGTTGCAG AGTGGCCCAG 
    TTAGCTCTGT TGGATGGGCC CTTTGCAGAC TTAGGGGATG GTGGTTGTTA TGGTGATTTG 
    TTCTGCAAAG CTCTGAAAAC ATATAATATG CTTTGTTTTG GAATTTACCG GCTGAGAGAT 
    GCCCACCTCA GCACCCCCAG CCAGTGTACG AAAAGGTACG TCATCACCAA CCCCCCCTAC 
    GAGTTTGAGC TGGTGCCGAC AGACCTGATC TTCTGCCTGA TGCAGTTTGA CCACAACGCC 
    GGCCAGTCCC GGGCCAGCCT GTCCCATTCC TCCCACTCAT CACAGTCCTC CAGCAAGAAG 
    AGCTCCTCTG TCCACTCCAT CCCGTCCACA GCAAACCGGC CAAACCGGCC CAAGTCCAGG 
    GAGTCCCGCG ACAAACAGAA CAGAAAAGAA ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_017802382.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017657871.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID ONa32296
    Clone ID Related Accession (Same CDS sequence) XM_017802382.1
    Accession Version XM_017802382.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3642bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG TGAATGACAC TAATGTTCAG TTTTTGGACC AAGATGATGA CGATGACCCC 
    GACACAGAGC TGTACCTCAC GCAACCCTTT GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC 
    CTGGACTCGC TCATGAGTGC GACATACTTC AATGACAATA TCCTCACCCT GATACGGACC 
    TTGGTGACAG GAGGAGCCAC ACCAGAGCTC GAGGCTCTGA TTGCTGAGGA GAATGCACTT 
    CGAGGGGGCT ACAGCACTCC CCAGACACTG GCCAACAGGG ACCGTTGCAG AGTGGCCCAG 
    TTAGCTCTGT TGGATGGGCC CTTTGCAGAC TTAGGGGATG GTGGTTGTTA TGGTGATTTG 
    TTCTGCAAAG CTCTGAAAAC ATATAATATG CTTTGTTTTG GAATTTACCG GCTGAGAGAT 
    GCCCACCTCA GCACCCCCAG CCAGTGTACG AAAAGGTACG TCATCACCAA CCCCCCCTAC 
    GAGTTTGAGC TGGTGCCGAC AGACCTGATC TTCTGCCTGA TGCAGTTTGA CCACAACGCC 
    GGCCAGTCCC GGGCCAGCCT GTCCCATTCC TCCCACTCAT CACAGTCCTC CAGCAAGAAG 
    AGCTCCTCTG TCCACTCCAT CCCGTCCACA GCAAACCGGC CAAACCGGCC CAAGTCCAGG 
    GAGTCCCGCG ACAAACAGAA AAAAGAAATG GTTTACAGAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017657871.1
    CDS156..3797
    Translation

    Target ORF information:

    RefSeq Version XM_017802382.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017802382.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC CAGTCAAGGC TGCAGCTAGA TCATGCTATC ACAAAGACCC ATTTGTGCAC 
    AAGAACGCAA CTCCCAAATC TCGGCTTGTG ACTGAGCCAG TTGAAGATGA ACAGCCGTCA 
    ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC GGGGGCATGA GGAACTCGCC CAACTCCTCC 
    CCGAAGCTGA TGAGGCATGA CCCCTTACTA ATTCCTGGCA ATGATCAGAT CGACAACATG 
    GACTCCAATG TGAAGAAATA CGACTCTACA GGGATGTTTC ACTGGTGCGC AGCCAAGGAG 
    ATCGAGAAAG TCATCCTGAC TCGAAGCGAA GCTGCCATGA CTGTCCTGAG TGGCCACGTC 
    GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA GCCCTGATTG GCCTCCGGAA CCTGGTGATG 
    CCGCTTCGTG CCAGCAACTT CCACTACCAT GAGCTCAAAC ACATTGTGTT TGTGGGATCC 
    ATTGAGTACC TCAAGCGGGA ATGGGAGACA CTTCACAACT TCCCCAAAGT GTCCATATTG 
    CCGGGTACGC CATTAAGTCG GGCTGATTTA AGGGCTGTCA ACATCAACCT CTGTGACATG 
    TGCGTTATCC TGTCAGCCAA TCAGAATAAT ATTGATGATA CTTCGCTGCA GGACAAGGAA 
    TGCATCTTGG CGTCACTCAA CATCAAATCT ATGCAGTTTG ATGACAGCAT CGGGGTCTTG 
    CAGGCTAATT CCCAAGGATT CACACCTCCA GGAATGGACA GATCCTCTCC TGACAACAGC 
    CCAGTGCACG GGATGTTACG GCAGCCATCC ATCACGACTG GGGTCAATAT CCCCATCATC 
    ACAGAACTCG TGAATGACAC TAATGTTCAG TTTTTGGACC AAGATGATGA CGATGACCCC 
    GACACAGAGC TGTACCTCAC GCAACCCTTT GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC 
    CTGGACTCGC TCATGAGTGC GACATACTTC AATGACAATA TCCTCACCCT GATACGGACC 
    TTGGTGACAG GAGGAGCCAC ACCAGAGCTC GAGGCTCTGA TTGCTGAGGA GAATGCACTT 
    CGAGGGGGCT ACAGCACTCC CCAGACACTG GCCAACAGGG ACCGTTGCAG AGTGGCCCAG 
    TTAGCTCTGT TGGATGGGCC CTTTGCAGAC TTAGGGGATG GTGGTTGTTA TGGTGATTTG 
    TTCTGCAAAG CTCTGAAAAC ATATAATATG CTTTGTTTTG GAATTTACCG GCTGAGAGAT 
    GCCCACCTCA GCACCCCCAG CCAGTGTACG AAAAGGTACG TCATCACCAA CCCCCCCTAC 
    GAGTTTGAGC TGGTGCCGAC AGACCTGATC TTCTGCCTGA TGCAGTTTGA CCACAACGCC 
    GGCCAGTCCC GGGCCAGCCT GTCCCATTCC TCCCACTCAT CACAGTCCTC CAGCAAGAAG 
    AGCTCCTCTG TCCACTCCAT CCCGTCCACA GCAAACCGGC CAAACCGGCC CAAGTCCAGG 
    GAGTCCCGCG ACAAACAGAA AAAAGAAATG GTTTACAGAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849880.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848102.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID ONa32297
    Clone ID Related Accession (Same CDS sequence) XM_008849880.2
    Accession Version XM_008849880.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849880.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA ACAGAAAAGA AATGGTTTAC AGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848102.1
    CDS156..3791
    Translation

    Target ORF information:

    RefSeq Version XM_008849880.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849880.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA ACAGAAAAGA AATGGTTTAC AGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849881.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848103.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X25, mRNA.
    Price & Availability↑
    CloneID ONa32298
    Clone ID Related Accession (Same CDS sequence) XM_008849881.2 , XM_008849881.3
    Accession Version XM_008849881.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X25
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849881.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA AAAAAGAAAT GGTTTACAGA TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848103.1
    CDS156..3788
    Translation

    Target ORF information:

    RefSeq Version XM_008849881.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849881.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA AAAAAGAAAT GGTTTACAGA TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849881.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848103.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID ONa32298
    Clone ID Related Accession (Same CDS sequence) XM_008849881.2 , XM_008849881.3
    Accession Version XM_008849881.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008849881.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA AAAAAGAAAT GGTTTACAGA TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848103.1
    CDS156..3788
    Translation

    Target ORF information:

    RefSeq Version XM_008849881.3
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849881.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG CTAAACCGGG CAAGTTGCCT 
    TTGGTATCAG TCAATCAGGA AAAAAACAGT GGGACGCACA TTCTAATGAT AACGGAATTG 
    GTGAATGACA CTAATGTTCA GTTTTTGGAC CAAGATGATG ACGATGACCC CGACACAGAG 
    CTGTACCTCA CGCAACCCTT TGCGTGTGGG ACAGCTTTTG CCGTCAGCGT CCTGGACTCG 
    CTCATGAGTG CGACATACTT CAATGACAAT ATCCTCACCC TGATACGGAC CTTGGTGACA 
    GGAGGAGCCA CACCAGAGCT CGAGGCTCTG ATTGCTGAGG AGAATGCACT TCGAGGGGGC 
    TACAGCACTC CCCAGACACT GGCCAACAGG GACCGTTGCA GAGTGGCCCA GTTAGCTCTG 
    TTGGATGGGC CCTTTGCAGA CTTAGGGGAT GGTGGTTGTT ATGGTGATTT GTTCTGCAAA 
    GCTCTGAAAA CATATAATAT GCTTTGTTTT GGAATTTACC GGCTGAGAGA TGCCCACCTC 
    AGCACCCCCA GCCAGTGTAC GAAAAGGTAC GTCATCACCA ACCCCCCCTA CGAGTTTGAG 
    CTGGTGCCGA CAGACCTGAT CTTCTGCCTG ATGCAGTTTG ACCACAACGC CGGCCAGTCC 
    CGGGCCAGCC TGTCCCATTC CTCCCACTCA TCACAGTCCT CCAGCAAGAA GAGCTCCTCT 
    GTCCACTCCA TCCCGTCCAC AGCAAACCGG CCAAACCGGC CCAAGTCCAG GGAGTCCCGC 
    GACAAACAGA AAAAAGAAAT GGTTTACAGA TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849882.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848104.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X26, mRNA.
    Price & Availability↑
    CloneID ONa32299
    Clone ID Related Accession (Same CDS sequence) XM_008849882.2 , XM_008849882.3
    Accession Version XM_008849882.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X26
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849882.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG TGAATGACAC TAATGTTCAG 
    TTTTTGGACC AAGATGATGA CGATGACCCC GACACAGAGC TGTACCTCAC GCAACCCTTT 
    GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC CTGGACTCGC TCATGAGTGC GACATACTTC 
    AATGACAATA TCCTCACCCT GATACGGACC TTGGTGACAG GAGGAGCCAC ACCAGAGCTC 
    GAGGCTCTGA TTGCTGAGGA GAATGCACTT CGAGGGGGCT ACAGCACTCC CCAGACACTG 
    GCCAACAGGG ACCGTTGCAG AGTGGCCCAG TTAGCTCTGT TGGATGGGCC CTTTGCAGAC 
    TTAGGGGATG GTGGTTGTTA TGGTGATTTG TTCTGCAAAG CTCTGAAAAC ATATAATATG 
    CTTTGTTTTG GAATTTACCG GCTGAGAGAT GCCCACCTCA GCACCCCCAG CCAGTGTACG 
    AAAAGGTACG TCATCACCAA CCCCCCCTAC GAGTTTGAGC TGGTGCCGAC AGACCTGATC 
    TTCTGCCTGA TGCAGTTTGA CCACAACGCC GGCCAGTCCC GGGCCAGCCT GTCCCATTCC 
    TCCCACTCAT CACAGTCCTC CAGCAAGAAG AGCTCCTCTG TCCACTCCAT CCCGTCCACA 
    GCAAACCGGC CAAACCGGCC CAAGTCCAGG GAGTCCCGCG ACAAACAGAA CAGAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848104.1
    CDS156..3710
    Translation

    Target ORF information:

    RefSeq Version XM_008849882.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849882.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG TGAATGACAC TAATGTTCAG 
    TTTTTGGACC AAGATGATGA CGATGACCCC GACACAGAGC TGTACCTCAC GCAACCCTTT 
    GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC CTGGACTCGC TCATGAGTGC GACATACTTC 
    AATGACAATA TCCTCACCCT GATACGGACC TTGGTGACAG GAGGAGCCAC ACCAGAGCTC 
    GAGGCTCTGA TTGCTGAGGA GAATGCACTT CGAGGGGGCT ACAGCACTCC CCAGACACTG 
    GCCAACAGGG ACCGTTGCAG AGTGGCCCAG TTAGCTCTGT TGGATGGGCC CTTTGCAGAC 
    TTAGGGGATG GTGGTTGTTA TGGTGATTTG TTCTGCAAAG CTCTGAAAAC ATATAATATG 
    CTTTGTTTTG GAATTTACCG GCTGAGAGAT GCCCACCTCA GCACCCCCAG CCAGTGTACG 
    AAAAGGTACG TCATCACCAA CCCCCCCTAC GAGTTTGAGC TGGTGCCGAC AGACCTGATC 
    TTCTGCCTGA TGCAGTTTGA CCACAACGCC GGCCAGTCCC GGGCCAGCCT GTCCCATTCC 
    TCCCACTCAT CACAGTCCTC CAGCAAGAAG AGCTCCTCTG TCCACTCCAT CCCGTCCACA 
    GCAAACCGGC CAAACCGGCC CAAGTCCAGG GAGTCCCGCG ACAAACAGAA CAGAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849882.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848104.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID ONa32299
    Clone ID Related Accession (Same CDS sequence) XM_008849882.2 , XM_008849882.3
    Accession Version XM_008849882.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008849882.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG TGAATGACAC TAATGTTCAG 
    TTTTTGGACC AAGATGATGA CGATGACCCC GACACAGAGC TGTACCTCAC GCAACCCTTT 
    GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC CTGGACTCGC TCATGAGTGC GACATACTTC 
    AATGACAATA TCCTCACCCT GATACGGACC TTGGTGACAG GAGGAGCCAC ACCAGAGCTC 
    GAGGCTCTGA TTGCTGAGGA GAATGCACTT CGAGGGGGCT ACAGCACTCC CCAGACACTG 
    GCCAACAGGG ACCGTTGCAG AGTGGCCCAG TTAGCTCTGT TGGATGGGCC CTTTGCAGAC 
    TTAGGGGATG GTGGTTGTTA TGGTGATTTG TTCTGCAAAG CTCTGAAAAC ATATAATATG 
    CTTTGTTTTG GAATTTACCG GCTGAGAGAT GCCCACCTCA GCACCCCCAG CCAGTGTACG 
    AAAAGGTACG TCATCACCAA CCCCCCCTAC GAGTTTGAGC TGGTGCCGAC AGACCTGATC 
    TTCTGCCTGA TGCAGTTTGA CCACAACGCC GGCCAGTCCC GGGCCAGCCT GTCCCATTCC 
    TCCCACTCAT CACAGTCCTC CAGCAAGAAG AGCTCCTCTG TCCACTCCAT CCCGTCCACA 
    GCAAACCGGC CAAACCGGCC CAAGTCCAGG GAGTCCCGCG ACAAACAGAA CAGAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848104.1
    CDS156..3710
    Translation

    Target ORF information:

    RefSeq Version XM_008849882.3
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849882.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGAAGCCG AAAGCGTATA TTAATTAACC CTGGGAACCA TCTTAAGATC 
    CAAGAAGGCA CTTTAGGATT TTTCATCGCG AGTGATGCCA AGGAAGTTAA AAGGGCATTT 
    TTTTACTGCA AGGCCTGTCA TGATGACGTC ACAGACCCCA AAAGAATTAA AAAATGCGGC 
    TGCAGACGGC TTGAAGATGA ACAGCCGTCA ACGCTGTCAC CCAAAAAAAA ACAGCGCAAC 
    GGGGGCATGA GGAACTCGCC CAACTCCTCC CCGAAGCTGA TGAGGCATGA CCCCTTACTA 
    ATTCCTGGCA ATGATCAGAT CGACAACATG GACTCCAATG TGAAGAAATA CGACTCTACA 
    GGGATGTTTC ACTGGTGCGC AGCCAAGGAG ATCGAGAAAG TCATCCTGAC TCGAAGCGAA 
    GCTGCCATGA CTGTCCTGAG TGGCCACGTC GTAGTCTGCA TCTTTGGGGA TGTCAGCTCA 
    GCCCTGATTG GCCTCCGGAA CCTGGTGATG CCGCTTCGTG CCAGCAACTT CCACTACCAT 
    GAGCTCAAAC ACATTGTGTT TGTGGGATCC ATTGAGTACC TCAAGCGGGA ATGGGAGACA 
    CTTCACAACT TCCCCAAAGT GTCCATATTG CCGGGTACGC CATTAAGTCG GGCTGATTTA 
    AGGGCTGTCA ACATCAACCT CTGTGACATG TGCGTTATCC TGTCAGCCAA TCAGAATAAT 
    ATTGATGATA CTTCGCTGCA GGACAAGGAA TGCATCTTGG CGTCACTCAA CATCAAATCT 
    ATGCAGTTTG ATGACAGCAT CGGGGTCTTG CAGGCTAATT CCCAAGGATT CACACCTCCA 
    GGAATGGACA GATCCTCTCC TGACAACAGC CCAGTGCACG GGATGTTACG GCAGCCATCC 
    ATCACGACTG GGGTCAATAT CCCCATCATC ACAGAACTCG TGAATGACAC TAATGTTCAG 
    TTTTTGGACC AAGATGATGA CGATGACCCC GACACAGAGC TGTACCTCAC GCAACCCTTT 
    GCGTGTGGGA CAGCTTTTGC CGTCAGCGTC CTGGACTCGC TCATGAGTGC GACATACTTC 
    AATGACAATA TCCTCACCCT GATACGGACC TTGGTGACAG GAGGAGCCAC ACCAGAGCTC 
    GAGGCTCTGA TTGCTGAGGA GAATGCACTT CGAGGGGGCT ACAGCACTCC CCAGACACTG 
    GCCAACAGGG ACCGTTGCAG AGTGGCCCAG TTAGCTCTGT TGGATGGGCC CTTTGCAGAC 
    TTAGGGGATG GTGGTTGTTA TGGTGATTTG TTCTGCAAAG CTCTGAAAAC ATATAATATG 
    CTTTGTTTTG GAATTTACCG GCTGAGAGAT GCCCACCTCA GCACCCCCAG CCAGTGTACG 
    AAAAGGTACG TCATCACCAA CCCCCCCTAC GAGTTTGAGC TGGTGCCGAC AGACCTGATC 
    TTCTGCCTGA TGCAGTTTGA CCACAACGCC GGCCAGTCCC GGGCCAGCCT GTCCCATTCC 
    TCCCACTCAT CACAGTCCTC CAGCAAGAAG AGCTCCTCTG TCCACTCCAT CCCGTCCACA 
    GCAAACCGGC CAAACCGGCC CAAGTCCAGG GAGTCCCGCG ACAAACAGAA CAGAAAAGAA 
    ATGGTTTACA GATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849883.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848105.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID ONa32300
    Clone ID Related Accession (Same CDS sequence) XM_008849883.2
    Accession Version XM_008849883.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849883.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAACA GAAAAGAAAT GGTTTACAGA 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848105.1
    CDS156..3698
    Translation

    Target ORF information:

    RefSeq Version XM_008849883.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849883.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAACA GAAAAGAAAT GGTTTACAGA 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849885.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848107.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID ONa32301
    Clone ID Related Accession (Same CDS sequence) XM_008849885.2
    Accession Version XM_008849885.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3540bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849885.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAAAA AAGAAATGGT TTACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848107.1
    CDS156..3695
    Translation

    Target ORF information:

    RefSeq Version XM_008849885.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849885.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTT 
    GAAGATGAAC AGCCGTCAAC GCTGTCACCC AAAAAAAAAC AGCGCAACGG GGGCATGAGG 
    AACTCGCCCA ACTCCTCCCC GAAGCTGATG AGGCATGACC CCTTACTAAT TCCTGGCAAT 
    GATCAGATCG ACAACATGGA CTCCAATGTG AAGAAATACG ACTCTACAGG GATGTTTCAC 
    TGGTGCGCAG CCAAGGAGAT CGAGAAAGTC ATCCTGACTC GAAGCGAAGC TGCCATGACT 
    GTCCTGAGTG GCCACGTCGT AGTCTGCATC TTTGGGGATG TCAGCTCAGC CCTGATTGGC 
    CTCCGGAACC TGGTGATGCC GCTTCGTGCC AGCAACTTCC ACTACCATGA GCTCAAACAC 
    ATTGTGTTTG TGGGATCCAT TGAGTACCTC AAGCGGGAAT GGGAGACACT TCACAACTTC 
    CCCAAAGTGT CCATATTGCC GGGTACGCCA TTAAGTCGGG CTGATTTAAG GGCTGTCAAC 
    ATCAACCTCT GTGACATGTG CGTTATCCTG TCAGCCAATC AGAATAATAT TGATGATACT 
    TCGCTGCAGG ACAAGGAATG CATCTTGGCG TCACTCAACA TCAAATCTAT GCAGTTTGAT 
    GACAGCATCG GGGTCTTGCA GGCTAATTCC CAAGGATTCA CACCTCCAGG AATGGACAGA 
    TCCTCTCCTG ACAACAGCCC AGTGCACGGG ATGTTACGGC AGCCATCCAT CACGACTGGG 
    GTCAATATCC CCATCATCAC AGAACTCGTG AATGACACTA ATGTTCAGTT TTTGGACCAA 
    GATGATGACG ATGACCCCGA CACAGAGCTG TACCTCACGC AACCCTTTGC GTGTGGGACA 
    GCTTTTGCCG TCAGCGTCCT GGACTCGCTC ATGAGTGCGA CATACTTCAA TGACAATATC 
    CTCACCCTGA TACGGACCTT GGTGACAGGA GGAGCCACAC CAGAGCTCGA GGCTCTGATT 
    GCTGAGGAGA ATGCACTTCG AGGGGGCTAC AGCACTCCCC AGACACTGGC CAACAGGGAC 
    CGTTGCAGAG TGGCCCAGTT AGCTCTGTTG GATGGGCCCT TTGCAGACTT AGGGGATGGT 
    GGTTGTTATG GTGATTTGTT CTGCAAAGCT CTGAAAACAT ATAATATGCT TTGTTTTGGA 
    ATTTACCGGC TGAGAGATGC CCACCTCAGC ACCCCCAGCC AGTGTACGAA AAGGTACGTC 
    ATCACCAACC CCCCCTACGA GTTTGAGCTG GTGCCGACAG ACCTGATCTT CTGCCTGATG 
    CAGTTTGACC ACAACGCCGG CCAGTCCCGG GCCAGCCTGT CCCATTCCTC CCACTCATCA 
    CAGTCCTCCA GCAAGAAGAG CTCCTCTGTC CACTCCATCC CGTCCACAGC AAACCGGCCA 
    AACCGGCCCA AGTCCAGGGA GTCCCGCGAC AAACAGAAAA AAGAAATGGT TTACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849887.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848109.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X29, mRNA.
    Price & Availability↑
    CloneID ONa32302
    Clone ID Related Accession (Same CDS sequence) XM_008849887.2
    Accession Version XM_008849887.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3804bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X29
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849887.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTG 
    ATCTATTCCA AGACGTCCAT CTACAAGAGA ATGAGCCGAG CATGTTGTTT TGATTGCGGA 
    CGTTCTGAGC GTGACTGCTC ATGCATGTCA GGCCGTGTGC GTGGTAACGT GGACACCCCT 
    GAGAGAACCT TCCCGCTTTC TTCTGTCTCT GTTAATGATT GCGCCACCAG TTTCCGTGCC 
    TTTGAAGATG AACAGCCGTC AACGCTGTCA CCCAAAAAAA AACAGCGCAA CGGGGGCATG 
    AGGAACTCGC CCAACTCCTC CCCGAAGCTG ATGAGGCATG ACCCCTTACT AATTCCTGGC 
    AATGATCAGA TCGACAACAT GGACTCCAAT GTGAAGAAAT ACGACTCTAC AGGGATGTTT 
    CACTGGTGCG CAGCCAAGGA GATCGAGAAA GTCATCCTGA CTCGAAGCGA AGCTGCCATG 
    ACTGTCCTGA GTGGCCACGT CGTAGTCTGC ATCTTTGGGG ATGTCAGCTC AGCCCTGATT 
    GGCCTCCGGA ACCTGGTGAT GCCGCTTCGT GCCAGCAACT TCCACTACCA TGAGCTCAAA 
    CACATTGTGT TTGTGGGATC CATTGAGTAC CTCAAGCGGG AATGGGAGAC ACTTCACAAC 
    TTCCCCAAAG TGTCCATATT GCCGGGTACG CCATTAAGTC GGGCTGATTT AAGGGCTGTC 
    AACATCAACC TCTGTGACAT GTGCGTTATC CTGTCAGCCA ATCAGAATAA TATTGATGAT 
    ACTTCGCTGC AGGACAAGGA ATGCATCTTG GCGTCACTCA ACATCAAATC TATGCAGTTT 
    GATGACAGCA TCGGGGTCTT GCAGGCTAAT TCCCAAGGAT TCACACCTCC AGGAATGGAC 
    AGATCCTCTC CTGACAACAG CCCAGTGCAC GGGATGTTAC GGCAGCCATC CATCACGACT 
    GGGGTCAATA TCCCCATCAT CACAGAACTC GCTAAACCGG GCAAGTTGCC TTTGGTATCA 
    GTCAATCAGG AAAAAAACAG TGGGACGCAC ATTCTAATGA TAACGGAATT GGTGAATGAC 
    ACTAATGTTC AGTTTTTGGA CCAAGATGAT GACGATGACC CCGACACAGA GCTGTACCTC 
    ACGCAACCCT TTGCGTGTGG GACAGCTTTT GCCGTCAGCG TCCTGGACTC GCTCATGAGT 
    GCGACATACT TCAATGACAA TATCCTCACC CTGATACGGA CCTTGGTGAC AGGAGGAGCC 
    ACACCAGAGC TCGAGGCTCT GATTGCTGAG GAGAATGCAC TTCGAGGGGG CTACAGCACT 
    CCCCAGACAC TGGCCAACAG GGACCGTTGC AGAGTGGCCC AGTTAGCTCT GTTGGATGGG 
    CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT TATGGTGATT TGTTCTGCAA AGCTCTGAAA 
    ACATATAATA TGCTTTGTTT TGGAATTTAC CGGCTGAGAG ATGCCCACCT CAGCACCCCC 
    AGCCAGTGTA CGAAAAGGTA CGTCATCACC AACCCCCCCT ACGAGTTTGA GCTGGTGCCG 
    ACAGACCTGA TCTTCTGCCT GATGCAGTTT GACCACAACG CCGGCCAGTC CCGGGCCAGC 
    CTGTCCCATT CCTCCCACTC ATCACAGTCC TCCAGCAAGA AGAGCTCCTC TGTCCACTCC 
    ATCCCGTCCA CAGCAAACCG GCCAAACCGG CCCAAGTCCA GGGAGTCCCG CGACAAACAG 
    AAAAAAGAAA TGGTTTACAG ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848109.1
    CDS156..3959
    Translation

    Target ORF information:

    RefSeq Version XM_008849887.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849887.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTG 
    ATCTATTCCA AGACGTCCAT CTACAAGAGA ATGAGCCGAG CATGTTGTTT TGATTGCGGA 
    CGTTCTGAGC GTGACTGCTC ATGCATGTCA GGCCGTGTGC GTGGTAACGT GGACACCCCT 
    GAGAGAACCT TCCCGCTTTC TTCTGTCTCT GTTAATGATT GCGCCACCAG TTTCCGTGCC 
    TTTGAAGATG AACAGCCGTC AACGCTGTCA CCCAAAAAAA AACAGCGCAA CGGGGGCATG 
    AGGAACTCGC CCAACTCCTC CCCGAAGCTG ATGAGGCATG ACCCCTTACT AATTCCTGGC 
    AATGATCAGA TCGACAACAT GGACTCCAAT GTGAAGAAAT ACGACTCTAC AGGGATGTTT 
    CACTGGTGCG CAGCCAAGGA GATCGAGAAA GTCATCCTGA CTCGAAGCGA AGCTGCCATG 
    ACTGTCCTGA GTGGCCACGT CGTAGTCTGC ATCTTTGGGG ATGTCAGCTC AGCCCTGATT 
    GGCCTCCGGA ACCTGGTGAT GCCGCTTCGT GCCAGCAACT TCCACTACCA TGAGCTCAAA 
    CACATTGTGT TTGTGGGATC CATTGAGTAC CTCAAGCGGG AATGGGAGAC ACTTCACAAC 
    TTCCCCAAAG TGTCCATATT GCCGGGTACG CCATTAAGTC GGGCTGATTT AAGGGCTGTC 
    AACATCAACC TCTGTGACAT GTGCGTTATC CTGTCAGCCA ATCAGAATAA TATTGATGAT 
    ACTTCGCTGC AGGACAAGGA ATGCATCTTG GCGTCACTCA ACATCAAATC TATGCAGTTT 
    GATGACAGCA TCGGGGTCTT GCAGGCTAAT TCCCAAGGAT TCACACCTCC AGGAATGGAC 
    AGATCCTCTC CTGACAACAG CCCAGTGCAC GGGATGTTAC GGCAGCCATC CATCACGACT 
    GGGGTCAATA TCCCCATCAT CACAGAACTC GCTAAACCGG GCAAGTTGCC TTTGGTATCA 
    GTCAATCAGG AAAAAAACAG TGGGACGCAC ATTCTAATGA TAACGGAATT GGTGAATGAC 
    ACTAATGTTC AGTTTTTGGA CCAAGATGAT GACGATGACC CCGACACAGA GCTGTACCTC 
    ACGCAACCCT TTGCGTGTGG GACAGCTTTT GCCGTCAGCG TCCTGGACTC GCTCATGAGT 
    GCGACATACT TCAATGACAA TATCCTCACC CTGATACGGA CCTTGGTGAC AGGAGGAGCC 
    ACACCAGAGC TCGAGGCTCT GATTGCTGAG GAGAATGCAC TTCGAGGGGG CTACAGCACT 
    CCCCAGACAC TGGCCAACAG GGACCGTTGC AGAGTGGCCC AGTTAGCTCT GTTGGATGGG 
    CCCTTTGCAG ACTTAGGGGA TGGTGGTTGT TATGGTGATT TGTTCTGCAA AGCTCTGAAA 
    ACATATAATA TGCTTTGTTT TGGAATTTAC CGGCTGAGAG ATGCCCACCT CAGCACCCCC 
    AGCCAGTGTA CGAAAAGGTA CGTCATCACC AACCCCCCCT ACGAGTTTGA GCTGGTGCCG 
    ACAGACCTGA TCTTCTGCCT GATGCAGTTT GACCACAACG CCGGCCAGTC CCGGGCCAGC 
    CTGTCCCATT CCTCCCACTC ATCACAGTCC TCCAGCAAGA AGAGCTCCTC TGTCCACTCC 
    ATCCCGTCCA CAGCAAACCG GCCAAACCGG CCCAAGTCCA GGGAGTCCCG CGACAAACAG 
    AAAAAAGAAA TGGTTTACAG ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849888.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848110.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X30, mRNA.
    Price & Availability↑
    CloneID ONa32303
    Clone ID Related Accession (Same CDS sequence) XM_008849888.1
    Accession Version XM_008849888.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X30
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTC 
    AAGGCTGCAG CTAGATCATG CTATCACAAA GACCCATTTG TGCACAAGAA CGCAACTCCC 
    AAATCTCGGC TTGTGACTGA GCCAGTTGAA GATGAACAGC CGTCAACGCT GTCACCCAAA 
    AAAAAACAGC GCAACGGGGG CATGAGGAAC TCGCCCAACT CCTCCCCGAA GCTGATGAGG 
    CATGACCCCT TACTAATTCC TGGCAATGAT CAGATCGACA ACATGGACTC CAATGTGAAG 
    AAATACGACT CTACAGGGAT GTTTCACTGG TGCGCAGCCA AGGAGATCGA GAAAGTCATC 
    CTGACTCGAA GCGAAGCTGC CATGACTGTC CTGAGTGGCC ACGTCGTAGT CTGCATCTTT 
    GGGGATGTCA GCTCAGCCCT GATTGGCCTC CGGAACCTGG TGATGCCGCT TCGTGCCAGC 
    AACTTCCACT ACCATGAGCT CAAACACATT GTGTTTGTGG GATCCATTGA GTACCTCAAG 
    CGGGAATGGG AGACACTTCA CAACTTCCCC AAAGTGTCCA TATTGCCGGG TACGCCATTA 
    AGTCGGGCTG ATTTAAGGGC TGTCAACATC AACCTCTGTG ACATGTGCGT TATCCTGTCA 
    GCCAATCAGA ATAATATTGA TGATACTTCG CTGCAGGACA AGGAATGCAT CTTGGCGTCA 
    CTCAACATCA AATCTATGCA GTTTGATGAC AGCATCGGGG TCTTGCAGGC TAATTCCCAA 
    GGATTCACAC CTCCAGGAAT GGACAGATCC TCTCCTGACA ACAGCCCAGT GCACGGGATG 
    TTACGGCAGC CATCCATCAC GACTGGGGTC AATATCCCCA TCATCACAGA ACTCGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAAGTACG TTCAGGAAGA ACGGCTTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848110.1
    CDS156..3785
    Translation

    Target ORF information:

    RefSeq Version XM_008849888.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849888.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTC 
    AAGGCTGCAG CTAGATCATG CTATCACAAA GACCCATTTG TGCACAAGAA CGCAACTCCC 
    AAATCTCGGC TTGTGACTGA GCCAGTTGAA GATGAACAGC CGTCAACGCT GTCACCCAAA 
    AAAAAACAGC GCAACGGGGG CATGAGGAAC TCGCCCAACT CCTCCCCGAA GCTGATGAGG 
    CATGACCCCT TACTAATTCC TGGCAATGAT CAGATCGACA ACATGGACTC CAATGTGAAG 
    AAATACGACT CTACAGGGAT GTTTCACTGG TGCGCAGCCA AGGAGATCGA GAAAGTCATC 
    CTGACTCGAA GCGAAGCTGC CATGACTGTC CTGAGTGGCC ACGTCGTAGT CTGCATCTTT 
    GGGGATGTCA GCTCAGCCCT GATTGGCCTC CGGAACCTGG TGATGCCGCT TCGTGCCAGC 
    AACTTCCACT ACCATGAGCT CAAACACATT GTGTTTGTGG GATCCATTGA GTACCTCAAG 
    CGGGAATGGG AGACACTTCA CAACTTCCCC AAAGTGTCCA TATTGCCGGG TACGCCATTA 
    AGTCGGGCTG ATTTAAGGGC TGTCAACATC AACCTCTGTG ACATGTGCGT TATCCTGTCA 
    GCCAATCAGA ATAATATTGA TGATACTTCG CTGCAGGACA AGGAATGCAT CTTGGCGTCA 
    CTCAACATCA AATCTATGCA GTTTGATGAC AGCATCGGGG TCTTGCAGGC TAATTCCCAA 
    GGATTCACAC CTCCAGGAAT GGACAGATCC TCTCCTGACA ACAGCCCAGT GCACGGGATG 
    TTACGGCAGC CATCCATCAC GACTGGGGTC AATATCCCCA TCATCACAGA ACTCGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAAGTACG TTCAGGAAGA ACGGCTTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_008849889.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008848111.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X31, mRNA.
    Price & Availability↑
    CloneID ONa32304
    Clone ID Related Accession (Same CDS sequence) XM_008849889.2
    Accession Version XM_008849889.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X31
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008849889.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTC 
    AAGGCTGCAG CTAGATCATG CTATCACAAA GACCCATTTG TGCACAAGAA CGCAACTCCC 
    AAATCTCGGC TTGTGACTGA GCCAGTTGAA GATGAACAGC CGTCAACGCT GTCACCCAAA 
    AAAAAACAGC GCAACGGGGG CATGAGGAAC TCGCCCAACT CCTCCCCGAA GCTGATGAGG 
    CATGACCCCT TACTAATTCC TGGCAATGAT CAGATCGACA ACATGGACTC CAATGTGAAG 
    AAATACGACT CTACAGGGAT GTTTCACTGG TGCGCAGCCA AGGAGATCGA GAAAGTCATC 
    CTGACTCGAA GCGAAGCTGC CATGACTGTC CTGAGTGGCC ACGTCGTAGT CTGCATCTTT 
    GGGGATGTCA GCTCAGCCCT GATTGGCCTC CGGAACCTGG TGATGCCGCT TCGTGCCAGC 
    AACTTCCACT ACCATGAGCT CAAACACATT GTGTTTGTGG GATCCATTGA GTACCTCAAG 
    CGGGAATGGG AGACACTTCA CAACTTCCCC AAAGTGTCCA TATTGCCGGG TACGCCATTA 
    AGTCGGGCTG ATTTAAGGGC TGTCAACATC AACCTCTGTG ACATGTGCGT TATCCTGTCA 
    GCCAATCAGA ATAATATTGA TGATACTTCG CTGCAGGACA AGGAATGCAT CTTGGCGTCA 
    CTCAACATCA AATCTATGCA GTTTGATGAC AGCATCGGGG TCTTGCAGGC TAATTCCCAA 
    GGATTCACAC CTCCAGGAAT GGACAGATCC TCTCCTGACA ACAGCCCAGT GCACGGGATG 
    TTACGGCAGC CATCCATCAC GACTGGGGTC AATATCCCCA TCATCACAGA ACTCGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAACAGAA AAGAAATGGT TTACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008848111.1
    CDS156..3785
    Translation

    Target ORF information:

    RefSeq Version XM_008849889.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008849889.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTC 
    AAGGCTGCAG CTAGATCATG CTATCACAAA GACCCATTTG TGCACAAGAA CGCAACTCCC 
    AAATCTCGGC TTGTGACTGA GCCAGTTGAA GATGAACAGC CGTCAACGCT GTCACCCAAA 
    AAAAAACAGC GCAACGGGGG CATGAGGAAC TCGCCCAACT CCTCCCCGAA GCTGATGAGG 
    CATGACCCCT TACTAATTCC TGGCAATGAT CAGATCGACA ACATGGACTC CAATGTGAAG 
    AAATACGACT CTACAGGGAT GTTTCACTGG TGCGCAGCCA AGGAGATCGA GAAAGTCATC 
    CTGACTCGAA GCGAAGCTGC CATGACTGTC CTGAGTGGCC ACGTCGTAGT CTGCATCTTT 
    GGGGATGTCA GCTCAGCCCT GATTGGCCTC CGGAACCTGG TGATGCCGCT TCGTGCCAGC 
    AACTTCCACT ACCATGAGCT CAAACACATT GTGTTTGTGG GATCCATTGA GTACCTCAAG 
    CGGGAATGGG AGACACTTCA CAACTTCCCC AAAGTGTCCA TATTGCCGGG TACGCCATTA 
    AGTCGGGCTG ATTTAAGGGC TGTCAACATC AACCTCTGTG ACATGTGCGT TATCCTGTCA 
    GCCAATCAGA ATAATATTGA TGATACTTCG CTGCAGGACA AGGAATGCAT CTTGGCGTCA 
    CTCAACATCA AATCTATGCA GTTTGATGAC AGCATCGGGG TCTTGCAGGC TAATTCCCAA 
    GGATTCACAC CTCCAGGAAT GGACAGATCC TCTCCTGACA ACAGCCCAGT GCACGGGATG 
    TTACGGCAGC CATCCATCAC GACTGGGGTC AATATCCCCA TCATCACAGA ACTCGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAACAGAA AAGAAATGGT TTACAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Kcnma1 ( XM_017802383.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017657872.1 Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X32, mRNA.
    Price & Availability↑
    CloneID ONa32305
    Clone ID Related Accession (Same CDS sequence) XM_017802383.1
    Accession Version XM_017802383.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3627bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product calcium-activated potassium channel subunit alpha-1 isoform X32
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008352659.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTC 
    AAGGCTGCAG CTAGATCATG CTATCACAAA GACCCATTTG TGCACAAGAA CGCAACTCCC 
    AAATCTCGGC TTGTGACTGA GCCAGTTGAA GATGAACAGC CGTCAACGCT GTCACCCAAA 
    AAAAAACAGC GCAACGGGGG CATGAGGAAC TCGCCCAACT CCTCCCCGAA GCTGATGAGG 
    CATGACCCCT TACTAATTCC TGGCAATGAT CAGATCGACA ACATGGACTC CAATGTGAAG 
    AAATACGACT CTACAGGGAT GTTTCACTGG TGCGCAGCCA AGGAGATCGA GAAAGTCATC 
    CTGACTCGAA GCGAAGCTGC CATGACTGTC CTGAGTGGCC ACGTCGTAGT CTGCATCTTT 
    GGGGATGTCA GCTCAGCCCT GATTGGCCTC CGGAACCTGG TGATGCCGCT TCGTGCCAGC 
    AACTTCCACT ACCATGAGCT CAAACACATT GTGTTTGTGG GATCCATTGA GTACCTCAAG 
    CGGGAATGGG AGACACTTCA CAACTTCCCC AAAGTGTCCA TATTGCCGGG TACGCCATTA 
    AGTCGGGCTG ATTTAAGGGC TGTCAACATC AACCTCTGTG ACATGTGCGT TATCCTGTCA 
    GCCAATCAGA ATAATATTGA TGATACTTCG CTGCAGGACA AGGAATGCAT CTTGGCGTCA 
    CTCAACATCA AATCTATGCA GTTTGATGAC AGCATCGGGG TCTTGCAGGC TAATTCCCAA 
    GGATTCACAC CTCCAGGAAT GGACAGATCC TCTCCTGACA ACAGCCCAGT GCACGGGATG 
    TTACGGCAGC CATCCATCAC GACTGGGGTC AATATCCCCA TCATCACAGA ACTCGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAAAAAAG AAATGGTTTA CAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017657872.1
    CDS156..3782
    Translation

    Target ORF information:

    RefSeq Version XM_017802383.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili potassium calcium-activated channel subfamily M alpha 1 (Kcnma1), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017802383.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCAAACG GTGGCGGCGG CGGCGGCGGC AGCAGCGGCG GCGGCGGCGG CGGCGGCGGC 
    GGAGGCAGCG GTCTTAGAAT GAGTAGCAAT ATCCACGCGA ACCATCTCAG CCTAGACGCG 
    TCCTCCTCCT CCTCTTCCTC CTCCTCTTCT TCTTCTTCCT CCTCCTCCTC TTCCTCCTCG 
    TCCTCGGTCC ACGAGCCCAA GATGGATGCG CTCATCATCC CGGTGACCAT GGAGGTGCCG 
    TGCGACAGCC GGGGCCAACG CATGTGGTGG GCTTTCCTGG CCTCCTCTAT GGTGACTTTC 
    TTCGGGGGCC TCTTTATCAT CTTGCTGTGG CGGACGCTCA AGTACCTGTG GACCGTTTGC 
    TGCCACTGCG GGGGCAAGAC CAAGGAGGCC CAGAAGATAA ACAATGGCTC CAGCCAGGCA 
    GATGGCACTC TCAAGCCGGT GGATGAAAAA GAGGAGGTGG TGGCAGCTGA GGTTGGCTGG 
    ATGACCTCCG TGAAGGACTG GGCGGGCGTG ATGATATCCG CCCAGACACT GACTGGCAGA 
    GTCCTGGTTG TCTTAGTCTT TGCTCTCAGC ATTGGTGCAC TTGTAATATA CTTCATAGAC 
    TCGTCAAACC CGATAGAATC CTGCCAGAAT TTCTACAGAG ATTTCACATT ACAGATCGAC 
    ATGGCTTTCA ACGTATTCTT CCTTCTCTAC TTCGGCTTGC GGTTTATTGC AGCCAATGAT 
    AAGCTGTGGT TCTGGCTGGA AGTGAACTCT GTGGTAGATT TCTTCACGGT GCCCCCCGTG 
    TTTGTGTCTG TGTACTTAAA CAGAAGTTGG CTTGGTTTGA GATTTTTAAG AGCACTCAGA 
    CTGATACAGT TTTCAGAAAT TTTGCAGTTT CTGAATATAC TTAAAACAAG TAATTCTATC 
    AAGCTGGTGA ATCTGCTCTC CATATTTATC AGCACGTGGC TGACTGCGGC TGGGTTCATC 
    CACTTGGTGG AGAATTCAGG GGACCCATGG GAAAATTTCC AAAACAACCA AGCTCTTACA 
    TACTGGGAAT GTGTCTACTT ACTCATGGTC ACAATGTCCA CTGTTGGTTA TGGGGATGTT 
    TATGCAAAAA CCACCCTTGG ACGCCTCTTC ATGGTCTTCT TCATCCTCGG GGGACTGGCC 
    ATGTTTGCCA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATACGGG 
    GGCTCCTATA GTGCGGTTAG TGGAAGAAAG CACATTGTGG TCTGTGGACA CATTACTCTG 
    GAGAGTGTTT CCAACTTCCT GAAGGACTTT CTGCACAAGG ACCGGGATGA TGTCAATGTG 
    GAGATTGTCT TTCTTCACAA CATTTCCCCT AACCTTGAAC TTGAGGCTCT CTTCAAACGA 
    CACTTTACTC AGGTGGAATT TTATCAGGGT TCAGTCCTCA ATCCACATGA TCTGGCCAGA 
    GTCAAGATAG AGTCAGCAGA TGCTTGCCTG ATCCTTGCCA ATAAGTACTG CGCTGACCCG 
    GATGCAGAAG ATGCTTCCAA CATCATGAGA GTGATCTCCA TAAAGAACTA CCATCCGAAG 
    ATCAGAATCA TCACTCAGAT GCTGCAGTAT CACAATAAGG CCCATCTGCT CAACATCCCA 
    AGCTGGAATT GGAAAGAGGG TGATGATGCA ATATGCCTCG CAGAGTTGAA GTTGGGTTTC 
    ATAGCCCAGA GCTGCCTGGC TCAAGGCCTC TCCACAATGC TAGCCAACCT CTTCTCTATG 
    AGGTCATTCA TAAAGATTGA GGAAGACACG TGGCAGAAAT ACTACTTGGA AGGAGTCTCC 
    AATGAAATGT ACACAGAATA TCTCTCCAGT GCCTTTGTGG GTCTGTCCTT CCCTACTGTT 
    TGTGAGCTAT GTTTTGTGAA ACTCAAGCTC CTAATGATAG CCATTGAGTA CAAGTCTGCC 
    AACCGAGAGA GCCGTATATT AATTAACCCT GGGAACCATC TTAAGATCCA AGAAGGCACT 
    TTAGGATTTT TCATCGCGAG TGATGCCAAG GAAGTTAAAA GGGCATTTTT TTACTGCAAG 
    GCCTGTCATG ATGACGTCAC AGACCCCAAA AGAATTAAAA AATGCGGCTG CAGACGGCTC 
    AAGGCTGCAG CTAGATCATG CTATCACAAA GACCCATTTG TGCACAAGAA CGCAACTCCC 
    AAATCTCGGC TTGTGACTGA GCCAGTTGAA GATGAACAGC CGTCAACGCT GTCACCCAAA 
    AAAAAACAGC GCAACGGGGG CATGAGGAAC TCGCCCAACT CCTCCCCGAA GCTGATGAGG 
    CATGACCCCT TACTAATTCC TGGCAATGAT CAGATCGACA ACATGGACTC CAATGTGAAG 
    AAATACGACT CTACAGGGAT GTTTCACTGG TGCGCAGCCA AGGAGATCGA GAAAGTCATC 
    CTGACTCGAA GCGAAGCTGC CATGACTGTC CTGAGTGGCC ACGTCGTAGT CTGCATCTTT 
    GGGGATGTCA GCTCAGCCCT GATTGGCCTC CGGAACCTGG TGATGCCGCT TCGTGCCAGC 
    AACTTCCACT ACCATGAGCT CAAACACATT GTGTTTGTGG GATCCATTGA GTACCTCAAG 
    CGGGAATGGG AGACACTTCA CAACTTCCCC AAAGTGTCCA TATTGCCGGG TACGCCATTA 
    AGTCGGGCTG ATTTAAGGGC TGTCAACATC AACCTCTGTG ACATGTGCGT TATCCTGTCA 
    GCCAATCAGA ATAATATTGA TGATACTTCG CTGCAGGACA AGGAATGCAT CTTGGCGTCA 
    CTCAACATCA AATCTATGCA GTTTGATGAC AGCATCGGGG TCTTGCAGGC TAATTCCCAA 
    GGATTCACAC CTCCAGGAAT GGACAGATCC TCTCCTGACA ACAGCCCAGT GCACGGGATG 
    TTACGGCAGC CATCCATCAC GACTGGGGTC AATATCCCCA TCATCACAGA ACTCGTGAAT 
    GACACTAATG TTCAGTTTTT GGACCAAGAT GATGACGATG ACCCCGACAC AGAGCTGTAC 
    CTCACGCAAC CCTTTGCGTG TGGGACAGCT TTTGCCGTCA GCGTCCTGGA CTCGCTCATG 
    AGTGCGACAT ACTTCAATGA CAATATCCTC ACCCTGATAC GGACCTTGGT GACAGGAGGA 
    GCCACACCAG AGCTCGAGGC TCTGATTGCT GAGGAGAATG CACTTCGAGG GGGCTACAGC 
    ACTCCCCAGA CACTGGCCAA CAGGGACCGT TGCAGAGTGG CCCAGTTAGC TCTGTTGGAT 
    GGGCCCTTTG CAGACTTAGG GGATGGTGGT TGTTATGGTG ATTTGTTCTG CAAAGCTCTG 
    AAAACATATA ATATGCTTTG TTTTGGAATT TACCGGCTGA GAGATGCCCA CCTCAGCACC 
    CCCAGCCAGT GTACGAAAAG GTACGTCATC ACCAACCCCC CCTACGAGTT TGAGCTGGTG 
    CCGACAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCCGGCCA GTCCCGGGCC 
    AGCCTGTCCC ATTCCTCCCA CTCATCACAG TCCTCCAGCA AGAAGAGCTC CTCTGTCCAC 
    TCCATCCCGT CCACAGCAAA CCGGCCAAAC CGGCCCAAGT CCAGGGAGTC CCGCGACAAA 
    CAGAAAAAAG AAATGGTTTA CAGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

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