ORF » Species Summary » Nannospalax galili » Fam135b cDNA ORF clone

Fam135b cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

The following Fam135b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Fam135b 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
ONa21716 XM_008838576.2
Latest version!		 Nannospalax galili family with sequence similarity 135 member B (Fam135b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ONa21716 XM_008838577.1
Latest version!		 Nannospalax galili family with sequence similarity 135 member B (Fam135b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00

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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)
    Fam135b ( XM_008838576.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008836798.1 Nannospalax galili family with sequence similarity 135 member B (Fam135b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa21716
    Clone ID Related Accession (Same CDS sequence) XM_008838576.2 , XM_008838577.1
    Accession Version XM_008838576.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4197bp)
    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 protein FAM135B
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008342543.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008838576.1. ##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
    4021
    4081
    4141
    ATGTCTGAAG TACAAGGAAC AGTTGAGTTT TCTGTGGAGC TACATAAGTT TTATAATGTG 
    GATCTCTTTC AAAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC CTCGCGGATC 
    CCCCACAGAC TGAGCGCTTC CATTGTTGGG CAGTCAGAGA GCAACAGCGT GCATTCAGCC 
    TGTGTCCACG AGAACGCCGT GCACAGCCGG GTCTTCCAGA TTTTATACAG GAATGAGGAG 
    GCACCCATAA ATGATGCCAT GGTATTCCGA GCTCATTTAC TCTTAGATGG TGAGAGGGTG 
    GAAGACGCAC TGAGTGAGGT TGAGTTCCAG CTCAAGGTGG ATCTTCACTT TACAGACAGT 
    GAGCAGCTGC TGAGGGACAG GACTGGGACG CCGATGATCA GCAGTCGCAC ACTCGGCCTG 
    CACTTCCACC CACGGAGTGG TCTGCACCAC CAAGTCCCTG TCATGTTTCA CTACTGCCAC 
    CTGTCTGTGA TCTCAGTGAC CGTCCACGCT GCCCTGGTGG CTTTGCAGCA GCCCCTGATC 
    AGTTTTACTC GTCCTGGAAG AGGCTCTTGG CTTGGTAAAG GTGGCCCAGA CATGGGACCA 
    GAGCAGCCCC TCATTTCTCT GGAAAACTTA GTCTTTGGAG CTGGATACTG CAAGCCGACT 
    TCCTCAGAGG GAAGCTTCTA TGTCCCCTCC GAGAACTGCA TTCAGCATGC GCACAAGTGG 
    CACCGGGACG TCTGTCTCCT GCTCCTCCAG GCCTACCGGG GACTCCGACT CTACTTCCTG 
    GTCATCATGA GGGACATTCC CGAGCTGCCA CACATGGACT TGGAGGCCCT GGCCGTGGAA 
    GAAACACTTT CTCAGCTGTG CTCAGAGTTA CAGATGCTGA ACAACCCAGA GAAGATCGCT 
    GAGCAGATCA GCAAGGACCT TGCTTGGCTG GCCTCCCATC TGATGGCTCT GTGGACCCAA 
    TTCCTGGACA CAGTGACTCT GAACTCCCAA GTGACCACTT ACCTCACTCA GGAGCATCAT 
    ACCTTGAGGG TGCGAAGGTT TTCTGAAGCA TTCTTTTACA CGGAGCACCA AAAACTTGCA 
    GTCTTGACCT TTCAGGAGAA CTTGATACAG ACCCACAGCC AGCTATCTTT GGACATCCGG 
    AACTCAGAGT ACCTCACCAG TATGCCCCCG CTGCCCGCAG AGTGCCTGGA CATTGACGGT 
    GACTGGAACA CCCTGCCCGT TATCTTTGAG GACAGATATG TGGATTGCCC TGTGACAGGG 
    CACAATTTGA GTGTTCACCC TAATTTTGAT GTTCCAGTGA CAAGTTCTGC AATAATGAAT 
    CTAAAAGGGA AAGAGAAGAA TCTCCTTGTA AATCAAAAAT CATCTTTGGG GAAAGGCCTT 
    GCCGAAACCA CTCTGAGACC ACCCCAGTTG GGCTCTGATG CCGAGGTTAC TAGGTATCCA 
    GAGACAGAGG AGCATTCTGC CACACAGAAC CATGTGGACA TGTGCTCAGA GACTCAGGTT 
    TACCTGACCA TAGGTGAATT CCAGGATAAA GCAGGCATGC CTGAAAGTGA TGGCTGGACT 
    GGCCCACGGC CTGACGTTGG AGTAGATTCA CCAGTACAGG TGGACATGGC AAGGAGGAGT 
    CCAGGCCCAG ATGATGGACA GACTCCAGCA CTGATCTACA TTGATGTGAA ATCTAGCAAT 
    AAGAACTTCC CTAGAGCCAA GCCCACACAG GGCCTCAATG CTCAGCATGA AGGGAGCCCT 
    GGGCACAACT ACGATCGCGA CAAGACTGTG CCAAGCAAAG TGGTAACAGG ATCGTGTCAG 
    CAAAATGACG TCTCTTCAGG CCAAGCAGCT GTCCCTGAGT TCAGGACTCT GGGAAGGGGG 
    ATGGAGCAGG AGGGGAAGGT GCTGCTGAGC CTGAAGCTCA CTCCGGCCCA GCTCTGTGAC 
    ACTCTGAGCG CTCTTCTGAG GGAACCTTTG GATACCAGGC CTTCCCTTCA GGAACCTCAT 
    GCAGAAGAGC AGGAGGACCT GTCAGTGCTC CCGGGGGTCA TCAGGAGGTC AGCCTCCCTC 
    ATATCAGACT CAGGCATTGA GAGTGAACCA AGCTCTGTTG CTTGGTCCGA GGCTCGAAGC 
    AGGGTCTTGG AGTTACCCAG TGATCGAGAA GTCTTGCACC AGGTGGTCCG AAGACACGCC 
    CACCACAGGA ACTCTTTGGA GGGCGGTCAC ACGGAGAGCA ACACCAGTCT GCCAAGTGGC 
    ATCCAGGCTT CTCTCACTTC CATCAGCTCT TTACCTTTTG AGGAGGAGGA GCGGGAGTTG 
    GCACTCACCA AGCTCACCAA GTCTGTCTCT GCACCCCAAA TCAGCAGTCC TGAGGATGCT 
    GCTGAAATTA CCAAGGACCC AGGAGGTGTC TCTGAAGACC TGGAAACTTC TAGCCAGGAC 
    AAAGTTTCTC CTGGACACAA TTCTCCTTGT AGTGGCTCTA GAGTCCAGGA CACCAGGTCA 
    GGCCATTCCC TTGCAGATAT GGTCTTAGAT TCTGACAGAC CTCAGGGCCC TGGGTACATG 
    GACATCTCCA AAGGTAAAGG GAGCCAGTTT GAACCTCAAG GACCCTGTTG TCAGGAAGCC 
    AGGGCTGAGA ACACAGGAGG TATTGAAACC AAAGGTCTTA ACTTAAAAAT CCCAGGTATC 
    ACAGCACTTG AAAATCCTAG GACCAGGTCT TTTCATAGAA CAGTCCTGGA AACATCAAAA 
    AGCCAACCTA AAGGCTTGGG TGTCAGTAAA CACTCTCTCT CCAACAGCAA TGTCTCAGAG 
    GTCAGGGCTG TGTCTCACCA TAAGGTGCCT GAATTCAGTT GTGCATCAGC TATTGATGCC 
    ATCAGCCTGA ATTCTACAGG TGCACAAAGT GGTTCACCAA GTATGAATGG TACCACAACA 
    CTGATTAGAG GACCTAATGC CTCCCCGGAG GAGGAACATG AAGCCGGCAC TGTGTGCCCT 
    ACTGTGACTC ATCCCATTGC CTCCCAAGTA TCAAAAAACC AAGAGCTAAA GGGAGGCACT 
    TCCATCCCCG GGTCCCACCT GACCTCCACA GAGACCTTTG CCCTGGACAG CCTGAAGGCT 
    GTGGAGGTTG TCAACTTGTC TGTGTCTTGC ACGGCTACAT GTCTCCCTTT CTCATCTGTG 
    CCCAAGGAGA CCCCTGCCAG GGCTGGATTC TCTTCCAAAC AAAGTCCAGC TCCTATCACT 
    CATCAACCTC TGGGTTCCTT TGGAGTTGTT CCTGCTCATC CCAGCAAGTT AGAAGAAGTT 
    AGTGAAAGGA TGTTCAGTTT TTATCAGGCC AAAGAAAAGT TTAAAAAAGA ACTGAAGATC 
    GAAGGGTTTC TGTACAGTGA CTTATCCGTC CTGGCTTCTG ACGTACCATA TTTCCCACCA 
    GAGGAAGAGG AAGGAGACCT GGAAGAAGGC ATTCACCTGG TGGTCTGTGT CCATGGCTTG 
    GATGGGAACA GTGCAGACCT CCGGCTGGTA AAGACTTTCA TAGAACTGGG GCTCCCTGGA 
    GGAAAACTGG ACTTCCTAAT GTCTGAGAAG AATCAGATGG ACACATTTGC AGATTTTGAT 
    ACCATGACAG ATCGACTGTT GGATGAAATC ATTCAGCACA TCCAGCTGTA TAACCTCTCC 
    ATATCCCGAA TTAGCTTTAT CGGCCATTCT CTTGGCAACA TTATCATCAG ATCCGTCCTC 
    ACAAGGCCTC GCTTCCGGTA TTACCTCACC AAGCTCCACA CGTTCCTGTC GCTGTCTGGG 
    CCCCACCTGG GGACTCTGTA CAGCAACAGC ACCCTGGTCA GTACAGGCTT GTGGCTCATG 
    CAGAAATTGA AGAAATCTGG GTCCCTTTTG CAGCTGACCT TCAGGGATAA TGCTGACTTG 
    CGGAAGTGTT TCCTCTACCA ACTAAGCCAA AAAACAGGGC TGCAGTATTT TAAAAACGTT 
    GTTCTGGTTG CTTCTCCCCA AGACCGTTAT GTGCCATTTC ACTCAGCCAG GATCGAAATG 
    TGTAAAACTG CCCTGAAAGA CAGACACACA GGGCCTGTCT ACGCAGAAAT GATCAACAAC 
    CTGCTGGGCC CTCTGGCGGA AGCCAAGGAC TGCACTTTGA TCAGACATAA TGTGTTCCAC 
    GCTCTGCCCA ACACTGCCAA CACCCTGATT GGCCGAGCAG CTCACATCGC TGTGTTGGAT 
    TCAGAACTCT TTCTAGAGAA GTTTTTCTTG GTGGCAGGAC TCAACTATTT TAAGTAG

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

    RefSeq XP_008836798.1
    CDS1073..5269
    Translation

    Target ORF information:

    RefSeq Version XM_008838576.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili family with sequence similarity 135 member B (Fam135b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008838576.2

    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
    4021
    4081
    4141
    ATGTCTGAAG TACAAGGAAC AGTTGAGTTT TCTGTGGAGC TACATAAGTT TTATAATGTG 
    GATCTCTTTC AAAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC CTCGCGGATC 
    CCCCACAGAC TGAGCGCTTC CATTGTTGGG CAGTCAGAGA GCAACAGCGT GCATTCAGCC 
    TGTGTCCACG AGAACGCCGT GCACAGCCGG GTCTTCCAGA TTTTATACAG GAATGAGGAG 
    GCACCCATAA ATGATGCCAT GGTATTCCGA GCTCATTTAC TCTTAGATGG TGAGAGGGTG 
    GAAGACGCAC TGAGTGAGGT TGAGTTCCAG CTCAAGGTGG ATCTTCACTT TACAGACAGT 
    GAGCAGCTGC TGAGGGACAG GACTGGGACG CCGATGATCA GCAGTCGCAC ACTCGGCCTG 
    CACTTCCACC CACGGAGTGG TCTGCACCAC CAAGTCCCTG TCATGTTTCA CTACTGCCAC 
    CTGTCTGTGA TCTCAGTGAC CGTCCACGCT GCCCTGGTGG CTTTGCAGCA GCCCCTGATC 
    AGTTTTACTC GTCCTGGAAG AGGCTCTTGG CTTGGTAAAG GTGGCCCAGA CATGGGACCA 
    GAGCAGCCCC TCATTTCTCT GGAAAACTTA GTCTTTGGAG CTGGATACTG CAAGCCGACT 
    TCCTCAGAGG GAAGCTTCTA TGTCCCCTCC GAGAACTGCA TTCAGCATGC GCACAAGTGG 
    CACCGGGACG TCTGTCTCCT GCTCCTCCAG GCCTACCGGG GACTCCGACT CTACTTCCTG 
    GTCATCATGA GGGACATTCC CGAGCTGCCA CACATGGACT TGGAGGCCCT GGCCGTGGAA 
    GAAACACTTT CTCAGCTGTG CTCAGAGTTA CAGATGCTGA ACAACCCAGA GAAGATCGCT 
    GAGCAGATCA GCAAGGACCT TGCTTGGCTG GCCTCCCATC TGATGGCTCT GTGGACCCAA 
    TTCCTGGACA CAGTGACTCT GAACTCCCAA GTGACCACTT ACCTCACTCA GGAGCATCAT 
    ACCTTGAGGG TGCGAAGGTT TTCTGAAGCA TTCTTTTACA CGGAGCACCA AAAACTTGCA 
    GTCTTGACCT TTCAGGAGAA CTTGATACAG ACCCACAGCC AGCTATCTTT GGACATCCGG 
    AACTCAGAGT ACCTCACCAG TATGCCCCCG CTGCCCGCAG AGTGCCTGGA CATTGACGGT 
    GACTGGAACA CCCTGCCCGT TATCTTTGAG GACAGATATG TGGATTGCCC TGTGACAGGG 
    CACAATTTGA GTGTTCACCC TAATTTTGAT GTTCCAGTGA CAAGTTCTGC AATAATGAAT 
    CTAAAAGGGA AAGAGAAGAA TCTCCTTGTA AATCAAAAAT CATCTTTGGG GAAAGGCCTT 
    GCCGAAACCA CTCTGAGACC ACCCCAGTTG GGCTCTGATG CCGAGGTTAC TAGGTATCCA 
    GAGACAGAGG AGCATTCTGC CACACAGAAC CATGTGGACA TGTGCTCAGA GACTCAGGTT 
    TACCTGACCA TAGGTGAATT CCAGGATAAA GCAGGCATGC CTGAAAGTGA TGGCTGGACT 
    GGCCCACGGC CTGACGTTGG AGTAGATTCA CCAGTACAGG TGGACATGGC AAGGAGGAGT 
    CCAGGCCCAG ATGATGGACA GACTCCAGCA CTGATCTACA TTGATGTGAA ATCTAGCAAT 
    AAGAACTTCC CTAGAGCCAA GCCCACACAG GGCCTCAATG CTCAGCATGA AGGGAGCCCT 
    GGGCACAACT ACGATCGCGA CAAGACTGTG CCAAGCAAAG TGGTAACAGG ATCGTGTCAG 
    CAAAATGACG TCTCTTCAGG CCAAGCAGCT GTCCCTGAGT TCAGGACTCT GGGAAGGGGG 
    ATGGAGCAGG AGGGGAAGGT GCTGCTGAGC CTGAAGCTCA CTCCGGCCCA GCTCTGTGAC 
    ACTCTGAGCG CTCTTCTGAG GGAACCTTTG GATACCAGGC CTTCCCTTCA GGAACCTCAT 
    GCAGAAGAGC AGGAGGACCT GTCAGTGCTC CCGGGGGTCA TCAGGAGGTC AGCCTCCCTC 
    ATATCAGACT CAGGCATTGA GAGTGAACCA AGCTCTGTTG CTTGGTCCGA GGCTCGAAGC 
    AGGGTCTTGG AGTTACCCAG TGATCGAGAA GTCTTGCACC AGGTGGTCCG AAGACACGCC 
    CACCACAGGA ACTCTTTGGA GGGCGGTCAC ACGGAGAGCA ACACCAGTCT GCCAAGTGGC 
    ATCCAGGCTT CTCTCACTTC CATCAGCTCT TTACCTTTTG AGGAGGAGGA GCGGGAGTTG 
    GCACTCACCA AGCTCACCAA GTCTGTCTCT GCACCCCAAA TCAGCAGTCC TGAGGATGCT 
    GCTGAAATTA CCAAGGACCC AGGAGGTGTC TCTGAAGACC TGGAAACTTC TAGCCAGGAC 
    AAAGTTTCTC CTGGACACAA TTCTCCTTGT AGTGGCTCTA GAGTCCAGGA CACCAGGTCA 
    GGCCATTCCC TTGCAGATAT GGTCTTAGAT TCTGACAGAC CTCAGGGCCC TGGGTACATG 
    GACATCTCCA AAGGTAAAGG GAGCCAGTTT GAACCTCAAG GACCCTGTTG TCAGGAAGCC 
    AGGGCTGAGA ACACAGGAGG TATTGAAACC AAAGGTCTTA ACTTAAAAAT CCCAGGTATC 
    ACAGCACTTG AAAATCCTAG GACCAGGTCT TTTCATAGAA CAGTCCTGGA AACATCAAAA 
    AGCCAACCTA AAGGCTTGGG TGTCAGTAAA CACTCTCTCT CCAACAGCAA TGTCTCAGAG 
    GTCAGGGCTG TGTCTCACCA TAAGGTGCCT GAATTCAGTT GTGCATCAGC TATTGATGCC 
    ATCAGCCTGA ATTCTACAGG TGCACAAAGT GGTTCACCAA GTATGAATGG TACCACAACA 
    CTGATTAGAG GACCTAATGC CTCCCCGGAG GAGGAACATG AAGCCGGCAC TGTGTGCCCT 
    ACTGTGACTC ATCCCATTGC CTCCCAAGTA TCAAAAAACC AAGAGCTAAA GGGAGGCACT 
    TCCATCCCCG GGTCCCACCT GACCTCCACA GAGACCTTTG CCCTGGACAG CCTGAAGGCT 
    GTGGAGGTTG TCAACTTGTC TGTGTCTTGC ACGGCTACAT GTCTCCCTTT CTCATCTGTG 
    CCCAAGGAGA CCCCTGCCAG GGCTGGATTC TCTTCCAAAC AAAGTCCAGC TCCTATCACT 
    CATCAACCTC TGGGTTCCTT TGGAGTTGTT CCTGCTCATC CCAGCAAGTT AGAAGAAGTT 
    AGTGAAAGGA TGTTCAGTTT TTATCAGGCC AAAGAAAAGT TTAAAAAAGA ACTGAAGATC 
    GAAGGGTTTC TGTACAGTGA CTTATCCGTC CTGGCTTCTG ACGTACCATA TTTCCCACCA 
    GAGGAAGAGG AAGGAGACCT GGAAGAAGGC ATTCACCTGG TGGTCTGTGT CCATGGCTTG 
    GATGGGAACA GTGCAGACCT CCGGCTGGTA AAGACTTTCA TAGAACTGGG GCTCCCTGGA 
    GGAAAACTGG ACTTCCTAAT GTCTGAGAAG AATCAGATGG ACACATTTGC AGATTTTGAT 
    ACCATGACAG ATCGACTGTT GGATGAAATC ATTCAGCACA TCCAGCTGTA TAACCTCTCC 
    ATATCCCGAA TTAGCTTTAT CGGCCATTCT CTTGGCAACA TTATCATCAG ATCCGTCCTC 
    ACAAGGCCTC GCTTCCGGTA TTACCTCACC AAGCTCCACA CGTTCCTGTC GCTGTCTGGG 
    CCCCACCTGG GGACTCTGTA CAGCAACAGC ACCCTGGTCA GTACAGGCTT GTGGCTCATG 
    CAGAAATTGA AGAAATCTGG GTCCCTTTTG CAGCTGACCT TCAGGGATAA TGCTGACTTG 
    CGGAAGTGTT TCCTCTACCA ACTAAGCCAA AAAACAGGGC TGCAGTATTT TAAAAACGTT 
    GTTCTGGTTG CTTCTCCCCA AGACCGTTAT GTGCCATTTC ACTCAGCCAG GATCGAAATG 
    TGTAAAACTG CCCTGAAAGA CAGACACACA GGGCCTGTCT ACGCAGAAAT GATCAACAAC 
    CTGCTGGGCC CTCTGGCGGA AGCCAAGGAC TGCACTTTGA TCAGACATAA TGTGTTCCAC 
    GCTCTGCCCA ACACTGCCAA CACCCTGATT GGCCGAGCAG CTCACATCGC TGTGTTGGAT 
    TCAGAACTCT TTCTAGAGAA GTTTTTCTTG GTGGCAGGAC TCAACTATTT TAAGTAG

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

    Fam135b ( XM_008838577.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008836799.1 Nannospalax galili family with sequence similarity 135 member B (Fam135b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa21716
    Clone ID Related Accession (Same CDS sequence) XM_008838576.2 , XM_008838577.1
    Accession Version XM_008838577.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4197bp)
    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 protein FAM135B
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008342543.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST 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
    4021
    4081
    4141
    ATGTCTGAAG TACAAGGAAC AGTTGAGTTT TCTGTGGAGC TACATAAGTT TTATAATGTG 
    GATCTCTTTC AAAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC CTCGCGGATC 
    CCCCACAGAC TGAGCGCTTC CATTGTTGGG CAGTCAGAGA GCAACAGCGT GCATTCAGCC 
    TGTGTCCACG AGAACGCCGT GCACAGCCGG GTCTTCCAGA TTTTATACAG GAATGAGGAG 
    GCACCCATAA ATGATGCCAT GGTATTCCGA GCTCATTTAC TCTTAGATGG TGAGAGGGTG 
    GAAGACGCAC TGAGTGAGGT TGAGTTCCAG CTCAAGGTGG ATCTTCACTT TACAGACAGT 
    GAGCAGCTGC TGAGGGACAG GACTGGGACG CCGATGATCA GCAGTCGCAC ACTCGGCCTG 
    CACTTCCACC CACGGAGTGG TCTGCACCAC CAAGTCCCTG TCATGTTTCA CTACTGCCAC 
    CTGTCTGTGA TCTCAGTGAC CGTCCACGCT GCCCTGGTGG CTTTGCAGCA GCCCCTGATC 
    AGTTTTACTC GTCCTGGAAG AGGCTCTTGG CTTGGTAAAG GTGGCCCAGA CATGGGACCA 
    GAGCAGCCCC TCATTTCTCT GGAAAACTTA GTCTTTGGAG CTGGATACTG CAAGCCGACT 
    TCCTCAGAGG GAAGCTTCTA TGTCCCCTCC GAGAACTGCA TTCAGCATGC GCACAAGTGG 
    CACCGGGACG TCTGTCTCCT GCTCCTCCAG GCCTACCGGG GACTCCGACT CTACTTCCTG 
    GTCATCATGA GGGACATTCC CGAGCTGCCA CACATGGACT TGGAGGCCCT GGCCGTGGAA 
    GAAACACTTT CTCAGCTGTG CTCAGAGTTA CAGATGCTGA ACAACCCAGA GAAGATCGCT 
    GAGCAGATCA GCAAGGACCT TGCTTGGCTG GCCTCCCATC TGATGGCTCT GTGGACCCAA 
    TTCCTGGACA CAGTGACTCT GAACTCCCAA GTGACCACTT ACCTCACTCA GGAGCATCAT 
    ACCTTGAGGG TGCGAAGGTT TTCTGAAGCA TTCTTTTACA CGGAGCACCA AAAACTTGCA 
    GTCTTGACCT TTCAGGAGAA CTTGATACAG ACCCACAGCC AGCTATCTTT GGACATCCGG 
    AACTCAGAGT ACCTCACCAG TATGCCCCCG CTGCCCGCAG AGTGCCTGGA CATTGACGGT 
    GACTGGAACA CCCTGCCCGT TATCTTTGAG GACAGATATG TGGATTGCCC TGTGACAGGG 
    CACAATTTGA GTGTTCACCC TAATTTTGAT GTTCCAGTGA CAAGTTCTGC AATAATGAAT 
    CTAAAAGGGA AAGAGAAGAA TCTCCTTGTA AATCAAAAAT CATCTTTGGG GAAAGGCCTT 
    GCCGAAACCA CTCTGAGACC ACCCCAGTTG GGCTCTGATG CCGAGGTTAC TAGGTATCCA 
    GAGACAGAGG AGCATTCTGC CACACAGAAC CATGTGGACA TGTGCTCAGA GACTCAGGTT 
    TACCTGACCA TAGGTGAATT CCAGGATAAA GCAGGCATGC CTGAAAGTGA TGGCTGGACT 
    GGCCCACGGC CTGACGTTGG AGTAGATTCA CCAGTACAGG TGGACATGGC AAGGAGGAGT 
    CCAGGCCCAG ATGATGGACA GACTCCAGCA CTGATCTACA TTGATGTGAA ATCTAGCAAT 
    AAGAACTTCC CTAGAGCCAA GCCCACACAG GGCCTCAATG CTCAGCATGA AGGGAGCCCT 
    GGGCACAACT ACGATCGCGA CAAGACTGTG CCAAGCAAAG TGGTAACAGG ATCGTGTCAG 
    CAAAATGACG TCTCTTCAGG CCAAGCAGCT GTCCCTGAGT TCAGGACTCT GGGAAGGGGG 
    ATGGAGCAGG AGGGGAAGGT GCTGCTGAGC CTGAAGCTCA CTCCGGCCCA GCTCTGTGAC 
    ACTCTGAGCG CTCTTCTGAG GGAACCTTTG GATACCAGGC CTTCCCTTCA GGAACCTCAT 
    GCAGAAGAGC AGGAGGACCT GTCAGTGCTC CCGGGGGTCA TCAGGAGGTC AGCCTCCCTC 
    ATATCAGACT CAGGCATTGA GAGTGAACCA AGCTCTGTTG CTTGGTCCGA GGCTCGAAGC 
    AGGGTCTTGG AGTTACCCAG TGATCGAGAA GTCTTGCACC AGGTGGTCCG AAGACACGCC 
    CACCACAGGA ACTCTTTGGA GGGCGGTCAC ACGGAGAGCA ACACCAGTCT GCCAAGTGGC 
    ATCCAGGCTT CTCTCACTTC CATCAGCTCT TTACCTTTTG AGGAGGAGGA GCGGGAGTTG 
    GCACTCACCA AGCTCACCAA GTCTGTCTCT GCACCCCAAA TCAGCAGTCC TGAGGATGCT 
    GCTGAAATTA CCAAGGACCC AGGAGGTGTC TCTGAAGACC TGGAAACTTC TAGCCAGGAC 
    AAAGTTTCTC CTGGACACAA TTCTCCTTGT AGTGGCTCTA GAGTCCAGGA CACCAGGTCA 
    GGCCATTCCC TTGCAGATAT GGTCTTAGAT TCTGACAGAC CTCAGGGCCC TGGGTACATG 
    GACATCTCCA AAGGTAAAGG GAGCCAGTTT GAACCTCAAG GACCCTGTTG TCAGGAAGCC 
    AGGGCTGAGA ACACAGGAGG TATTGAAACC AAAGGTCTTA ACTTAAAAAT CCCAGGTATC 
    ACAGCACTTG AAAATCCTAG GACCAGGTCT TTTCATAGAA CAGTCCTGGA AACATCAAAA 
    AGCCAACCTA AAGGCTTGGG TGTCAGTAAA CACTCTCTCT CCAACAGCAA TGTCTCAGAG 
    GTCAGGGCTG TGTCTCACCA TAAGGTGCCT GAATTCAGTT GTGCATCAGC TATTGATGCC 
    ATCAGCCTGA ATTCTACAGG TGCACAAAGT GGTTCACCAA GTATGAATGG TACCACAACA 
    CTGATTAGAG GACCTAATGC CTCCCCGGAG GAGGAACATG AAGCCGGCAC TGTGTGCCCT 
    ACTGTGACTC ATCCCATTGC CTCCCAAGTA TCAAAAAACC AAGAGCTAAA GGGAGGCACT 
    TCCATCCCCG GGTCCCACCT GACCTCCACA GAGACCTTTG CCCTGGACAG CCTGAAGGCT 
    GTGGAGGTTG TCAACTTGTC TGTGTCTTGC ACGGCTACAT GTCTCCCTTT CTCATCTGTG 
    CCCAAGGAGA CCCCTGCCAG GGCTGGATTC TCTTCCAAAC AAAGTCCAGC TCCTATCACT 
    CATCAACCTC TGGGTTCCTT TGGAGTTGTT CCTGCTCATC CCAGCAAGTT AGAAGAAGTT 
    AGTGAAAGGA TGTTCAGTTT TTATCAGGCC AAAGAAAAGT TTAAAAAAGA ACTGAAGATC 
    GAAGGGTTTC TGTACAGTGA CTTATCCGTC CTGGCTTCTG ACGTACCATA TTTCCCACCA 
    GAGGAAGAGG AAGGAGACCT GGAAGAAGGC ATTCACCTGG TGGTCTGTGT CCATGGCTTG 
    GATGGGAACA GTGCAGACCT CCGGCTGGTA AAGACTTTCA TAGAACTGGG GCTCCCTGGA 
    GGAAAACTGG ACTTCCTAAT GTCTGAGAAG AATCAGATGG ACACATTTGC AGATTTTGAT 
    ACCATGACAG ATCGACTGTT GGATGAAATC ATTCAGCACA TCCAGCTGTA TAACCTCTCC 
    ATATCCCGAA TTAGCTTTAT CGGCCATTCT CTTGGCAACA TTATCATCAG ATCCGTCCTC 
    ACAAGGCCTC GCTTCCGGTA TTACCTCACC AAGCTCCACA CGTTCCTGTC GCTGTCTGGG 
    CCCCACCTGG GGACTCTGTA CAGCAACAGC ACCCTGGTCA GTACAGGCTT GTGGCTCATG 
    CAGAAATTGA AGAAATCTGG GTCCCTTTTG CAGCTGACCT TCAGGGATAA TGCTGACTTG 
    CGGAAGTGTT TCCTCTACCA ACTAAGCCAA AAAACAGGGC TGCAGTATTT TAAAAACGTT 
    GTTCTGGTTG CTTCTCCCCA AGACCGTTAT GTGCCATTTC ACTCAGCCAG GATCGAAATG 
    TGTAAAACTG CCCTGAAAGA CAGACACACA GGGCCTGTCT ACGCAGAAAT GATCAACAAC 
    CTGCTGGGCC CTCTGGCGGA AGCCAAGGAC TGCACTTTGA TCAGACATAA TGTGTTCCAC 
    GCTCTGCCCA ACACTGCCAA CACCCTGATT GGCCGAGCAG CTCACATCGC TGTGTTGGAT 
    TCAGAACTCT TTCTAGAGAA GTTTTTCTTG GTGGCAGGAC TCAACTATTT TAAGTAG

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

    RefSeq XP_008836799.1
    CDS267..4463
    Translation

    Target ORF information:

    RefSeq Version XM_008838577.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili family with sequence similarity 135 member B (Fam135b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008838577.1

    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
    4021
    4081
    4141
    ATGTCTGAAG TACAAGGAAC AGTTGAGTTT TCTGTGGAGC TACATAAGTT TTATAATGTG 
    GATCTCTTTC AAAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC CTCGCGGATC 
    CCCCACAGAC TGAGCGCTTC CATTGTTGGG CAGTCAGAGA GCAACAGCGT GCATTCAGCC 
    TGTGTCCACG AGAACGCCGT GCACAGCCGG GTCTTCCAGA TTTTATACAG GAATGAGGAG 
    GCACCCATAA ATGATGCCAT GGTATTCCGA GCTCATTTAC TCTTAGATGG TGAGAGGGTG 
    GAAGACGCAC TGAGTGAGGT TGAGTTCCAG CTCAAGGTGG ATCTTCACTT TACAGACAGT 
    GAGCAGCTGC TGAGGGACAG GACTGGGACG CCGATGATCA GCAGTCGCAC ACTCGGCCTG 
    CACTTCCACC CACGGAGTGG TCTGCACCAC CAAGTCCCTG TCATGTTTCA CTACTGCCAC 
    CTGTCTGTGA TCTCAGTGAC CGTCCACGCT GCCCTGGTGG CTTTGCAGCA GCCCCTGATC 
    AGTTTTACTC GTCCTGGAAG AGGCTCTTGG CTTGGTAAAG GTGGCCCAGA CATGGGACCA 
    GAGCAGCCCC TCATTTCTCT GGAAAACTTA GTCTTTGGAG CTGGATACTG CAAGCCGACT 
    TCCTCAGAGG GAAGCTTCTA TGTCCCCTCC GAGAACTGCA TTCAGCATGC GCACAAGTGG 
    CACCGGGACG TCTGTCTCCT GCTCCTCCAG GCCTACCGGG GACTCCGACT CTACTTCCTG 
    GTCATCATGA GGGACATTCC CGAGCTGCCA CACATGGACT TGGAGGCCCT GGCCGTGGAA 
    GAAACACTTT CTCAGCTGTG CTCAGAGTTA CAGATGCTGA ACAACCCAGA GAAGATCGCT 
    GAGCAGATCA GCAAGGACCT TGCTTGGCTG GCCTCCCATC TGATGGCTCT GTGGACCCAA 
    TTCCTGGACA CAGTGACTCT GAACTCCCAA GTGACCACTT ACCTCACTCA GGAGCATCAT 
    ACCTTGAGGG TGCGAAGGTT TTCTGAAGCA TTCTTTTACA CGGAGCACCA AAAACTTGCA 
    GTCTTGACCT TTCAGGAGAA CTTGATACAG ACCCACAGCC AGCTATCTTT GGACATCCGG 
    AACTCAGAGT ACCTCACCAG TATGCCCCCG CTGCCCGCAG AGTGCCTGGA CATTGACGGT 
    GACTGGAACA CCCTGCCCGT TATCTTTGAG GACAGATATG TGGATTGCCC TGTGACAGGG 
    CACAATTTGA GTGTTCACCC TAATTTTGAT GTTCCAGTGA CAAGTTCTGC AATAATGAAT 
    CTAAAAGGGA AAGAGAAGAA TCTCCTTGTA AATCAAAAAT CATCTTTGGG GAAAGGCCTT 
    GCCGAAACCA CTCTGAGACC ACCCCAGTTG GGCTCTGATG CCGAGGTTAC TAGGTATCCA 
    GAGACAGAGG AGCATTCTGC CACACAGAAC CATGTGGACA TGTGCTCAGA GACTCAGGTT 
    TACCTGACCA TAGGTGAATT CCAGGATAAA GCAGGCATGC CTGAAAGTGA TGGCTGGACT 
    GGCCCACGGC CTGACGTTGG AGTAGATTCA CCAGTACAGG TGGACATGGC AAGGAGGAGT 
    CCAGGCCCAG ATGATGGACA GACTCCAGCA CTGATCTACA TTGATGTGAA ATCTAGCAAT 
    AAGAACTTCC CTAGAGCCAA GCCCACACAG GGCCTCAATG CTCAGCATGA AGGGAGCCCT 
    GGGCACAACT ACGATCGCGA CAAGACTGTG CCAAGCAAAG TGGTAACAGG ATCGTGTCAG 
    CAAAATGACG TCTCTTCAGG CCAAGCAGCT GTCCCTGAGT TCAGGACTCT GGGAAGGGGG 
    ATGGAGCAGG AGGGGAAGGT GCTGCTGAGC CTGAAGCTCA CTCCGGCCCA GCTCTGTGAC 
    ACTCTGAGCG CTCTTCTGAG GGAACCTTTG GATACCAGGC CTTCCCTTCA GGAACCTCAT 
    GCAGAAGAGC AGGAGGACCT GTCAGTGCTC CCGGGGGTCA TCAGGAGGTC AGCCTCCCTC 
    ATATCAGACT CAGGCATTGA GAGTGAACCA AGCTCTGTTG CTTGGTCCGA GGCTCGAAGC 
    AGGGTCTTGG AGTTACCCAG TGATCGAGAA GTCTTGCACC AGGTGGTCCG AAGACACGCC 
    CACCACAGGA ACTCTTTGGA GGGCGGTCAC ACGGAGAGCA ACACCAGTCT GCCAAGTGGC 
    ATCCAGGCTT CTCTCACTTC CATCAGCTCT TTACCTTTTG AGGAGGAGGA GCGGGAGTTG 
    GCACTCACCA AGCTCACCAA GTCTGTCTCT GCACCCCAAA TCAGCAGTCC TGAGGATGCT 
    GCTGAAATTA CCAAGGACCC AGGAGGTGTC TCTGAAGACC TGGAAACTTC TAGCCAGGAC 
    AAAGTTTCTC CTGGACACAA TTCTCCTTGT AGTGGCTCTA GAGTCCAGGA CACCAGGTCA 
    GGCCATTCCC TTGCAGATAT GGTCTTAGAT TCTGACAGAC CTCAGGGCCC TGGGTACATG 
    GACATCTCCA AAGGTAAAGG GAGCCAGTTT GAACCTCAAG GACCCTGTTG TCAGGAAGCC 
    AGGGCTGAGA ACACAGGAGG TATTGAAACC AAAGGTCTTA ACTTAAAAAT CCCAGGTATC 
    ACAGCACTTG AAAATCCTAG GACCAGGTCT TTTCATAGAA CAGTCCTGGA AACATCAAAA 
    AGCCAACCTA AAGGCTTGGG TGTCAGTAAA CACTCTCTCT CCAACAGCAA TGTCTCAGAG 
    GTCAGGGCTG TGTCTCACCA TAAGGTGCCT GAATTCAGTT GTGCATCAGC TATTGATGCC 
    ATCAGCCTGA ATTCTACAGG TGCACAAAGT GGTTCACCAA GTATGAATGG TACCACAACA 
    CTGATTAGAG GACCTAATGC CTCCCCGGAG GAGGAACATG AAGCCGGCAC TGTGTGCCCT 
    ACTGTGACTC ATCCCATTGC CTCCCAAGTA TCAAAAAACC AAGAGCTAAA GGGAGGCACT 
    TCCATCCCCG GGTCCCACCT GACCTCCACA GAGACCTTTG CCCTGGACAG CCTGAAGGCT 
    GTGGAGGTTG TCAACTTGTC TGTGTCTTGC ACGGCTACAT GTCTCCCTTT CTCATCTGTG 
    CCCAAGGAGA CCCCTGCCAG GGCTGGATTC TCTTCCAAAC AAAGTCCAGC TCCTATCACT 
    CATCAACCTC TGGGTTCCTT TGGAGTTGTT CCTGCTCATC CCAGCAAGTT AGAAGAAGTT 
    AGTGAAAGGA TGTTCAGTTT TTATCAGGCC AAAGAAAAGT TTAAAAAAGA ACTGAAGATC 
    GAAGGGTTTC TGTACAGTGA CTTATCCGTC CTGGCTTCTG ACGTACCATA TTTCCCACCA 
    GAGGAAGAGG AAGGAGACCT GGAAGAAGGC ATTCACCTGG TGGTCTGTGT CCATGGCTTG 
    GATGGGAACA GTGCAGACCT CCGGCTGGTA AAGACTTTCA TAGAACTGGG GCTCCCTGGA 
    GGAAAACTGG ACTTCCTAAT GTCTGAGAAG AATCAGATGG ACACATTTGC AGATTTTGAT 
    ACCATGACAG ATCGACTGTT GGATGAAATC ATTCAGCACA TCCAGCTGTA TAACCTCTCC 
    ATATCCCGAA TTAGCTTTAT CGGCCATTCT CTTGGCAACA TTATCATCAG ATCCGTCCTC 
    ACAAGGCCTC GCTTCCGGTA TTACCTCACC AAGCTCCACA CGTTCCTGTC GCTGTCTGGG 
    CCCCACCTGG GGACTCTGTA CAGCAACAGC ACCCTGGTCA GTACAGGCTT GTGGCTCATG 
    CAGAAATTGA AGAAATCTGG GTCCCTTTTG CAGCTGACCT TCAGGGATAA TGCTGACTTG 
    CGGAAGTGTT TCCTCTACCA ACTAAGCCAA AAAACAGGGC TGCAGTATTT TAAAAACGTT 
    GTTCTGGTTG CTTCTCCCCA AGACCGTTAT GTGCCATTTC ACTCAGCCAG GATCGAAATG 
    TGTAAAACTG CCCTGAAAGA CAGACACACA GGGCCTGTCT ACGCAGAAAT GATCAACAAC 
    CTGCTGGGCC CTCTGGCGGA AGCCAAGGAC TGCACTTTGA TCAGACATAA TGTGTTCCAC 
    GCTCTGCCCA ACACTGCCAA CACCCTGATT GGCCGAGCAG CTCACATCGC TGTGTTGGAT 
    TCAGAACTCT TTCTAGAGAA GTTTTTCTTG GTGGCAGGAC TCAACTATTT TAAGTAG

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

見積依頼

Eメール

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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