ORF » Species Summary » Numida meleagris » ATP13A5 cDNA ORF clone

ATP13A5 cDNA ORF clone, Numida meleagris(helmeted guineafowl)

The following ATP13A5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP13A5 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
ONu21104 XM_021393343.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00
ONu21098 XM_021393336.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONu21099 XM_021393337.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu21100 XM_021393338.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu21101 XM_021393339.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu21102 XM_021393340.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONu21103 XM_021393342.1
Latest version!		 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00

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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)
    ATP13A5 ( XM_021393343.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249018.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID ONu21104
    Clone ID Related Accession (Same CDS sequence) XM_021393343.1
    Accession Version XM_021393343.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2982bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GA

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

    RefSeq XP_021249018.1
    CDS302..3283
    Translation

    Target ORF information:

    RefSeq Version XM_021393343.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393343.1

    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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GA

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

    ATP13A5 ( XM_021393336.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249011.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONu21098
    Clone ID Related Accession (Same CDS sequence) XM_021393336.1
    Accession Version XM_021393336.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3564bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGACATT GCTCGCTCGG GAACCAGACC TTGCCCTCTG CCGACCCAGG GGGAAACGGT 
    ACCAGCAGCA GCAGTGCCCA GAGCACCGTC CTCAGCTACG AAGGCACAAC ATTGTGGCCA 
    CTGTCTTCCA TCAACTGCAT CATTGTGGCC TTTGTCTTTT CCAAAGGAAA GCCCTTCCGC 
    AAGCCCATCT ACACCAATTA TGTATTTTCA GCCCTCCTGG CCCTCCAGCT CGCCGTCTGC 
    CTCTTCCTCT TCCTCGCTGA CATGGATGCT GTGTACAGTG GCATGCAGTT TCTTTGCACT 
    CCTGTGATCT GGAGAGTTTA TGTCCTACTG ATGCTCTTGG TCACCTTCTG TGTATCTTTT 
    TTTACGGAGG ATGTTCTCCT GCAGAACAAG CACCTCTGGA TGCTGATTAA AGCCTGCGTT 
    GGGTACCAGT CGAAAAGCCA GTACCGAAAG TGGCAGTGGA TGCTGCAGAG GGATCCAAAC 
    TGGCCTCCTG TAAACACCAA GGATTTTGCA GCAAGAAGCA CAGCTGAGGT TTACATTAAC 
    CCCAGCTACG AGCACAGGGA CTAG

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

    RefSeq XP_021249011.1
    CDS302..3865
    Translation

    Target ORF information:

    RefSeq Version XM_021393336.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393336.1

    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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGACATT GCTCGCTCGG GAACCAGACC TTGCCCTCTG CCGACCCAGG GGGAAACGGT 
    ACCAGCAGCA GCAGTGCCCA GAGCACCGTC CTCAGCTACG AAGGCACAAC ATTGTGGCCA 
    CTGTCTTCCA TCAACTGCAT CATTGTGGCC TTTGTCTTTT CCAAAGGAAA GCCCTTCCGC 
    AAGCCCATCT ACACCAATTA TGTATTTTCA GCCCTCCTGG CCCTCCAGCT CGCCGTCTGC 
    CTCTTCCTCT TCCTCGCTGA CATGGATGCT GTGTACAGTG GCATGCAGTT TCTTTGCACT 
    CCTGTGATCT GGAGAGTTTA TGTCCTACTG ATGCTCTTGG TCACCTTCTG TGTATCTTTT 
    TTTACGGAGG ATGTTCTCCT GCAGAACAAG CACCTCTGGA TGCTGATTAA AGCCTGCGTT 
    GGGTACCAGT CGAAAAGCCA GTACCGAAAG TGGCAGTGGA TGCTGCAGAG GGATCCAAAC 
    TGGCCTCCTG TAAACACCAA GGATTTTGCA GCAAGAAGCA CAGCTGAGGT TTACATTAAC 
    CCCAGCTACG AGCACAGGGA CTAG

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

    ATP13A5 ( XM_021393337.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249012.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONu21099
    Clone ID Related Accession (Same CDS sequence) XM_021393337.1
    Accession Version XM_021393337.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3417bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTATG 
    AGATGTATTC AAGTACAGAA AATCCGTTAC ATTTGGGACT TTTCTGTAAA AGAGTTCAGG 
    AAAGTTGGAT CACTGGAAGA CAGCAACACG TGTCACAGCA TACACCACAA GTTTGGAGCC 
    GGCCTGACAG GGGAAGAACG GAAAATCAGG CAGCTGGTGT GTGGGCCTAA TGCCATCGAA 
    GTTGAAATCC GTCCCATTTG GAAGTTACTT TTTAAAGAGA TTTTAAACCC CTTCTATGTG 
    TTCCAAGCCT TCACTCTCAC TCTGTGGCTG AGCCAAGGCT ACATTGAATA CTCAGTGGCC 
    ATCATAGTCC TGTCAGTCAT TTCTGTTGGC CTAACTGTGT ATGATCTCAG ACAGCAGTCT 
    ACCAAGCTGC ATGACCTCGT TGAGGAGCAT AACAAAGTCC AGGTTACAGT CTGCACAAAG 
    AACGAAGGTT TCAAAGAACT GGAGTCTCGT TGCTTAGTCC CAGGAGATGT TTTTCTTTTA 
    GATGGAAAAA AGCTCTCCCT CCCATGTGAT GCTATCCTGA TTGATGGAAG TTGCATTGTG 
    AATGAAGGGA TGCTCACAGG TGAAAGCATT CCAGTTATGA AGACCCCATT GCCTCTCGCG 
    GAGAGCCCGG AGCCCTGGAA AACACACAGC ATGGAGGACT ACCGAAGACA TGTCCTCTTC 
    TGTGGGACTG AAGTCATCCA GGCAAAGTCA TCTGGCAGAG GGCTGGTGCG GGCCGTGGTG 
    CTGCAAACCG GGTTCAACAC TGCTAAAGGT GACTTGGTGA GGTCTATCCT CTACCCCAGA 
    CCTGTGAACT TCCAGCTCTA CCGAGATGCC TTCAAATTCA TTCTAGGCCT CTCTGCCATT 
    GGTGTGTTGG GATTGATATA CACCGTTTGT GTGTTCACAT ACCACAAAAA GCCAGTGGCA 
    GATGTCGTGT CCATGGCCCT CCTCCTCCTC ACCGCAGCTG TGCCTCCTGC CATCCCCGCT 
    GCCCTGACCA CGGGCACCGT TTATGCCCAA AGGAGGCTGA AGAAAAAGAA GATTTTCTGC 
    ATCACTCCAC AGAGGATTAA TATCTGCGGG CAAATCAACC TCGTCTGCTT TGACAAAACG 
    GGCACGTTGA CAGAAGATGG ACTGGACCTG TGGGGCATCC TCCCTTCTGA GGGAAGCTGC 
    TTTCAGAAAA TCCACAAGTT TCCATCCAGC ACTCCTCTGC CCTGGGGACC GGTGTGTGGA 
    GCCATGGTGA GCTGCCACTC CCTGGTGGTT CTGGATAAGA AGATTCAAGG AGACCCACTG 
    GACCTGAAAA TGTTTGAGGG CACACACTGG GAGATAGAAG AGTCCAGCAC AGCTTGGGAT 
    AGGGCCGGTG CTATTGATGC CTGCATCGTT AGACCGGGGC CGAACGCCAG CAGCGCCCCC 
    GTGGAAGGAA TTGCAATCCT GCATCAATTC CCATTTTCCT CTGGGCTGCA GAGGATGTCT 
    GTTGTTTCAC AGAAGATTGG AGAGGAGCAG TATGACCTGT ACATGAAAGG AGCACCAGAA 
    ATAGTGTCCA GCTTTTGCAG ACAAGAAACC GTCCCAGCTG ATTTCTTGGA GGAGCTTAAG 
    TCATACACAA GCCAAGGCTT CAGAGTGATT GCCCTGGCCC ATAAATTGCT GAGCCTTCCA 
    GAGGATGTAG ATGTGAGTAA CCTGGAGAGA GAAGAGGCAG AGTCTGAGCT AGAGTTTCTG 
    GGCCTCCTGG TGATGGAGAA CCGCCTGAAG CCAGAAACAA AGCCTGTGCT GCGAGAGCTG 
    GCCGCTGCCC GCATCAGGAG CATCATGGTC ACAGGGGACA ACCTTCAGAC AGCAGTCACG 
    GTGGCCAGGA GCGCGGCTAT GATTCACGAG GGCAGCAAAG TCATCATCAT TGAAGCCAGC 
    GAACCAGAGG GCTCCGCTCC AGCTTCCATT GCCTGGCGGT TGGCAGAAGG CAGCAAGGAG 
    GTGTGTGCCA ATACCCAGGA AAAGATCACA TTGGAAGGAG AAAGCTGCAA CTACCATTTT 
    GCAATGAATG GGAAGTCCTA CCAGGTTCTC CTAAAGCACT TCTACAGCTT GCTGCCAAAA 
    ATACTGCTGA ATGCGACTGT CTTCGCTAGG ATGTCTCCTG GCCAGAAATC CAGCCTTGTT 
    GAAGAGCTTC AGAAACTCGA TTACTACGTG GGTATGTGTG GTGATGGAGC CAATGACTGC 
    GGGGCTCTGA AGATGGCCCA TGCAGGGATA TCGCTGTCGG AGCAGGAGGC ATCGGTGGCC 
    TCGCCTTTCA CCTCACAGAT CCCCAACATC CAGTGCATGC CGGAGCTGAT CAGGGAAGGT 
    CGAGCTGCTT TGGTGGCTTC CTTTGCTGTT GTTAAATACC TGACCCTGTA CGGCCTGATA 
    CAGTTTGTTG GCACCGCTCT GCTGTTCTGG CAACTGCAAA TCTTTGGGAA TTACCAGTAT 
    TTGATTCAAG ACATGGTCAT TACCCTCCTG GTTTGCCTAA CAATGAGCCT GACAGAAGCC 
    TACCCAAAGC TGGCACCCTA TCGCCCTCCT GGCCAGCTCA TCTCCCCTCC TTTGCTGCTC 
    TCTGTTATTC TCAACGTGTG CTTTACCATA GCCCTGCAGA CCTGTGGCTT CCTGCTGGTG 
    AAGAAGCAGC CCTGGTATGT AGCGCTGGCC AGCTGGAGAC ATTGCTCGCT CGGGAACCAG 
    ACCTTGCCCT CTGCCGACCC AGGGGGAAAC GGTACCAGCA GCAGCAGTGC CCAGAGCACC 
    GTCCTCAGCT ACGAAGGCAC AACATTGTGG CCACTGTCTT CCATCAACTG CATCATTGTG 
    GCCTTTGTCT TTTCCAAAGG AAAGCCCTTC CGCAAGCCCA TCTACACCAA TTATGTATTT 
    TCAGCCCTCC TGGCCCTCCA GCTCGCCGTC TGCCTCTTCC TCTTCCTCGC TGACATGGAT 
    GCTGTGTACA GTGGCATGCA GTTTCTTTGC ACTCCTGTGA TCTGGAGAGT TTATGTCCTA 
    CTGATGCTCT TGGTCACCTT CTGTGTATCT TTTTTTACGG AGGATGTTCT CCTGCAGAAC 
    AAGCACCTCT GGATGCTGAT TAAAGCCTGC GTTGGGTACC AGTCGAAAAG CCAGTACCGA 
    AAGTGGCAGT GGATGCTGCA GAGGGATCCA AACTGGCCTC CTGTAAACAC CAAGGATTTT 
    GCAGCAAGAA GCACAGCTGA GGTTTACATT AACCCCAGCT ACGAGCACAG GGACTAG

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

    RefSeq XP_021249012.1
    CDS302..3718
    Translation

    Target ORF information:

    RefSeq Version XM_021393337.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393337.1

    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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTATG 
    AGATGTATTC AAGTACAGAA AATCCGTTAC ATTTGGGACT TTTCTGTAAA AGAGTTCAGG 
    AAAGTTGGAT CACTGGAAGA CAGCAACACG TGTCACAGCA TACACCACAA GTTTGGAGCC 
    GGCCTGACAG GGGAAGAACG GAAAATCAGG CAGCTGGTGT GTGGGCCTAA TGCCATCGAA 
    GTTGAAATCC GTCCCATTTG GAAGTTACTT TTTAAAGAGA TTTTAAACCC CTTCTATGTG 
    TTCCAAGCCT TCACTCTCAC TCTGTGGCTG AGCCAAGGCT ACATTGAATA CTCAGTGGCC 
    ATCATAGTCC TGTCAGTCAT TTCTGTTGGC CTAACTGTGT ATGATCTCAG ACAGCAGTCT 
    ACCAAGCTGC ATGACCTCGT TGAGGAGCAT AACAAAGTCC AGGTTACAGT CTGCACAAAG 
    AACGAAGGTT TCAAAGAACT GGAGTCTCGT TGCTTAGTCC CAGGAGATGT TTTTCTTTTA 
    GATGGAAAAA AGCTCTCCCT CCCATGTGAT GCTATCCTGA TTGATGGAAG TTGCATTGTG 
    AATGAAGGGA TGCTCACAGG TGAAAGCATT CCAGTTATGA AGACCCCATT GCCTCTCGCG 
    GAGAGCCCGG AGCCCTGGAA AACACACAGC ATGGAGGACT ACCGAAGACA TGTCCTCTTC 
    TGTGGGACTG AAGTCATCCA GGCAAAGTCA TCTGGCAGAG GGCTGGTGCG GGCCGTGGTG 
    CTGCAAACCG GGTTCAACAC TGCTAAAGGT GACTTGGTGA GGTCTATCCT CTACCCCAGA 
    CCTGTGAACT TCCAGCTCTA CCGAGATGCC TTCAAATTCA TTCTAGGCCT CTCTGCCATT 
    GGTGTGTTGG GATTGATATA CACCGTTTGT GTGTTCACAT ACCACAAAAA GCCAGTGGCA 
    GATGTCGTGT CCATGGCCCT CCTCCTCCTC ACCGCAGCTG TGCCTCCTGC CATCCCCGCT 
    GCCCTGACCA CGGGCACCGT TTATGCCCAA AGGAGGCTGA AGAAAAAGAA GATTTTCTGC 
    ATCACTCCAC AGAGGATTAA TATCTGCGGG CAAATCAACC TCGTCTGCTT TGACAAAACG 
    GGCACGTTGA CAGAAGATGG ACTGGACCTG TGGGGCATCC TCCCTTCTGA GGGAAGCTGC 
    TTTCAGAAAA TCCACAAGTT TCCATCCAGC ACTCCTCTGC CCTGGGGACC GGTGTGTGGA 
    GCCATGGTGA GCTGCCACTC CCTGGTGGTT CTGGATAAGA AGATTCAAGG AGACCCACTG 
    GACCTGAAAA TGTTTGAGGG CACACACTGG GAGATAGAAG AGTCCAGCAC AGCTTGGGAT 
    AGGGCCGGTG CTATTGATGC CTGCATCGTT AGACCGGGGC CGAACGCCAG CAGCGCCCCC 
    GTGGAAGGAA TTGCAATCCT GCATCAATTC CCATTTTCCT CTGGGCTGCA GAGGATGTCT 
    GTTGTTTCAC AGAAGATTGG AGAGGAGCAG TATGACCTGT ACATGAAAGG AGCACCAGAA 
    ATAGTGTCCA GCTTTTGCAG ACAAGAAACC GTCCCAGCTG ATTTCTTGGA GGAGCTTAAG 
    TCATACACAA GCCAAGGCTT CAGAGTGATT GCCCTGGCCC ATAAATTGCT GAGCCTTCCA 
    GAGGATGTAG ATGTGAGTAA CCTGGAGAGA GAAGAGGCAG AGTCTGAGCT AGAGTTTCTG 
    GGCCTCCTGG TGATGGAGAA CCGCCTGAAG CCAGAAACAA AGCCTGTGCT GCGAGAGCTG 
    GCCGCTGCCC GCATCAGGAG CATCATGGTC ACAGGGGACA ACCTTCAGAC AGCAGTCACG 
    GTGGCCAGGA GCGCGGCTAT GATTCACGAG GGCAGCAAAG TCATCATCAT TGAAGCCAGC 
    GAACCAGAGG GCTCCGCTCC AGCTTCCATT GCCTGGCGGT TGGCAGAAGG CAGCAAGGAG 
    GTGTGTGCCA ATACCCAGGA AAAGATCACA TTGGAAGGAG AAAGCTGCAA CTACCATTTT 
    GCAATGAATG GGAAGTCCTA CCAGGTTCTC CTAAAGCACT TCTACAGCTT GCTGCCAAAA 
    ATACTGCTGA ATGCGACTGT CTTCGCTAGG ATGTCTCCTG GCCAGAAATC CAGCCTTGTT 
    GAAGAGCTTC AGAAACTCGA TTACTACGTG GGTATGTGTG GTGATGGAGC CAATGACTGC 
    GGGGCTCTGA AGATGGCCCA TGCAGGGATA TCGCTGTCGG AGCAGGAGGC ATCGGTGGCC 
    TCGCCTTTCA CCTCACAGAT CCCCAACATC CAGTGCATGC CGGAGCTGAT CAGGGAAGGT 
    CGAGCTGCTT TGGTGGCTTC CTTTGCTGTT GTTAAATACC TGACCCTGTA CGGCCTGATA 
    CAGTTTGTTG GCACCGCTCT GCTGTTCTGG CAACTGCAAA TCTTTGGGAA TTACCAGTAT 
    TTGATTCAAG ACATGGTCAT TACCCTCCTG GTTTGCCTAA CAATGAGCCT GACAGAAGCC 
    TACCCAAAGC TGGCACCCTA TCGCCCTCCT GGCCAGCTCA TCTCCCCTCC TTTGCTGCTC 
    TCTGTTATTC TCAACGTGTG CTTTACCATA GCCCTGCAGA CCTGTGGCTT CCTGCTGGTG 
    AAGAAGCAGC CCTGGTATGT AGCGCTGGCC AGCTGGAGAC ATTGCTCGCT CGGGAACCAG 
    ACCTTGCCCT CTGCCGACCC AGGGGGAAAC GGTACCAGCA GCAGCAGTGC CCAGAGCACC 
    GTCCTCAGCT ACGAAGGCAC AACATTGTGG CCACTGTCTT CCATCAACTG CATCATTGTG 
    GCCTTTGTCT TTTCCAAAGG AAAGCCCTTC CGCAAGCCCA TCTACACCAA TTATGTATTT 
    TCAGCCCTCC TGGCCCTCCA GCTCGCCGTC TGCCTCTTCC TCTTCCTCGC TGACATGGAT 
    GCTGTGTACA GTGGCATGCA GTTTCTTTGC ACTCCTGTGA TCTGGAGAGT TTATGTCCTA 
    CTGATGCTCT TGGTCACCTT CTGTGTATCT TTTTTTACGG AGGATGTTCT CCTGCAGAAC 
    AAGCACCTCT GGATGCTGAT TAAAGCCTGC GTTGGGTACC AGTCGAAAAG CCAGTACCGA 
    AAGTGGCAGT GGATGCTGCA GAGGGATCCA AACTGGCCTC CTGTAAACAC CAAGGATTTT 
    GCAGCAAGAA GCACAGCTGA GGTTTACATT AACCCCAGCT ACGAGCACAG GGACTAG

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

    ATP13A5 ( XM_021393338.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249013.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONu21100
    Clone ID Related Accession (Same CDS sequence) XM_021393338.1
    Accession Version XM_021393338.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3252bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGAAGGC AGGAACAAGA TGCTGAGTGT CACCTTGCAG ACATTGCTCG CTCGGGAACC 
    AGACCTTGCC CTCTGCCGAC CCAGGGGGAA ACGGTACCAG CAGCAGCAGT GCCCAGAGCA 
    CCGTCCTCAG CTACGAAGGC ACAACATTGT GGCCACTGTC TTCCATCAAC TGCATCATTG 
    TGGCCTTTGT CTTTTCCAAA GGAAAGCCCT TCCGCAAGCC CATCTACACC AATTCTTTTT 
    ACTCATGGAT GA

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

    RefSeq XP_021249013.1
    CDS302..3553
    Translation

    Target ORF information:

    RefSeq Version XM_021393338.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393338.1

    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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGAAGGC AGGAACAAGA TGCTGAGTGT CACCTTGCAG ACATTGCTCG CTCGGGAACC 
    AGACCTTGCC CTCTGCCGAC CCAGGGGGAA ACGGTACCAG CAGCAGCAGT GCCCAGAGCA 
    CCGTCCTCAG CTACGAAGGC ACAACATTGT GGCCACTGTC TTCCATCAAC TGCATCATTG 
    TGGCCTTTGT CTTTTCCAAA GGAAAGCCCT TCCGCAAGCC CATCTACACC AATTCTTTTT 
    ACTCATGGAT GA

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

    ATP13A5 ( XM_021393339.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249014.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONu21101
    Clone ID Related Accession (Same CDS sequence) XM_021393339.1
    Accession Version XM_021393339.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3237bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGACATT GCTCGCTCGG GAACCAGACC TTGCCCTCTG CCGACCCAGG GGGAAACGGT 
    ACCAGCAGCA GCAGTGCCCA GAGCACCGTC CTCAGCTACG AAGGCACAAC ATTGTGGCCA 
    CTGTCTTCCA TCAACTGCAT CATTGTGGCC TTTGTCTTTT CCAAAGGAAA GCCCTTCCGC 
    AAGCCCATCT ACACCAATTC TTTTTACTCA TGGATGAGAG ATCAGGATCT TGCTTAA

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

    RefSeq XP_021249014.1
    CDS302..3538
    Translation

    Target ORF information:

    RefSeq Version XM_021393339.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393339.1

    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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGACATT GCTCGCTCGG GAACCAGACC TTGCCCTCTG CCGACCCAGG GGGAAACGGT 
    ACCAGCAGCA GCAGTGCCCA GAGCACCGTC CTCAGCTACG AAGGCACAAC ATTGTGGCCA 
    CTGTCTTCCA TCAACTGCAT CATTGTGGCC TTTGTCTTTT CCAAAGGAAA GCCCTTCCGC 
    AAGCCCATCT ACACCAATTC TTTTTACTCA TGGATGAGAG ATCAGGATCT TGCTTAA

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

    ATP13A5 ( XM_021393340.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249015.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID ONu21102
    Clone ID Related Accession (Same CDS sequence) XM_021393340.1
    Accession Version XM_021393340.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3201bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGACATT GCTCGCTCGG GAACCAGACC TTGCCCTCTG CCGACCCAGG GGGAAACGGT 
    ACCAGCAGCA GCAGTGCCCA GAGCACCGTC CTCAGCTACG AAGGCACAAC ATTGTGGCCA 
    CTGTCTTCCA TCAACTGCAT CATTGTGGCC TTTGTCTTTT CCAAAGGAAA GCCCTTCCGC 
    AAGCCCATCT ACACCAATTA G

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

    RefSeq XP_021249015.1
    CDS302..3502
    Translation

    Target ORF information:

    RefSeq Version XM_021393340.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393340.1

    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
    ATGGAGGAAA AGATTTGGAA GGATCATTAT GTGCTCCTCA ACAAGGATGA AGAAAATGAG 
    CTGGAGGCTT TTGGCTACAA AAGCCAGGGC TGCCGGAAGG CCCTGTGCAT TGCTGGATAC 
    ATCTTGTCCT GCGGGGCTCT GCTGCTGCTG TTCTACTGGA AGCCAGAATG GGATGTGTGG 
    GCAAACTGTG TCCCCTGCAG CTTGGAAGAA GCAGATGTCA TCCTACTCAG AACAACTGAT 
    GAGTTTCAGA AATACACCCA GAAGAAGGTG ACCTGGATTG ATTTGTCCAC TTTGGCACTA 
    CCCGTTGGTA GTAATTCAGA ATGTCCTCTC ATAGATGATA AAGACTCTGT TATAAACAGA 
    GCCATAATGA AGCCACAGTT AAAGATGAGA TGTATTCAAG TACAGAAAAT CCGTTACATT 
    TGGGACTTTT CTGTAAAAGA GTTCAGGAAA GTTGGATCAC TGGAAGACAG CAACACGTGT 
    CACAGCATAC ACCACAAGTT TGGAGCCGGC CTGACAGGGG AAGAACGGAA AATCAGGCAG 
    CTGGTGTGTG GGCCTAATGC CATCGAAGTT GAAATCCGTC CCATTTGGAA GTTACTTTTT 
    AAAGAGATTT TAAACCCCTT CTATGTGTTC CAAGCCTTCA CTCTCACTCT GTGGCTGAGC 
    CAAGGCTACA TTGAATACTC AGTGGCCATC ATAGTCCTGT CAGTCATTTC TGTTGGCCTA 
    ACTGTGTATG ATCTCAGACA GCAGTCTACC AAGCTGCATG ACCTCGTTGA GGAGCATAAC 
    AAAGTCCAGG TTACAGTCTG CACAAAGAAC GAAGGTTTCA AAGAACTGGA GTCTCGTTGC 
    TTAGTCCCAG GAGATGTTTT TCTTTTAGAT GGAAAAAAGC TCTCCCTCCC ATGTGATGCT 
    ATCCTGATTG ATGGAAGTTG CATTGTGAAT GAAGGGATGC TCACAGGTGA AAGCATTCCA 
    GTTATGAAGA CCCCATTGCC TCTCGCGGAG AGCCCGGAGC CCTGGAAAAC ACACAGCATG 
    GAGGACTACC GAAGACATGT CCTCTTCTGT GGGACTGAAG TCATCCAGGC AAAGTCATCT 
    GGCAGAGGGC TGGTGCGGGC CGTGGTGCTG CAAACCGGGT TCAACACTGC TAAAGGTGAC 
    TTGGTGAGGT CTATCCTCTA CCCCAGACCT GTGAACTTCC AGCTCTACCG AGATGCCTTC 
    AAATTCATTC TAGGCCTCTC TGCCATTGGT GTGTTGGGAT TGATATACAC CGTTTGTGTG 
    TTCACATACC ACAAAAAGCC AGTGGCAGAT GTCGTGTCCA TGGCCCTCCT CCTCCTCACC 
    GCAGCTGTGC CTCCTGCCAT CCCCGCTGCC CTGACCACGG GCACCGTTTA TGCCCAAAGG 
    AGGCTGAAGA AAAAGAAGAT TTTCTGCATC ACTCCACAGA GGATTAATAT CTGCGGGCAA 
    ATCAACCTCG TCTGCTTTGA CAAAACGGGC ACGTTGACAG AAGATGGACT GGACCTGTGG 
    GGCATCCTCC CTTCTGAGGG AAGCTGCTTT CAGAAAATCC ACAAGTTTCC ATCCAGCACT 
    CCTCTGCCCT GGGGACCGGT GTGTGGAGCC ATGGTGAGCT GCCACTCCCT GGTGGTTCTG 
    GATAAGAAGA TTCAAGGAGA CCCACTGGAC CTGAAAATGT TTGAGGGCAC ACACTGGGAG 
    ATAGAAGAGT CCAGCACAGC TTGGGATAGG GCCGGTGCTA TTGATGCCTG CATCGTTAGA 
    CCGGGGCCGA ACGCCAGCAG CGCCCCCGTG GAAGGAATTG CAATCCTGCA TCAATTCCCA 
    TTTTCCTCTG GGCTGCAGAG GATGTCTGTT GTTTCACAGA AGATTGGAGA GGAGCAGTAT 
    GACCTGTACA TGAAAGGAGC ACCAGAAATA GTGTCCAGCT TTTGCAGACA AGAAACCGTC 
    CCAGCTGATT TCTTGGAGGA GCTTAAGTCA TACACAAGCC AAGGCTTCAG AGTGATTGCC 
    CTGGCCCATA AATTGCTGAG CCTTCCAGAG GATGTAGATG TGAGTAACCT GGAGAGAGAA 
    GAGGCAGAGT CTGAGCTAGA GTTTCTGGGC CTCCTGGTGA TGGAGAACCG CCTGAAGCCA 
    GAAACAAAGC CTGTGCTGCG AGAGCTGGCC GCTGCCCGCA TCAGGAGCAT CATGGTCACA 
    GGGGACAACC TTCAGACAGC AGTCACGGTG GCCAGGAGCG CGGCTATGAT TCACGAGGGC 
    AGCAAAGTCA TCATCATTGA AGCCAGCGAA CCAGAGGGCT CCGCTCCAGC TTCCATTGCC 
    TGGCGGTTGG CAGAAGGCAG CAAGGAGGTG TGTGCCAATA CCCAGGAAAA GATCACATTG 
    GAAGGAGAAA GCTGCAACTA CCATTTTGCA ATGAATGGGA AGTCCTACCA GGTTCTCCTA 
    AAGCACTTCT ACAGCTTGCT GCCAAAAATA CTGCTGAATG CGACTGTCTT CGCTAGGATG 
    TCTCCTGGCC AGAAATCCAG CCTTGTTGAA GAGCTTCAGA AACTCGATTA CTACGTGGGT 
    ATGTGTGGTG ATGGAGCCAA TGACTGCGGG GCTCTGAAGA TGGCCCATGC AGGGATATCG 
    CTGTCGGAGC AGGAGGCATC GGTGGCCTCG CCTTTCACCT CACAGATCCC CAACATCCAG 
    TGCATGCCGG AGCTGATCAG GGAAGGTCGA GCTGCTTTGG TGGCTTCCTT TGCTGTTGTT 
    AAATACCTGA CCCTGTACGG CCTGATACAG TTTGTTGGCA CCGCTCTGCT GTTCTGGCAA 
    CTGCAAATCT TTGGGAATTA CCAGTATTTG ATTCAAGACA TGGTCATTAC CCTCCTGGTT 
    TGCCTAACAA TGAGCCTGAC AGAAGCCTAC CCAAAGCTGG CACCCTATCG CCCTCCTGGC 
    CAGCTCATCT CCCCTCCTTT GCTGCTCTCT GTTATTCTCA ACGTGTGCTT TACCATAGCC 
    CTGCAGACCT GTGGCTTCCT GCTGGTGAAG AAGCAGCCCT GGTATGTAGC GCTGGCCAGC 
    TGGAGACATT GCTCGCTCGG GAACCAGACC TTGCCCTCTG CCGACCCAGG GGGAAACGGT 
    ACCAGCAGCA GCAGTGCCCA GAGCACCGTC CTCAGCTACG AAGGCACAAC ATTGTGGCCA 
    CTGTCTTCCA TCAACTGCAT CATTGTGGCC TTTGTCTTTT CCAAAGGAAA GCCCTTCCGC 
    AAGCCCATCT ACACCAATTA G

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

    ATP13A5 ( XM_021393342.1 ) cDNA ORF clone, Numida meleagris(helmeted guineafowl) -> XP_021249017.1 Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID ONu21103
    Clone ID Related Accession (Same CDS sequence) XM_021393342.1
    Accession Version XM_021393342.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3180bp)
    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 2017-06-06
    Organism Numida meleagris(helmeted guineafowl)
    Product probable cation-transporting ATPase 13A5 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034412.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Numida meleagris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAGATGTA TTCAAGTACA GAAAATCCGT TACATTTGGG ACTTTTCTGT AAAAGAGTTC 
    AGGAAAGTTG GATCACTGGA AGACAGCAAC ACGTGTCACA GCATACACCA CAAGTTTGGA 
    GCCGGCCTGA CAGGGGAAGA ACGGAAAATC AGGCAGCTGG TGTGTGGGCC TAATGCCATC 
    GAAGTTGAAA TCCGTCCCAT TTGGAAGTTA CTTTTTAAAG AGATTTTAAA CCCCTTCTAT 
    GTGTTCCAAG CCTTCACTCT CACTCTGTGG CTGAGCCAAG GCTACATTGA ATACTCAGTG 
    GCCATCATAG TCCTGTCAGT CATTTCTGTT GGCCTAACTG TGTATGATCT CAGACAGCAG 
    TCTACCAAGC TGCATGACCT CGTTGAGGAG CATAACAAAG TCCAGGTTAC AGTCTGCACA 
    AAGAACGAAG GTTTCAAAGA ACTGGAGTCT CGTTGCTTAG TCCCAGGAGA TGTTTTTCTT 
    TTAGATGGAA AAAAGCTCTC CCTCCCATGT GATGCTATCC TGATTGATGG AAGTTGCATT 
    GTGAATGAAG GGATGCTCAC AGGTGAAAGC ATTCCAGTTA TGAAGACCCC ATTGCCTCTC 
    GCGGAGAGCC CGGAGCCCTG GAAAACACAC AGCATGGAGG ACTACCGAAG ACATGTCCTC 
    TTCTGTGGGA CTGAAGTCAT CCAGGCAAAG TCATCTGGCA GAGGGCTGGT GCGGGCCGTG 
    GTGCTGCAAA CCGGGTTCAA CACTGCTAAA GGTGACTTGG TGAGGTCTAT CCTCTACCCC 
    AGACCTGTGA ACTTCCAGCT CTACCGAGAT GCCTTCAAAT TCATTCTAGG CCTCTCTGCC 
    ATTGGTGTGT TGGGATTGAT ATACACCGTT TGTGTGTTCA CATACCACAA AAAGCCAGTG 
    GCAGATGTCG TGTCCATGGC CCTCCTCCTC CTCACCGCAG CTGTGCCTCC TGCCATCCCC 
    GCTGCCCTGA CCACGGGCAC CGTTTATGCC CAAAGGAGGC TGAAGAAAAA GAAGATTTTC 
    TGCATCACTC CACAGAGGAT TAATATCTGC GGGCAAATCA ACCTCGTCTG CTTTGACAAA 
    ACGGGCACGT TGACAGAAGA TGGACTGGAC CTGTGGGGCA TCCTCCCTTC TGAGGGAAGC 
    TGCTTTCAGA AAATCCACAA GTTTCCATCC AGCACTCCTC TGCCCTGGGG ACCGGTGTGT 
    GGAGCCATGG TGAGCTGCCA CTCCCTGGTG GTTCTGGATA AGAAGATTCA AGGAGACCCA 
    CTGGACCTGA AAATGTTTGA GGGCACACAC TGGGAGATAG AAGAGTCCAG CACAGCTTGG 
    GATAGGGCCG GTGCTATTGA TGCCTGCATC GTTAGACCGG GGCCGAACGC CAGCAGCGCC 
    CCCGTGGAAG GAATTGCAAT CCTGCATCAA TTCCCATTTT CCTCTGGGCT GCAGAGGATG 
    TCTGTTGTTT CACAGAAGAT TGGAGAGGAG CAGTATGACC TGTACATGAA AGGAGCACCA 
    GAAATAGTGT CCAGCTTTTG CAGACAAGAA ACCGTCCCAG CTGATTTCTT GGAGGAGCTT 
    AAGTCATACA CAAGCCAAGG CTTCAGAGTG ATTGCCCTGG CCCATAAATT GCTGAGCCTT 
    CCAGAGGATG TAGATGTGAG TAACCTGGAG AGAGAAGAGG CAGAGTCTGA GCTAGAGTTT 
    CTGGGCCTCC TGGTGATGGA GAACCGCCTG AAGCCAGAAA CAAAGCCTGT GCTGCGAGAG 
    CTGGCCGCTG CCCGCATCAG GAGCATCATG GTCACAGGGG ACAACCTTCA GACAGCAGTC 
    ACGGTGGCCA GGAGCGCGGC TATGATTCAC GAGGGCAGCA AAGTCATCAT CATTGAAGCC 
    AGCGAACCAG AGGGCTCCGC TCCAGCTTCC ATTGCCTGGC GGTTGGCAGA AGGCAGCAAG 
    GAGGTGTGTG CCAATACCCA GGAAAAGATC ACATTGGAAG GAGAAAGCTG CAACTACCAT 
    TTTGCAATGA ATGGGAAGTC CTACCAGGTT CTCCTAAAGC ACTTCTACAG CTTGCTGCCA 
    AAAATACTGC TGAATGCGAC TGTCTTCGCT AGGATGTCTC CTGGCCAGAA ATCCAGCCTT 
    GTTGAAGAGC TTCAGAAACT CGATTACTAC GTGGGTATGT GTGGTGATGG AGCCAATGAC 
    TGCGGGGCTC TGAAGATGGC CCATGCAGGG ATATCGCTGT CGGAGCAGGA GGCATCGGTG 
    GCCTCGCCTT TCACCTCACA GATCCCCAAC ATCCAGTGCA TGCCGGAGCT GATCAGGGAA 
    GGTCGAGCTG CTTTGGTGGC TTCCTTTGCT GTTGTTAAAT ACCTGACCCT GTACGGCCTG 
    ATACAGTTTG TTGGCACCGC TCTGCTGTTC TGGCAACTGC AAATCTTTGG GAATTACCAG 
    TATTTGATTC AAGACATGGT CATTACCCTC CTGGTTTGCC TAACAATGAG CCTGACAGAA 
    GCCTACCCAA AGCTGGCACC CTATCGCCCT CCTGGCCAGC TCATCTCCCC TCCTTTGCTG 
    CTCTCTGTTA TTCTCAACGT GTGCTTTACC ATAGCCCTGC AGACCTGTGG CTTCCTGCTG 
    GTGAAGAAGC AGCCCTGGTA TGTAGCGCTG GCCAGCTGGA GACATTGCTC GCTCGGGAAC 
    CAGACCTTGC CCTCTGCCGA CCCAGGGGGA AACGGTACCA GCAGCAGCAG TGCCCAGAGC 
    ACCGTCCTCA GCTACGAAGG CACAACATTG TGGCCACTGT CTTCCATCAA CTGCATCATT 
    GTGGCCTTTG TCTTTTCCAA AGGAAAGCCC TTCCGCAAGC CCATCTACAC CAATTATGTA 
    TTTTCAGCCC TCCTGGCCCT CCAGCTCGCC GTCTGCCTCT TCCTCTTCCT CGCTGACATG 
    GATGCTGTGT ACAGTGGCAT GCAGTTTCTT TGCACTCCTG TGATCTGGAG AGTTTATGTC 
    CTACTGATGC TCTTGGTCAC CTTCTGTGTA TCTTTTTTTA CGGAGGATGT TCTCCTGCAG 
    AACAAGCACC TCTGGATGCT GATTAAAGCC TGCGTTGGGT ACCAGTCGAA AAGCCAGTAC 
    CGAAAGTGGC AGTGGATGCT GCAGAGGGAT CCAAACTGGC CTCCTGTAAA CACCAAGGAT 
    TTTGCAGCAA GAAGCACAGC TGAGGTTTAC ATTAACCCCA GCTACGAGCA CAGGGACTAG

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

    RefSeq XP_021249017.1
    CDS349..3528
    Translation

    Target ORF information:

    RefSeq Version XM_021393342.1
    Organism Numida meleagris(helmeted guineafowl)
    Definition Numida meleagris ATPase 13A5 (ATP13A5), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021393342.1

    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
    ATGAGATGTA TTCAAGTACA GAAAATCCGT TACATTTGGG ACTTTTCTGT AAAAGAGTTC 
    AGGAAAGTTG GATCACTGGA AGACAGCAAC ACGTGTCACA GCATACACCA CAAGTTTGGA 
    GCCGGCCTGA CAGGGGAAGA ACGGAAAATC AGGCAGCTGG TGTGTGGGCC TAATGCCATC 
    GAAGTTGAAA TCCGTCCCAT TTGGAAGTTA CTTTTTAAAG AGATTTTAAA CCCCTTCTAT 
    GTGTTCCAAG CCTTCACTCT CACTCTGTGG CTGAGCCAAG GCTACATTGA ATACTCAGTG 
    GCCATCATAG TCCTGTCAGT CATTTCTGTT GGCCTAACTG TGTATGATCT CAGACAGCAG 
    TCTACCAAGC TGCATGACCT CGTTGAGGAG CATAACAAAG TCCAGGTTAC AGTCTGCACA 
    AAGAACGAAG GTTTCAAAGA ACTGGAGTCT CGTTGCTTAG TCCCAGGAGA TGTTTTTCTT 
    TTAGATGGAA AAAAGCTCTC CCTCCCATGT GATGCTATCC TGATTGATGG AAGTTGCATT 
    GTGAATGAAG GGATGCTCAC AGGTGAAAGC ATTCCAGTTA TGAAGACCCC ATTGCCTCTC 
    GCGGAGAGCC CGGAGCCCTG GAAAACACAC AGCATGGAGG ACTACCGAAG ACATGTCCTC 
    TTCTGTGGGA CTGAAGTCAT CCAGGCAAAG TCATCTGGCA GAGGGCTGGT GCGGGCCGTG 
    GTGCTGCAAA CCGGGTTCAA CACTGCTAAA GGTGACTTGG TGAGGTCTAT CCTCTACCCC 
    AGACCTGTGA ACTTCCAGCT CTACCGAGAT GCCTTCAAAT TCATTCTAGG CCTCTCTGCC 
    ATTGGTGTGT TGGGATTGAT ATACACCGTT TGTGTGTTCA CATACCACAA AAAGCCAGTG 
    GCAGATGTCG TGTCCATGGC CCTCCTCCTC CTCACCGCAG CTGTGCCTCC TGCCATCCCC 
    GCTGCCCTGA CCACGGGCAC CGTTTATGCC CAAAGGAGGC TGAAGAAAAA GAAGATTTTC 
    TGCATCACTC CACAGAGGAT TAATATCTGC GGGCAAATCA ACCTCGTCTG CTTTGACAAA 
    ACGGGCACGT TGACAGAAGA TGGACTGGAC CTGTGGGGCA TCCTCCCTTC TGAGGGAAGC 
    TGCTTTCAGA AAATCCACAA GTTTCCATCC AGCACTCCTC TGCCCTGGGG ACCGGTGTGT 
    GGAGCCATGG TGAGCTGCCA CTCCCTGGTG GTTCTGGATA AGAAGATTCA AGGAGACCCA 
    CTGGACCTGA AAATGTTTGA GGGCACACAC TGGGAGATAG AAGAGTCCAG CACAGCTTGG 
    GATAGGGCCG GTGCTATTGA TGCCTGCATC GTTAGACCGG GGCCGAACGC CAGCAGCGCC 
    CCCGTGGAAG GAATTGCAAT CCTGCATCAA TTCCCATTTT CCTCTGGGCT GCAGAGGATG 
    TCTGTTGTTT CACAGAAGAT TGGAGAGGAG CAGTATGACC TGTACATGAA AGGAGCACCA 
    GAAATAGTGT CCAGCTTTTG CAGACAAGAA ACCGTCCCAG CTGATTTCTT GGAGGAGCTT 
    AAGTCATACA CAAGCCAAGG CTTCAGAGTG ATTGCCCTGG CCCATAAATT GCTGAGCCTT 
    CCAGAGGATG TAGATGTGAG TAACCTGGAG AGAGAAGAGG CAGAGTCTGA GCTAGAGTTT 
    CTGGGCCTCC TGGTGATGGA GAACCGCCTG AAGCCAGAAA CAAAGCCTGT GCTGCGAGAG 
    CTGGCCGCTG CCCGCATCAG GAGCATCATG GTCACAGGGG ACAACCTTCA GACAGCAGTC 
    ACGGTGGCCA GGAGCGCGGC TATGATTCAC GAGGGCAGCA AAGTCATCAT CATTGAAGCC 
    AGCGAACCAG AGGGCTCCGC TCCAGCTTCC ATTGCCTGGC GGTTGGCAGA AGGCAGCAAG 
    GAGGTGTGTG CCAATACCCA GGAAAAGATC ACATTGGAAG GAGAAAGCTG CAACTACCAT 
    TTTGCAATGA ATGGGAAGTC CTACCAGGTT CTCCTAAAGC ACTTCTACAG CTTGCTGCCA 
    AAAATACTGC TGAATGCGAC TGTCTTCGCT AGGATGTCTC CTGGCCAGAA ATCCAGCCTT 
    GTTGAAGAGC TTCAGAAACT CGATTACTAC GTGGGTATGT GTGGTGATGG AGCCAATGAC 
    TGCGGGGCTC TGAAGATGGC CCATGCAGGG ATATCGCTGT CGGAGCAGGA GGCATCGGTG 
    GCCTCGCCTT TCACCTCACA GATCCCCAAC ATCCAGTGCA TGCCGGAGCT GATCAGGGAA 
    GGTCGAGCTG CTTTGGTGGC TTCCTTTGCT GTTGTTAAAT ACCTGACCCT GTACGGCCTG 
    ATACAGTTTG TTGGCACCGC TCTGCTGTTC TGGCAACTGC AAATCTTTGG GAATTACCAG 
    TATTTGATTC AAGACATGGT CATTACCCTC CTGGTTTGCC TAACAATGAG CCTGACAGAA 
    GCCTACCCAA AGCTGGCACC CTATCGCCCT CCTGGCCAGC TCATCTCCCC TCCTTTGCTG 
    CTCTCTGTTA TTCTCAACGT GTGCTTTACC ATAGCCCTGC AGACCTGTGG CTTCCTGCTG 
    GTGAAGAAGC AGCCCTGGTA TGTAGCGCTG GCCAGCTGGA GACATTGCTC GCTCGGGAAC 
    CAGACCTTGC CCTCTGCCGA CCCAGGGGGA AACGGTACCA GCAGCAGCAG TGCCCAGAGC 
    ACCGTCCTCA GCTACGAAGG CACAACATTG TGGCCACTGT CTTCCATCAA CTGCATCATT 
    GTGGCCTTTG TCTTTTCCAA AGGAAAGCCC TTCCGCAAGC CCATCTACAC CAATTATGTA 
    TTTTCAGCCC TCCTGGCCCT CCAGCTCGCC GTCTGCCTCT TCCTCTTCCT CGCTGACATG 
    GATGCTGTGT ACAGTGGCAT GCAGTTTCTT TGCACTCCTG TGATCTGGAG AGTTTATGTC 
    CTACTGATGC TCTTGGTCAC CTTCTGTGTA TCTTTTTTTA CGGAGGATGT TCTCCTGCAG 
    AACAAGCACC TCTGGATGCT GATTAAAGCC TGCGTTGGGT ACCAGTCGAA AAGCCAGTAC 
    CGAAAGTGGC AGTGGATGCT GCAGAGGGAT CCAAACTGGC CTCCTGTAAA CACCAAGGAT 
    TTTGCAGCAA GAAGCACAGC TGAGGTTTAC ATTAACCCCA GCTACGAGCA CAGGGACTAG

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

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