ORF » Species Summary » Alligator mississippiensis » GHDC cDNA ORF clone

GHDC cDNA ORF clone, Alligator mississippiensis(American alligator)

The following GHDC gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GHDC 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
OAl48604 XM_019476365.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl48604 XM_019476358.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl48605 XM_019476376.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OAl48606 XM_019476379.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OAl48607 XM_006264559.3
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OAl48602 XM_019476351.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OAl48602 XM_019476334.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OAl48602 XM_019476372.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OAl48603 XM_019476343.1
Latest version!		 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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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)
    GHDC ( XM_019476358.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331903.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAl48604
    Clone ID Related Accession (Same CDS sequence) XM_019476358.1 , XM_019476365.1
    Accession Version XM_019476358.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4380bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    4201
    4261
    4321
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGCGG GTCATGCCAC ATCTCCGCTC GACCACCTGA

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

    RefSeq XP_019331903.1
    CDS10..4389
    Translation

    Target ORF information:

    RefSeq Version XM_019476358.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476358.1

    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
    4201
    4261
    4321
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGCGG GTCATGCCAC ATCTCCGCTC GACCACCTGA

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

    GHDC ( XM_019476365.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331910.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAl48604
    Clone ID Related Accession (Same CDS sequence) XM_019476358.1 , XM_019476365.1
    Accession Version XM_019476365.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4380bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    4201
    4261
    4321
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGCGG GTCATGCCAC ATCTCCGCTC GACCACCTGA

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

    RefSeq XP_019331910.1
    CDS10..4389
    Translation

    Target ORF information:

    RefSeq Version XM_019476365.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476365.1

    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
    4201
    4261
    4321
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGCGG GTCATGCCAC ATCTCCGCTC GACCACCTGA

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

    GHDC ( XM_019476376.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331921.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OAl48605
    Clone ID Related Accession (Same CDS sequence) XM_019476376.1
    Accession Version XM_019476376.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3072bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGAAGGATG GCTCTCGCCA GCGGCCGGTG CAGAAAAAGA AGACTGTGTC CTTCAGCACC 
    ATGCCCAATG ACCGGAAGAT CAACAGTACA GCAGCCTGCA TCTCCTTCAT GCTGGAGGGC 
    TGTGAGATGA AAAAAGTACG CTCCAACTCC CGCATGTACA GCCGCTTCTT CGTGCTGGAC 
    CCTGACATGC GTTTCTTGCG CTGGGAGCCT TCCAAGAAAG ACTCGGAGAA GGCCAAGATT 
    GAAATCAAGT CGGTCAAGGA GGTGCGGGTG GGGAAGAAGA CTCCTGTCTT GCGAAGCAAT 
    GGACTCTCCG ACCAGTTCCC TGATGAGTGT GCTTTCTCCA TCCTCTATGG GGACAATTAT 
    GAGTCCCTGG ACCTGGTGGC CACCTCAGCT GATGTAGTGA ATGCCTGGGT GATGGGGCTG 
    AGGTACTTGG TGTCCTATGG GAAGCACACG CTGGAGGCTC CCGAGGCTGG CCATCCCAGC 
    CTCCGGACCT CCTGGATCTC CTCTGTCTTC GACCTTGCTG ACCTAGAGAA GGCAGGCCGC 
    ATCCCTGTCT CCCGGGCCGT GCAGCTCATC AAGGCCTTGA ACCCAGGCAT GAAAGCCTCC 
    ACCATCGAGC TGAAGTTCAA GGAGCTGCAA AAGGCCAGTG AGCGGCCAGG GGGGGAGGTG 
    GCATGTGACC TCTTTGTGGA GGCCTACTGT GAACTGTGCA CCAGGCCTGA GATTTTCTTT 
    CTCATGGTCC AGTTCTCCAG CAATAAGGAG TACCTGGGCC TGAAGGACCT GATGATATTT 
    CTGGAGGTAG AGCAGGGCAT GGAGGGCGTG ACAGAGGAGA TGTGTCTGGA GATAATTGGC 
    AAATACGAGC CCTCCAAAGA AGGCCGGGAG AAGGGCTACA TGGCCATCGA TGGCTTCACC 
    CGCTACCTTC TCTCCTCTGA CTGCTCCATC TTTGACCCAC AGCACCGTAA GGTATGCCAG 
    GACATGGCAC AACCCCTCTC GCACTACTAC ATCAGCTCAG CCCACAGTGC CTGCCTCCTG 
    GAGGACAACT TCTGGGGCAG CTCGGACATC AGTGGCTATG TCAGTGCCCT GCGCACAGGC 
    TGCCGCAGCC TCGAGCTGGT GGTGTGGGAT GGCCCGGATG GTGAGCCTGT GGTCTATGCT 
    GGTCGCTCGA CTACCTCCCG TGTGCCCTTC CGCACCGTGG TGGGCGTTAT TGACCAGTAT 
    GCCTTTGAGG CCTCGGACTA CCCCCTCATC CTCTGCCTGG CTGTGCGCTG CTCACCCCCC 
    CAGCAGAGGC TGATGGCCCA GTACATGAAG AAGAGCCTAG AGGGGAAGCT CTATCTGGAC 
    CCCCCAGACC CTGAGGAGGC TTATTTGCCA TCCCCAGAGA GACTCAAGAG TAAGATCCTC 
    ATCAAGGGCA AGAAGCTGCC GCCCAACTGC CATGACAGCG AGGGGGATGT GACGGATGAG 
    GACGAGAGCC TGGAGCTATC ACGTCGCCTG GGAGAGGATG ACAAAGAGCA GCCTGAGGGG 
    GGTGGGCTTC ACCGGCTGCG GCTGAGCCAG GAGCTGTCCG AGTTGGTCAG CTTGTGCCAG 
    TCTGTGACTT TCCGGGATTT TGAGGCCTCA CGGCGGGGGC AGCGCTACTG GGAGGTCTGC 
    TCCTTCAGTG AGGTTGAGGC CGGGCGCTTC GCCAATGAGT GCCCTGAGGA GCTGGTGGGT 
    TACAATAAGC GGTTCCTGTC ACGGGTCTAT CCCAGCGCCA TACGTATCGA TGCCAGCAAC 
    ATGAACCCCC AGGACTTCTG GAAGTGTGGC TGCCAGATGG TGGCCATGAA CTACCAGACA 
    CCGGGACTGA TGATGGACCT CAATGCTGCC TGGTTCCGCC AAAACGGGGG CTGTGGCTAT 
    GTCCTGCGCC CCTCCATTAT GCGGGAGGAG GTGTCCTACT TCAGCGCCAA TGCCAAGGAC 
    TCGCTGCCCG GTGTCCCTGC CCAGCTCCTG CACCTCAAGA TCATCAGCGG GCAGAATCTG 
    CCCAAGCCCA AGGGCTCAGG CGCCAAGGGT GAGGTAGTGG AGCCCTATGT GTGTGCGGAG 
    ATCCATGGCA TCCCGGCTGA CTGCGCTGAG CATCGCACCA AGACAGCTTT GCAGAGCGGG 
    GACAATCCCG TCTTTGATGA GAGCCTGGAG TTCCAGATCA ACCTGCCTGA GCTGGCTGTG 
    CTGCGCTTCG TGGTGCTGGA TGATGACTAC ATTGGGGATG AGTTCATTGC CCAGTACACC 
    ATCCCCTTTG AGTGCCTGCA GACTGGGTAC CGCCATGTGC CCCTGCAGGC ACTGACTGGC 
    GAGTCCCTCC CCAATGCCAC CCTCTTTGTG CACGTGGCCA TCACTGACCG CCGGGGTGGG 
    GGCAGGGGGC ACAAGCGGGG GCTCTCGGTG CGTAAGGGCC GTCGGGTACG GGAGTACACC 
    TCCACCAAGG CCACCGGCAT CAAAGCCATT GACGAGGTCT TCCGCACAGC CACCCAGCCC 
    CTGCGGGAAG CCACTGACCT CCGGGAGAAT GTGCAGAATG CGCTGGTGTC CTTCAAGGAG 
    CTGTGTGGGC TTACACCAGC GGCCAACATG AAGCAGTGCA TCTTGACAGT GGCCACGTGG 
    CTTCTGCACA GCGAGGGCGC CCCCACCGTC ACGCTCAACC TGGGTGAGCA GTACCCGGCC 
    ATGGAGGCCC AGGGACCCAT CCCCGAGCTG CTACGCAAAG TGCTCACCGC CTACGAGACT 
    ATGATCCAGA CCAGCCGGAC CCTTATTGAA TCCGCTGATG CAGTATACAG CAAGCTCATC 
    CAAGCCCAGC AAGCAGGGAT GGATTTCCAC AAAGAGCTGC ACCGGCTGGA GGCCAAGGAG 
    GGGCTAAAGG GCAGGAAGCT GCAGAAGGCA CTGGAGAGTT TTGCGTGGAA CATCACTGTG 
    CTGAAGGGCC AAGCTGATTT GCTCAAACAG GCCAAGGCAG AGGCATTGGA CAACCTGTGG 
    CAGATCCACA ATGCCGGACA GTCCTGTGGC ATCGGCAGGA ATGGCTCAGC CTCCCCAGAA 
    CCCAGCCGGG TCCGGACCCC ACTGGAGCCC ATTCCTGAGA CAGAAGGAGG CAGTGACATG 
    GCATCTTGCT GA

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

    RefSeq XP_019331921.1
    CDS68..3139
    Translation

    Target ORF information:

    RefSeq Version XM_019476376.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476376.1

    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
    ATGAAGGATG GCTCTCGCCA GCGGCCGGTG CAGAAAAAGA AGACTGTGTC CTTCAGCACC 
    ATGCCCAATG ACCGGAAGAT CAACAGTACA GCAGCCTGCA TCTCCTTCAT GCTGGAGGGC 
    TGTGAGATGA AAAAAGTACG CTCCAACTCC CGCATGTACA GCCGCTTCTT CGTGCTGGAC 
    CCTGACATGC GTTTCTTGCG CTGGGAGCCT TCCAAGAAAG ACTCGGAGAA GGCCAAGATT 
    GAAATCAAGT CGGTCAAGGA GGTGCGGGTG GGGAAGAAGA CTCCTGTCTT GCGAAGCAAT 
    GGACTCTCCG ACCAGTTCCC TGATGAGTGT GCTTTCTCCA TCCTCTATGG GGACAATTAT 
    GAGTCCCTGG ACCTGGTGGC CACCTCAGCT GATGTAGTGA ATGCCTGGGT GATGGGGCTG 
    AGGTACTTGG TGTCCTATGG GAAGCACACG CTGGAGGCTC CCGAGGCTGG CCATCCCAGC 
    CTCCGGACCT CCTGGATCTC CTCTGTCTTC GACCTTGCTG ACCTAGAGAA GGCAGGCCGC 
    ATCCCTGTCT CCCGGGCCGT GCAGCTCATC AAGGCCTTGA ACCCAGGCAT GAAAGCCTCC 
    ACCATCGAGC TGAAGTTCAA GGAGCTGCAA AAGGCCAGTG AGCGGCCAGG GGGGGAGGTG 
    GCATGTGACC TCTTTGTGGA GGCCTACTGT GAACTGTGCA CCAGGCCTGA GATTTTCTTT 
    CTCATGGTCC AGTTCTCCAG CAATAAGGAG TACCTGGGCC TGAAGGACCT GATGATATTT 
    CTGGAGGTAG AGCAGGGCAT GGAGGGCGTG ACAGAGGAGA TGTGTCTGGA GATAATTGGC 
    AAATACGAGC CCTCCAAAGA AGGCCGGGAG AAGGGCTACA TGGCCATCGA TGGCTTCACC 
    CGCTACCTTC TCTCCTCTGA CTGCTCCATC TTTGACCCAC AGCACCGTAA GGTATGCCAG 
    GACATGGCAC AACCCCTCTC GCACTACTAC ATCAGCTCAG CCCACAGTGC CTGCCTCCTG 
    GAGGACAACT TCTGGGGCAG CTCGGACATC AGTGGCTATG TCAGTGCCCT GCGCACAGGC 
    TGCCGCAGCC TCGAGCTGGT GGTGTGGGAT GGCCCGGATG GTGAGCCTGT GGTCTATGCT 
    GGTCGCTCGA CTACCTCCCG TGTGCCCTTC CGCACCGTGG TGGGCGTTAT TGACCAGTAT 
    GCCTTTGAGG CCTCGGACTA CCCCCTCATC CTCTGCCTGG CTGTGCGCTG CTCACCCCCC 
    CAGCAGAGGC TGATGGCCCA GTACATGAAG AAGAGCCTAG AGGGGAAGCT CTATCTGGAC 
    CCCCCAGACC CTGAGGAGGC TTATTTGCCA TCCCCAGAGA GACTCAAGAG TAAGATCCTC 
    ATCAAGGGCA AGAAGCTGCC GCCCAACTGC CATGACAGCG AGGGGGATGT GACGGATGAG 
    GACGAGAGCC TGGAGCTATC ACGTCGCCTG GGAGAGGATG ACAAAGAGCA GCCTGAGGGG 
    GGTGGGCTTC ACCGGCTGCG GCTGAGCCAG GAGCTGTCCG AGTTGGTCAG CTTGTGCCAG 
    TCTGTGACTT TCCGGGATTT TGAGGCCTCA CGGCGGGGGC AGCGCTACTG GGAGGTCTGC 
    TCCTTCAGTG AGGTTGAGGC CGGGCGCTTC GCCAATGAGT GCCCTGAGGA GCTGGTGGGT 
    TACAATAAGC GGTTCCTGTC ACGGGTCTAT CCCAGCGCCA TACGTATCGA TGCCAGCAAC 
    ATGAACCCCC AGGACTTCTG GAAGTGTGGC TGCCAGATGG TGGCCATGAA CTACCAGACA 
    CCGGGACTGA TGATGGACCT CAATGCTGCC TGGTTCCGCC AAAACGGGGG CTGTGGCTAT 
    GTCCTGCGCC CCTCCATTAT GCGGGAGGAG GTGTCCTACT TCAGCGCCAA TGCCAAGGAC 
    TCGCTGCCCG GTGTCCCTGC CCAGCTCCTG CACCTCAAGA TCATCAGCGG GCAGAATCTG 
    CCCAAGCCCA AGGGCTCAGG CGCCAAGGGT GAGGTAGTGG AGCCCTATGT GTGTGCGGAG 
    ATCCATGGCA TCCCGGCTGA CTGCGCTGAG CATCGCACCA AGACAGCTTT GCAGAGCGGG 
    GACAATCCCG TCTTTGATGA GAGCCTGGAG TTCCAGATCA ACCTGCCTGA GCTGGCTGTG 
    CTGCGCTTCG TGGTGCTGGA TGATGACTAC ATTGGGGATG AGTTCATTGC CCAGTACACC 
    ATCCCCTTTG AGTGCCTGCA GACTGGGTAC CGCCATGTGC CCCTGCAGGC ACTGACTGGC 
    GAGTCCCTCC CCAATGCCAC CCTCTTTGTG CACGTGGCCA TCACTGACCG CCGGGGTGGG 
    GGCAGGGGGC ACAAGCGGGG GCTCTCGGTG CGTAAGGGCC GTCGGGTACG GGAGTACACC 
    TCCACCAAGG CCACCGGCAT CAAAGCCATT GACGAGGTCT TCCGCACAGC CACCCAGCCC 
    CTGCGGGAAG CCACTGACCT CCGGGAGAAT GTGCAGAATG CGCTGGTGTC CTTCAAGGAG 
    CTGTGTGGGC TTACACCAGC GGCCAACATG AAGCAGTGCA TCTTGACAGT GGCCACGTGG 
    CTTCTGCACA GCGAGGGCGC CCCCACCGTC ACGCTCAACC TGGGTGAGCA GTACCCGGCC 
    ATGGAGGCCC AGGGACCCAT CCCCGAGCTG CTACGCAAAG TGCTCACCGC CTACGAGACT 
    ATGATCCAGA CCAGCCGGAC CCTTATTGAA TCCGCTGATG CAGTATACAG CAAGCTCATC 
    CAAGCCCAGC AAGCAGGGAT GGATTTCCAC AAAGAGCTGC ACCGGCTGGA GGCCAAGGAG 
    GGGCTAAAGG GCAGGAAGCT GCAGAAGGCA CTGGAGAGTT TTGCGTGGAA CATCACTGTG 
    CTGAAGGGCC AAGCTGATTT GCTCAAACAG GCCAAGGCAG AGGCATTGGA CAACCTGTGG 
    CAGATCCACA ATGCCGGACA GTCCTGTGGC ATCGGCAGGA ATGGCTCAGC CTCCCCAGAA 
    CCCAGCCGGG TCCGGACCCC ACTGGAGCCC ATTCCTGAGA CAGAAGGAGG CAGTGACATG 
    GCATCTTGCT GA

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

    GHDC ( XM_019476379.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331924.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OAl48606
    Clone ID Related Accession (Same CDS sequence) XM_019476379.1
    Accession Version XM_019476379.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3069bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGGATGGCT CTCGCCAGCG GCCGGTGCAG AAAAAGAAGA CTGTGTCCTT CAGCACCATG 
    CCCAATGACC GGAAGATCAA CAGTACAGCA GCCTGCATCT CCTTCATGCT GGAGGGCTGT 
    GAGATGAAAA AAGTACGCTC CAACTCCCGC ATGTACAGCC GCTTCTTCGT GCTGGACCCT 
    GACATGCGTT TCTTGCGCTG GGAGCCTTCC AAGAAAGACT CGGAGAAGGC CAAGATTGAA 
    ATCAAGTCGG TCAAGGAGGT GCGGGTGGGG AAGAAGACTC CTGTCTTGCG AAGCAATGGA 
    CTCTCCGACC AGTTCCCTGA TGAGTGTGCT TTCTCCATCC TCTATGGGGA CAATTATGAG 
    TCCCTGGACC TGGTGGCCAC CTCAGCTGAT GTAGTGAATG CCTGGGTGAT GGGGCTGAGG 
    TACTTGGTGT CCTATGGGAA GCACACGCTG GAGGCTCCCG AGGCTGGCCA TCCCAGCCTC 
    CGGACCTCCT GGATCTCCTC TGTCTTCGAC CTTGCTGACC TAGAGAAGGC AGGCCGCATC 
    CCTGTCTCCC GGGCCGTGCA GCTCATCAAG GCCTTGAACC CAGGCATGAA AGCCTCCACC 
    ATCGAGCTGA AGTTCAAGGA GCTGCAAAAG GCCAGTGAGC GGCCAGGGGG GGAGGTGGCA 
    TGTGACCTCT TTGTGGAGGC CTACTGTGAA CTGTGCACCA GGCCTGAGAT TTTCTTTCTC 
    ATGGTCCAGT TCTCCAGCAA TAAGGAGTAC CTGGGCCTGA AGGACCTGAT GATATTTCTG 
    GAGGTAGAGC AGGGCATGGA GGGCGTGACA GAGGAGATGT GTCTGGAGAT AATTGGCAAA 
    TACGAGCCCT CCAAAGAAGG CCGGGAGAAG GGCTACATGG CCATCGATGG CTTCACCCGC 
    TACCTTCTCT CCTCTGACTG CTCCATCTTT GACCCACAGC ACCGTAAGGT ATGCCAGGAC 
    ATGGCACAAC CCCTCTCGCA CTACTACATC AGCTCAGCCC ACAGTGCCTG CCTCCTGGAG 
    GACAACTTCT GGGGCAGCTC GGACATCAGT GGCTATGTCA GTGCCCTGCG CACAGGCTGC 
    CGCAGCCTCG AGCTGGTGGT GTGGGATGGC CCGGATGGTG AGCCTGTGGT CTATGCTGGT 
    CGCTCGACTA CCTCCCGTGT GCCCTTCCGC ACCGTGGTGG GCGTTATTGA CCAGTATGCC 
    TTTGAGGCCT CGGACTACCC CCTCATCCTC TGCCTGGCTG TGCGCTGCTC ACCCCCCCAG 
    CAGAGGCTGA TGGCCCAGTA CATGAAGAAG AGCCTAGAGG GGAAGCTCTA TCTGGACCCC 
    CCAGACCCTG AGGAGGCTTA TTTGCCATCC CCAGAGAGAC TCAAGAGTAA GATCCTCATC 
    AAGGGCAAGA AGCTGCCGCC CAACTGCCAT GACAGCGAGG GGGATGTGAC GGATGAGGAC 
    GAGAGCCTGG AGCTATCACG TCGCCTGGGA GAGGATGACA AAGAGCAGCC TGAGGGGGGT 
    GGGCTTCACC GGCTGCGGCT GAGCCAGGAG CTGTCCGAGT TGGTCAGCTT GTGCCAGTCT 
    GTGACTTTCC GGGATTTTGA GGCCTCACGG CGGGGGCAGC GCTACTGGGA GGTCTGCTCC 
    TTCAGTGAGG TTGAGGCCGG GCGCTTCGCC AATGAGTGCC CTGAGGAGCT GGTGGGTTAC 
    AATAAGCGGT TCCTGTCACG GGTCTATCCC AGCGCCATAC GTATCGATGC CAGCAACATG 
    AACCCCCAGG ACTTCTGGAA GTGTGGCTGC CAGATGGTGG CCATGAACTA CCAGACACCG 
    GGACTGATGA TGGACCTCAA TGCTGCCTGG TTCCGCCAAA ACGGGGGCTG TGGCTATGTC 
    CTGCGCCCCT CCATTATGCG GGAGGAGGTG TCCTACTTCA GCGCCAATGC CAAGGACTCG 
    CTGCCCGGTG TCCCTGCCCA GCTCCTGCAC CTCAAGATCA TCAGCGGGCA GAATCTGCCC 
    AAGCCCAAGG GCTCAGGCGC CAAGGGTGAG GTAGTGGAGC CCTATGTGTG TGCGGAGATC 
    CATGGCATCC CGGCTGACTG CGCTGAGCAT CGCACCAAGA CAGCTTTGCA GAGCGGGGAC 
    AATCCCGTCT TTGATGAGAG CCTGGAGTTC CAGATCAACC TGCCTGAGCT GGCTGTGCTG 
    CGCTTCGTGG TGCTGGATGA TGACTACATT GGGGATGAGT TCATTGCCCA GTACACCATC 
    CCCTTTGAGT GCCTGCAGAC TGGGTACCGC CATGTGCCCC TGCAGGCACT GACTGGCGAG 
    TCCCTCCCCA ATGCCACCCT CTTTGTGCAC GTGGCCATCA CTGACCGCCG GGGTGGGGGC 
    AGGGGGCACA AGCGGGGGCT CTCGGTGCGT AAGGGCCGTC GGGTACGGGA GTACACCTCC 
    ACCAAGGCCA CCGGCATCAA AGCCATTGAC GAGGTCTTCC GCACAGCCAC CCAGCCCCTG 
    CGGGAAGCCA CTGACCTCCG GGAGAATGTG CAGAATGCGC TGGTGTCCTT CAAGGAGCTG 
    TGTGGGCTTA CACCAGCGGC CAACATGAAG CAGTGCATCT TGACAGTGGC CACGTGGCTT 
    CTGCACAGCG AGGGCGCCCC CACCGTCACG CTCAACCTGG GTGAGCAGTA CCCGGCCATG 
    GAGGCCCAGG GACCCATCCC CGAGCTGCTA CGCAAAGTGC TCACCGCCTA CGAGACTATG 
    ATCCAGACCA GCCGGACCCT TATTGAATCC GCTGATGCAG TATACAGCAA GCTCATCCAA 
    GCCCAGCAAG CAGGGATGGA TTTCCACAAA GAGCTGCACC GGCTGGAGGC CAAGGAGGGG 
    CTAAAGGGCA GGAAGCTGCA GAAGGCACTG GAGAGTTTTG CGTGGAACAT CACTGTGCTG 
    AAGGGCCAAG CTGATTTGCT CAAACAGGCC AAGGCAGAGG CATTGGACAA CCTGTGGCAG 
    ATCCACAATG CCGGACAGTC CTGTGGCATC GGCAGGAATG GCTCAGCCTC CCCAGAACCC 
    AGCCGGGTCC GGACCCCACT GGAGCCCATT CCTGAGACAG AAGGAGGCAG TGACATGGCA 
    TCTTGCTGA

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

    RefSeq XP_019331924.1
    CDS114..3182
    Translation

    Target ORF information:

    RefSeq Version XM_019476379.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476379.1

    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
    ATGGATGGCT CTCGCCAGCG GCCGGTGCAG AAAAAGAAGA CTGTGTCCTT CAGCACCATG 
    CCCAATGACC GGAAGATCAA CAGTACAGCA GCCTGCATCT CCTTCATGCT GGAGGGCTGT 
    GAGATGAAAA AAGTACGCTC CAACTCCCGC ATGTACAGCC GCTTCTTCGT GCTGGACCCT 
    GACATGCGTT TCTTGCGCTG GGAGCCTTCC AAGAAAGACT CGGAGAAGGC CAAGATTGAA 
    ATCAAGTCGG TCAAGGAGGT GCGGGTGGGG AAGAAGACTC CTGTCTTGCG AAGCAATGGA 
    CTCTCCGACC AGTTCCCTGA TGAGTGTGCT TTCTCCATCC TCTATGGGGA CAATTATGAG 
    TCCCTGGACC TGGTGGCCAC CTCAGCTGAT GTAGTGAATG CCTGGGTGAT GGGGCTGAGG 
    TACTTGGTGT CCTATGGGAA GCACACGCTG GAGGCTCCCG AGGCTGGCCA TCCCAGCCTC 
    CGGACCTCCT GGATCTCCTC TGTCTTCGAC CTTGCTGACC TAGAGAAGGC AGGCCGCATC 
    CCTGTCTCCC GGGCCGTGCA GCTCATCAAG GCCTTGAACC CAGGCATGAA AGCCTCCACC 
    ATCGAGCTGA AGTTCAAGGA GCTGCAAAAG GCCAGTGAGC GGCCAGGGGG GGAGGTGGCA 
    TGTGACCTCT TTGTGGAGGC CTACTGTGAA CTGTGCACCA GGCCTGAGAT TTTCTTTCTC 
    ATGGTCCAGT TCTCCAGCAA TAAGGAGTAC CTGGGCCTGA AGGACCTGAT GATATTTCTG 
    GAGGTAGAGC AGGGCATGGA GGGCGTGACA GAGGAGATGT GTCTGGAGAT AATTGGCAAA 
    TACGAGCCCT CCAAAGAAGG CCGGGAGAAG GGCTACATGG CCATCGATGG CTTCACCCGC 
    TACCTTCTCT CCTCTGACTG CTCCATCTTT GACCCACAGC ACCGTAAGGT ATGCCAGGAC 
    ATGGCACAAC CCCTCTCGCA CTACTACATC AGCTCAGCCC ACAGTGCCTG CCTCCTGGAG 
    GACAACTTCT GGGGCAGCTC GGACATCAGT GGCTATGTCA GTGCCCTGCG CACAGGCTGC 
    CGCAGCCTCG AGCTGGTGGT GTGGGATGGC CCGGATGGTG AGCCTGTGGT CTATGCTGGT 
    CGCTCGACTA CCTCCCGTGT GCCCTTCCGC ACCGTGGTGG GCGTTATTGA CCAGTATGCC 
    TTTGAGGCCT CGGACTACCC CCTCATCCTC TGCCTGGCTG TGCGCTGCTC ACCCCCCCAG 
    CAGAGGCTGA TGGCCCAGTA CATGAAGAAG AGCCTAGAGG GGAAGCTCTA TCTGGACCCC 
    CCAGACCCTG AGGAGGCTTA TTTGCCATCC CCAGAGAGAC TCAAGAGTAA GATCCTCATC 
    AAGGGCAAGA AGCTGCCGCC CAACTGCCAT GACAGCGAGG GGGATGTGAC GGATGAGGAC 
    GAGAGCCTGG AGCTATCACG TCGCCTGGGA GAGGATGACA AAGAGCAGCC TGAGGGGGGT 
    GGGCTTCACC GGCTGCGGCT GAGCCAGGAG CTGTCCGAGT TGGTCAGCTT GTGCCAGTCT 
    GTGACTTTCC GGGATTTTGA GGCCTCACGG CGGGGGCAGC GCTACTGGGA GGTCTGCTCC 
    TTCAGTGAGG TTGAGGCCGG GCGCTTCGCC AATGAGTGCC CTGAGGAGCT GGTGGGTTAC 
    AATAAGCGGT TCCTGTCACG GGTCTATCCC AGCGCCATAC GTATCGATGC CAGCAACATG 
    AACCCCCAGG ACTTCTGGAA GTGTGGCTGC CAGATGGTGG CCATGAACTA CCAGACACCG 
    GGACTGATGA TGGACCTCAA TGCTGCCTGG TTCCGCCAAA ACGGGGGCTG TGGCTATGTC 
    CTGCGCCCCT CCATTATGCG GGAGGAGGTG TCCTACTTCA GCGCCAATGC CAAGGACTCG 
    CTGCCCGGTG TCCCTGCCCA GCTCCTGCAC CTCAAGATCA TCAGCGGGCA GAATCTGCCC 
    AAGCCCAAGG GCTCAGGCGC CAAGGGTGAG GTAGTGGAGC CCTATGTGTG TGCGGAGATC 
    CATGGCATCC CGGCTGACTG CGCTGAGCAT CGCACCAAGA CAGCTTTGCA GAGCGGGGAC 
    AATCCCGTCT TTGATGAGAG CCTGGAGTTC CAGATCAACC TGCCTGAGCT GGCTGTGCTG 
    CGCTTCGTGG TGCTGGATGA TGACTACATT GGGGATGAGT TCATTGCCCA GTACACCATC 
    CCCTTTGAGT GCCTGCAGAC TGGGTACCGC CATGTGCCCC TGCAGGCACT GACTGGCGAG 
    TCCCTCCCCA ATGCCACCCT CTTTGTGCAC GTGGCCATCA CTGACCGCCG GGGTGGGGGC 
    AGGGGGCACA AGCGGGGGCT CTCGGTGCGT AAGGGCCGTC GGGTACGGGA GTACACCTCC 
    ACCAAGGCCA CCGGCATCAA AGCCATTGAC GAGGTCTTCC GCACAGCCAC CCAGCCCCTG 
    CGGGAAGCCA CTGACCTCCG GGAGAATGTG CAGAATGCGC TGGTGTCCTT CAAGGAGCTG 
    TGTGGGCTTA CACCAGCGGC CAACATGAAG CAGTGCATCT TGACAGTGGC CACGTGGCTT 
    CTGCACAGCG AGGGCGCCCC CACCGTCACG CTCAACCTGG GTGAGCAGTA CCCGGCCATG 
    GAGGCCCAGG GACCCATCCC CGAGCTGCTA CGCAAAGTGC TCACCGCCTA CGAGACTATG 
    ATCCAGACCA GCCGGACCCT TATTGAATCC GCTGATGCAG TATACAGCAA GCTCATCCAA 
    GCCCAGCAAG CAGGGATGGA TTTCCACAAA GAGCTGCACC GGCTGGAGGC CAAGGAGGGG 
    CTAAAGGGCA GGAAGCTGCA GAAGGCACTG GAGAGTTTTG CGTGGAACAT CACTGTGCTG 
    AAGGGCCAAG CTGATTTGCT CAAACAGGCC AAGGCAGAGG CATTGGACAA CCTGTGGCAG 
    ATCCACAATG CCGGACAGTC CTGTGGCATC GGCAGGAATG GCTCAGCCTC CCCAGAACCC 
    AGCCGGGTCC GGACCCCACT GGAGCCCATT CCTGAGACAG AAGGAGGCAG TGACATGGCA 
    TCTTGCTGA

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

    GHDC ( XM_006264559.3 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006264621.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OAl48607
    Clone ID Related Accession (Same CDS sequence) XM_006264559.3
    Accession Version XM_006264559.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3012bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_006264559.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGCCCAATG ACCGGAAGAT CAACAGTACA GCAGCCTGCA TCTCCTTCAT GCTGGAGGGC 
    TGTGAGATGA AAAAAGTACG CTCCAACTCC CGCATGTACA GCCGCTTCTT CGTGCTGGAC 
    CCTGACATGC GTTTCTTGCG CTGGGAGCCT TCCAAGAAAG ACTCGGAGAA GGCCAAGATT 
    GAAATCAAGT CGGTCAAGGA GGTGCGGGTG GGGAAGAAGA CTCCTGTCTT GCGAAGCAAT 
    GGACTCTCCG ACCAGTTCCC TGATGAGTGT GCTTTCTCCA TCCTCTATGG GGACAATTAT 
    GAGTCCCTGG ACCTGGTGGC CACCTCAGCT GATGTAGTGA ATGCCTGGGT GATGGGGCTG 
    AGGTACTTGG TGTCCTATGG GAAGCACACG CTGGAGGCTC CCGAGGCTGG CCATCCCAGC 
    CTCCGGACCT CCTGGATCTC CTCTGTCTTC GACCTTGCTG ACCTAGAGAA GGCAGGCCGC 
    ATCCCTGTCT CCCGGGCCGT GCAGCTCATC AAGGCCTTGA ACCCAGGCAT GAAAGCCTCC 
    ACCATCGAGC TGAAGTTCAA GGAGCTGCAA AAGGCCAGTG AGCGGCCAGG GGGGGAGGTG 
    GCATGTGACC TCTTTGTGGA GGCCTACTGT GAACTGTGCA CCAGGCCTGA GATTTTCTTT 
    CTCATGGTCC AGTTCTCCAG CAATAAGGAG TACCTGGGCC TGAAGGACCT GATGATATTT 
    CTGGAGGTAG AGCAGGGCAT GGAGGGCGTG ACAGAGGAGA TGTGTCTGGA GATAATTGGC 
    AAATACGAGC CCTCCAAAGA AGGCCGGGAG AAGGGCTACA TGGCCATCGA TGGCTTCACC 
    CGCTACCTTC TCTCCTCTGA CTGCTCCATC TTTGACCCAC AGCACCGTAA GGTATGCCAG 
    GACATGGCAC AACCCCTCTC GCACTACTAC ATCAGCTCAG CCCACAGTGC CTGCCTCCTG 
    GAGGACAACT TCTGGGGCAG CTCGGACATC AGTGGCTATG TCAGTGCCCT GCGCACAGGC 
    TGCCGCAGCC TCGAGCTGGT GGTGTGGGAT GGCCCGGATG GTGAGCCTGT GGTCTATGCT 
    GGTCGCTCGA CTACCTCCCG TGTGCCCTTC CGCACCGTGG TGGGCGTTAT TGACCAGTAT 
    GCCTTTGAGG CCTCGGACTA CCCCCTCATC CTCTGCCTGG CTGTGCGCTG CTCACCCCCC 
    CAGCAGAGGC TGATGGCCCA GTACATGAAG AAGAGCCTAG AGGGGAAGCT CTATCTGGAC 
    CCCCCAGACC CTGAGGAGGC TTATTTGCCA TCCCCAGAGA GACTCAAGAG TAAGATCCTC 
    ATCAAGGGCA AGAAGCTGCC GCCCAACTGC CATGACAGCG AGGGGGATGT GACGGATGAG 
    GACGAGAGCC TGGAGCTATC ACGTCGCCTG GGAGAGGATG ACAAAGAGCA GCCTGAGGGG 
    GGTGGGCTTC ACCGGCTGCG GCTGAGCCAG GAGCTGTCCG AGTTGGTCAG CTTGTGCCAG 
    TCTGTGACTT TCCGGGATTT TGAGGCCTCA CGGCGGGGGC AGCGCTACTG GGAGGTCTGC 
    TCCTTCAGTG AGGTTGAGGC CGGGCGCTTC GCCAATGAGT GCCCTGAGGA GCTGGTGGGT 
    TACAATAAGC GGTTCCTGTC ACGGGTCTAT CCCAGCGCCA TACGTATCGA TGCCAGCAAC 
    ATGAACCCCC AGGACTTCTG GAAGTGTGGC TGCCAGATGG TGGCCATGAA CTACCAGACA 
    CCGGGACTGA TGATGGACCT CAATGCTGCC TGGTTCCGCC AAAACGGGGG CTGTGGCTAT 
    GTCCTGCGCC CCTCCATTAT GCGGGAGGAG GTGTCCTACT TCAGCGCCAA TGCCAAGGAC 
    TCGCTGCCCG GTGTCCCTGC CCAGCTCCTG CACCTCAAGA TCATCAGCGG GCAGAATCTG 
    CCCAAGCCCA AGGGCTCAGG CGCCAAGGGT GAGGTAGTGG AGCCCTATGT GTGTGCGGAG 
    ATCCATGGCA TCCCGGCTGA CTGCGCTGAG CATCGCACCA AGACAGCTTT GCAGAGCGGG 
    GACAATCCCG TCTTTGATGA GAGCCTGGAG TTCCAGATCA ACCTGCCTGA GCTGGCTGTG 
    CTGCGCTTCG TGGTGCTGGA TGATGACTAC ATTGGGGATG AGTTCATTGC CCAGTACACC 
    ATCCCCTTTG AGTGCCTGCA GACTGGGTAC CGCCATGTGC CCCTGCAGGC ACTGACTGGC 
    GAGTCCCTCC CCAATGCCAC CCTCTTTGTG CACGTGGCCA TCACTGACCG CCGGGGTGGG 
    GGCAGGGGGC ACAAGCGGGG GCTCTCGGTG CGTAAGGGCC GTCGGGTACG GGAGTACACC 
    TCCACCAAGG CCACCGGCAT CAAAGCCATT GACGAGGTCT TCCGCACAGC CACCCAGCCC 
    CTGCGGGAAG CCACTGACCT CCGGGAGAAT GTGCAGAATG CGCTGGTGTC CTTCAAGGAG 
    CTGTGTGGGC TTACACCAGC GGCCAACATG AAGCAGTGCA TCTTGACAGT GGCCACGTGG 
    CTTCTGCACA GCGAGGGCGC CCCCACCGTC ACGCTCAACC TGGGTGAGCA GTACCCGGCC 
    ATGGAGGCCC AGGGACCCAT CCCCGAGCTG CTACGCAAAG TGCTCACCGC CTACGAGACT 
    ATGATCCAGA CCAGCCGGAC CCTTATTGAA TCCGCTGATG CAGTATACAG CAAGCTCATC 
    CAAGCCCAGC AAGCAGGGAT GGATTTCCAC AAAGAGCTGC ACCGGCTGGA GGCCAAGGAG 
    GGGCTAAAGG GCAGGAAGCT GCAGAAGGCA CTGGAGAGTT TTGCGTGGAA CATCACTGTG 
    CTGAAGGGCC AAGCTGATTT GCTCAAACAG GCCAAGGCAG AGGCATTGGA CAACCTGTGG 
    CAGATCCACA ATGCCGGACA GTCCTGTGGC ATCGGCAGGA ATGGCTCAGC CTCCCCAGAA 
    CCCAGCCGGG TCCGGACCCC ACTGGAGCCC ATTCCTGAGA CAGAAGGAGG CAGTGACATG 
    GCATCTTGCT GA

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

    RefSeq XP_006264621.1
    CDS869..3880
    Translation

    Target ORF information:

    RefSeq Version XM_006264559.3
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006264559.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGCCCAATG ACCGGAAGAT CAACAGTACA GCAGCCTGCA TCTCCTTCAT GCTGGAGGGC 
    TGTGAGATGA AAAAAGTACG CTCCAACTCC CGCATGTACA GCCGCTTCTT CGTGCTGGAC 
    CCTGACATGC GTTTCTTGCG CTGGGAGCCT TCCAAGAAAG ACTCGGAGAA GGCCAAGATT 
    GAAATCAAGT CGGTCAAGGA GGTGCGGGTG GGGAAGAAGA CTCCTGTCTT GCGAAGCAAT 
    GGACTCTCCG ACCAGTTCCC TGATGAGTGT GCTTTCTCCA TCCTCTATGG GGACAATTAT 
    GAGTCCCTGG ACCTGGTGGC CACCTCAGCT GATGTAGTGA ATGCCTGGGT GATGGGGCTG 
    AGGTACTTGG TGTCCTATGG GAAGCACACG CTGGAGGCTC CCGAGGCTGG CCATCCCAGC 
    CTCCGGACCT CCTGGATCTC CTCTGTCTTC GACCTTGCTG ACCTAGAGAA GGCAGGCCGC 
    ATCCCTGTCT CCCGGGCCGT GCAGCTCATC AAGGCCTTGA ACCCAGGCAT GAAAGCCTCC 
    ACCATCGAGC TGAAGTTCAA GGAGCTGCAA AAGGCCAGTG AGCGGCCAGG GGGGGAGGTG 
    GCATGTGACC TCTTTGTGGA GGCCTACTGT GAACTGTGCA CCAGGCCTGA GATTTTCTTT 
    CTCATGGTCC AGTTCTCCAG CAATAAGGAG TACCTGGGCC TGAAGGACCT GATGATATTT 
    CTGGAGGTAG AGCAGGGCAT GGAGGGCGTG ACAGAGGAGA TGTGTCTGGA GATAATTGGC 
    AAATACGAGC CCTCCAAAGA AGGCCGGGAG AAGGGCTACA TGGCCATCGA TGGCTTCACC 
    CGCTACCTTC TCTCCTCTGA CTGCTCCATC TTTGACCCAC AGCACCGTAA GGTATGCCAG 
    GACATGGCAC AACCCCTCTC GCACTACTAC ATCAGCTCAG CCCACAGTGC CTGCCTCCTG 
    GAGGACAACT TCTGGGGCAG CTCGGACATC AGTGGCTATG TCAGTGCCCT GCGCACAGGC 
    TGCCGCAGCC TCGAGCTGGT GGTGTGGGAT GGCCCGGATG GTGAGCCTGT GGTCTATGCT 
    GGTCGCTCGA CTACCTCCCG TGTGCCCTTC CGCACCGTGG TGGGCGTTAT TGACCAGTAT 
    GCCTTTGAGG CCTCGGACTA CCCCCTCATC CTCTGCCTGG CTGTGCGCTG CTCACCCCCC 
    CAGCAGAGGC TGATGGCCCA GTACATGAAG AAGAGCCTAG AGGGGAAGCT CTATCTGGAC 
    CCCCCAGACC CTGAGGAGGC TTATTTGCCA TCCCCAGAGA GACTCAAGAG TAAGATCCTC 
    ATCAAGGGCA AGAAGCTGCC GCCCAACTGC CATGACAGCG AGGGGGATGT GACGGATGAG 
    GACGAGAGCC TGGAGCTATC ACGTCGCCTG GGAGAGGATG ACAAAGAGCA GCCTGAGGGG 
    GGTGGGCTTC ACCGGCTGCG GCTGAGCCAG GAGCTGTCCG AGTTGGTCAG CTTGTGCCAG 
    TCTGTGACTT TCCGGGATTT TGAGGCCTCA CGGCGGGGGC AGCGCTACTG GGAGGTCTGC 
    TCCTTCAGTG AGGTTGAGGC CGGGCGCTTC GCCAATGAGT GCCCTGAGGA GCTGGTGGGT 
    TACAATAAGC GGTTCCTGTC ACGGGTCTAT CCCAGCGCCA TACGTATCGA TGCCAGCAAC 
    ATGAACCCCC AGGACTTCTG GAAGTGTGGC TGCCAGATGG TGGCCATGAA CTACCAGACA 
    CCGGGACTGA TGATGGACCT CAATGCTGCC TGGTTCCGCC AAAACGGGGG CTGTGGCTAT 
    GTCCTGCGCC CCTCCATTAT GCGGGAGGAG GTGTCCTACT TCAGCGCCAA TGCCAAGGAC 
    TCGCTGCCCG GTGTCCCTGC CCAGCTCCTG CACCTCAAGA TCATCAGCGG GCAGAATCTG 
    CCCAAGCCCA AGGGCTCAGG CGCCAAGGGT GAGGTAGTGG AGCCCTATGT GTGTGCGGAG 
    ATCCATGGCA TCCCGGCTGA CTGCGCTGAG CATCGCACCA AGACAGCTTT GCAGAGCGGG 
    GACAATCCCG TCTTTGATGA GAGCCTGGAG TTCCAGATCA ACCTGCCTGA GCTGGCTGTG 
    CTGCGCTTCG TGGTGCTGGA TGATGACTAC ATTGGGGATG AGTTCATTGC CCAGTACACC 
    ATCCCCTTTG AGTGCCTGCA GACTGGGTAC CGCCATGTGC CCCTGCAGGC ACTGACTGGC 
    GAGTCCCTCC CCAATGCCAC CCTCTTTGTG CACGTGGCCA TCACTGACCG CCGGGGTGGG 
    GGCAGGGGGC ACAAGCGGGG GCTCTCGGTG CGTAAGGGCC GTCGGGTACG GGAGTACACC 
    TCCACCAAGG CCACCGGCAT CAAAGCCATT GACGAGGTCT TCCGCACAGC CACCCAGCCC 
    CTGCGGGAAG CCACTGACCT CCGGGAGAAT GTGCAGAATG CGCTGGTGTC CTTCAAGGAG 
    CTGTGTGGGC TTACACCAGC GGCCAACATG AAGCAGTGCA TCTTGACAGT GGCCACGTGG 
    CTTCTGCACA GCGAGGGCGC CCCCACCGTC ACGCTCAACC TGGGTGAGCA GTACCCGGCC 
    ATGGAGGCCC AGGGACCCAT CCCCGAGCTG CTACGCAAAG TGCTCACCGC CTACGAGACT 
    ATGATCCAGA CCAGCCGGAC CCTTATTGAA TCCGCTGATG CAGTATACAG CAAGCTCATC 
    CAAGCCCAGC AAGCAGGGAT GGATTTCCAC AAAGAGCTGC ACCGGCTGGA GGCCAAGGAG 
    GGGCTAAAGG GCAGGAAGCT GCAGAAGGCA CTGGAGAGTT TTGCGTGGAA CATCACTGTG 
    CTGAAGGGCC AAGCTGATTT GCTCAAACAG GCCAAGGCAG AGGCATTGGA CAACCTGTGG 
    CAGATCCACA ATGCCGGACA GTCCTGTGGC ATCGGCAGGA ATGGCTCAGC CTCCCCAGAA 
    CCCAGCCGGG TCCGGACCCC ACTGGAGCCC ATTCCTGAGA CAGAAGGAGG CAGTGACATG 
    GCATCTTGCT GA

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

    GHDC ( XM_019476351.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331896.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAl48602
    Clone ID Related Accession (Same CDS sequence) XM_019476351.1 , XM_019476334.1 , XM_019476372.1
    Accession Version XM_019476351.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGGGC CAAGCTGATT TGCTCAAACA GGCCAAGGCA 
    GAGGCATTGG ACAACCTGTG GCAGATCCAC AATGCCGGAC AGTCCTGTGG CATCGGCAGG 
    AATGGCTCAG CCTCCCCAGA ACCCAGCCGG GTCCGGACCC CACTGGAGCC CATTCCTGAG 
    ACAGAAGGAG GCAGTGACAT GGCATCTTGC TGA

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

    RefSeq XP_019331896.1
    CDS33..4565
    Translation

    Target ORF information:

    RefSeq Version XM_019476351.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476351.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGGGC CAAGCTGATT TGCTCAAACA GGCCAAGGCA 
    GAGGCATTGG ACAACCTGTG GCAGATCCAC AATGCCGGAC AGTCCTGTGG CATCGGCAGG 
    AATGGCTCAG CCTCCCCAGA ACCCAGCCGG GTCCGGACCC CACTGGAGCC CATTCCTGAG 
    ACAGAAGGAG GCAGTGACAT GGCATCTTGC TGA

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

    GHDC ( XM_019476334.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331879.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl48602
    Clone ID Related Accession (Same CDS sequence) XM_019476351.1 , XM_019476334.1 , XM_019476372.1
    Accession Version XM_019476334.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGGGC CAAGCTGATT TGCTCAAACA GGCCAAGGCA 
    GAGGCATTGG ACAACCTGTG GCAGATCCAC AATGCCGGAC AGTCCTGTGG CATCGGCAGG 
    AATGGCTCAG CCTCCCCAGA ACCCAGCCGG GTCCGGACCC CACTGGAGCC CATTCCTGAG 
    ACAGAAGGAG GCAGTGACAT GGCATCTTGC TGA

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

    RefSeq XP_019331879.1
    CDS95..4627
    Translation

    Target ORF information:

    RefSeq Version XM_019476334.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476334.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGGGC CAAGCTGATT TGCTCAAACA GGCCAAGGCA 
    GAGGCATTGG ACAACCTGTG GCAGATCCAC AATGCCGGAC AGTCCTGTGG CATCGGCAGG 
    AATGGCTCAG CCTCCCCAGA ACCCAGCCGG GTCCGGACCC CACTGGAGCC CATTCCTGAG 
    ACAGAAGGAG GCAGTGACAT GGCATCTTGC TGA

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

    GHDC ( XM_019476372.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331917.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OAl48602
    Clone ID Related Accession (Same CDS sequence) XM_019476351.1 , XM_019476334.1 , XM_019476372.1
    Accession Version XM_019476372.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGGGC CAAGCTGATT TGCTCAAACA GGCCAAGGCA 
    GAGGCATTGG ACAACCTGTG GCAGATCCAC AATGCCGGAC AGTCCTGTGG CATCGGCAGG 
    AATGGCTCAG CCTCCCCAGA ACCCAGCCGG GTCCGGACCC CACTGGAGCC CATTCCTGAG 
    ACAGAAGGAG GCAGTGACAT GGCATCTTGC TGA

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

    RefSeq XP_019331917.1
    CDS104..4636
    Translation

    Target ORF information:

    RefSeq Version XM_019476372.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476372.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGAAT 
    GCGCTGGTGT CCTTCAAGGA GCTGTGTGGG CTTACACCAG CGGCCAACAT GAAGCAGTGC 
    ATCTTGACAG TGGCCACGTG GCTTCTGCAC AGCGAGGGCG CCCCCACCGT CACGCTCAAC 
    CTGGGTGAGC AGTACCCGGC CATGGAGGCC CAGGGACCCA TCCCCGAGCT GCTACGCAAA 
    GTGCTCACCG CCTACGAGAC TATGATCCAG ACCAGCCGGA CCCTTATTGA ATCCGCTGAT 
    GCAGTATACA GCAAGCTCAT CCAAGCCCAG CAAGCAGGGA TGGATTTCCA CAAAGAGCTG 
    CACCGGCTGG AGGCCAAGGA GGGGCTAAAG GGCAGGAAGC TGCAGAAGGC ACTGGAGAGT 
    TTTGCGTGGA ACATCACTGT GCTGAAGGGC CAAGCTGATT TGCTCAAACA GGCCAAGGCA 
    GAGGCATTGG ACAACCTGTG GCAGATCCAC AATGCCGGAC AGTCCTGTGG CATCGGCAGG 
    AATGGCTCAG CCTCCCCAGA ACCCAGCCGG GTCCGGACCC CACTGGAGCC CATTCCTGAG 
    ACAGAAGGAG GCAGTGACAT GGCATCTTGC TGA

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

    GHDC ( XM_019476343.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019331888.1 Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl48603
    Clone ID Related Accession (Same CDS sequence) XM_019476343.1
    Accession Version XM_019476343.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4512bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-08
    Organism Alligator mississippiensis(American alligator)
    Product GH3 domain-containing protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707913.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGGAG 
    CTGTGTGGGC TTACACCAGC GGCCAACATG AAGCAGTGCA TCTTGACAGT GGCCACGTGG 
    CTTCTGCACA GCGAGGGCGC CCCCACCGTC ACGCTCAACC TGGGTGAGCA GTACCCGGCC 
    ATGGAGGCCC AGGGACCCAT CCCCGAGCTG CTACGCAAAG TGCTCACCGC CTACGAGACT 
    ATGATCCAGA CCAGCCGGAC CCTTATTGAA TCCGCTGATG CAGTATACAG CAAGCTCATC 
    CAAGCCCAGC AAGCAGGGAT GGATTTCCAC AAAGAGCTGC ACCGGCTGGA GGCCAAGGAG 
    GGGCTAAAGG GCAGGAAGCT GCAGAAGGCA CTGGAGAGTT TTGCGTGGAA CATCACTGTG 
    CTGAAGGGCC AAGCTGATTT GCTCAAACAG GCCAAGGCAG AGGCATTGGA CAACCTGTGG 
    CAGATCCACA ATGCCGGACA GTCCTGTGGC ATCGGCAGGA ATGGCTCAGC CTCCCCAGAA 
    CCCAGCCGGG TCCGGACCCC ACTGGAGCCC ATTCCTGAGA CAGAAGGAGG CAGTGACATG 
    GCATCTTGCT GA

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

    RefSeq XP_019331888.1
    CDS10..4521
    Translation

    Target ORF information:

    RefSeq Version XM_019476343.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis GH3 domain containing (GHDC), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019476343.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTCCTCC TGCTCCTCGC CGCCCTCCTG GGCACTGGGC TGCTCCTGCT GCTCTGGGCC 
    CGCGGGAGGC CTGGCAGGGC AGCAGGACGG AGCCAGCGCT GGAGGCTGCT GCTGGGGCAC 
    AGCCTGGTGC TTGGGGGCCT GGGCTGGGCC ACGAGCCGGC AGCGCCGGTG CCTGGAGAAC 
    CAGACCAAGG ACGTGCGGCA GAGCCAGGAG CGGTGCCTGC TGCGGCTGTT GAAGGAAGCT 
    GGGGACACGG AGCCAGACTC TAACACCTTC CGGGAGCATC ACCCCTTGAA ACCAGGCAGG 
    CTTGATAAGG ATGGGAGCCG CCAGCCCATC CTGCACCCTG GCAGCCTGCC CGGCCCATGG 
    ACCCTGCTCC AGAGCTGCTG GGCCTTGGAT GCCCCGCTGC AGGGGTCCAT GTTGTACCTA 
    GACATCCTCA GCAAAGTGTA CCCAGGTGCA CTGACCCCGC AGGCCACTGC TGTCTTCTCC 
    TGTGCCCCAG GCTGCCCATG CCCTGCCACA GCCTGTCCCC TGCCCACACT GTACTGTATG 
    CCAGCAGGGT TGGGTGATGA CATTGTGCCC TCACGCAGCT CAGCCCTCTA TGTGCAGCTG 
    CTGTTTGCCC TGCAGGAGCA GGCACTGCGA GTGTTAAAGG CTGGGTTGGC CTCGGAGCTC 
    CATGATGCCT TGGCCATCCT GCACACCAAC TGGGAGGGTC TGGCAGAGGA CCTAGCCTCA 
    GGATGGCTGA GCCCACAGCT GAAACTACCT GAGGGGACTC GGTACCAGCT GGACAGCCTC 
    CTGTCTCCCA ACCCGGTGCG GGCGGCAGAG CTGAGGGCTG AGTGCTCTAG GGGTTTTGAT 
    GGCATTGCCC AGCGCCTATG GCCAGAGCTC CAGGCAGTGG TGGTGGGGGA GTCTGGCAGT 
    GAGCAGCTCT ATGGAGACAC CCTGCGGGAA CAGGACTGCA AGGGCATCCC CTTCTACTCC 
    CCCTTCTATA TAGCAACAGG AGCTCTGCTT GGAGTGAACC TATGGCCAGA GGAATCTGAT 
    TGCCGTTACC TGCTGTGCCC GGGCTGGGCA TTCTGTGAGT TCCTCCCAGC AGGGACTCAC 
    AGTGAGGAAC CACTGGAGAC AGTGCTGCTG GGGGACGTAT GGGAAGGCCA GGAGTATGAG 
    CTGGTGCTCA GCGCCCACCC TGGGCAGTAC AGGTGCCGTG TTGGGGAGGT GGTGAAGGTG 
    ACTGGATTCT ATCACCAGTG TCCTGTGGTG GAACCTGTGC GCAGGCTGAG CCAGACCCTG 
    AGTGTGCGGG GAGAGAGCAT CCCTGAGGAC CACTTCTGCC ACACCCTGCA CCGTGCTGTG 
    GGGATGTGGC CAGGAGCTAA ACTGGTTGAC TACATCTGTG CGGAGAGCAG CCTGCTGGGT 
    GCCACCTCTG GGACCTCTGC CCCCCATTAC CAGGTGTTCA TGGAGCTCCG TGGCCTGCGG 
    GATCTGACAG AGGGACAGCG CTATAAGGAT GGCTCTCGCC AGCGGCCGGT GCAGAAAAAG 
    AAGACTGTGT CCTTCAGCAC CATGCCCAAT GACCGGAAGA TCAACAGTAC AGCAGCCTGC 
    ATCTCCTTCA TGCTGGAGGG CTGTGAGATG AAAAAAGTAC GCTCCAACTC CCGCATGTAC 
    AGCCGCTTCT TCGTGCTGGA CCCTGACATG CGTTTCTTGC GCTGGGAGCC TTCCAAGAAA 
    GACTCGGAGA AGGCCAAGAT TGAAATCAAG TCGGTCAAGG AGGTGCGGGT GGGGAAGAAG 
    ACTCCTGTCT TGCGAAGCAA TGGACTCTCC GACCAGTTCC CTGATGAGTG TGCTTTCTCC 
    ATCCTCTATG GGGACAATTA TGAGTCCCTG GACCTGGTGG CCACCTCAGC TGATGTAGTG 
    AATGCCTGGG TGATGGGGCT GAGGTACTTG GTGTCCTATG GGAAGCACAC GCTGGAGGCT 
    CCCGAGGCTG GCCATCCCAG CCTCCGGACC TCCTGGATCT CCTCTGTCTT CGACCTTGCT 
    GACCTAGAGA AGGCAGGCCG CATCCCTGTC TCCCGGGCCG TGCAGCTCAT CAAGGCCTTG 
    AACCCAGGCA TGAAAGCCTC CACCATCGAG CTGAAGTTCA AGGAGCTGCA AAAGGCCAGT 
    GAGCGGCCAG GGGGGGAGGT GGCATGTGAC CTCTTTGTGG AGGCCTACTG TGAACTGTGC 
    ACCAGGCCTG AGATTTTCTT TCTCATGGTC CAGTTCTCCA GCAATAAGGA GTACCTGGGC 
    CTGAAGGACC TGATGATATT TCTGGAGGTA GAGCAGGGCA TGGAGGGCGT GACAGAGGAG 
    ATGTGTCTGG AGATAATTGG CAAATACGAG CCCTCCAAAG AAGGCCGGGA GAAGGGCTAC 
    ATGGCCATCG ATGGCTTCAC CCGCTACCTT CTCTCCTCTG ACTGCTCCAT CTTTGACCCA 
    CAGCACCGTA AGGTATGCCA GGACATGGCA CAACCCCTCT CGCACTACTA CATCAGCTCA 
    GCCCACAGTG CCTGCCTCCT GGAGGACAAC TTCTGGGGCA GCTCGGACAT CAGTGGCTAT 
    GTCAGTGCCC TGCGCACAGG CTGCCGCAGC CTCGAGCTGG TGGTGTGGGA TGGCCCGGAT 
    GGTGAGCCTG TGGTCTATGC TGGTCGCTCG ACTACCTCCC GTGTGCCCTT CCGCACCGTG 
    GTGGGCGTTA TTGACCAGTA TGCCTTTGAG GCCTCGGACT ACCCCCTCAT CCTCTGCCTG 
    GCTGTGCGCT GCTCACCCCC CCAGCAGAGG CTGATGGCCC AGTACATGAA GAAGAGCCTA 
    GAGGGGAAGC TCTATCTGGA CCCCCCAGAC CCTGAGGAGG CTTATTTGCC ATCCCCAGAG 
    AGACTCAAGA GTAAGATCCT CATCAAGGGC AAGAAGCTGC CGCCCAACTG CCATGACAGC 
    GAGGGGGATG TGACGGATGA GGACGAGAGC CTGGAGCTAT CACGTCGCCT GGGAGAGGAT 
    GACAAAGAGC AGCCTGAGGG GGGTGGGCTT CACCGGCTGC GGCTGAGCCA GGAGCTGTCC 
    GAGTTGGTCA GCTTGTGCCA GTCTGTGACT TTCCGGGATT TTGAGGCCTC ACGGCGGGGG 
    CAGCGCTACT GGGAGGTCTG CTCCTTCAGT GAGGTTGAGG CCGGGCGCTT CGCCAATGAG 
    TGCCCTGAGG AGCTGGTGGG TTACAATAAG CGGTTCCTGT CACGGGTCTA TCCCAGCGCC 
    ATACGTATCG ATGCCAGCAA CATGAACCCC CAGGACTTCT GGAAGTGTGG CTGCCAGATG 
    GTGGCCATGA ACTACCAGAC ACCGGGACTG ATGATGGACC TCAATGCTGC CTGGTTCCGC 
    CAAAACGGGG GCTGTGGCTA TGTCCTGCGC CCCTCCATTA TGCGGGAGGA GGTGTCCTAC 
    TTCAGCGCCA ATGCCAAGGA CTCGCTGCCC GGTGTCCCTG CCCAGCTCCT GCACCTCAAG 
    ATCATCAGCG GGCAGAATCT GCCCAAGCCC AAGGGCTCAG GCGCCAAGGG TGAGGTAGTG 
    GAGCCCTATG TGTGTGCGGA GATCCATGGC ATCCCGGCTG ACTGCGCTGA GCATCGCACC 
    AAGACAGCTT TGCAGAGCGG GGACAATCCC GTCTTTGATG AGAGCCTGGA GTTCCAGATC 
    AACCTGCCTG AGCTGGCTGT GCTGCGCTTC GTGGTGCTGG ATGATGACTA CATTGGGGAT 
    GAGTTCATTG CCCAGTACAC CATCCCCTTT GAGTGCCTGC AGACTGGGTA CCGCCATGTG 
    CCCCTGCAGG CACTGACTGG CGAGTCCCTC CCCAATGCCA CCCTCTTTGT GCACGTGGCC 
    ATCACTGACC GCCGGGGTGG GGGCAGGGGG CACAAGCGGG GGCTCTCGGT GCGTAAGGGC 
    CGTCGGGTAC GGGAGTACAC CTCCACCAAG GCCACCGGCA TCAAAGCCAT TGACGAGGTC 
    TTCCGCACAG CCACCCAGCC CCTGCGGGAA GCCACTGACC TCCGGGAGAA TGTGCAGGAG 
    CTGTGTGGGC TTACACCAGC GGCCAACATG AAGCAGTGCA TCTTGACAGT GGCCACGTGG 
    CTTCTGCACA GCGAGGGCGC CCCCACCGTC ACGCTCAACC TGGGTGAGCA GTACCCGGCC 
    ATGGAGGCCC AGGGACCCAT CCCCGAGCTG CTACGCAAAG TGCTCACCGC CTACGAGACT 
    ATGATCCAGA CCAGCCGGAC CCTTATTGAA TCCGCTGATG CAGTATACAG CAAGCTCATC 
    CAAGCCCAGC AAGCAGGGAT GGATTTCCAC AAAGAGCTGC ACCGGCTGGA GGCCAAGGAG 
    GGGCTAAAGG GCAGGAAGCT GCAGAAGGCA CTGGAGAGTT TTGCGTGGAA CATCACTGTG 
    CTGAAGGGCC AAGCTGATTT GCTCAAACAG GCCAAGGCAG AGGCATTGGA CAACCTGTGG 
    CAGATCCACA ATGCCGGACA GTCCTGTGGC ATCGGCAGGA ATGGCTCAGC CTCCCCAGAA 
    CCCAGCCGGG TCCGGACCCC ACTGGAGCCC ATTCCTGAGA CAGAAGGAGG CAGTGACATG 
    GCATCTTGCT GA

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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