ORF » Species Summary » Alligator mississippiensis » THSD7A cDNA ORF clone

THSD7A cDNA ORF clone, Alligator mississippiensis(American alligator)

The following THSD7A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the THSD7A 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
OAl69161 XM_019497891.1
Latest version!		 Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OAl69162 XM_019497892.1
Latest version!		 Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OAl69163 XM_019497893.1
Latest version!		 Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    THSD7A ( XM_019497891.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019353436.1 Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl69161
    Clone ID Related Accession (Same CDS sequence) XM_019497891.1
    Accession Version XM_019497891.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5061bp)
    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 thrombospondin type-1 domain-containing protein 7A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712875.1) 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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGGGTTGA GACAAGGAAG CACAGTTTTA TTCGGTGGTG CAGGGGCTTT TTCTGTTTCA 
    GTCCAGTGCA TTGGAGTGCT TGTGGTTCTG TTTGGAATCT GGGAAGCTAA AGCACAAAGT 
    GAATTTGAAA CTTCATCTGT ATATTTGTGG AAGACTGATT GTTTGCCCTT TGAAGCAGAG 
    ACGGTCTCCT ATTGCCTGTA TAGCACTTTG AACATTTTGG ATGGTCCATG GGGTAGGTGT 
    ATGGGAGATG AATGTGGTCC AGGTGGTATC CAAACGCGAG CAGTGTGGTG TGCCCATGTG 
    GAAGGATGGA CAACCCTACC CACGAACTGT AAACAGATTG AGAGGCCTGA GAACCAACAG 
    AACTGTTTCA GGGTTTGTGA TTGGCACAAA GAACTGTATG ATTGGCAGTT GGGCAGCTGG 
    AATCAGTGCC AGCCAGTTAT TTCAAGGAGC ATTGAAAAAC CTCTAGAATG CATCAAAGGA 
    GAAGAAGGAA TCCAGATGAG AAATGTAACT TGCATACAGA AAGCAAACGG GGCCCCAGCT 
    GAGGATGTCA TATGTGACTA CTTTGAGCCC AAACCTCGCC AAGAGCAGGC ATGTCTCATC 
    CCTTGTCGTC AGGACTGCAT TATGGCAGAA TTCTCCCCCT GGTCAGAGTG CTCCAAGACC 
    TGTGGCAATG GGCTTCAGCA CAGAGCTCGT CACATTGTTG CTCCAGCTCG GTTTGGTGGC 
    TCTGCCTGTC CTAACCTGAC TGAATTTCAG ATCTGTCAGT CTAGCCCATG TGCTACTGAA 
    GAAAGCATGT ATAGCCTAAA TGTGGGACCC TGGAGTGCAT GTTCTATGCC CCAGTCAAGA 
    CATACAAGAC AAGCAAGGAA ACGGGGAAAG AACAAAGAAA AAGAGAAGGA CAGAGAAAAA 
    GGAGTACGGG ATCCTGAGGC TCGTGAGCTT ATTAAGAAAA AGAGAAATCG AAATAGACAA 
    AACAGACAGG AGAACAAATA TTGGGACATA CAGATTGGGT ATCAAACCAG GCAGGTTACA 
    TGTACTCACA GGAATGGGAA AACAGCAGAT TTGAGGTTTT GCCAACAAGA CAAGTTGCCA 
    ATTACTTTCC AGTCCTGTGT GATCACTAAG GACTGCCAGG TGTCAGAGTG GTCCGAGTGG 
    AGCCCATGTT CCAAAACCTG TTTTGATATG ACATCCCCAA AAGGAAATCG TACGAGAACA 
    CGGACAATTA AGCAGTTTCC TATTGGCAGT GAAGGTGAAT GCCCAGAACT AGAAGAAACA 
    GAGCAATGTG TTTCTCAAGG AGATGGTGTG GCACCATGTG TTACGTATGG CTGGAGAACC 
    ACAGAATGGA CTGAATGCCG TGTTGACCCT CTACTTAGCC AACAGGACAA AAGACGAGGA 
    AATCAGACAG CTCTGTGTGG AGGCGGGATT CAGACCCGTG AAGTGTACTG TGTGCAAACT 
    AATGAAAATC TCCTCTCCTA TTTAAATACC CTCAAGGAAA AAGAAGAAAG TCAGTCACAG 
    AGCACGTCGA AGTCTAGTGC TGCTCCACTT CTATCAATCA CTTTTGAAAT AACAGCATCC 
    AGACCAGTGG ATCGGAAACT ATGTACAGGA GCTGTACCCA GCACCACCCA GTTGTGCCAT 
    ATTCCTTGCC CAATAGAATG TGAGGTGTCC GCTTGGTCAG CCTGGGGACC ATGCACCCAC 
    GAAAGCTGTG ATGACCAACA AGCCAAAAAA GGTTTTAAAC TAAGGAAACG ACGCATCACA 
    AATGAACCTA CGGGGGGGAC TGGAAACTGC CCTCATCTCC TTGAAGCTAT CCCATGTGAG 
    GAGCCTTCTT GCTATGATTG GCGAATAGTG GAATTAGAAA AATGTATACC AGATAATGAG 
    AAGCAGTGTG GGCCCGGCAC TCAAGTTCCT GTGGTTGTCT GTATCAACAG TGATGGAGAA 
    GAAGTTGACA GACAGCTGTG TCGAGATGCT ATCTACCCAA TCCCCATTGT CTGTGAAGTT 
    CCATGCCCAA AGGATTGTGT TCTCAGCATG TGGTCTGGCT GGTCCTCCTG CTCACACACC 
    TGCTCAGGAA AAACCACAGA AGGAAAGCAG ATGCGTGCCC GCTCTATTTT GGCATATGCA 
    GGTGAAGGAG GTGTTCATTG CCCAAACAGT AGCGCGCTAC AGGAAACCCG CAGCTGCAAT 
    GAACACCCTT GCACTGTATA CCACTGGCAG ACTGGACCTT GGGGCCAGTG TATAGAGGAT 
    GTGTCTGTGT CTGCATTCAA CTCATCTACT AGTTGGAATG GAGAAGCCAC CTGTTCTGTT 
    GGGATGCAAA CAAGAAAAGT AATCTGTGTG AGAGTGAATG TGGGACAAGT GGGACCAAAA 
    AAATGCCCTG AAAACCTTCG ACCAGAAGCA GTGAGGCCTT GTTTGCTTCC TTGTAGAAAA 
    GACTGTATTG TGACACCATT CAGTGAGTGG ACACCATGTC CTTCTTCATG TCAGGAAGGG 
    GTTGCCACAG TAAAGAAGCA GTCTCGCCAT CGTGTCATCA TCCAGCTCCC TTCCAATGGT 
    GGCCGTGAGT GCCCAGATGC ATTATTTGAG GAGAGGGAAT GTGAAGCTCC CCCTGTCTGC 
    TATACCTACA GGTGGAAGAC CCACAAATGG CGCAGATGCC AGCTAGTACC ATGGAATGTT 
    CGCCAAGACA GCCCAGGGGC ACATGAAACG TGTGGGCCAG GACTACAAGC GAGAGCAATT 
    ACCTGTCGCA GACAAGACGG GGGACAAGCT GACATTAGCG AGTGCCTTAA ATATGCCAGC 
    CCCTTACCAC CATTAACACA GACCTGCCAA ATCCCTTGCC AAGATGACTG TCAGTTCACA 
    AGCTGGTCAA AATTTTCTTC CTGCAATGGG GACTGTGGAG GAGTCAGGGC AAGAAAACGC 
    ACTCTTGTTG GAAAAAGTAA AAAAAGGGAC AAATGCAAAA ACTCACAGAT GTATCCCTTG 
    ATTGAGAATC AGTTTTGTCC GTGTGACAAG TACAGCGCTC AACCTGTGGG AAACTGGTCT 
    GACTGTATTT TACCAGAAGG CAAAGTGGAA GTATTATTGG GAATGAAAGT ACAAGGAGAC 
    ATTAAAGAGT GTGGACAAGG TTATCGTTAC CAGGCCATGG CATGCTACGA TCAAAATAGT 
    CGGCTTGTGG AAACATCACG ATGCAATAGT CACGGTTACA TTGAGGAAGC CTGCATAATT 
    CCATGTCCCT CGGATTGCAA GCTCAGTGAA TGGTCCAACT GGTCTCGATG TAGTAAATCT 
    TGTGGGAGCG GGGTAAAAGT TAGGTCTAAG TGGCTCCGTG AGAAACCATA CAATGGCGGT 
    CGGCCTTGTC CCAAGCTGGA TCATGTCAAT CAGGCTCAGG TATATGAGGT TGTCCCATGC 
    CACAGTGACT GTAGCCAGTA CATATGGGTT ACTGAACCCT GGAGTGTCTG CAAAGTGACC 
    AATGTGGACT TGAAGGAGAA CTGTGGAGAA GGTGTTCAAA CCAGAAAAGT CAGGTGCATG 
    CTAAATACAG TGGATGGCCC TTCTGACACT GTGGAGGATT ACCTGTGTGA CCTTGAAGAG 
    ATGCCCCTTG GTGCTAGAAA GTGCACATTG CCATGTCCTG AAGACTGTGT TATGTCTGAA 
    TGGGGCCAGT GGTCTAGGTG TTCCTTGCCC TGCAATAGAA GTAGTGTGCG TGAAAGGTCA 
    GCAGAACCCT TAAGACTGCC TGATGATGGA AAGGGTTGTC CTGCTGCTAC TGAGACAGAA 
    CTCTGCAGCC TGAACAAGAA CTGTTACCAC TATGATTATA ATGTGACAGA CTGGAGTACT 
    TGTCAGCTCA GTGAGAAGGC TGTCTGTGGC AACGGTATCA AAACAAGAAT GCTAGATTGT 
    GTTCGCAGTG ATGGCAGATC AGTTGATCTG AAGTACTGTG AGGAGCTTGG CCTGGAAAAA 
    ACATGGCAGA TGAACACCTC TTGTGTGGTG GAATGTCCTG TTAATTGTCA GCTCTCTGAC 
    TGGTCTCCAT GGTCTGAATG CTCTCAAACA TGTGGCCTTA CAGGAAAGAT GATACGAAGG 
    AGAACAGTAA ATCAGCCTTT CCAGGGTGAT GGGAGGCCTT GTCCTTCTCA GATGGAGCAA 
    TTCAAACCCT GTCCAGTAAA GCCTTGTTAT CGATGGCAGT ATGGCCAGTG GGCTGAGTGC 
    AAAGTTGAGG ATGCTCAGTG TGGAGAGGGG ACAAGAATCC GGAACATTTC CTGTGTGGTT 
    TATGATGGAT CCACTGAAGA TATTGGTAAA GTAGTGGATG AGGAGTTTTG TGGAGAAATA 
    GAGCCTATTG TTGATGGCAA TAAGAAGATG GTACTTGAAG AAGCTTGCAC CGTTCCTTGT 
    CCAGGTGATT GTTATTTGAA GGAGTGGTCA GAATGGAGCC TTTGTCAGCT GACTTGTGTT 
    AATGGTGAAG ATCTTGGTTT TGGAGGGATA CAAGTCCGCT CCCGGGCAGT GATCATTCAG 
    GAATTGGAAA ACCAACATCT TTGTCCAGAA CAGGCTTTGG AAACAAGATC ATGTAGTGAT 
    GGCCAATGTT ATGAATACAA ATGGATGGCT AGCCCATGGA AGGGTTCTTC TAGGACAGTG 
    TGGTGCCAAA GATCAGATGG TTTAAATGTT ACAGGGGGAT GTTTAGTGAT GCGCCAACCA 
    GATGCTGACA GGTCATGTAA CCCAACGTGC AGTGAACCCC ATTCTTACTG TAGTGAGACT 
    AGAACGTGCA GTTGTGAAGA AGGGTACACT GAAGTAATGT CCTCAGATGG CACACTCGAG 
    CAGTGCACTC TCATCCCAGT GGTAGTGATC CCCACCAGTG AGGACAAAAA GGGAGATGTG 
    AAAACAAGTC GAGCTGTGAA CCCTACCCAG CCATCTAGTA ACCAGTCAGG ACGGGGAAGG 
    ACCTGGTTTC TGCAGCCTTT TGGACCAGAT GGCAGGCTGA AGACCTGGGT TTATGGTGTA 
    GCTGCTGGTG CATTTGTTTT ACTCATCTTT ATTGTTTCTA TGATCTATCT AGCCTGCAAA 
    AAGCCAAAGA AACCCCAGAG GAGACAGAAC AACCGTTTGA AACCTTTAAC CTTGGCTTAT 
    GATGGAGATG CTGATATGTA A

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

    RefSeq XP_019353436.1
    CDS567..5627
    Translation

    Target ORF information:

    RefSeq Version XM_019497891.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019497891.1

    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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGGGTTGA GACAAGGAAG CACAGTTTTA TTCGGTGGTG CAGGGGCTTT TTCTGTTTCA 
    GTCCAGTGCA TTGGAGTGCT TGTGGTTCTG TTTGGAATCT GGGAAGCTAA AGCACAAAGT 
    GAATTTGAAA CTTCATCTGT ATATTTGTGG AAGACTGATT GTTTGCCCTT TGAAGCAGAG 
    ACGGTCTCCT ATTGCCTGTA TAGCACTTTG AACATTTTGG ATGGTCCATG GGGTAGGTGT 
    ATGGGAGATG AATGTGGTCC AGGTGGTATC CAAACGCGAG CAGTGTGGTG TGCCCATGTG 
    GAAGGATGGA CAACCCTACC CACGAACTGT AAACAGATTG AGAGGCCTGA GAACCAACAG 
    AACTGTTTCA GGGTTTGTGA TTGGCACAAA GAACTGTATG ATTGGCAGTT GGGCAGCTGG 
    AATCAGTGCC AGCCAGTTAT TTCAAGGAGC ATTGAAAAAC CTCTAGAATG CATCAAAGGA 
    GAAGAAGGAA TCCAGATGAG AAATGTAACT TGCATACAGA AAGCAAACGG GGCCCCAGCT 
    GAGGATGTCA TATGTGACTA CTTTGAGCCC AAACCTCGCC AAGAGCAGGC ATGTCTCATC 
    CCTTGTCGTC AGGACTGCAT TATGGCAGAA TTCTCCCCCT GGTCAGAGTG CTCCAAGACC 
    TGTGGCAATG GGCTTCAGCA CAGAGCTCGT CACATTGTTG CTCCAGCTCG GTTTGGTGGC 
    TCTGCCTGTC CTAACCTGAC TGAATTTCAG ATCTGTCAGT CTAGCCCATG TGCTACTGAA 
    GAAAGCATGT ATAGCCTAAA TGTGGGACCC TGGAGTGCAT GTTCTATGCC CCAGTCAAGA 
    CATACAAGAC AAGCAAGGAA ACGGGGAAAG AACAAAGAAA AAGAGAAGGA CAGAGAAAAA 
    GGAGTACGGG ATCCTGAGGC TCGTGAGCTT ATTAAGAAAA AGAGAAATCG AAATAGACAA 
    AACAGACAGG AGAACAAATA TTGGGACATA CAGATTGGGT ATCAAACCAG GCAGGTTACA 
    TGTACTCACA GGAATGGGAA AACAGCAGAT TTGAGGTTTT GCCAACAAGA CAAGTTGCCA 
    ATTACTTTCC AGTCCTGTGT GATCACTAAG GACTGCCAGG TGTCAGAGTG GTCCGAGTGG 
    AGCCCATGTT CCAAAACCTG TTTTGATATG ACATCCCCAA AAGGAAATCG TACGAGAACA 
    CGGACAATTA AGCAGTTTCC TATTGGCAGT GAAGGTGAAT GCCCAGAACT AGAAGAAACA 
    GAGCAATGTG TTTCTCAAGG AGATGGTGTG GCACCATGTG TTACGTATGG CTGGAGAACC 
    ACAGAATGGA CTGAATGCCG TGTTGACCCT CTACTTAGCC AACAGGACAA AAGACGAGGA 
    AATCAGACAG CTCTGTGTGG AGGCGGGATT CAGACCCGTG AAGTGTACTG TGTGCAAACT 
    AATGAAAATC TCCTCTCCTA TTTAAATACC CTCAAGGAAA AAGAAGAAAG TCAGTCACAG 
    AGCACGTCGA AGTCTAGTGC TGCTCCACTT CTATCAATCA CTTTTGAAAT AACAGCATCC 
    AGACCAGTGG ATCGGAAACT ATGTACAGGA GCTGTACCCA GCACCACCCA GTTGTGCCAT 
    ATTCCTTGCC CAATAGAATG TGAGGTGTCC GCTTGGTCAG CCTGGGGACC ATGCACCCAC 
    GAAAGCTGTG ATGACCAACA AGCCAAAAAA GGTTTTAAAC TAAGGAAACG ACGCATCACA 
    AATGAACCTA CGGGGGGGAC TGGAAACTGC CCTCATCTCC TTGAAGCTAT CCCATGTGAG 
    GAGCCTTCTT GCTATGATTG GCGAATAGTG GAATTAGAAA AATGTATACC AGATAATGAG 
    AAGCAGTGTG GGCCCGGCAC TCAAGTTCCT GTGGTTGTCT GTATCAACAG TGATGGAGAA 
    GAAGTTGACA GACAGCTGTG TCGAGATGCT ATCTACCCAA TCCCCATTGT CTGTGAAGTT 
    CCATGCCCAA AGGATTGTGT TCTCAGCATG TGGTCTGGCT GGTCCTCCTG CTCACACACC 
    TGCTCAGGAA AAACCACAGA AGGAAAGCAG ATGCGTGCCC GCTCTATTTT GGCATATGCA 
    GGTGAAGGAG GTGTTCATTG CCCAAACAGT AGCGCGCTAC AGGAAACCCG CAGCTGCAAT 
    GAACACCCTT GCACTGTATA CCACTGGCAG ACTGGACCTT GGGGCCAGTG TATAGAGGAT 
    GTGTCTGTGT CTGCATTCAA CTCATCTACT AGTTGGAATG GAGAAGCCAC CTGTTCTGTT 
    GGGATGCAAA CAAGAAAAGT AATCTGTGTG AGAGTGAATG TGGGACAAGT GGGACCAAAA 
    AAATGCCCTG AAAACCTTCG ACCAGAAGCA GTGAGGCCTT GTTTGCTTCC TTGTAGAAAA 
    GACTGTATTG TGACACCATT CAGTGAGTGG ACACCATGTC CTTCTTCATG TCAGGAAGGG 
    GTTGCCACAG TAAAGAAGCA GTCTCGCCAT CGTGTCATCA TCCAGCTCCC TTCCAATGGT 
    GGCCGTGAGT GCCCAGATGC ATTATTTGAG GAGAGGGAAT GTGAAGCTCC CCCTGTCTGC 
    TATACCTACA GGTGGAAGAC CCACAAATGG CGCAGATGCC AGCTAGTACC ATGGAATGTT 
    CGCCAAGACA GCCCAGGGGC ACATGAAACG TGTGGGCCAG GACTACAAGC GAGAGCAATT 
    ACCTGTCGCA GACAAGACGG GGGACAAGCT GACATTAGCG AGTGCCTTAA ATATGCCAGC 
    CCCTTACCAC CATTAACACA GACCTGCCAA ATCCCTTGCC AAGATGACTG TCAGTTCACA 
    AGCTGGTCAA AATTTTCTTC CTGCAATGGG GACTGTGGAG GAGTCAGGGC AAGAAAACGC 
    ACTCTTGTTG GAAAAAGTAA AAAAAGGGAC AAATGCAAAA ACTCACAGAT GTATCCCTTG 
    ATTGAGAATC AGTTTTGTCC GTGTGACAAG TACAGCGCTC AACCTGTGGG AAACTGGTCT 
    GACTGTATTT TACCAGAAGG CAAAGTGGAA GTATTATTGG GAATGAAAGT ACAAGGAGAC 
    ATTAAAGAGT GTGGACAAGG TTATCGTTAC CAGGCCATGG CATGCTACGA TCAAAATAGT 
    CGGCTTGTGG AAACATCACG ATGCAATAGT CACGGTTACA TTGAGGAAGC CTGCATAATT 
    CCATGTCCCT CGGATTGCAA GCTCAGTGAA TGGTCCAACT GGTCTCGATG TAGTAAATCT 
    TGTGGGAGCG GGGTAAAAGT TAGGTCTAAG TGGCTCCGTG AGAAACCATA CAATGGCGGT 
    CGGCCTTGTC CCAAGCTGGA TCATGTCAAT CAGGCTCAGG TATATGAGGT TGTCCCATGC 
    CACAGTGACT GTAGCCAGTA CATATGGGTT ACTGAACCCT GGAGTGTCTG CAAAGTGACC 
    AATGTGGACT TGAAGGAGAA CTGTGGAGAA GGTGTTCAAA CCAGAAAAGT CAGGTGCATG 
    CTAAATACAG TGGATGGCCC TTCTGACACT GTGGAGGATT ACCTGTGTGA CCTTGAAGAG 
    ATGCCCCTTG GTGCTAGAAA GTGCACATTG CCATGTCCTG AAGACTGTGT TATGTCTGAA 
    TGGGGCCAGT GGTCTAGGTG TTCCTTGCCC TGCAATAGAA GTAGTGTGCG TGAAAGGTCA 
    GCAGAACCCT TAAGACTGCC TGATGATGGA AAGGGTTGTC CTGCTGCTAC TGAGACAGAA 
    CTCTGCAGCC TGAACAAGAA CTGTTACCAC TATGATTATA ATGTGACAGA CTGGAGTACT 
    TGTCAGCTCA GTGAGAAGGC TGTCTGTGGC AACGGTATCA AAACAAGAAT GCTAGATTGT 
    GTTCGCAGTG ATGGCAGATC AGTTGATCTG AAGTACTGTG AGGAGCTTGG CCTGGAAAAA 
    ACATGGCAGA TGAACACCTC TTGTGTGGTG GAATGTCCTG TTAATTGTCA GCTCTCTGAC 
    TGGTCTCCAT GGTCTGAATG CTCTCAAACA TGTGGCCTTA CAGGAAAGAT GATACGAAGG 
    AGAACAGTAA ATCAGCCTTT CCAGGGTGAT GGGAGGCCTT GTCCTTCTCA GATGGAGCAA 
    TTCAAACCCT GTCCAGTAAA GCCTTGTTAT CGATGGCAGT ATGGCCAGTG GGCTGAGTGC 
    AAAGTTGAGG ATGCTCAGTG TGGAGAGGGG ACAAGAATCC GGAACATTTC CTGTGTGGTT 
    TATGATGGAT CCACTGAAGA TATTGGTAAA GTAGTGGATG AGGAGTTTTG TGGAGAAATA 
    GAGCCTATTG TTGATGGCAA TAAGAAGATG GTACTTGAAG AAGCTTGCAC CGTTCCTTGT 
    CCAGGTGATT GTTATTTGAA GGAGTGGTCA GAATGGAGCC TTTGTCAGCT GACTTGTGTT 
    AATGGTGAAG ATCTTGGTTT TGGAGGGATA CAAGTCCGCT CCCGGGCAGT GATCATTCAG 
    GAATTGGAAA ACCAACATCT TTGTCCAGAA CAGGCTTTGG AAACAAGATC ATGTAGTGAT 
    GGCCAATGTT ATGAATACAA ATGGATGGCT AGCCCATGGA AGGGTTCTTC TAGGACAGTG 
    TGGTGCCAAA GATCAGATGG TTTAAATGTT ACAGGGGGAT GTTTAGTGAT GCGCCAACCA 
    GATGCTGACA GGTCATGTAA CCCAACGTGC AGTGAACCCC ATTCTTACTG TAGTGAGACT 
    AGAACGTGCA GTTGTGAAGA AGGGTACACT GAAGTAATGT CCTCAGATGG CACACTCGAG 
    CAGTGCACTC TCATCCCAGT GGTAGTGATC CCCACCAGTG AGGACAAAAA GGGAGATGTG 
    AAAACAAGTC GAGCTGTGAA CCCTACCCAG CCATCTAGTA ACCAGTCAGG ACGGGGAAGG 
    ACCTGGTTTC TGCAGCCTTT TGGACCAGAT GGCAGGCTGA AGACCTGGGT TTATGGTGTA 
    GCTGCTGGTG CATTTGTTTT ACTCATCTTT ATTGTTTCTA TGATCTATCT AGCCTGCAAA 
    AAGCCAAAGA AACCCCAGAG GAGACAGAAC AACCGTTTGA AACCTTTAAC CTTGGCTTAT 
    GATGGAGATG CTGATATGTA A

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

    THSD7A ( XM_019497892.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019353437.1 Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl69162
    Clone ID Related Accession (Same CDS sequence) XM_019497892.1
    Accession Version XM_019497892.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4995bp)
    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 thrombospondin type-1 domain-containing protein 7A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712875.1) 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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGGGTTGA GACAAGGAAG CACAGTTTTA TTCGGTGGTG CAGGGGCTTT TTCTGTTTCA 
    GTCCAGTGCA TTGGAGTGCT TGTGGTTCTG TTTGGAATCT GGGAAGCTAA AGCACAAAGT 
    GAATTTGAAA CTTCATCTGT ATATTTGTGG AAGACTGGTC CATGGGGTAG GTGTATGGGA 
    GATGAATGTG GTCCAGGTGG TATCCAAACG CGAGCAGTGT GGTGTGCCCA TGTGGAAGGA 
    TGGACAACCC TACCCACGAA CTGTAAACAG ATTGAGAGGC CTGAGAACCA ACAGAACTGT 
    TTCAGGGTTT GTGATTGGCA CAAAGAACTG TATGATTGGC AGTTGGGCAG CTGGAATCAG 
    TGCCAGCCAG TTATTTCAAG GAGCATTGAA AAACCTCTAG AATGCATCAA AGGAGAAGAA 
    GGAATCCAGA TGAGAAATGT AACTTGCATA CAGAAAGCAA ACGGGGCCCC AGCTGAGGAT 
    GTCATATGTG ACTACTTTGA GCCCAAACCT CGCCAAGAGC AGGCATGTCT CATCCCTTGT 
    CGTCAGGACT GCATTATGGC AGAATTCTCC CCCTGGTCAG AGTGCTCCAA GACCTGTGGC 
    AATGGGCTTC AGCACAGAGC TCGTCACATT GTTGCTCCAG CTCGGTTTGG TGGCTCTGCC 
    TGTCCTAACC TGACTGAATT TCAGATCTGT CAGTCTAGCC CATGTGCTAC TGAAGAAAGC 
    ATGTATAGCC TAAATGTGGG ACCCTGGAGT GCATGTTCTA TGCCCCAGTC AAGACATACA 
    AGACAAGCAA GGAAACGGGG AAAGAACAAA GAAAAAGAGA AGGACAGAGA AAAAGGAGTA 
    CGGGATCCTG AGGCTCGTGA GCTTATTAAG AAAAAGAGAA ATCGAAATAG ACAAAACAGA 
    CAGGAGAACA AATATTGGGA CATACAGATT GGGTATCAAA CCAGGCAGGT TACATGTACT 
    CACAGGAATG GGAAAACAGC AGATTTGAGG TTTTGCCAAC AAGACAAGTT GCCAATTACT 
    TTCCAGTCCT GTGTGATCAC TAAGGACTGC CAGGTGTCAG AGTGGTCCGA GTGGAGCCCA 
    TGTTCCAAAA CCTGTTTTGA TATGACATCC CCAAAAGGAA ATCGTACGAG AACACGGACA 
    ATTAAGCAGT TTCCTATTGG CAGTGAAGGT GAATGCCCAG AACTAGAAGA AACAGAGCAA 
    TGTGTTTCTC AAGGAGATGG TGTGGCACCA TGTGTTACGT ATGGCTGGAG AACCACAGAA 
    TGGACTGAAT GCCGTGTTGA CCCTCTACTT AGCCAACAGG ACAAAAGACG AGGAAATCAG 
    ACAGCTCTGT GTGGAGGCGG GATTCAGACC CGTGAAGTGT ACTGTGTGCA AACTAATGAA 
    AATCTCCTCT CCTATTTAAA TACCCTCAAG GAAAAAGAAG AAAGTCAGTC ACAGAGCACG 
    TCGAAGTCTA GTGCTGCTCC ACTTCTATCA ATCACTTTTG AAATAACAGC ATCCAGACCA 
    GTGGATCGGA AACTATGTAC AGGAGCTGTA CCCAGCACCA CCCAGTTGTG CCATATTCCT 
    TGCCCAATAG AATGTGAGGT GTCCGCTTGG TCAGCCTGGG GACCATGCAC CCACGAAAGC 
    TGTGATGACC AACAAGCCAA AAAAGGTTTT AAACTAAGGA AACGACGCAT CACAAATGAA 
    CCTACGGGGG GGACTGGAAA CTGCCCTCAT CTCCTTGAAG CTATCCCATG TGAGGAGCCT 
    TCTTGCTATG ATTGGCGAAT AGTGGAATTA GAAAAATGTA TACCAGATAA TGAGAAGCAG 
    TGTGGGCCCG GCACTCAAGT TCCTGTGGTT GTCTGTATCA ACAGTGATGG AGAAGAAGTT 
    GACAGACAGC TGTGTCGAGA TGCTATCTAC CCAATCCCCA TTGTCTGTGA AGTTCCATGC 
    CCAAAGGATT GTGTTCTCAG CATGTGGTCT GGCTGGTCCT CCTGCTCACA CACCTGCTCA 
    GGAAAAACCA CAGAAGGAAA GCAGATGCGT GCCCGCTCTA TTTTGGCATA TGCAGGTGAA 
    GGAGGTGTTC ATTGCCCAAA CAGTAGCGCG CTACAGGAAA CCCGCAGCTG CAATGAACAC 
    CCTTGCACTG TATACCACTG GCAGACTGGA CCTTGGGGCC AGTGTATAGA GGATGTGTCT 
    GTGTCTGCAT TCAACTCATC TACTAGTTGG AATGGAGAAG CCACCTGTTC TGTTGGGATG 
    CAAACAAGAA AAGTAATCTG TGTGAGAGTG AATGTGGGAC AAGTGGGACC AAAAAAATGC 
    CCTGAAAACC TTCGACCAGA AGCAGTGAGG CCTTGTTTGC TTCCTTGTAG AAAAGACTGT 
    ATTGTGACAC CATTCAGTGA GTGGACACCA TGTCCTTCTT CATGTCAGGA AGGGGTTGCC 
    ACAGTAAAGA AGCAGTCTCG CCATCGTGTC ATCATCCAGC TCCCTTCCAA TGGTGGCCGT 
    GAGTGCCCAG ATGCATTATT TGAGGAGAGG GAATGTGAAG CTCCCCCTGT CTGCTATACC 
    TACAGGTGGA AGACCCACAA ATGGCGCAGA TGCCAGCTAG TACCATGGAA TGTTCGCCAA 
    GACAGCCCAG GGGCACATGA AACGTGTGGG CCAGGACTAC AAGCGAGAGC AATTACCTGT 
    CGCAGACAAG ACGGGGGACA AGCTGACATT AGCGAGTGCC TTAAATATGC CAGCCCCTTA 
    CCACCATTAA CACAGACCTG CCAAATCCCT TGCCAAGATG ACTGTCAGTT CACAAGCTGG 
    TCAAAATTTT CTTCCTGCAA TGGGGACTGT GGAGGAGTCA GGGCAAGAAA ACGCACTCTT 
    GTTGGAAAAA GTAAAAAAAG GGACAAATGC AAAAACTCAC AGATGTATCC CTTGATTGAG 
    AATCAGTTTT GTCCGTGTGA CAAGTACAGC GCTCAACCTG TGGGAAACTG GTCTGACTGT 
    ATTTTACCAG AAGGCAAAGT GGAAGTATTA TTGGGAATGA AAGTACAAGG AGACATTAAA 
    GAGTGTGGAC AAGGTTATCG TTACCAGGCC ATGGCATGCT ACGATCAAAA TAGTCGGCTT 
    GTGGAAACAT CACGATGCAA TAGTCACGGT TACATTGAGG AAGCCTGCAT AATTCCATGT 
    CCCTCGGATT GCAAGCTCAG TGAATGGTCC AACTGGTCTC GATGTAGTAA ATCTTGTGGG 
    AGCGGGGTAA AAGTTAGGTC TAAGTGGCTC CGTGAGAAAC CATACAATGG CGGTCGGCCT 
    TGTCCCAAGC TGGATCATGT CAATCAGGCT CAGGTATATG AGGTTGTCCC ATGCCACAGT 
    GACTGTAGCC AGTACATATG GGTTACTGAA CCCTGGAGTG TCTGCAAAGT GACCAATGTG 
    GACTTGAAGG AGAACTGTGG AGAAGGTGTT CAAACCAGAA AAGTCAGGTG CATGCTAAAT 
    ACAGTGGATG GCCCTTCTGA CACTGTGGAG GATTACCTGT GTGACCTTGA AGAGATGCCC 
    CTTGGTGCTA GAAAGTGCAC ATTGCCATGT CCTGAAGACT GTGTTATGTC TGAATGGGGC 
    CAGTGGTCTA GGTGTTCCTT GCCCTGCAAT AGAAGTAGTG TGCGTGAAAG GTCAGCAGAA 
    CCCTTAAGAC TGCCTGATGA TGGAAAGGGT TGTCCTGCTG CTACTGAGAC AGAACTCTGC 
    AGCCTGAACA AGAACTGTTA CCACTATGAT TATAATGTGA CAGACTGGAG TACTTGTCAG 
    CTCAGTGAGA AGGCTGTCTG TGGCAACGGT ATCAAAACAA GAATGCTAGA TTGTGTTCGC 
    AGTGATGGCA GATCAGTTGA TCTGAAGTAC TGTGAGGAGC TTGGCCTGGA AAAAACATGG 
    CAGATGAACA CCTCTTGTGT GGTGGAATGT CCTGTTAATT GTCAGCTCTC TGACTGGTCT 
    CCATGGTCTG AATGCTCTCA AACATGTGGC CTTACAGGAA AGATGATACG AAGGAGAACA 
    GTAAATCAGC CTTTCCAGGG TGATGGGAGG CCTTGTCCTT CTCAGATGGA GCAATTCAAA 
    CCCTGTCCAG TAAAGCCTTG TTATCGATGG CAGTATGGCC AGTGGGCTGA GTGCAAAGTT 
    GAGGATGCTC AGTGTGGAGA GGGGACAAGA ATCCGGAACA TTTCCTGTGT GGTTTATGAT 
    GGATCCACTG AAGATATTGG TAAAGTAGTG GATGAGGAGT TTTGTGGAGA AATAGAGCCT 
    ATTGTTGATG GCAATAAGAA GATGGTACTT GAAGAAGCTT GCACCGTTCC TTGTCCAGGT 
    GATTGTTATT TGAAGGAGTG GTCAGAATGG AGCCTTTGTC AGCTGACTTG TGTTAATGGT 
    GAAGATCTTG GTTTTGGAGG GATACAAGTC CGCTCCCGGG CAGTGATCAT TCAGGAATTG 
    GAAAACCAAC ATCTTTGTCC AGAACAGGCT TTGGAAACAA GATCATGTAG TGATGGCCAA 
    TGTTATGAAT ACAAATGGAT GGCTAGCCCA TGGAAGGGTT CTTCTAGGAC AGTGTGGTGC 
    CAAAGATCAG ATGGTTTAAA TGTTACAGGG GGATGTTTAG TGATGCGCCA ACCAGATGCT 
    GACAGGTCAT GTAACCCAAC GTGCAGTGAA CCCCATTCTT ACTGTAGTGA GACTAGAACG 
    TGCAGTTGTG AAGAAGGGTA CACTGAAGTA ATGTCCTCAG ATGGCACACT CGAGCAGTGC 
    ACTCTCATCC CAGTGGTAGT GATCCCCACC AGTGAGGACA AAAAGGGAGA TGTGAAAACA 
    AGTCGAGCTG TGAACCCTAC CCAGCCATCT AGTAACCAGT CAGGACGGGG AAGGACCTGG 
    TTTCTGCAGC CTTTTGGACC AGATGGCAGG CTGAAGACCT GGGTTTATGG TGTAGCTGCT 
    GGTGCATTTG TTTTACTCAT CTTTATTGTT TCTATGATCT ATCTAGCCTG CAAAAAGCCA 
    AAGAAACCCC AGAGGAGACA GAACAACCGT TTGAAACCTT TAACCTTGGC TTATGATGGA 
    GATGCTGATA TGTAA

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

    RefSeq XP_019353437.1
    CDS566..5560
    Translation

    Target ORF information:

    RefSeq Version XM_019497892.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019497892.1

    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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGGGTTGA GACAAGGAAG CACAGTTTTA TTCGGTGGTG CAGGGGCTTT TTCTGTTTCA 
    GTCCAGTGCA TTGGAGTGCT TGTGGTTCTG TTTGGAATCT GGGAAGCTAA AGCACAAAGT 
    GAATTTGAAA CTTCATCTGT ATATTTGTGG AAGACTGGTC CATGGGGTAG GTGTATGGGA 
    GATGAATGTG GTCCAGGTGG TATCCAAACG CGAGCAGTGT GGTGTGCCCA TGTGGAAGGA 
    TGGACAACCC TACCCACGAA CTGTAAACAG ATTGAGAGGC CTGAGAACCA ACAGAACTGT 
    TTCAGGGTTT GTGATTGGCA CAAAGAACTG TATGATTGGC AGTTGGGCAG CTGGAATCAG 
    TGCCAGCCAG TTATTTCAAG GAGCATTGAA AAACCTCTAG AATGCATCAA AGGAGAAGAA 
    GGAATCCAGA TGAGAAATGT AACTTGCATA CAGAAAGCAA ACGGGGCCCC AGCTGAGGAT 
    GTCATATGTG ACTACTTTGA GCCCAAACCT CGCCAAGAGC AGGCATGTCT CATCCCTTGT 
    CGTCAGGACT GCATTATGGC AGAATTCTCC CCCTGGTCAG AGTGCTCCAA GACCTGTGGC 
    AATGGGCTTC AGCACAGAGC TCGTCACATT GTTGCTCCAG CTCGGTTTGG TGGCTCTGCC 
    TGTCCTAACC TGACTGAATT TCAGATCTGT CAGTCTAGCC CATGTGCTAC TGAAGAAAGC 
    ATGTATAGCC TAAATGTGGG ACCCTGGAGT GCATGTTCTA TGCCCCAGTC AAGACATACA 
    AGACAAGCAA GGAAACGGGG AAAGAACAAA GAAAAAGAGA AGGACAGAGA AAAAGGAGTA 
    CGGGATCCTG AGGCTCGTGA GCTTATTAAG AAAAAGAGAA ATCGAAATAG ACAAAACAGA 
    CAGGAGAACA AATATTGGGA CATACAGATT GGGTATCAAA CCAGGCAGGT TACATGTACT 
    CACAGGAATG GGAAAACAGC AGATTTGAGG TTTTGCCAAC AAGACAAGTT GCCAATTACT 
    TTCCAGTCCT GTGTGATCAC TAAGGACTGC CAGGTGTCAG AGTGGTCCGA GTGGAGCCCA 
    TGTTCCAAAA CCTGTTTTGA TATGACATCC CCAAAAGGAA ATCGTACGAG AACACGGACA 
    ATTAAGCAGT TTCCTATTGG CAGTGAAGGT GAATGCCCAG AACTAGAAGA AACAGAGCAA 
    TGTGTTTCTC AAGGAGATGG TGTGGCACCA TGTGTTACGT ATGGCTGGAG AACCACAGAA 
    TGGACTGAAT GCCGTGTTGA CCCTCTACTT AGCCAACAGG ACAAAAGACG AGGAAATCAG 
    ACAGCTCTGT GTGGAGGCGG GATTCAGACC CGTGAAGTGT ACTGTGTGCA AACTAATGAA 
    AATCTCCTCT CCTATTTAAA TACCCTCAAG GAAAAAGAAG AAAGTCAGTC ACAGAGCACG 
    TCGAAGTCTA GTGCTGCTCC ACTTCTATCA ATCACTTTTG AAATAACAGC ATCCAGACCA 
    GTGGATCGGA AACTATGTAC AGGAGCTGTA CCCAGCACCA CCCAGTTGTG CCATATTCCT 
    TGCCCAATAG AATGTGAGGT GTCCGCTTGG TCAGCCTGGG GACCATGCAC CCACGAAAGC 
    TGTGATGACC AACAAGCCAA AAAAGGTTTT AAACTAAGGA AACGACGCAT CACAAATGAA 
    CCTACGGGGG GGACTGGAAA CTGCCCTCAT CTCCTTGAAG CTATCCCATG TGAGGAGCCT 
    TCTTGCTATG ATTGGCGAAT AGTGGAATTA GAAAAATGTA TACCAGATAA TGAGAAGCAG 
    TGTGGGCCCG GCACTCAAGT TCCTGTGGTT GTCTGTATCA ACAGTGATGG AGAAGAAGTT 
    GACAGACAGC TGTGTCGAGA TGCTATCTAC CCAATCCCCA TTGTCTGTGA AGTTCCATGC 
    CCAAAGGATT GTGTTCTCAG CATGTGGTCT GGCTGGTCCT CCTGCTCACA CACCTGCTCA 
    GGAAAAACCA CAGAAGGAAA GCAGATGCGT GCCCGCTCTA TTTTGGCATA TGCAGGTGAA 
    GGAGGTGTTC ATTGCCCAAA CAGTAGCGCG CTACAGGAAA CCCGCAGCTG CAATGAACAC 
    CCTTGCACTG TATACCACTG GCAGACTGGA CCTTGGGGCC AGTGTATAGA GGATGTGTCT 
    GTGTCTGCAT TCAACTCATC TACTAGTTGG AATGGAGAAG CCACCTGTTC TGTTGGGATG 
    CAAACAAGAA AAGTAATCTG TGTGAGAGTG AATGTGGGAC AAGTGGGACC AAAAAAATGC 
    CCTGAAAACC TTCGACCAGA AGCAGTGAGG CCTTGTTTGC TTCCTTGTAG AAAAGACTGT 
    ATTGTGACAC CATTCAGTGA GTGGACACCA TGTCCTTCTT CATGTCAGGA AGGGGTTGCC 
    ACAGTAAAGA AGCAGTCTCG CCATCGTGTC ATCATCCAGC TCCCTTCCAA TGGTGGCCGT 
    GAGTGCCCAG ATGCATTATT TGAGGAGAGG GAATGTGAAG CTCCCCCTGT CTGCTATACC 
    TACAGGTGGA AGACCCACAA ATGGCGCAGA TGCCAGCTAG TACCATGGAA TGTTCGCCAA 
    GACAGCCCAG GGGCACATGA AACGTGTGGG CCAGGACTAC AAGCGAGAGC AATTACCTGT 
    CGCAGACAAG ACGGGGGACA AGCTGACATT AGCGAGTGCC TTAAATATGC CAGCCCCTTA 
    CCACCATTAA CACAGACCTG CCAAATCCCT TGCCAAGATG ACTGTCAGTT CACAAGCTGG 
    TCAAAATTTT CTTCCTGCAA TGGGGACTGT GGAGGAGTCA GGGCAAGAAA ACGCACTCTT 
    GTTGGAAAAA GTAAAAAAAG GGACAAATGC AAAAACTCAC AGATGTATCC CTTGATTGAG 
    AATCAGTTTT GTCCGTGTGA CAAGTACAGC GCTCAACCTG TGGGAAACTG GTCTGACTGT 
    ATTTTACCAG AAGGCAAAGT GGAAGTATTA TTGGGAATGA AAGTACAAGG AGACATTAAA 
    GAGTGTGGAC AAGGTTATCG TTACCAGGCC ATGGCATGCT ACGATCAAAA TAGTCGGCTT 
    GTGGAAACAT CACGATGCAA TAGTCACGGT TACATTGAGG AAGCCTGCAT AATTCCATGT 
    CCCTCGGATT GCAAGCTCAG TGAATGGTCC AACTGGTCTC GATGTAGTAA ATCTTGTGGG 
    AGCGGGGTAA AAGTTAGGTC TAAGTGGCTC CGTGAGAAAC CATACAATGG CGGTCGGCCT 
    TGTCCCAAGC TGGATCATGT CAATCAGGCT CAGGTATATG AGGTTGTCCC ATGCCACAGT 
    GACTGTAGCC AGTACATATG GGTTACTGAA CCCTGGAGTG TCTGCAAAGT GACCAATGTG 
    GACTTGAAGG AGAACTGTGG AGAAGGTGTT CAAACCAGAA AAGTCAGGTG CATGCTAAAT 
    ACAGTGGATG GCCCTTCTGA CACTGTGGAG GATTACCTGT GTGACCTTGA AGAGATGCCC 
    CTTGGTGCTA GAAAGTGCAC ATTGCCATGT CCTGAAGACT GTGTTATGTC TGAATGGGGC 
    CAGTGGTCTA GGTGTTCCTT GCCCTGCAAT AGAAGTAGTG TGCGTGAAAG GTCAGCAGAA 
    CCCTTAAGAC TGCCTGATGA TGGAAAGGGT TGTCCTGCTG CTACTGAGAC AGAACTCTGC 
    AGCCTGAACA AGAACTGTTA CCACTATGAT TATAATGTGA CAGACTGGAG TACTTGTCAG 
    CTCAGTGAGA AGGCTGTCTG TGGCAACGGT ATCAAAACAA GAATGCTAGA TTGTGTTCGC 
    AGTGATGGCA GATCAGTTGA TCTGAAGTAC TGTGAGGAGC TTGGCCTGGA AAAAACATGG 
    CAGATGAACA CCTCTTGTGT GGTGGAATGT CCTGTTAATT GTCAGCTCTC TGACTGGTCT 
    CCATGGTCTG AATGCTCTCA AACATGTGGC CTTACAGGAA AGATGATACG AAGGAGAACA 
    GTAAATCAGC CTTTCCAGGG TGATGGGAGG CCTTGTCCTT CTCAGATGGA GCAATTCAAA 
    CCCTGTCCAG TAAAGCCTTG TTATCGATGG CAGTATGGCC AGTGGGCTGA GTGCAAAGTT 
    GAGGATGCTC AGTGTGGAGA GGGGACAAGA ATCCGGAACA TTTCCTGTGT GGTTTATGAT 
    GGATCCACTG AAGATATTGG TAAAGTAGTG GATGAGGAGT TTTGTGGAGA AATAGAGCCT 
    ATTGTTGATG GCAATAAGAA GATGGTACTT GAAGAAGCTT GCACCGTTCC TTGTCCAGGT 
    GATTGTTATT TGAAGGAGTG GTCAGAATGG AGCCTTTGTC AGCTGACTTG TGTTAATGGT 
    GAAGATCTTG GTTTTGGAGG GATACAAGTC CGCTCCCGGG CAGTGATCAT TCAGGAATTG 
    GAAAACCAAC ATCTTTGTCC AGAACAGGCT TTGGAAACAA GATCATGTAG TGATGGCCAA 
    TGTTATGAAT ACAAATGGAT GGCTAGCCCA TGGAAGGGTT CTTCTAGGAC AGTGTGGTGC 
    CAAAGATCAG ATGGTTTAAA TGTTACAGGG GGATGTTTAG TGATGCGCCA ACCAGATGCT 
    GACAGGTCAT GTAACCCAAC GTGCAGTGAA CCCCATTCTT ACTGTAGTGA GACTAGAACG 
    TGCAGTTGTG AAGAAGGGTA CACTGAAGTA ATGTCCTCAG ATGGCACACT CGAGCAGTGC 
    ACTCTCATCC CAGTGGTAGT GATCCCCACC AGTGAGGACA AAAAGGGAGA TGTGAAAACA 
    AGTCGAGCTG TGAACCCTAC CCAGCCATCT AGTAACCAGT CAGGACGGGG AAGGACCTGG 
    TTTCTGCAGC CTTTTGGACC AGATGGCAGG CTGAAGACCT GGGTTTATGG TGTAGCTGCT 
    GGTGCATTTG TTTTACTCAT CTTTATTGTT TCTATGATCT ATCTAGCCTG CAAAAAGCCA 
    AAGAAACCCC AGAGGAGACA GAACAACCGT TTGAAACCTT TAACCTTGGC TTATGATGGA 
    GATGCTGATA TGTAA

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

    THSD7A ( XM_019497893.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019353438.1 Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAl69163
    Clone ID Related Accession (Same CDS sequence) XM_019497893.1
    Accession Version XM_019497893.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4845bp)
    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 thrombospondin type-1 domain-containing protein 7A isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017712875.1) 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
    4561
    4621
    4681
    4741
    4801
    ATGGGGTTGA GACAAGGAAG CACAGTTTTA TTCGGTGGTG CAGGGGCTTT TTCTGTTTCA 
    GTCCAGTGCA TTGGAGTGCT TGTGGTTCTG TTTGGAATCT GGGAAGCTAA AGCACAAAGT 
    GAATTTGAAA CTTCATCTGT ATATTTGTGG AAGACTGATT GTTTGCCCTT TGAAGCAGAG 
    ACGGTCTCCT ATTGCCTGTA TAGCACTTTG AACATTTTGG ATGGTCCATG GGGTAGGTGT 
    ATGGGAGATG AATGTGGTCC AGGTGGTATC CAAACGCGAG CAGTGTGGTG TGCCCATGTG 
    GAAGGATGGA CAACCCTACC CACGAACTGT AAACAGATTG AGAGGCCTGA GAACCAACAG 
    AACTGTTTCA GGGTTTGTGA TTGGCACAAA GAACTGTATG ATTGGCAGTT GGGCAGCTGG 
    AATCAGTGCC AGCCAGTTAT TTCAAGGAGC ATTGAAAAAC CTCTAGAATG CATCAAAGGA 
    GAAGAAGGAA TCCAGATGAG AAATGTAACT TGCATACAGA AAGCAAACGG GGCCCCAGCT 
    GAGGATGTCA TATGTGACTA CTTTGAGCCC AAACCTCGCC AAGAGCAGGC ATGTCTCATC 
    CCTTGTCGTC AGGACTGCAT TATGGCAGAA TTCTCCCCCT GGTCAGAGTG CTCCAAGACC 
    TGTGGCAATG GGCTTCAGCA CAGAGCTCGT CACATTGTTG CTCCAGCTCG GTTTGGTGGC 
    TCTGCCTGTC CTAACCTGAC TGAATTTCAG ATCTGTCAGT CTAGCCCATG TGCTACTGAA 
    GAAAGCATGT ATAGCCTAAA TGTGGGACCC TGGAGTGCAT GTTCTATGCC CCAGTCAAGA 
    CATACAAGAC AAGCAAGGAA ACGGGGAAAG AACAAAGAAA AAGAGAAGGA CAGAGAAAAA 
    GGAGTACGGG ATCCTGAGGC TCGTGAGCTT ATTAAGAAAA AGAGAAATCG AAATAGACAA 
    AACAGACAGG AGAACAAATA TTGGGACATA CAGATTGGGT ATCAAACCAG GCAGGTTACA 
    TGTACTCACA GGAATGGGAA AACAGCAGAT TTGAGGTTTT GCCAACAAGA CAAGTTGCCA 
    ATTACTTTCC AGTCCTGTGT GATCACTAAG GACTGCCAGG TGTCAGAGTG GTCCGAGTGG 
    AGCCCATGTT CCAAAACCTG TTTTGATATG ACATCCCCAA AAGGAAATCG TACGAGAACA 
    CGGACAATTA AGCAGTTTCC TATTGGCAGT GAAGGTGAAT GCCCAGAACT AGAAGAAACA 
    GAGCAATGTG TTTCTCAAGG AGATGGTGTG GCACCATGTG TTACGTATGG CTGGAGAACC 
    ACAGAATGGA CTGAATGCCG TGTTGACCCT CTACTTAGCC AACAGGACAA AAGACGAGGA 
    AATCAGACAG CTCTGTGTGG AGGCGGGATT CAGACCCGTG AAGTGTACTG TGTGCAAACT 
    AATGAAAATC TCCTCTCCTA TTTAAATACC CTCAAGGAAA AAGAAGAAAG TCAGTCACAG 
    AGCACGTCGA AGTCTAGTGC TGCTCCACTT CTATCAATCA CTTTTGAAAT AACAGCATCC 
    AGACCAGTGG ATCGGAAACT ATGTACAGGA GCTGTACCCA GCACCACCCA GTTGTGCCAT 
    ATTCCTTGCC CAATAGAATG TGAGGTGTCC GCTTGGTCAG CCTGGGGACC ATGCACCCAC 
    GAAAGCTGTG ATGACCAACA AGCCAAAAAA GGTTTTAAAC TAAGGAAACG ACGCATCACA 
    AATGAACCTA CGGGGGGGAC TGGAAACTGC CCTCATCTCC TTGAAGCTAT CCCATGTGAG 
    GAGCCTTCTT GCTATGATTG GCGAATAGTG GAATTAGAAA AATGTATACC AGATAATGAG 
    AAGCAGTGTG GGCCCGGCAC TCAAGTTCCT GTGGTTGTCT GTATCAACAG TGATGGAGAA 
    GAAGTTGACA GACAGCTGTG TCGAGATGCT ATCTACCCAA TCCCCATTGT CTGTGAAGTT 
    CCATGCCCAA AGGATTGTGT TCTCAGCATG TGGTCTGGCT GGTCCTCCTG CTCACACACC 
    TGCTCAGGAA AAACCACAGA AGGAAAGCAG ATGCGTGCCC GCTCTATTTT GGCATATGCA 
    GGTGAAGGAG GTGTTCATTG CCCAAACAGT AGCGCGCTAC AGGAAACCCG CAGCTGCAAT 
    GAACACCCTT GCACTGTATA CCACTGGCAG ACTGGACCTT GGGGCCAGTG TATAGAGGAT 
    GTGTCTGTGT CTGCATTCAA CTCATCTACT AGTTGGAATG GAGAAGCCAC CTGTTCTGTT 
    GGGATGCAAA CAAGAAAAGT AATCTGTGTG AGAGTGAATG TGGGACAAGT GGGACCAAAA 
    AAATGCCCTG AAAACCTTCG ACCAGAAGCA GTGAGGCCTT GTTTGCTTCC TTGTAGAAAA 
    GACTGTATTG TGACACCATT CAGTGAGTGG ACACCATGTC CTTCTTCATG TCAGGAAGGG 
    GTTGCCACAG TAAAGAAGCA GTCTCGCCAT CGTGTCATCA TCCAGCTCCC TTCCAATGGT 
    GGCCGTGAGT GCCCAGATGC ATTATTTGAG GAGAGGGAAT GTGAAGCTCC CCCTGTCTGC 
    TATACCTACA GGTGGAAGAC CCACAAATGG CGCAGATGCC AGCTAGTACC ATGGAATGTT 
    CGCCAAGACA GCCCAGGGGC ACATGAAACG TGTGGGCCAG GACTACAAGC GAGAGCAATT 
    ACCTGTCGCA GACAAGACGG GGGACAAGCT GACATTAGCG AGTGCCTTAA ATATGCCAGC 
    CCCTTACCAC CATTAACACA GACCTGCCAA ATCCCTTGCC AAGATGACTG TCAGTTCACA 
    AGCTGGTCAA AATTTTCTTC CTGCAATGGG GACTGTGGAG GAGTCAGGGC AAGAAAACGC 
    ACTCTTGTTG GAAAAAGTAA AAAAAGGGAC AAATGCAAAA ACTCACAGAT GTATCCCTTG 
    ATTGAGAATC AGTTTTGTCC GTGTGACAAG TACAGCGCTC AACCTGTGGG AAACTGGTCT 
    GACTGTATTT TACCAGAAGG CAAAGTGGAA GTATTATTGG GAATGAAAGT ACAAGGAGAC 
    ATTAAAGAGT GTGGACAAGG TTATCGTTAC CAGGCCATGG CATGCTACGA TCAAAATAGT 
    CGGCTTGTGG AAACATCACG ATGCAATAGT CACGGTTACA TTGAGGAAGC CTGCATAATT 
    CCATGTCCCT CGGATTGCAA GCTCAGTGAA TGGTCCAACT GGTCTCGATG TAGTAAATCT 
    TGTGGGAGCG GGGTAAAAGT TAGGTCTAAG TGGCTCCGTG AGAAACCATA CAATGGCGGT 
    CGGCCTTGTC CCAAGCTGGA TCATGTCAAT CAGGCTCAGG TATATGAGGT TGTCCCATGC 
    CACAGTGACT GTAGCCAGTA CATATGGGTT ACTGAACCCT GGAGTGTCTG CAAAGTGACC 
    AATGTGGACT TGAAGGAGAA CTGTGGAGAA GGTGTTCAAA CCAGAAAAGT CAGGTGCATG 
    CTAAATACAG TGGATGGCCC TTCTGACACT GTGGAGGATT ACCTGTGTGA CCTTGAAGAG 
    ATGCCCCTTG GTGCTAGAAA GTGCACATTG CCATGTCCTG AAGACTGTGT TATGTCTGAA 
    TGGGGCCAGT GGTCTAGGTG TTCCTTGCCC TGCAATAGAA GTAGTGTGCG TGAAAGGTCA 
    GCAGAACCCT TAAGACTGCC TGATGATGGA AAGGGTTGTC CTGCTGCTAC TGAGACAGAA 
    CTCTGCAGCC TGAACAAGAA CTGTTACCAC TATGATTATA ATGTGACAGA CTGGAGTACT 
    TGTCAGCTCA GTGAGAAGGC TGTCTGTGGC AACGGTATCA AAACAAGAAT GCTAGATTGT 
    GTTCGCAGTG ATGGCAGATC AGTTGATCTG AAGTACTGTG AGGAGCTTGG CCTGGAAAAA 
    ACATGGCAGA TGAACACCTC TTGTGTGGTG GAATGTCCTG TTAATTGTCA GCTCTCTGAC 
    TGGTCTCCAT GGTCTGAATG CTCTCAAACA TGTGGCCTTA CAGGAAAGAT GATACGAAGG 
    AGAACAGTAA ATCAGCCTTT CCAGGGTGAT GGGAGGCCTT GTCCTTCTCA GATGGAGCAA 
    TTCAAACCCT GTCCAGTAAA GCCTTGTTAT CGATGGCAGT ATGGCCAGTG GGCTGAGTGC 
    AAAGTTGAGG ATGCTCAGTG TGGAGAGGGG ACAAGAATCC GGAACATTTC CTGTGTGGTT 
    TATGATGGAT CCACTGAAGA TATTGGTAAA GTAGTGGATG AGGAGTTTTG TGGAGAAATA 
    GAGCCTATTG TTGATGGCAA TAAGAAGATG GTACTTGAAG AAGCTTGCAC CGTTCCTTGT 
    CCAGGTGATT GTTATTTGAA GGAGTGGTCA GAATGGAGCC TTTGTCAGCT GACTTGTGTT 
    AATGGTGAAG ATCTTGGTTT TGGAGGGATA CAAGTCCGCT CCCGGGCAGT GATCATTCAG 
    GAATTGGAAA ACCAACATCT TTGTCCAGAA CAGGCTTTGG AAACAAGATC ATGTAGTGAT 
    GGCCAATGTT ATGAATACAA ATGGATGGCT AGCCCATGGA AGGGTTCTTC TAGGACAGTG 
    TGGTGCCAAA GATCAGATGG TTTAAATGTT ACAGCTCCCT GGATGACTGA TATTATATTG 
    CATGGGTGCG CACTGGTATG CGCCTTGTAT GCAAGGTCAC ACGATTTTAC TTTCTTGGGC 
    TGGGTAAAAT TTCTTAAGAC AACTCCTTCA TTCTTCATCA TCTCTCCTTT TAATATGTGG 
    CTACATCTAA CTACATCTGC TGCAGTAATA CTAAAATTTG CTTTTCAGAA TGTCATCATC 
    ATTCTCGACT TGCGTAAGAG TCTAATTACT TTAGATTCGC AATAG

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

    RefSeq XP_019353438.1
    CDS568..5412
    Translation

    Target ORF information:

    RefSeq Version XM_019497893.1
    Organism Alligator mississippiensis(American alligator)
    Definition Alligator mississippiensis thrombospondin type 1 domain containing 7A (THSD7A), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019497893.1

    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
    4561
    4621
    4681
    4741
    4801
    ATGGGGTTGA GACAAGGAAG CACAGTTTTA TTCGGTGGTG CAGGGGCTTT TTCTGTTTCA 
    GTCCAGTGCA TTGGAGTGCT TGTGGTTCTG TTTGGAATCT GGGAAGCTAA AGCACAAAGT 
    GAATTTGAAA CTTCATCTGT ATATTTGTGG AAGACTGATT GTTTGCCCTT TGAAGCAGAG 
    ACGGTCTCCT ATTGCCTGTA TAGCACTTTG AACATTTTGG ATGGTCCATG GGGTAGGTGT 
    ATGGGAGATG AATGTGGTCC AGGTGGTATC CAAACGCGAG CAGTGTGGTG TGCCCATGTG 
    GAAGGATGGA CAACCCTACC CACGAACTGT AAACAGATTG AGAGGCCTGA GAACCAACAG 
    AACTGTTTCA GGGTTTGTGA TTGGCACAAA GAACTGTATG ATTGGCAGTT GGGCAGCTGG 
    AATCAGTGCC AGCCAGTTAT TTCAAGGAGC ATTGAAAAAC CTCTAGAATG CATCAAAGGA 
    GAAGAAGGAA TCCAGATGAG AAATGTAACT TGCATACAGA AAGCAAACGG GGCCCCAGCT 
    GAGGATGTCA TATGTGACTA CTTTGAGCCC AAACCTCGCC AAGAGCAGGC ATGTCTCATC 
    CCTTGTCGTC AGGACTGCAT TATGGCAGAA TTCTCCCCCT GGTCAGAGTG CTCCAAGACC 
    TGTGGCAATG GGCTTCAGCA CAGAGCTCGT CACATTGTTG CTCCAGCTCG GTTTGGTGGC 
    TCTGCCTGTC CTAACCTGAC TGAATTTCAG ATCTGTCAGT CTAGCCCATG TGCTACTGAA 
    GAAAGCATGT ATAGCCTAAA TGTGGGACCC TGGAGTGCAT GTTCTATGCC CCAGTCAAGA 
    CATACAAGAC AAGCAAGGAA ACGGGGAAAG AACAAAGAAA AAGAGAAGGA CAGAGAAAAA 
    GGAGTACGGG ATCCTGAGGC TCGTGAGCTT ATTAAGAAAA AGAGAAATCG AAATAGACAA 
    AACAGACAGG AGAACAAATA TTGGGACATA CAGATTGGGT ATCAAACCAG GCAGGTTACA 
    TGTACTCACA GGAATGGGAA AACAGCAGAT TTGAGGTTTT GCCAACAAGA CAAGTTGCCA 
    ATTACTTTCC AGTCCTGTGT GATCACTAAG GACTGCCAGG TGTCAGAGTG GTCCGAGTGG 
    AGCCCATGTT CCAAAACCTG TTTTGATATG ACATCCCCAA AAGGAAATCG TACGAGAACA 
    CGGACAATTA AGCAGTTTCC TATTGGCAGT GAAGGTGAAT GCCCAGAACT AGAAGAAACA 
    GAGCAATGTG TTTCTCAAGG AGATGGTGTG GCACCATGTG TTACGTATGG CTGGAGAACC 
    ACAGAATGGA CTGAATGCCG TGTTGACCCT CTACTTAGCC AACAGGACAA AAGACGAGGA 
    AATCAGACAG CTCTGTGTGG AGGCGGGATT CAGACCCGTG AAGTGTACTG TGTGCAAACT 
    AATGAAAATC TCCTCTCCTA TTTAAATACC CTCAAGGAAA AAGAAGAAAG TCAGTCACAG 
    AGCACGTCGA AGTCTAGTGC TGCTCCACTT CTATCAATCA CTTTTGAAAT AACAGCATCC 
    AGACCAGTGG ATCGGAAACT ATGTACAGGA GCTGTACCCA GCACCACCCA GTTGTGCCAT 
    ATTCCTTGCC CAATAGAATG TGAGGTGTCC GCTTGGTCAG CCTGGGGACC ATGCACCCAC 
    GAAAGCTGTG ATGACCAACA AGCCAAAAAA GGTTTTAAAC TAAGGAAACG ACGCATCACA 
    AATGAACCTA CGGGGGGGAC TGGAAACTGC CCTCATCTCC TTGAAGCTAT CCCATGTGAG 
    GAGCCTTCTT GCTATGATTG GCGAATAGTG GAATTAGAAA AATGTATACC AGATAATGAG 
    AAGCAGTGTG GGCCCGGCAC TCAAGTTCCT GTGGTTGTCT GTATCAACAG TGATGGAGAA 
    GAAGTTGACA GACAGCTGTG TCGAGATGCT ATCTACCCAA TCCCCATTGT CTGTGAAGTT 
    CCATGCCCAA AGGATTGTGT TCTCAGCATG TGGTCTGGCT GGTCCTCCTG CTCACACACC 
    TGCTCAGGAA AAACCACAGA AGGAAAGCAG ATGCGTGCCC GCTCTATTTT GGCATATGCA 
    GGTGAAGGAG GTGTTCATTG CCCAAACAGT AGCGCGCTAC AGGAAACCCG CAGCTGCAAT 
    GAACACCCTT GCACTGTATA CCACTGGCAG ACTGGACCTT GGGGCCAGTG TATAGAGGAT 
    GTGTCTGTGT CTGCATTCAA CTCATCTACT AGTTGGAATG GAGAAGCCAC CTGTTCTGTT 
    GGGATGCAAA CAAGAAAAGT AATCTGTGTG AGAGTGAATG TGGGACAAGT GGGACCAAAA 
    AAATGCCCTG AAAACCTTCG ACCAGAAGCA GTGAGGCCTT GTTTGCTTCC TTGTAGAAAA 
    GACTGTATTG TGACACCATT CAGTGAGTGG ACACCATGTC CTTCTTCATG TCAGGAAGGG 
    GTTGCCACAG TAAAGAAGCA GTCTCGCCAT CGTGTCATCA TCCAGCTCCC TTCCAATGGT 
    GGCCGTGAGT GCCCAGATGC ATTATTTGAG GAGAGGGAAT GTGAAGCTCC CCCTGTCTGC 
    TATACCTACA GGTGGAAGAC CCACAAATGG CGCAGATGCC AGCTAGTACC ATGGAATGTT 
    CGCCAAGACA GCCCAGGGGC ACATGAAACG TGTGGGCCAG GACTACAAGC GAGAGCAATT 
    ACCTGTCGCA GACAAGACGG GGGACAAGCT GACATTAGCG AGTGCCTTAA ATATGCCAGC 
    CCCTTACCAC CATTAACACA GACCTGCCAA ATCCCTTGCC AAGATGACTG TCAGTTCACA 
    AGCTGGTCAA AATTTTCTTC CTGCAATGGG GACTGTGGAG GAGTCAGGGC AAGAAAACGC 
    ACTCTTGTTG GAAAAAGTAA AAAAAGGGAC AAATGCAAAA ACTCACAGAT GTATCCCTTG 
    ATTGAGAATC AGTTTTGTCC GTGTGACAAG TACAGCGCTC AACCTGTGGG AAACTGGTCT 
    GACTGTATTT TACCAGAAGG CAAAGTGGAA GTATTATTGG GAATGAAAGT ACAAGGAGAC 
    ATTAAAGAGT GTGGACAAGG TTATCGTTAC CAGGCCATGG CATGCTACGA TCAAAATAGT 
    CGGCTTGTGG AAACATCACG ATGCAATAGT CACGGTTACA TTGAGGAAGC CTGCATAATT 
    CCATGTCCCT CGGATTGCAA GCTCAGTGAA TGGTCCAACT GGTCTCGATG TAGTAAATCT 
    TGTGGGAGCG GGGTAAAAGT TAGGTCTAAG TGGCTCCGTG AGAAACCATA CAATGGCGGT 
    CGGCCTTGTC CCAAGCTGGA TCATGTCAAT CAGGCTCAGG TATATGAGGT TGTCCCATGC 
    CACAGTGACT GTAGCCAGTA CATATGGGTT ACTGAACCCT GGAGTGTCTG CAAAGTGACC 
    AATGTGGACT TGAAGGAGAA CTGTGGAGAA GGTGTTCAAA CCAGAAAAGT CAGGTGCATG 
    CTAAATACAG TGGATGGCCC TTCTGACACT GTGGAGGATT ACCTGTGTGA CCTTGAAGAG 
    ATGCCCCTTG GTGCTAGAAA GTGCACATTG CCATGTCCTG AAGACTGTGT TATGTCTGAA 
    TGGGGCCAGT GGTCTAGGTG TTCCTTGCCC TGCAATAGAA GTAGTGTGCG TGAAAGGTCA 
    GCAGAACCCT TAAGACTGCC TGATGATGGA AAGGGTTGTC CTGCTGCTAC TGAGACAGAA 
    CTCTGCAGCC TGAACAAGAA CTGTTACCAC TATGATTATA ATGTGACAGA CTGGAGTACT 
    TGTCAGCTCA GTGAGAAGGC TGTCTGTGGC AACGGTATCA AAACAAGAAT GCTAGATTGT 
    GTTCGCAGTG ATGGCAGATC AGTTGATCTG AAGTACTGTG AGGAGCTTGG CCTGGAAAAA 
    ACATGGCAGA TGAACACCTC TTGTGTGGTG GAATGTCCTG TTAATTGTCA GCTCTCTGAC 
    TGGTCTCCAT GGTCTGAATG CTCTCAAACA TGTGGCCTTA CAGGAAAGAT GATACGAAGG 
    AGAACAGTAA ATCAGCCTTT CCAGGGTGAT GGGAGGCCTT GTCCTTCTCA GATGGAGCAA 
    TTCAAACCCT GTCCAGTAAA GCCTTGTTAT CGATGGCAGT ATGGCCAGTG GGCTGAGTGC 
    AAAGTTGAGG ATGCTCAGTG TGGAGAGGGG ACAAGAATCC GGAACATTTC CTGTGTGGTT 
    TATGATGGAT CCACTGAAGA TATTGGTAAA GTAGTGGATG AGGAGTTTTG TGGAGAAATA 
    GAGCCTATTG TTGATGGCAA TAAGAAGATG GTACTTGAAG AAGCTTGCAC CGTTCCTTGT 
    CCAGGTGATT GTTATTTGAA GGAGTGGTCA GAATGGAGCC TTTGTCAGCT GACTTGTGTT 
    AATGGTGAAG ATCTTGGTTT TGGAGGGATA CAAGTCCGCT CCCGGGCAGT GATCATTCAG 
    GAATTGGAAA ACCAACATCT TTGTCCAGAA CAGGCTTTGG AAACAAGATC ATGTAGTGAT 
    GGCCAATGTT ATGAATACAA ATGGATGGCT AGCCCATGGA AGGGTTCTTC TAGGACAGTG 
    TGGTGCCAAA GATCAGATGG TTTAAATGTT ACAGCTCCCT GGATGACTGA TATTATATTG 
    CATGGGTGCG CACTGGTATG CGCCTTGTAT GCAAGGTCAC ACGATTTTAC TTTCTTGGGC 
    TGGGTAAAAT TTCTTAAGAC AACTCCTTCA TTCTTCATCA TCTCTCCTTT TAATATGTGG 
    CTACATCTAA CTACATCTGC TGCAGTAATA CTAAAATTTG CTTTTCAGAA TGTCATCATC 
    ATTCTCGACT TGCGTAAGAG TCTAATTACT TTAGATTCGC AATAG

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

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文