ORF » Species Summary » Danio rerio » FNDC1 cDNA ORF clone

FNDC1 cDNA ORF clone, Danio rerio(Zebrafish)

The following FNDC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FNDC1 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
ODa25053 XM_003200712.5
Latest version!		 Danio rerio fibronectin type III domain containing 1 (fndc1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
ODa25053 XM_003200712.4 Danio rerio fibronectin type III domain containing 1 (fndc1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
Hide Old Accession Versions >>

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)
    FNDC1 ( XM_003200712.5 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_003200760.2 Danio rerio fibronectin type III domain containing 1 (fndc1), mRNA.
    Price & Availability↑
    CloneID ODa25053
    Clone ID Related Accession (Same CDS sequence) XM_003200712.5 , XM_003200712.4
    Accession Version XM_003200712.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product fibronectin type III domain-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007131.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_003200712.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGACTCCTG CGCGGGCTCG AGCTCTTCTC GGGCTCCTGG TCACACTCTG CACCCAGAGC 
    CCACTGCTGT CGGGTTCTAA GCCACTACCA CCACGTAATG TGAAGCTGAC CTCAGTGGAT 
    AAAGGGCTGA AGGTCACCTG GGATCCGCCG AGCGAGCTGG ACGGACAGCC TGTTGACAGC 
    TACAGCATCG GCTATGGAAA GTCCATGAAG TCACTGCGCT ACGTCACTGT GGACAAAGAC 
    AGACGCTCAG AGTTACTGGA GGACGTAGAG CCTGGAGTCC TGCATTTTCT CAAGATGAGT 
    GCAGAGAATA AGGACGGGAT GAGTAAACCT GTCTACAGGG CAGAGACTCC AGGAGGGGGA 
    GAGTGGGTGA AACTGGATGG CTTTGCAGTC GAGCCTTTCA ACAGATCCTC TCCAGGCAGG 
    ATGGTGTCTA TAACTTCATC ACAGATTAAC CCGAGGCCCC CAACTCAGAG GACAGCACTA 
    GGACATCAGA GGGCTCCTCA GTCATCATCA GGACCAGAAC CTCCTCATCA AATAGGACGG 
    CTTCCTATCA GACCTCTAAA CAAACACAGA GTGGACCTCA GCCAACACCA AGCAGACCAG 
    CGCAATGCTA ACAAGCCCAA ACTGGCATCT GAGTCCGTCT ATGTGGTATC ACTGCAGGCA 
    CCCAGAGCCC AGGGGAGGAG TGCACCCATC AACACAGCTA CCATGAGTAA AAAAGTAATT 
    ACAGAGTCTG AAGTTGTGGA TGAAGTAGAG GACATCACAG TCAGAGTATT ATCTCCTCAG 
    TCTGTCCTGA TCACATGGGT TGACCCACCT GTTGAGAAGA ACAAGGAAAT ACCAGGGGGA 
    TCAAGGTATT ACAGAGTGAA GTACAGAGAG AAAGGAGAAT CTGCTCGATG GGAATACAAG 
    GACACTACTC AGAGACGGCT TATGATTGAA ACACTCTCTG CTGACAGCAT GTACGAGTTC 
    TCTATTTGTA TCTCACAAGG AAATCATATG GGGAAATGGA GTGCATCTGT GTTCCAGAGA 
    ACCCCTGAAT CAGCCCCCTC TGGTCCTCCA GAAAATTTTG AAGTCAAACC ACTAAGAGGA 
    AAAGGTACTG CTGTCACAGC AACTTGGGAT CCACCCGAGC AAACCAATGG GCGACTGAGA 
    GAGTACATCC TTTCATATGC TCCTGCTATG AAACCATTTG GTGCAAAGTC AGTTACATAT 
    CGAGGCACCA CCACTTCTGC TACTATAGAT GGACTTACAC CAGGTGACCG ATATATCTTC 
    AAGATTCGTG CAGTCAATAG GAAAGGACAA GGACCTCAGA CTAAAGCCAT AATTGTTTCA 
    ATGCCAGCAT CTAGCAATAC TCACACAAGA AACATGGACA GCCAAAGGAC AAGCCAAAGT 
    ACCTCAAAAA CATCATCCAA CAATGAATCA GACTACCAGG AACCAGATGA AATGGAAGAG 
    CCCAATACTC AGACCACAAC TCAAGCTCCA AACACAAATA GACGTCGCCC TCTTTCGCAA 
    ACCAGATCTT ATCACAGCAT CTTCTCCTCT GTAAGAGGTT CAGTCAGAAA CGGAGGCTCA 
    AAATCAAACT TGCATACATC CTCCACTCAT ACCAAAGATA GAGAAGATGA GGAGAAGCCA 
    ACAGCAGACA GTCCAATAGA AGAGAAGACC GGAGCAAATG AGGCTACTGA GGACACAAAT 
    CCAGAGAGGA GTAACAATGC ATCACCACAA ACACAAGAGC ATTCAAAATT GTCACCGGAC 
    ACAAAGGAAT CAAAACCCAG CAATTCTGAC ATTGTCCCTA AAACATCCGA GGATAAACGT 
    CCTCCTTGGA CCCCTCGTAC ATCCTCAATT GTTGATATTA GTAGATTAAG AAGGCCTAGT 
    TCTCGCAGTG GTTCTAGGTC AAGAATGCGG AGTGAAGATA CTTCAAGTTC ATCACTAAAC 
    CAAGAGTCTG CAGCTACAAG AAAGGACCTA ACAGCGGTTT CCTATCCTGA TGGACAAAAA 
    TCACACAACC AGATAACTGT CACTGATAGT ATGCCTTCAG TTGCTTCACC TCAGGAAAAC 
    AGGCCTGAAC CAGTAAAAGA ATCAGAACCT TCTTCATCTA TTTCTTCTTC TCCAACATAT 
    TCCTCCTCAG CATCCTCATC ATCTTCTTCA GTGTCTTCCC CTTCATCATC CTTACCATCA 
    TCTTCTGGTA CTAGAAGATT TTCCTCAGGA GCATCTGGAG CCAAGTATCC TAATGGAAGG 
    AGAGTTGGTA TTTCAACCAG AGGTCAAAGA CTTCAAACAG GAAAGCCCAA ACCTGATTCA 
    TCTTCATCTG CATCTTCACA ATCCACATTG CCAACAGGAA CCAGCACAGA TAATCATGAT 
    ACAACAGAAG TGCATGATAC AAACCAAAAA ATTACAAAGT TAAACACAGA GGAACTCCCA 
    GTACCAAAGG AAAATGATGA TAACGAAGAA AAGACAGTAG ATTCCACTTC CCATTCTTCT 
    TCAAGGACTA ACCCTTCTAC AACAGGACGA AGTTCATCCT TTTCGTTACC AAACCGAAAT 
    TCTAGAATAG TTACAAGCAG TCGTAGGCAA GATGGCAGGA TACCATGGAG TAGGTCTGCC 
    TCATCTGTAG GTGCAGGAAG GCCAATTATC AAAGGATTTC CTTCTCGTTC TACTTCTGTC 
    AGCTCTCAAG ACACTAGTGA TAAAAACAAA GTTTCACCCA CTGTATACCC AAAGCATAAA 
    GTTAATCCTG TCTCGAATAA ACCAAGTCTA CTAAATGTAA AAAGTAGTAA TGATCATGAA 
    GATGATTATC TATATGAGGG AAGCAAAGAG ATCTGGGATA GGCAAACCAA AGATGTAGTC 
    TCAACAACAG CACCAAAAAC AACAACAGCT GTGAGCGAAT CTCACAAACC TGTCCAGAAT 
    TTCGAGAATG AAAGTGTAGA TAGGGAACAA AGTAGTATGA GTACAGGTTT TAAGACAGTT 
    CCTTCAGTTC CCCATAAACT CCCTACTGTA ACTTCTAATG GTCGGGTCCG TTCACCTGTG 
    GTAAGTCGTT TAAAAGGTTC ACGGTTTCCT AGTAGATTGT ATCCACTACA ACATAGAAGA 
    CTAGGCGCTT CCACTCCGGA TACGTCGGCT GCCTCCTCCC AAAACAATCC AGCAGCAGAA 
    TCACCACTTA CCTCAGATCG AGACAGAGCT GCCAGCAGTA ATGCTAATGT TAGACTCGCC 
    TCGGGTTCAG TTTCTCGCCC TTCTCAAGGC CTGTCTGCTG GTGAAAGCTC CAGTGGGAAT 
    ATATCTCCTG AGTCTCGCAG TCCAGTAATG GGATCGAGGC TGCGGTCAGC GTCCACTCCG 
    GGCAATAGTT ACAAACCCAG TTTTGGGAAA GGGAAAAATG GACGACCAAA TCTGACAGCT 
    GCAAGCGGCA AAGTATCTTC AACATCTGAT GAAAATCCTA AACCAAATGG AGTACGACAT 
    ATCACAGGTC CTGATGGAAC AAAATGGATA TTAGACCTGG ATAAAGGAGT CTTAATGAAT 
    GAAAATGGAA GAGTCCTTCA GGATTCAAAA GGTAGACCAA GAAAGGTTAT CCTTGGAGAG 
    GATGGCAAGA CGATTTTTGA TGACCAAGGC AGCCCACTTG TAAACCAGGA AGGATTAGCA 
    TTATTTGGTC ATGGAAGAGA CAGCCGGCCA GTGAATAATC CAAGTGACAA GTACCTTACT 
    GTGGGAGGAA AACCCATTGT GGGCTTAGAC CGCCCTAAAC TTAGGACTAC AACCACTACA 
    ACTACATCTT CTACAACCAC TACACCCACA ACTACAACTA CTACACCAAC AACAACTACA 
    GCAGAACCCA CAACAGAAAT GGTAACAGAA ACAGTGGAGC CTTCAACATT AGCTGCTGAT 
    CCTACATGCC CACCTGGACT TTATTCCCGA TTGGATAAGA ACGGTTTACC AATATTGGAT 
    GCAGAAGGAA TACTTAACTG TTACTCTGAA GATGAGCTTT TTGAGGAGAG CACCACAATC 
    CCAGTCCCAC TTCCTACCAC AACACTGGCT TCCACAACAC AGACTCTCAC TCCTGAGACA 
    CGGCCATTTA ACAACACTCC TTCCTCTGAG TTTGATGTCA CTGGAAAGAA ACGGTTTACA 
    GCTCCATATG TAAACTACAT TCAGAAAGAC CCTGGAGCTC CCTGCTCCCT GACTGAGGCT 
    CTGGAGTATT TGCAAGTGGA CGTTTTAGCA GACCTGATGG AGAAAGACCA ACAGTCTTCC 
    AATCAGAAGC AGCCACCCAA AAACAAGCCC CACAATGTGA CTGTTGTTGC TATGGAGGGC 
    TGTCACTCCT TTGTGATTTT GGACTGGGCG CGTCCACTAA AAGACGACAT GGTGTCAGGC 
    TACATGGTAC ACAGTGCCTC CTATGACGAC GTTCTGAATA ACAGATGGTC AGAACAACCC 
    TCAACTGGAA CACACCTCCC TGTTGAAAAC CTCAAACCTA ATTCAAGATA TTACTTCAGA 
    GTTCAAGCAA AGAATATTTT TGGACTGGGG CCATTCAGTG AAACTTTAAC ATACGTCACA 
    GAGTCAGACG ACCCTCTGCT CATAGCAAGA CCCCCAGGTG GGGAGCCCAT CTGGATCCCA 
    TTCTCATTCA GGTATAACCA AGCCCACAGT TCTTGCAGAG GCAGTCAATT TGTCAAGCGC 
    ACCTGGTACA GGAAGTTTGT TGGCGTGGTC CTCTGTAACT CGCTGCGCTA CAAGATCTTC 
    ATGGCAGATG GACTGAGAGA AACATTCTAC AGCCTTGCTG ATACATTTGG CCATGGAGAG 
    GACCACTGCC AGTTTGTGGA CTCCCATCTA GATGGAAGAA CTGGACCACA CAATCTCTCT 
    CTCAACCTGC CTACAGCTCA AGGATATTAT CGGTCATACA GACAAGAGCC AGTAAATTTC 
    GGGGCCATCG GCAGGCGTAC ACCTCATCCA TTCGTAGGCT GGTATGAATG CGGAGTTCCG 
    ATCCCTGGAA AGTGGTAA

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

    RefSeq XP_003200760.2
    CDS38..4975
    Translation

    Target ORF information:

    RefSeq Version XM_003200712.5
    Organism Danio rerio(zebrafish)
    Definition Danio rerio fibronectin type III domain containing 1 (fndc1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003200712.5

    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
    ATGACTCCTG CGCGGGCTCG AGCTCTTCTC GGGCTCCTGG TCACACTCTG CACCCAGAGC 
    CCACTGCTGT CGGGTTCTAA GCCACTACCA CCACGTAATG TGAAGCTGAC CTCAGTGGAT 
    AAAGGGCTGA AGGTCACCTG GGATCCGCCG AGCGAGCTGG ACGGACAGCC TGTTGACAGC 
    TACAGCATCG GCTATGGAAA GTCCATGAAG TCACTGCGCT ACGTCACTGT GGACAAAGAC 
    AGACGCTCAG AGTTACTGGA GGACGTAGAG CCTGGAGTCC TGCATTTTCT CAAGATGAGT 
    GCAGAGAATA AGGACGGGAT GAGTAAACCT GTCTACAGGG CAGAGACTCC AGGAGGGGGA 
    GAGTGGGTGA AACTGGATGG CTTTGCAGTC GAGCCTTTCA ACAGATCCTC TCCAGGCAGG 
    ATGGTGTCTA TAACTTCATC ACAGATTAAC CCGAGGCCCC CAACTCAGAG GACAGCACTA 
    GGACATCAGA GGGCTCCTCA GTCATCATCA GGACCAGAAC CTCCTCATCA AATAGGACGG 
    CTTCCTATCA GACCTCTAAA CAAACACAGA GTGGACCTCA GCCAACACCA AGCAGACCAG 
    CGCAATGCTA ACAAGCCCAA ACTGGCATCT GAGTCCGTCT ATGTGGTATC ACTGCAGGCA 
    CCCAGAGCCC AGGGGAGGAG TGCACCCATC AACACAGCTA CCATGAGTAA AAAAGTAATT 
    ACAGAGTCTG AAGTTGTGGA TGAAGTAGAG GACATCACAG TCAGAGTATT ATCTCCTCAG 
    TCTGTCCTGA TCACATGGGT TGACCCACCT GTTGAGAAGA ACAAGGAAAT ACCAGGGGGA 
    TCAAGGTATT ACAGAGTGAA GTACAGAGAG AAAGGAGAAT CTGCTCGATG GGAATACAAG 
    GACACTACTC AGAGACGGCT TATGATTGAA ACACTCTCTG CTGACAGCAT GTACGAGTTC 
    TCTATTTGTA TCTCACAAGG AAATCATATG GGGAAATGGA GTGCATCTGT GTTCCAGAGA 
    ACCCCTGAAT CAGCCCCCTC TGGTCCTCCA GAAAATTTTG AAGTCAAACC ACTAAGAGGA 
    AAAGGTACTG CTGTCACAGC AACTTGGGAT CCACCCGAGC AAACCAATGG GCGACTGAGA 
    GAGTACATCC TTTCATATGC TCCTGCTATG AAACCATTTG GTGCAAAGTC AGTTACATAT 
    CGAGGCACCA CCACTTCTGC TACTATAGAT GGACTTACAC CAGGTGACCG ATATATCTTC 
    AAGATTCGTG CAGTCAATAG GAAAGGACAA GGACCTCAGA CTAAAGCCAT AATTGTTTCA 
    ATGCCAGCAT CTAGCAATAC TCACACAAGA AACATGGACA GCCAAAGGAC AAGCCAAAGT 
    ACCTCAAAAA CATCATCCAA CAATGAATCA GACTACCAGG AACCAGATGA AATGGAAGAG 
    CCCAATACTC AGACCACAAC TCAAGCTCCA AACACAAATA GACGTCGCCC TCTTTCGCAA 
    ACCAGATCTT ATCACAGCAT CTTCTCCTCT GTAAGAGGTT CAGTCAGAAA CGGAGGCTCA 
    AAATCAAACT TGCATACATC CTCCACTCAT ACCAAAGATA GAGAAGATGA GGAGAAGCCA 
    ACAGCAGACA GTCCAATAGA AGAGAAGACC GGAGCAAATG AGGCTACTGA GGACACAAAT 
    CCAGAGAGGA GTAACAATGC ATCACCACAA ACACAAGAGC ATTCAAAATT GTCACCGGAC 
    ACAAAGGAAT CAAAACCCAG CAATTCTGAC ATTGTCCCTA AAACATCCGA GGATAAACGT 
    CCTCCTTGGA CCCCTCGTAC ATCCTCAATT GTTGATATTA GTAGATTAAG AAGGCCTAGT 
    TCTCGCAGTG GTTCTAGGTC AAGAATGCGG AGTGAAGATA CTTCAAGTTC ATCACTAAAC 
    CAAGAGTCTG CAGCTACAAG AAAGGACCTA ACAGCGGTTT CCTATCCTGA TGGACAAAAA 
    TCACACAACC AGATAACTGT CACTGATAGT ATGCCTTCAG TTGCTTCACC TCAGGAAAAC 
    AGGCCTGAAC CAGTAAAAGA ATCAGAACCT TCTTCATCTA TTTCTTCTTC TCCAACATAT 
    TCCTCCTCAG CATCCTCATC ATCTTCTTCA GTGTCTTCCC CTTCATCATC CTTACCATCA 
    TCTTCTGGTA CTAGAAGATT TTCCTCAGGA GCATCTGGAG CCAAGTATCC TAATGGAAGG 
    AGAGTTGGTA TTTCAACCAG AGGTCAAAGA CTTCAAACAG GAAAGCCCAA ACCTGATTCA 
    TCTTCATCTG CATCTTCACA ATCCACATTG CCAACAGGAA CCAGCACAGA TAATCATGAT 
    ACAACAGAAG TGCATGATAC AAACCAAAAA ATTACAAAGT TAAACACAGA GGAACTCCCA 
    GTACCAAAGG AAAATGATGA TAACGAAGAA AAGACAGTAG ATTCCACTTC CCATTCTTCT 
    TCAAGGACTA ACCCTTCTAC AACAGGACGA AGTTCATCCT TTTCGTTACC AAACCGAAAT 
    TCTAGAATAG TTACAAGCAG TCGTAGGCAA GATGGCAGGA TACCATGGAG TAGGTCTGCC 
    TCATCTGTAG GTGCAGGAAG GCCAATTATC AAAGGATTTC CTTCTCGTTC TACTTCTGTC 
    AGCTCTCAAG ACACTAGTGA TAAAAACAAA GTTTCACCCA CTGTATACCC AAAGCATAAA 
    GTTAATCCTG TCTCGAATAA ACCAAGTCTA CTAAATGTAA AAAGTAGTAA TGATCATGAA 
    GATGATTATC TATATGAGGG AAGCAAAGAG ATCTGGGATA GGCAAACCAA AGATGTAGTC 
    TCAACAACAG CACCAAAAAC AACAACAGCT GTGAGCGAAT CTCACAAACC TGTCCAGAAT 
    TTCGAGAATG AAAGTGTAGA TAGGGAACAA AGTAGTATGA GTACAGGTTT TAAGACAGTT 
    CCTTCAGTTC CCCATAAACT CCCTACTGTA ACTTCTAATG GTCGGGTCCG TTCACCTGTG 
    GTAAGTCGTT TAAAAGGTTC ACGGTTTCCT AGTAGATTGT ATCCACTACA ACATAGAAGA 
    CTAGGCGCTT CCACTCCGGA TACGTCGGCT GCCTCCTCCC AAAACAATCC AGCAGCAGAA 
    TCACCACTTA CCTCAGATCG AGACAGAGCT GCCAGCAGTA ATGCTAATGT TAGACTCGCC 
    TCGGGTTCAG TTTCTCGCCC TTCTCAAGGC CTGTCTGCTG GTGAAAGCTC CAGTGGGAAT 
    ATATCTCCTG AGTCTCGCAG TCCAGTAATG GGATCGAGGC TGCGGTCAGC GTCCACTCCG 
    GGCAATAGTT ACAAACCCAG TTTTGGGAAA GGGAAAAATG GACGACCAAA TCTGACAGCT 
    GCAAGCGGCA AAGTATCTTC AACATCTGAT GAAAATCCTA AACCAAATGG AGTACGACAT 
    ATCACAGGTC CTGATGGAAC AAAATGGATA TTAGACCTGG ATAAAGGAGT CTTAATGAAT 
    GAAAATGGAA GAGTCCTTCA GGATTCAAAA GGTAGACCAA GAAAGGTTAT CCTTGGAGAG 
    GATGGCAAGA CGATTTTTGA TGACCAAGGC AGCCCACTTG TAAACCAGGA AGGATTAGCA 
    TTATTTGGTC ATGGAAGAGA CAGCCGGCCA GTGAATAATC CAAGTGACAA GTACCTTACT 
    GTGGGAGGAA AACCCATTGT GGGCTTAGAC CGCCCTAAAC TTAGGACTAC AACCACTACA 
    ACTACATCTT CTACAACCAC TACACCCACA ACTACAACTA CTACACCAAC AACAACTACA 
    GCAGAACCCA CAACAGAAAT GGTAACAGAA ACAGTGGAGC CTTCAACATT AGCTGCTGAT 
    CCTACATGCC CACCTGGACT TTATTCCCGA TTGGATAAGA ACGGTTTACC AATATTGGAT 
    GCAGAAGGAA TACTTAACTG TTACTCTGAA GATGAGCTTT TTGAGGAGAG CACCACAATC 
    CCAGTCCCAC TTCCTACCAC AACACTGGCT TCCACAACAC AGACTCTCAC TCCTGAGACA 
    CGGCCATTTA ACAACACTCC TTCCTCTGAG TTTGATGTCA CTGGAAAGAA ACGGTTTACA 
    GCTCCATATG TAAACTACAT TCAGAAAGAC CCTGGAGCTC CCTGCTCCCT GACTGAGGCT 
    CTGGAGTATT TGCAAGTGGA CGTTTTAGCA GACCTGATGG AGAAAGACCA ACAGTCTTCC 
    AATCAGAAGC AGCCACCCAA AAACAAGCCC CACAATGTGA CTGTTGTTGC TATGGAGGGC 
    TGTCACTCCT TTGTGATTTT GGACTGGGCG CGTCCACTAA AAGACGACAT GGTGTCAGGC 
    TACATGGTAC ACAGTGCCTC CTATGACGAC GTTCTGAATA ACAGATGGTC AGAACAACCC 
    TCAACTGGAA CACACCTCCC TGTTGAAAAC CTCAAACCTA ATTCAAGATA TTACTTCAGA 
    GTTCAAGCAA AGAATATTTT TGGACTGGGG CCATTCAGTG AAACTTTAAC ATACGTCACA 
    GAGTCAGACG ACCCTCTGCT CATAGCAAGA CCCCCAGGTG GGGAGCCCAT CTGGATCCCA 
    TTCTCATTCA GGTATAACCA AGCCCACAGT TCTTGCAGAG GCAGTCAATT TGTCAAGCGC 
    ACCTGGTACA GGAAGTTTGT TGGCGTGGTC CTCTGTAACT CGCTGCGCTA CAAGATCTTC 
    ATGGCAGATG GACTGAGAGA AACATTCTAC AGCCTTGCTG ATACATTTGG CCATGGAGAG 
    GACCACTGCC AGTTTGTGGA CTCCCATCTA GATGGAAGAA CTGGACCACA CAATCTCTCT 
    CTCAACCTGC CTACAGCTCA AGGATATTAT CGGTCATACA GACAAGAGCC AGTAAATTTC 
    GGGGCCATCG GCAGGCGTAC ACCTCATCCA TTCGTAGGCT GGTATGAATG CGGAGTTCCG 
    ATCCCTGGAA AGTGGTAA

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

    FNDC1 ( XM_003200712.4 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_003200760.2 Danio rerio fibronectin type III domain containing 1 (fndc1), mRNA.
    Price & Availability↑
    CloneID ODa25053
    Clone ID Related Accession (Same CDS sequence) XM_003200712.5 , XM_003200712.4
    Accession Version XM_003200712.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product fibronectin type III domain-containing protein 1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007131.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_003200712.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGACTCCTG CGCGGGCTCG AGCTCTTCTC GGGCTCCTGG TCACACTCTG CACCCAGAGC 
    CCACTGCTGT CGGGTTCTAA GCCACTACCA CCACGTAATG TGAAGCTGAC CTCAGTGGAT 
    AAAGGGCTGA AGGTCACCTG GGATCCGCCG AGCGAGCTGG ACGGACAGCC TGTTGACAGC 
    TACAGCATCG GCTATGGAAA GTCCATGAAG TCACTGCGCT ACGTCACTGT GGACAAAGAC 
    AGACGCTCAG AGTTACTGGA GGACGTAGAG CCTGGAGTCC TGCATTTTCT CAAGATGAGT 
    GCAGAGAATA AGGACGGGAT GAGTAAACCT GTCTACAGGG CAGAGACTCC AGGAGGGGGA 
    GAGTGGGTGA AACTGGATGG CTTTGCAGTC GAGCCTTTCA ACAGATCCTC TCCAGGCAGG 
    ATGGTGTCTA TAACTTCATC ACAGATTAAC CCGAGGCCCC CAACTCAGAG GACAGCACTA 
    GGACATCAGA GGGCTCCTCA GTCATCATCA GGACCAGAAC CTCCTCATCA AATAGGACGG 
    CTTCCTATCA GACCTCTAAA CAAACACAGA GTGGACCTCA GCCAACACCA AGCAGACCAG 
    CGCAATGCTA ACAAGCCCAA ACTGGCATCT GAGTCCGTCT ATGTGGTATC ACTGCAGGCA 
    CCCAGAGCCC AGGGGAGGAG TGCACCCATC AACACAGCTA CCATGAGTAA AAAAGTAATT 
    ACAGAGTCTG AAGTTGTGGA TGAAGTAGAG GACATCACAG TCAGAGTATT ATCTCCTCAG 
    TCTGTCCTGA TCACATGGGT TGACCCACCT GTTGAGAAGA ACAAGGAAAT ACCAGGGGGA 
    TCAAGGTATT ACAGAGTGAA GTACAGAGAG AAAGGAGAAT CTGCTCGATG GGAATACAAG 
    GACACTACTC AGAGACGGCT TATGATTGAA ACACTCTCTG CTGACAGCAT GTACGAGTTC 
    TCTATTTGTA TCTCACAAGG AAATCATATG GGGAAATGGA GTGCATCTGT GTTCCAGAGA 
    ACCCCTGAAT CAGCCCCCTC TGGTCCTCCA GAAAATTTTG AAGTCAAACC ACTAAGAGGA 
    AAAGGTACTG CTGTCACAGC AACTTGGGAT CCACCCGAGC AAACCAATGG GCGACTGAGA 
    GAGTACATCC TTTCATATGC TCCTGCTATG AAACCATTTG GTGCAAAGTC AGTTACATAT 
    CGAGGCACCA CCACTTCTGC TACTATAGAT GGACTTACAC CAGGTGACCG ATATATCTTC 
    AAGATTCGTG CAGTCAATAG GAAAGGACAA GGACCTCAGA CTAAAGCCAT AATTGTTTCA 
    ATGCCAGCAT CTAGCAATAC TCACACAAGA AACATGGACA GCCAAAGGAC AAGCCAAAGT 
    ACCTCAAAAA CATCATCCAA CAATGAATCA GACTACCAGG AACCAGATGA AATGGAAGAG 
    CCCAATACTC AGACCACAAC TCAAGCTCCA AACACAAATA GACGTCGCCC TCTTTCGCAA 
    ACCAGATCTT ATCACAGCAT CTTCTCCTCT GTAAGAGGTT CAGTCAGAAA CGGAGGCTCA 
    AAATCAAACT TGCATACATC CTCCACTCAT ACCAAAGATA GAGAAGATGA GGAGAAGCCA 
    ACAGCAGACA GTCCAATAGA AGAGAAGACC GGAGCAAATG AGGCTACTGA GGACACAAAT 
    CCAGAGAGGA GTAACAATGC ATCACCACAA ACACAAGAGC ATTCAAAATT GTCACCGGAC 
    ACAAAGGAAT CAAAACCCAG CAATTCTGAC ATTGTCCCTA AAACATCCGA GGATAAACGT 
    CCTCCTTGGA CCCCTCGTAC ATCCTCAATT GTTGATATTA GTAGATTAAG AAGGCCTAGT 
    TCTCGCAGTG GTTCTAGGTC AAGAATGCGG AGTGAAGATA CTTCAAGTTC ATCACTAAAC 
    CAAGAGTCTG CAGCTACAAG AAAGGACCTA ACAGCGGTTT CCTATCCTGA TGGACAAAAA 
    TCACACAACC AGATAACTGT CACTGATAGT ATGCCTTCAG TTGCTTCACC TCAGGAAAAC 
    AGGCCTGAAC CAGTAAAAGA ATCAGAACCT TCTTCATCTA TTTCTTCTTC TCCAACATAT 
    TCCTCCTCAG CATCCTCATC ATCTTCTTCA GTGTCTTCCC CTTCATCATC CTTACCATCA 
    TCTTCTGGTA CTAGAAGATT TTCCTCAGGA GCATCTGGAG CCAAGTATCC TAATGGAAGG 
    AGAGTTGGTA TTTCAACCAG AGGTCAAAGA CTTCAAACAG GAAAGCCCAA ACCTGATTCA 
    TCTTCATCTG CATCTTCACA ATCCACATTG CCAACAGGAA CCAGCACAGA TAATCATGAT 
    ACAACAGAAG TGCATGATAC AAACCAAAAA ATTACAAAGT TAAACACAGA GGAACTCCCA 
    GTACCAAAGG AAAATGATGA TAACGAAGAA AAGACAGTAG ATTCCACTTC CCATTCTTCT 
    TCAAGGACTA ACCCTTCTAC AACAGGACGA AGTTCATCCT TTTCGTTACC AAACCGAAAT 
    TCTAGAATAG TTACAAGCAG TCGTAGGCAA GATGGCAGGA TACCATGGAG TAGGTCTGCC 
    TCATCTGTAG GTGCAGGAAG GCCAATTATC AAAGGATTTC CTTCTCGTTC TACTTCTGTC 
    AGCTCTCAAG ACACTAGTGA TAAAAACAAA GTTTCACCCA CTGTATACCC AAAGCATAAA 
    GTTAATCCTG TCTCGAATAA ACCAAGTCTA CTAAATGTAA AAAGTAGTAA TGATCATGAA 
    GATGATTATC TATATGAGGG AAGCAAAGAG ATCTGGGATA GGCAAACCAA AGATGTAGTC 
    TCAACAACAG CACCAAAAAC AACAACAGCT GTGAGCGAAT CTCACAAACC TGTCCAGAAT 
    TTCGAGAATG AAAGTGTAGA TAGGGAACAA AGTAGTATGA GTACAGGTTT TAAGACAGTT 
    CCTTCAGTTC CCCATAAACT CCCTACTGTA ACTTCTAATG GTCGGGTCCG TTCACCTGTG 
    GTAAGTCGTT TAAAAGGTTC ACGGTTTCCT AGTAGATTGT ATCCACTACA ACATAGAAGA 
    CTAGGCGCTT CCACTCCGGA TACGTCGGCT GCCTCCTCCC AAAACAATCC AGCAGCAGAA 
    TCACCACTTA CCTCAGATCG AGACAGAGCT GCCAGCAGTA ATGCTAATGT TAGACTCGCC 
    TCGGGTTCAG TTTCTCGCCC TTCTCAAGGC CTGTCTGCTG GTGAAAGCTC CAGTGGGAAT 
    ATATCTCCTG AGTCTCGCAG TCCAGTAATG GGATCGAGGC TGCGGTCAGC GTCCACTCCG 
    GGCAATAGTT ACAAACCCAG TTTTGGGAAA GGGAAAAATG GACGACCAAA TCTGACAGCT 
    GCAAGCGGCA AAGTATCTTC AACATCTGAT GAAAATCCTA AACCAAATGG AGTACGACAT 
    ATCACAGGTC CTGATGGAAC AAAATGGATA TTAGACCTGG ATAAAGGAGT CTTAATGAAT 
    GAAAATGGAA GAGTCCTTCA GGATTCAAAA GGTAGACCAA GAAAGGTTAT CCTTGGAGAG 
    GATGGCAAGA CGATTTTTGA TGACCAAGGC AGCCCACTTG TAAACCAGGA AGGATTAGCA 
    TTATTTGGTC ATGGAAGAGA CAGCCGGCCA GTGAATAATC CAAGTGACAA GTACCTTACT 
    GTGGGAGGAA AACCCATTGT GGGCTTAGAC CGCCCTAAAC TTAGGACTAC AACCACTACA 
    ACTACATCTT CTACAACCAC TACACCCACA ACTACAACTA CTACACCAAC AACAACTACA 
    GCAGAACCCA CAACAGAAAT GGTAACAGAA ACAGTGGAGC CTTCAACATT AGCTGCTGAT 
    CCTACATGCC CACCTGGACT TTATTCCCGA TTGGATAAGA ACGGTTTACC AATATTGGAT 
    GCAGAAGGAA TACTTAACTG TTACTCTGAA GATGAGCTTT TTGAGGAGAG CACCACAATC 
    CCAGTCCCAC TTCCTACCAC AACACTGGCT TCCACAACAC AGACTCTCAC TCCTGAGACA 
    CGGCCATTTA ACAACACTCC TTCCTCTGAG TTTGATGTCA CTGGAAAGAA ACGGTTTACA 
    GCTCCATATG TAAACTACAT TCAGAAAGAC CCTGGAGCTC CCTGCTCCCT GACTGAGGCT 
    CTGGAGTATT TGCAAGTGGA CGTTTTAGCA GACCTGATGG AGAAAGACCA ACAGTCTTCC 
    AATCAGAAGC AGCCACCCAA AAACAAGCCC CACAATGTGA CTGTTGTTGC TATGGAGGGC 
    TGTCACTCCT TTGTGATTTT GGACTGGGCG CGTCCACTAA AAGACGACAT GGTGTCAGGC 
    TACATGGTAC ACAGTGCCTC CTATGACGAC GTTCTGAATA ACAGATGGTC AGAACAACCC 
    TCAACTGGAA CACACCTCCC TGTTGAAAAC CTCAAACCTA ATTCAAGATA TTACTTCAGA 
    GTTCAAGCAA AGAATATTTT TGGACTGGGG CCATTCAGTG AAACTTTAAC ATACGTCACA 
    GAGTCAGACG ACCCTCTGCT CATAGCAAGA CCCCCAGGTG GGGAGCCCAT CTGGATCCCA 
    TTCTCATTCA GGTATAACCA AGCCCACAGT TCTTGCAGAG GCAGTCAATT TGTCAAGCGC 
    ACCTGGTACA GGAAGTTTGT TGGCGTGGTC CTCTGTAACT CGCTGCGCTA CAAGATCTTC 
    ATGGCAGATG GACTGAGAGA AACATTCTAC AGCCTTGCTG ATACATTTGG CCATGGAGAG 
    GACCACTGCC AGTTTGTGGA CTCCCATCTA GATGGAAGAA CTGGACCACA CAATCTCTCT 
    CTCAACCTGC CTACAGCTCA AGGATATTAT CGGTCATACA GACAAGAGCC AGTAAATTTC 
    GGGGCCATCG GCAGGCGTAC ACCTCATCCA TTCGTAGGCT GGTATGAATG CGGAGTTCCG 
    ATCCCTGGAA AGTGGTAA

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

    RefSeq XP_003200760.2
    CDS37..4974
    Translation

    Target ORF information:

    RefSeq Version XM_003200712.4
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio fibronectin type III domain containing 1 (fndc1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003200712.4

    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
    ATGACTCCTG CGCGGGCTCG AGCTCTTCTC GGGCTCCTGG TCACACTCTG CACCCAGAGC 
    CCACTGCTGT CGGGTTCTAA GCCACTACCA CCACGTAATG TGAAGCTGAC CTCAGTGGAT 
    AAAGGGCTGA AGGTCACCTG GGATCCGCCG AGCGAGCTGG ACGGACAGCC TGTTGACAGC 
    TACAGCATCG GCTATGGAAA GTCCATGAAG TCACTGCGCT ACGTCACTGT GGACAAAGAC 
    AGACGCTCAG AGTTACTGGA GGACGTAGAG CCTGGAGTCC TGCATTTTCT CAAGATGAGT 
    GCAGAGAATA AGGACGGGAT GAGTAAACCT GTCTACAGGG CAGAGACTCC AGGAGGGGGA 
    GAGTGGGTGA AACTGGATGG CTTTGCAGTC GAGCCTTTCA ACAGATCCTC TCCAGGCAGG 
    ATGGTGTCTA TAACTTCATC ACAGATTAAC CCGAGGCCCC CAACTCAGAG GACAGCACTA 
    GGACATCAGA GGGCTCCTCA GTCATCATCA GGACCAGAAC CTCCTCATCA AATAGGACGG 
    CTTCCTATCA GACCTCTAAA CAAACACAGA GTGGACCTCA GCCAACACCA AGCAGACCAG 
    CGCAATGCTA ACAAGCCCAA ACTGGCATCT GAGTCCGTCT ATGTGGTATC ACTGCAGGCA 
    CCCAGAGCCC AGGGGAGGAG TGCACCCATC AACACAGCTA CCATGAGTAA AAAAGTAATT 
    ACAGAGTCTG AAGTTGTGGA TGAAGTAGAG GACATCACAG TCAGAGTATT ATCTCCTCAG 
    TCTGTCCTGA TCACATGGGT TGACCCACCT GTTGAGAAGA ACAAGGAAAT ACCAGGGGGA 
    TCAAGGTATT ACAGAGTGAA GTACAGAGAG AAAGGAGAAT CTGCTCGATG GGAATACAAG 
    GACACTACTC AGAGACGGCT TATGATTGAA ACACTCTCTG CTGACAGCAT GTACGAGTTC 
    TCTATTTGTA TCTCACAAGG AAATCATATG GGGAAATGGA GTGCATCTGT GTTCCAGAGA 
    ACCCCTGAAT CAGCCCCCTC TGGTCCTCCA GAAAATTTTG AAGTCAAACC ACTAAGAGGA 
    AAAGGTACTG CTGTCACAGC AACTTGGGAT CCACCCGAGC AAACCAATGG GCGACTGAGA 
    GAGTACATCC TTTCATATGC TCCTGCTATG AAACCATTTG GTGCAAAGTC AGTTACATAT 
    CGAGGCACCA CCACTTCTGC TACTATAGAT GGACTTACAC CAGGTGACCG ATATATCTTC 
    AAGATTCGTG CAGTCAATAG GAAAGGACAA GGACCTCAGA CTAAAGCCAT AATTGTTTCA 
    ATGCCAGCAT CTAGCAATAC TCACACAAGA AACATGGACA GCCAAAGGAC AAGCCAAAGT 
    ACCTCAAAAA CATCATCCAA CAATGAATCA GACTACCAGG AACCAGATGA AATGGAAGAG 
    CCCAATACTC AGACCACAAC TCAAGCTCCA AACACAAATA GACGTCGCCC TCTTTCGCAA 
    ACCAGATCTT ATCACAGCAT CTTCTCCTCT GTAAGAGGTT CAGTCAGAAA CGGAGGCTCA 
    AAATCAAACT TGCATACATC CTCCACTCAT ACCAAAGATA GAGAAGATGA GGAGAAGCCA 
    ACAGCAGACA GTCCAATAGA AGAGAAGACC GGAGCAAATG AGGCTACTGA GGACACAAAT 
    CCAGAGAGGA GTAACAATGC ATCACCACAA ACACAAGAGC ATTCAAAATT GTCACCGGAC 
    ACAAAGGAAT CAAAACCCAG CAATTCTGAC ATTGTCCCTA AAACATCCGA GGATAAACGT 
    CCTCCTTGGA CCCCTCGTAC ATCCTCAATT GTTGATATTA GTAGATTAAG AAGGCCTAGT 
    TCTCGCAGTG GTTCTAGGTC AAGAATGCGG AGTGAAGATA CTTCAAGTTC ATCACTAAAC 
    CAAGAGTCTG CAGCTACAAG AAAGGACCTA ACAGCGGTTT CCTATCCTGA TGGACAAAAA 
    TCACACAACC AGATAACTGT CACTGATAGT ATGCCTTCAG TTGCTTCACC TCAGGAAAAC 
    AGGCCTGAAC CAGTAAAAGA ATCAGAACCT TCTTCATCTA TTTCTTCTTC TCCAACATAT 
    TCCTCCTCAG CATCCTCATC ATCTTCTTCA GTGTCTTCCC CTTCATCATC CTTACCATCA 
    TCTTCTGGTA CTAGAAGATT TTCCTCAGGA GCATCTGGAG CCAAGTATCC TAATGGAAGG 
    AGAGTTGGTA TTTCAACCAG AGGTCAAAGA CTTCAAACAG GAAAGCCCAA ACCTGATTCA 
    TCTTCATCTG CATCTTCACA ATCCACATTG CCAACAGGAA CCAGCACAGA TAATCATGAT 
    ACAACAGAAG TGCATGATAC AAACCAAAAA ATTACAAAGT TAAACACAGA GGAACTCCCA 
    GTACCAAAGG AAAATGATGA TAACGAAGAA AAGACAGTAG ATTCCACTTC CCATTCTTCT 
    TCAAGGACTA ACCCTTCTAC AACAGGACGA AGTTCATCCT TTTCGTTACC AAACCGAAAT 
    TCTAGAATAG TTACAAGCAG TCGTAGGCAA GATGGCAGGA TACCATGGAG TAGGTCTGCC 
    TCATCTGTAG GTGCAGGAAG GCCAATTATC AAAGGATTTC CTTCTCGTTC TACTTCTGTC 
    AGCTCTCAAG ACACTAGTGA TAAAAACAAA GTTTCACCCA CTGTATACCC AAAGCATAAA 
    GTTAATCCTG TCTCGAATAA ACCAAGTCTA CTAAATGTAA AAAGTAGTAA TGATCATGAA 
    GATGATTATC TATATGAGGG AAGCAAAGAG ATCTGGGATA GGCAAACCAA AGATGTAGTC 
    TCAACAACAG CACCAAAAAC AACAACAGCT GTGAGCGAAT CTCACAAACC TGTCCAGAAT 
    TTCGAGAATG AAAGTGTAGA TAGGGAACAA AGTAGTATGA GTACAGGTTT TAAGACAGTT 
    CCTTCAGTTC CCCATAAACT CCCTACTGTA ACTTCTAATG GTCGGGTCCG TTCACCTGTG 
    GTAAGTCGTT TAAAAGGTTC ACGGTTTCCT AGTAGATTGT ATCCACTACA ACATAGAAGA 
    CTAGGCGCTT CCACTCCGGA TACGTCGGCT GCCTCCTCCC AAAACAATCC AGCAGCAGAA 
    TCACCACTTA CCTCAGATCG AGACAGAGCT GCCAGCAGTA ATGCTAATGT TAGACTCGCC 
    TCGGGTTCAG TTTCTCGCCC TTCTCAAGGC CTGTCTGCTG GTGAAAGCTC CAGTGGGAAT 
    ATATCTCCTG AGTCTCGCAG TCCAGTAATG GGATCGAGGC TGCGGTCAGC GTCCACTCCG 
    GGCAATAGTT ACAAACCCAG TTTTGGGAAA GGGAAAAATG GACGACCAAA TCTGACAGCT 
    GCAAGCGGCA AAGTATCTTC AACATCTGAT GAAAATCCTA AACCAAATGG AGTACGACAT 
    ATCACAGGTC CTGATGGAAC AAAATGGATA TTAGACCTGG ATAAAGGAGT CTTAATGAAT 
    GAAAATGGAA GAGTCCTTCA GGATTCAAAA GGTAGACCAA GAAAGGTTAT CCTTGGAGAG 
    GATGGCAAGA CGATTTTTGA TGACCAAGGC AGCCCACTTG TAAACCAGGA AGGATTAGCA 
    TTATTTGGTC ATGGAAGAGA CAGCCGGCCA GTGAATAATC CAAGTGACAA GTACCTTACT 
    GTGGGAGGAA AACCCATTGT GGGCTTAGAC CGCCCTAAAC TTAGGACTAC AACCACTACA 
    ACTACATCTT CTACAACCAC TACACCCACA ACTACAACTA CTACACCAAC AACAACTACA 
    GCAGAACCCA CAACAGAAAT GGTAACAGAA ACAGTGGAGC CTTCAACATT AGCTGCTGAT 
    CCTACATGCC CACCTGGACT TTATTCCCGA TTGGATAAGA ACGGTTTACC AATATTGGAT 
    GCAGAAGGAA TACTTAACTG TTACTCTGAA GATGAGCTTT TTGAGGAGAG CACCACAATC 
    CCAGTCCCAC TTCCTACCAC AACACTGGCT TCCACAACAC AGACTCTCAC TCCTGAGACA 
    CGGCCATTTA ACAACACTCC TTCCTCTGAG TTTGATGTCA CTGGAAAGAA ACGGTTTACA 
    GCTCCATATG TAAACTACAT TCAGAAAGAC CCTGGAGCTC CCTGCTCCCT GACTGAGGCT 
    CTGGAGTATT TGCAAGTGGA CGTTTTAGCA GACCTGATGG AGAAAGACCA ACAGTCTTCC 
    AATCAGAAGC AGCCACCCAA AAACAAGCCC CACAATGTGA CTGTTGTTGC TATGGAGGGC 
    TGTCACTCCT TTGTGATTTT GGACTGGGCG CGTCCACTAA AAGACGACAT GGTGTCAGGC 
    TACATGGTAC ACAGTGCCTC CTATGACGAC GTTCTGAATA ACAGATGGTC AGAACAACCC 
    TCAACTGGAA CACACCTCCC TGTTGAAAAC CTCAAACCTA ATTCAAGATA TTACTTCAGA 
    GTTCAAGCAA AGAATATTTT TGGACTGGGG CCATTCAGTG AAACTTTAAC ATACGTCACA 
    GAGTCAGACG ACCCTCTGCT CATAGCAAGA CCCCCAGGTG GGGAGCCCAT CTGGATCCCA 
    TTCTCATTCA GGTATAACCA AGCCCACAGT TCTTGCAGAG GCAGTCAATT TGTCAAGCGC 
    ACCTGGTACA GGAAGTTTGT TGGCGTGGTC CTCTGTAACT CGCTGCGCTA CAAGATCTTC 
    ATGGCAGATG GACTGAGAGA AACATTCTAC AGCCTTGCTG ATACATTTGG CCATGGAGAG 
    GACCACTGCC AGTTTGTGGA CTCCCATCTA GATGGAAGAA CTGGACCACA CAATCTCTCT 
    CTCAACCTGC CTACAGCTCA AGGATATTAT CGGTCATACA GACAAGAGCC AGTAAATTTC 
    GGGGCCATCG GCAGGCGTAC ACCTCATCCA TTCGTAGGCT GGTATGAATG CGGAGTTCCG 
    ATCCCTGGAA AGTGGTAA

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

見積依頼

Eメール

japanmarket@genscript.com

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