ORF » Species Summary » Xenopus tropicalis » fndc1 cDNA ORF clone

fndc1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

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
OXa44455 XM_018093997.1
Latest version!		 Xenopus tropicalis fibronectin type III domain containing 1 (fndc1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa58887 XM_031902567.1
Latest version!		 Xenopus tropicalis fibronectin type III domain containing 1 (fndc1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    fndc1 ( XM_018093997.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017949486.1 Xenopus tropicalis fibronectin type III domain containing 1 (fndc1), mRNA.
    Price & Availability↑
    CloneID OXa44455
    Clone ID Related Accession (Same CDS sequence) XM_018093997.1
    Accession Version XM_018093997.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5769bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030681.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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## ##RefSeq-Attributes-START## ab initio :: 39% of CDS bases ##RefSeq-Attributes-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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGCATCTT CAAGAAGTGA AACTGCAAAT ATGCAAACAA AAAGGAAGGC CCCAAGAAGA 
    ATATTCCGAG TACGCCCTCG ACCAGCTGGT GACAGATCAT CTGTTCTACA GGCATTGGGA 
    CTAAGAACTA CACGCAGATT TCGAGGCTAT TTGCCTAGTC CTGGAGAGAG CGCAAGGAAG 
    ATAAATTATG CTCCTCTTAA GCAAAGTGCT CAGAACCAAG ACAATAAGCA ACGTGCATCT 
    GAGTCAGTGC ACGTGGTCTC ATTACCATCA ACGAATTCTC AGAGGAAAAG CCAGCCAGTA 
    TATCGGGCAG CTGTTACAAA GCTTAAAATT CCAGAGGAAA CCCATTTTGT GGAACTAAAA 
    GATGTCAGCG TGAGAGTCAT ATCTTCTCAA TCTGTGCTTG TTTCCTGGGT AGACCCCGAC 
    TATGAAAAGT CACCAAAGGT TGGCTCAAAC AGACAGTACG CTGTGCGCTA CAGAGAAAAA 
    GGAGAATCTG CTCGATGGGA TTACAAGCAA GTTAACACAA GGCGTGCATT GGTGGACAAA 
    TTAAATCCTG ATGCTATGTA TGAATTTTCT GTCCGTGTTT CTGTAGAAGG CACTGAGGGC 
    CAATGGAGCT CTTCTGTTTT TCAAAGAACC CCTGAATCTG CTCCAACAAG TGCCCCAGAC 
    AACTTTGATG TGGACCCATT AAAGGGAAAA GGAACAGCTG TAATGGCAAA ATGGGATGAT 
    CTTGATGATG CCAATGGCAA GATTAAAGAA TACATTATCT CATATGCTCC TGCGCTGAAA 
    CCATTTGGAG GCAAATCCCT GTCCTACTCT GGAAGAACTA CTTCAGCCAT AATAGAAGGC 
    CTGCACCCTG GGGAACGTTA CATTTTTAAA ATACGAGCAG CGAATAGGAG GGGGCAGGGC 
    CCACAGTCTA AAGCTGTTAC AGTCATTATG CCCCTAGCCA GCACTGCATC CAAAACTCTA 
    CATCCTTCAT TTCAAAGAAA GGATGCTGAT GAACTTGAAG AAAAACAAGA AAAAGATGAT 
    TTGTTATCAA CTTCAGAAGA GACTGATAAC TTAAAGTCTA ATTTTAAAAC TGATACAGAA 
    TCAGAATCTA ATACTAAATC ATCACATGCA GGTGTTAGAA AAAACCCTCT AGAATCCAGC 
    AAGAAAACTG TTGATACAGA ATCCAGTCCT CAATCAACTG AAATCACTTT AGACATTAAA 
    CCTACAACAC CAAAGCCAAA ATTTCTACCC ATTGCTCCAA GGAGGCGAGT TCGTCCTATT 
    GTAATAAAGA GACCTGTCTT AAACAATGGA AGAAGACCTC TAAGAAAATA TCCTACAGAA 
    GTAGAACAAA AAGAGCCAGA TAATAAACTT GTTTCCCCTA CACTTTCCAT AGATGAAGAC 
    AATGAAACCA GTGACCCAAA AGTAGATGAT TCAGACAATG ATTCCCTTAC TGAAAGAAAT 
    CCTCCCTCTA AGGTAATGGA ACCTAATGAG AACCAAGAGG AGGAAGAACA CCAGCTTTCA 
    GATTATAATG ATTCAAAGAA TGTAGTGACC AACATTTCAC CATTAGATTC TATAAAGACT 
    GAAACAAGTA TCTCTGGGAA CAAAGATGAT AGTGAACTTG ATTTAGACAT AAGCAAAAAC 
    ATGCCAGAAT CCCTTTCTAC TAATGCCCCT AAAAAAGAAT CAACCTATTC AAACCACAGA 
    AAACCCTTAA ACAGGTTTCC AGTTATTCAA GGAAATGGCA AATCTTCTTC AAGCTCAGTT 
    AGGATTCCAA CACGTAACCA GCCTAATTAT GCTTCTAAAT TGCCATTAAC AAGTGTGCAT 
    CAAGCAGAGA AACAAACTAG TGAAAGTGAA GAAAAAACTA AAAATGTTTT TGATAAAAAT 
    CCAGAAAGGA CAAATACCAG TCCTACCCAA TCTATCATTC ATCCAAAACC TCGCTCTAAA 
    ATAGTTTCCT CTCAAAAAAC TGTTCCTCGT ATAAAACCCC AAACACAACC ATCTGTCCAT 
    GTAAACAAAG CCAAAGAATC AGGACCTCAT ATTACAAATA ATTTAAGAAA TCATGATGTT 
    GATATTAGTG TTGAAACAAA GAATACAGAA GACAGAAGCA AATATTCAGA TTTTAGGGAA 
    CACGGATCCT CAAAAACCCC TGTACAGAAA TTTCCTAACA TACACACCAG TTCAACATTG 
    AGTTCATCTT CTGATACTAA TCCCATTTCA TCTGATGAAG ATTCTGATCA TATATATACA 
    GAGCAAACAG AGAACGAAAA AGAAGCCTTT GCACCTGAGC ACAATAAGAT ACAAACAGCC 
    ATTAGCAATA CTGCAAAGGA CATCTCTACA AGTACTCCTA TTCCTACTAC CACTATTTCT 
    ACCACAACCA CCTCTTCTAC AACTAAACCT CAAACTACAT CTACATCTTT CAAGCCAAAT 
    ATAAGAGAAA AACCCCATAC AGATTTGGTG CCATCCTTCA CTGGAAAATC TGCATTATCA 
    ATTCTAGAAT ATTACAGAAG AAGGAGCAAC CAAGTAAATC CAAATGTTGG CAGTAGACTT 
    ACTTATAGAA ACAACTTAAG GGTTCAGGCT ACTACAAGTA CTACTGTGGC AACTACAACC 
    ATGTCAACAA CAACAACAAC AACTGTTCCA ACAACATTAA CCTCAAAATA TATAGAAGAA 
    AATAGCCATA GCAGATCAAT AGATACTAAA AGGGAAAATG GAAAATACAA CTTAGGGTCA 
    TCTTTGTTGC CTTCAAAACC TACAGTACAT ATTAAAACAG ATCACCAATC TCCTAATGAA 
    TTTGAACCAA ATGTTAATGT ATCTCCAACT TCCCAAACAC CTAGTGAAGC TGCTGAAAAA 
    TCCTCTTTAC CAGCACTTGT CAGCACTAAG AAAACAAATA CTTATAATGT ACCATCAAAA 
    ACAAATATTT TACAGCCTAA ATATAAAAAA GTAATTGCAC CTAAAGTCCC TATGAGAGAC 
    AACAGAAAGG TCTCTGCTGG TTCAATTCTG AACCAAAAAT TTCCTAATGA TCGTCAGTCA 
    TCTGCATCTA ACAGGAAGAG TAATATTTCT TCAGACAATT CCAACTTAGA AGAAACAGAG 
    AAAATATCTG ACATTTCTGT GAGTACATCT GATCTCATAT CTCCTTCAGC ATCAAGCATT 
    CATTCTAACA AAGGTTCCTC CTTACCTTTT CCAAACCATA AATCAAATAA CATTCAATCT 
    AAGAATAAAG AAGGAATATA TCAAGCAAAT AGCGAGACCA TCATTCCGTC TGTAGCATCA 
    TATTCCTACT TACCATCCAA CAGAAATGTT GGCATTAGAA AAACATCCCT GGGTAGACCC 
    CACCAAAATC TTACTTATTT ACAATCTGGT GTTGGTTCAT TTTCAGAAGC TGGACAAAAT 
    ACAAATACAC AAAACTTGCC AAAAGCTGTT GCCTCTGATA AACACACTTC TTTATCCAAG 
    GCACTGCCTG GTTCAAAGCC AAGAGTTAGT TACAAAGTAC CTATGAGACT TTCAGTGGAT 
    GGAAGAAAGA TCAATAAACC CAACATATCA CCTTCAATAG AAAAGGATCA GACAAAGCAA 
    ATTTCAGCTT CTCTTCCAAA AGCTCAACTT CCTACTGGAA GGAAAGATGA AGATTTTCAC 
    AAAACATCTA TAAAAACGCA GTCAACAGCA CAAGAGGAAA GCCCTACTTC ATCTTTAAGT 
    TCAAATTCCC CTTCATTGTC TTCTTCTGAA ATGCTTACAA ATGGAAACAT TAAAAAGAAT 
    GATTATGAAA AGAATAACTT TATGGATTCT TCTTTTTCTC AAGTACAATC TACAAATCTA 
    GAAGATGAGG AAGGCTTAAG TGCCCCTTTA ACACTAAAAG ACATTCCTCA AAGATCATCG 
    GGGACCTCCT CTAAATATTC AGTTGTGCAA AAGAAAACAA GTAGTACAAC TACAGTTATG 
    CCTACCACAA GTCACCCACA GCTTACCACC AGAACCTCTC CATATCGACT AATTCCTTCA 
    TTCTCTAGAA GACAAAGTTT TGGTAGACCA TTATTATCTA CAGCTACACC TCCACGAACA 
    ACTACTGTTT CACCTACTAG TTCTTTATCA TTACGTCAAA GGATAATAAA TTCAAGGCTT 
    CGTTCTCCAT TACGAAGGCA ATTTGGAAGA CCACTTTATA GGCAAGGTAA CAATGGAAGG 
    CCAAATCTAA TACCAAGAGT GGACTCAAAT GGGGATGTCC CATCTGCTAC TAATGGACAA 
    AGAATCATCC ATGGCCCTCA AGGAACAAAG TGGTTACACA ATGTTGACTT TTCTAGTGTA 
    TTACATTCTG CAAGGTTTGC CTTTATATGT ACACTTCGTA GTACAAAACT GTTTGCTTTT 
    TTGACAGATA TGAATGGGGC TCCTGTTGTT AGCCCTGGTG GATTGCCTCT CTTTGGAAAT 
    GGTAGATTTA GCAAACCTGT GGCCAATGCA CAAGACAAGC CAGTGTTGAG CCTGGGGGGA 
    AGACCATTGA AGGGTCTTGA AGTACCTAGA ACAACAAGAA TACCAACTAC AAGACCAACA 
    ACTACCCCCA CAACCACTAC AACTACAACC ACCACTGCCA CCACCACTAC CCCTCCTACG 
    ACTACACCTG AACCAACAAC TATTGAACAA ACTACAGAGG AACCCCCAAT GCCTACCTGT 
    CCTCCAGGCA CATATTCACA GTATGATGAA GAAGGAAATC TGATCATGGG ACCTGATGAC 
    AAGCCCGACT GCTACACAGA AGATAGCTTT TCAGGACAAG ATCTGATTGT TACCACCGAA 
    GCTTCTGAAA TTGTAACATA CATGGATCTT GATGAAGATA ATTATTTAAT TGAGACCACT 
    GAACCTCCCA TTAAATTAAC AACTAAACCT CCAACTCTTC CTGAGGATCC AGAAATGAAG 
    TCAATTACTT CAAACCTGGT ATCAGAATAT GACATTGCTG GAAAGAAGAG ATTTACTGCT 
    CCTTATGTGA CTTATATAAG TAAAGACCCA TCTGCACCCT GTTCTCTAAC TGAGGCCCTG 
    GAGCATTTTC AAGTGGAAAA TCTGGAAGAA TTACTACCCA AGGACATCAG TGAGCCGATT 
    CTACCTCCCC AGAAAATATC CTACAACATC ACTGTTGTGG CAGTGGAAGG CTGCCATTCT 
    TTTGTCATTC TAGACTGGGC CAAACCCAAA AAGGGGGATT TTATTACAGG ATACTTAGTT 
    TATAGTGCAT CTTATGATGA CTTCCTGAGA AACAAGTGGT CAACGCGAAC TGCAGGAGCC 
    ACCAGTTTCC CTGTTGAAAA TCTGAAACCT AATACAAGAT ATTACTTTAA AATTCAAGCA 
    GAGAATCCTT ATGGCGTAGG ACCAATGAGC CCTCATGTAT CATTTGTTAC AGAATCAGAT 
    AATCCACTGC TCATAGTGAG ACCACCAGGG GGTGAACCAA TCTGGATTCC ATTTGCATTC 
    AAGCATGATT CAAGCTTCTC CGGCTGCAGT GGCAAACAAT ATGTTAAACG CACATGGTAC 
    AGAAAGTTTG TGGGTGTTGT GCTCTGTAAT TCTTTAAGAT ATAAAATTTA CCTCAGTGAA 
    AATCTAAGGG ATACATTTTA CAGCATAGGA GACAGCTGGG GTCGAGGTGA AGATCACTGC 
    CAGTTTGTGG ATTCTTACAT GGAAGGAAGA ACGGGACCTA TGACTTATGT AGAGACAATG 
    CCTACAGTCA ATGGTTATTA TCGCCAGTAT GTTCAAGAGC CAGTGTCGTT TGGCCAAATC 
    GGTTTTGGAA CACCACATAA CTACGTGGGC TGGTATGAGT GTGGAGTGCC CATTCCAGGC 
    AAATGGTAA

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

    RefSeq XP_017949486.1
    CDS1..5769
    Translation

    Target ORF information:

    RefSeq Version XM_018093997.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018093997.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGCATCTT CAAGAAGTGA AACTGCAAAT ATGCAAACAA AAAGGAAGGC CCCAAGAAGA 
    ATATTCCGAG TACGCCCTCG ACCAGCTGGT GACAGATCAT CTGTTCTACA GGCATTGGGA 
    CTAAGAACTA CACGCAGATT TCGAGGCTAT TTGCCTAGTC CTGGAGAGAG CGCAAGGAAG 
    ATAAATTATG CTCCTCTTAA GCAAAGTGCT CAGAACCAAG ACAATAAGCA ACGTGCATCT 
    GAGTCAGTGC ACGTGGTCTC ATTACCATCA ACGAATTCTC AGAGGAAAAG CCAGCCAGTA 
    TATCGGGCAG CTGTTACAAA GCTTAAAATT CCAGAGGAAA CCCATTTTGT GGAACTAAAA 
    GATGTCAGCG TGAGAGTCAT ATCTTCTCAA TCTGTGCTTG TTTCCTGGGT AGACCCCGAC 
    TATGAAAAGT CACCAAAGGT TGGCTCAAAC AGACAGTACG CTGTGCGCTA CAGAGAAAAA 
    GGAGAATCTG CTCGATGGGA TTACAAGCAA GTTAACACAA GGCGTGCATT GGTGGACAAA 
    TTAAATCCTG ATGCTATGTA TGAATTTTCT GTCCGTGTTT CTGTAGAAGG CACTGAGGGC 
    CAATGGAGCT CTTCTGTTTT TCAAAGAACC CCTGAATCTG CTCCAACAAG TGCCCCAGAC 
    AACTTTGATG TGGACCCATT AAAGGGAAAA GGAACAGCTG TAATGGCAAA ATGGGATGAT 
    CTTGATGATG CCAATGGCAA GATTAAAGAA TACATTATCT CATATGCTCC TGCGCTGAAA 
    CCATTTGGAG GCAAATCCCT GTCCTACTCT GGAAGAACTA CTTCAGCCAT AATAGAAGGC 
    CTGCACCCTG GGGAACGTTA CATTTTTAAA ATACGAGCAG CGAATAGGAG GGGGCAGGGC 
    CCACAGTCTA AAGCTGTTAC AGTCATTATG CCCCTAGCCA GCACTGCATC CAAAACTCTA 
    CATCCTTCAT TTCAAAGAAA GGATGCTGAT GAACTTGAAG AAAAACAAGA AAAAGATGAT 
    TTGTTATCAA CTTCAGAAGA GACTGATAAC TTAAAGTCTA ATTTTAAAAC TGATACAGAA 
    TCAGAATCTA ATACTAAATC ATCACATGCA GGTGTTAGAA AAAACCCTCT AGAATCCAGC 
    AAGAAAACTG TTGATACAGA ATCCAGTCCT CAATCAACTG AAATCACTTT AGACATTAAA 
    CCTACAACAC CAAAGCCAAA ATTTCTACCC ATTGCTCCAA GGAGGCGAGT TCGTCCTATT 
    GTAATAAAGA GACCTGTCTT AAACAATGGA AGAAGACCTC TAAGAAAATA TCCTACAGAA 
    GTAGAACAAA AAGAGCCAGA TAATAAACTT GTTTCCCCTA CACTTTCCAT AGATGAAGAC 
    AATGAAACCA GTGACCCAAA AGTAGATGAT TCAGACAATG ATTCCCTTAC TGAAAGAAAT 
    CCTCCCTCTA AGGTAATGGA ACCTAATGAG AACCAAGAGG AGGAAGAACA CCAGCTTTCA 
    GATTATAATG ATTCAAAGAA TGTAGTGACC AACATTTCAC CATTAGATTC TATAAAGACT 
    GAAACAAGTA TCTCTGGGAA CAAAGATGAT AGTGAACTTG ATTTAGACAT AAGCAAAAAC 
    ATGCCAGAAT CCCTTTCTAC TAATGCCCCT AAAAAAGAAT CAACCTATTC AAACCACAGA 
    AAACCCTTAA ACAGGTTTCC AGTTATTCAA GGAAATGGCA AATCTTCTTC AAGCTCAGTT 
    AGGATTCCAA CACGTAACCA GCCTAATTAT GCTTCTAAAT TGCCATTAAC AAGTGTGCAT 
    CAAGCAGAGA AACAAACTAG TGAAAGTGAA GAAAAAACTA AAAATGTTTT TGATAAAAAT 
    CCAGAAAGGA CAAATACCAG TCCTACCCAA TCTATCATTC ATCCAAAACC TCGCTCTAAA 
    ATAGTTTCCT CTCAAAAAAC TGTTCCTCGT ATAAAACCCC AAACACAACC ATCTGTCCAT 
    GTAAACAAAG CCAAAGAATC AGGACCTCAT ATTACAAATA ATTTAAGAAA TCATGATGTT 
    GATATTAGTG TTGAAACAAA GAATACAGAA GACAGAAGCA AATATTCAGA TTTTAGGGAA 
    CACGGATCCT CAAAAACCCC TGTACAGAAA TTTCCTAACA TACACACCAG TTCAACATTG 
    AGTTCATCTT CTGATACTAA TCCCATTTCA TCTGATGAAG ATTCTGATCA TATATATACA 
    GAGCAAACAG AGAACGAAAA AGAAGCCTTT GCACCTGAGC ACAATAAGAT ACAAACAGCC 
    ATTAGCAATA CTGCAAAGGA CATCTCTACA AGTACTCCTA TTCCTACTAC CACTATTTCT 
    ACCACAACCA CCTCTTCTAC AACTAAACCT CAAACTACAT CTACATCTTT CAAGCCAAAT 
    ATAAGAGAAA AACCCCATAC AGATTTGGTG CCATCCTTCA CTGGAAAATC TGCATTATCA 
    ATTCTAGAAT ATTACAGAAG AAGGAGCAAC CAAGTAAATC CAAATGTTGG CAGTAGACTT 
    ACTTATAGAA ACAACTTAAG GGTTCAGGCT ACTACAAGTA CTACTGTGGC AACTACAACC 
    ATGTCAACAA CAACAACAAC AACTGTTCCA ACAACATTAA CCTCAAAATA TATAGAAGAA 
    AATAGCCATA GCAGATCAAT AGATACTAAA AGGGAAAATG GAAAATACAA CTTAGGGTCA 
    TCTTTGTTGC CTTCAAAACC TACAGTACAT ATTAAAACAG ATCACCAATC TCCTAATGAA 
    TTTGAACCAA ATGTTAATGT ATCTCCAACT TCCCAAACAC CTAGTGAAGC TGCTGAAAAA 
    TCCTCTTTAC CAGCACTTGT CAGCACTAAG AAAACAAATA CTTATAATGT ACCATCAAAA 
    ACAAATATTT TACAGCCTAA ATATAAAAAA GTAATTGCAC CTAAAGTCCC TATGAGAGAC 
    AACAGAAAGG TCTCTGCTGG TTCAATTCTG AACCAAAAAT TTCCTAATGA TCGTCAGTCA 
    TCTGCATCTA ACAGGAAGAG TAATATTTCT TCAGACAATT CCAACTTAGA AGAAACAGAG 
    AAAATATCTG ACATTTCTGT GAGTACATCT GATCTCATAT CTCCTTCAGC ATCAAGCATT 
    CATTCTAACA AAGGTTCCTC CTTACCTTTT CCAAACCATA AATCAAATAA CATTCAATCT 
    AAGAATAAAG AAGGAATATA TCAAGCAAAT AGCGAGACCA TCATTCCGTC TGTAGCATCA 
    TATTCCTACT TACCATCCAA CAGAAATGTT GGCATTAGAA AAACATCCCT GGGTAGACCC 
    CACCAAAATC TTACTTATTT ACAATCTGGT GTTGGTTCAT TTTCAGAAGC TGGACAAAAT 
    ACAAATACAC AAAACTTGCC AAAAGCTGTT GCCTCTGATA AACACACTTC TTTATCCAAG 
    GCACTGCCTG GTTCAAAGCC AAGAGTTAGT TACAAAGTAC CTATGAGACT TTCAGTGGAT 
    GGAAGAAAGA TCAATAAACC CAACATATCA CCTTCAATAG AAAAGGATCA GACAAAGCAA 
    ATTTCAGCTT CTCTTCCAAA AGCTCAACTT CCTACTGGAA GGAAAGATGA AGATTTTCAC 
    AAAACATCTA TAAAAACGCA GTCAACAGCA CAAGAGGAAA GCCCTACTTC ATCTTTAAGT 
    TCAAATTCCC CTTCATTGTC TTCTTCTGAA ATGCTTACAA ATGGAAACAT TAAAAAGAAT 
    GATTATGAAA AGAATAACTT TATGGATTCT TCTTTTTCTC AAGTACAATC TACAAATCTA 
    GAAGATGAGG AAGGCTTAAG TGCCCCTTTA ACACTAAAAG ACATTCCTCA AAGATCATCG 
    GGGACCTCCT CTAAATATTC AGTTGTGCAA AAGAAAACAA GTAGTACAAC TACAGTTATG 
    CCTACCACAA GTCACCCACA GCTTACCACC AGAACCTCTC CATATCGACT AATTCCTTCA 
    TTCTCTAGAA GACAAAGTTT TGGTAGACCA TTATTATCTA CAGCTACACC TCCACGAACA 
    ACTACTGTTT CACCTACTAG TTCTTTATCA TTACGTCAAA GGATAATAAA TTCAAGGCTT 
    CGTTCTCCAT TACGAAGGCA ATTTGGAAGA CCACTTTATA GGCAAGGTAA CAATGGAAGG 
    CCAAATCTAA TACCAAGAGT GGACTCAAAT GGGGATGTCC CATCTGCTAC TAATGGACAA 
    AGAATCATCC ATGGCCCTCA AGGAACAAAG TGGTTACACA ATGTTGACTT TTCTAGTGTA 
    TTACATTCTG CAAGGTTTGC CTTTATATGT ACACTTCGTA GTACAAAACT GTTTGCTTTT 
    TTGACAGATA TGAATGGGGC TCCTGTTGTT AGCCCTGGTG GATTGCCTCT CTTTGGAAAT 
    GGTAGATTTA GCAAACCTGT GGCCAATGCA CAAGACAAGC CAGTGTTGAG CCTGGGGGGA 
    AGACCATTGA AGGGTCTTGA AGTACCTAGA ACAACAAGAA TACCAACTAC AAGACCAACA 
    ACTACCCCCA CAACCACTAC AACTACAACC ACCACTGCCA CCACCACTAC CCCTCCTACG 
    ACTACACCTG AACCAACAAC TATTGAACAA ACTACAGAGG AACCCCCAAT GCCTACCTGT 
    CCTCCAGGCA CATATTCACA GTATGATGAA GAAGGAAATC TGATCATGGG ACCTGATGAC 
    AAGCCCGACT GCTACACAGA AGATAGCTTT TCAGGACAAG ATCTGATTGT TACCACCGAA 
    GCTTCTGAAA TTGTAACATA CATGGATCTT GATGAAGATA ATTATTTAAT TGAGACCACT 
    GAACCTCCCA TTAAATTAAC AACTAAACCT CCAACTCTTC CTGAGGATCC AGAAATGAAG 
    TCAATTACTT CAAACCTGGT ATCAGAATAT GACATTGCTG GAAAGAAGAG ATTTACTGCT 
    CCTTATGTGA CTTATATAAG TAAAGACCCA TCTGCACCCT GTTCTCTAAC TGAGGCCCTG 
    GAGCATTTTC AAGTGGAAAA TCTGGAAGAA TTACTACCCA AGGACATCAG TGAGCCGATT 
    CTACCTCCCC AGAAAATATC CTACAACATC ACTGTTGTGG CAGTGGAAGG CTGCCATTCT 
    TTTGTCATTC TAGACTGGGC CAAACCCAAA AAGGGGGATT TTATTACAGG ATACTTAGTT 
    TATAGTGCAT CTTATGATGA CTTCCTGAGA AACAAGTGGT CAACGCGAAC TGCAGGAGCC 
    ACCAGTTTCC CTGTTGAAAA TCTGAAACCT AATACAAGAT ATTACTTTAA AATTCAAGCA 
    GAGAATCCTT ATGGCGTAGG ACCAATGAGC CCTCATGTAT CATTTGTTAC AGAATCAGAT 
    AATCCACTGC TCATAGTGAG ACCACCAGGG GGTGAACCAA TCTGGATTCC ATTTGCATTC 
    AAGCATGATT CAAGCTTCTC CGGCTGCAGT GGCAAACAAT ATGTTAAACG CACATGGTAC 
    AGAAAGTTTG TGGGTGTTGT GCTCTGTAAT TCTTTAAGAT ATAAAATTTA CCTCAGTGAA 
    AATCTAAGGG ATACATTTTA CAGCATAGGA GACAGCTGGG GTCGAGGTGA AGATCACTGC 
    CAGTTTGTGG ATTCTTACAT GGAAGGAAGA ACGGGACCTA TGACTTATGT AGAGACAATG 
    CCTACAGTCA ATGGTTATTA TCGCCAGTAT GTTCAAGAGC CAGTGTCGTT TGGCCAAATC 
    GGTTTTGGAA CACCACATAA CTACGTGGGC TGGTATGAGT GTGGAGTGCC CATTCCAGGC 
    AAATGGTAA

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

    fndc1 ( XM_031902567.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031758427.1 Xenopus tropicalis fibronectin type III domain containing 1 (fndc1), mRNA.
    Price & Availability↑
    CloneID OXa58887
    Clone ID Related Accession (Same CDS sequence) XM_031902567.1
    Accession Version XM_031902567.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5844bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030681.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTGAAA GAATTAGAAC CAGCAGAGCT TCTGCCTCCT TATCATTCCT GGTCATCATA 
    CTTCTGGCTC TTCTCGCCTC ATCAGCTGCT GCAACAGAAA GGAAGGCCCC AAGAAGAATA 
    TTCCGAGTAC GCCCTCGACC AGCTGGTGAC AGATCATCTG TTCTACAGGC ATTGGGACTA 
    AGAACTACAC GCAGATTTCG AGGCTATTTG CCTAGTCCTG GAGAGAGCGC AAGGAAGATA 
    AATTATGCTC CTCTTAAGCA AAGTGCTCAG AACCAAGACA ATAAGCAACG TGCATCTGAG 
    TCAGTGCACG TGGTCTCATT ACCATCAACG AATTCTCAGA GGAAAAGCCA GCCAGTATAT 
    CGGGCAGCTG TTACAAAGCT TAAAATTCCA GAGGAAACCC ATTTTGTGGA ACTAAAAGAT 
    GTCAGCGTGA GAGTCATATC TTCTCAATCT GTGCTTGTTT CCTGGGTAGA CCCCGACTAT 
    GAAAAGTCAC CAAAGGTTGG CTCAAACAGA CAGTACGCTG TGCGCTACAG AGAAAAAGGA 
    GAATCTGCTC GATGGGATTA CAAGCAAGTT AACACAAGGC GTGCATTGGT GGACAAATTA 
    AATCCTGATG CTATGTATGA ATTTTCTGTC CGTGTTTCTG TAGAAGGCAC TGAGGGCCAA 
    TGGAGCTCTT CTGTTTTTCA AAGAACCCCT GAATCTGCTC CAACAAGTGC CCCAGACAAC 
    TTTGATGTGG ACCCATTAAA GGGAAAAGGA ACAGCTGTAA TGGCAAAATG GGATGATCTT 
    GATGATGCCA ATGGCAAGAT TAAAGAATAC ATTATCTCAT ATGCTCCTGC GCTGAAACCA 
    TTTGGAGGCA AATCCCTGTC CTACTCTGGA AGAACTACTT CAGCCATAAT AGAAGGCCTG 
    CACCCTGGGG AACGTTACAT TTTTAAAATA CGAGCAGCGA ATAGGAGGGG GCAGGGCCCA 
    CAGTCTAAAG CTGTTACAGT CATTATGCCC CTAGCCAGCA CTGCATCCAA AACTCTACAT 
    CCTTCATTTC AAAGAAAGGA TGCTGATGAA CTTGAAGAAA AACAAGAAAA AGATGATTTG 
    TTATCAACTT CAGAAGAGAC TGATAACTTA AAGTCTAATT TTAAAACTGA TACAGAATCA 
    GAATCTAATA CTAAATCATC ACATGCAGGT GTTAGAAAAA ACCCTCTAGA ATCCAGCAAG 
    AAAACTGTTG ATACAGAATC CAGTCCTCAA TCAACTGAAA TCACTTTAGA CATTAAACCT 
    ACAACACCAA AGCCAAAATT TCTACCCATT GCTCCAAGGA GGCGAGTTCG TCCTATTGTA 
    ATAAAGAGAC CTGTCTTAAA CAATGGAAGA AGACCTCTAA GAAAATATCC TACAGAAGTA 
    GAACAAAAAG AGCCAGATAA TAAACTTGTT TCCCCTACAC TTTCCATAGA TGAAGACAAT 
    GAAACCAGTG ACCCAAAAGT AGATGATTCA GACAATGATT CCCTTACTGA AAGAAATCCT 
    CCCTCTAAGG TAATGGAACC TAATGAGAAC CAAGAGGAGG AAGAACACCA GCTTTCAGAT 
    TATAATGATT CAAAGAATGT AGTGACCAAC ATTTCACCAT TAGATTCTAT AAAGACTGAA 
    ACAAGTATCT CTGGGAACAA AGATGATAGT GAACTTGATT TAGACATAAG CAAAAACATG 
    CCAGAATCCC TTTCTACTAA TGCCCCTAAA AAAGAATCAA CCTATTCAAA CCACAGAAAA 
    CCCTTAAACA GGTTTCCAGT TATTCAAGGA AATGGCAAAT CTTCTTCAAG CTCAGTTAGG 
    ATTCCAACAC GTAACCAGCC TAATTATGCT TCTAAATTGC CATTAACAAG TGTGCATCAA 
    GCAGAGAAAC AAACTAGTGA AAGTGAAGAA AAAACTAAAA ATGTTTTTGA TAAAAATCCA 
    GAAAGGACAA ATACCAGTCC TACCCAATCT ATCATTCATC CAAAACCTCG CTCTAAAATA 
    GTTTCCTCTC AAAAAACTGT TCCTCGTATA AAACCCCAAA CACAACCATC TGTCCATGTA 
    AACAAAGCCA AAGAATCAGG ACCTCATATT ACAAATAATT TAAGAAATCA TGATGTTGAT 
    ATTAGTGTTG AAACAAAGAA TACAGAAGAC AGAAGCAAAT ATTCAGATTT TAGGGAACAC 
    GGATCCTCAA AAACCCCTGT ACAGAAATTT CCTAACATAC ACACCAGTTC AACATTGAGT 
    TCATCTTCTG ATACTAATCC CATTTCATCT GATGAAGATT CTGATCATAT ATATACAGAG 
    CAAACAGAGA ACGAAAAAGA AGCCTTTGCA CCTGAGCACA ATAAGATACA AACAGCCATT 
    AGCAATACTG CAAAGGACAT CTCTACAAGT ACTCCTATTC CTACTACCAC TATTTCTACC 
    ACAACCACCT CTTCTACAAC TAAACCTCAA ACTACATCTA CATCTTTCAA GCCAAATATA 
    AGAGAAAAAC CCCATACAGA TTTGGTGCCA TCCTTCACTG GAAAATCTGC ATTATCAATT 
    CTAGAATATT ACAGAAGAAG GAGCAACCAA GTAAATCCAA ATGTTGGCAG TAGACTTACT 
    TATAGAAACA ACTTAAGGGT TCAGGCTACT ACAAGTACTA CTGTGGCAAC TACAACCATG 
    TCAACAACAA CAACAACAAC TGTTCCAACA ACATTAACCT CAAAATATAT AGAAGAAAAT 
    AGCCATAGCA GATCAATAGA TACTAAAAGG GAAAATGGAA AATACAACTT AGGGTCATCT 
    TTGTTGCCTT CAAAACCTAC AGTACATATT AAAACAGATC ACCAATCTCC TAATGAATTT 
    GAACCAAATG TTAATGTATC TCCAACTTCC CAAACACCTA GTGAAGCTGC TGAAAAATCC 
    TCTTTACCAG CACTTGTCAG CACTAAGAAA ACAAATACTT ATAATGTACC ATCAAAAACA 
    AATATTTTAC AGCCTAAATA TAAAAAAGTA ATTGCACCTA AAGTCCCTAT GAGAGACAAC 
    AGAAAGGTCT CTGCTGGTTC AATTCTGAAC CAAAAATTTC CTAATGATCG TCAGTCATCT 
    GCATCTAACA GGAAGAGTAA TATTTCTTCA GACAATTCCA ACTTAGAAGA AACAGAGAAA 
    ATATCTGACA TTTCTGTGAG TACATCTGAT CTCATATCTC CTTCAGCATC AAGCATTCAT 
    TCTAACAAAG GTTCCTCCTT ACCTTTTCCA AACCATAAAT CAAATAACAT TCAATCTAAG 
    AATAAAGAAG GAATATATCA AGCAAATAGC GAGACCATCA TTCCGTCTGT AGCATCATAT 
    TCCTACTTAC CATCCAACAG AAATGTTGGC ATTAGAAAAA CATCCCTGGG TAGACCCCAC 
    CAAAATCTTA CTTATTTACA ATCTGGTGTT GGTTCATTTT CAGAAGCTGG ACAAAATACA 
    AATACACAAA ACTTGCCAAA AGCTGTTGCC TCTGATAAAC ACACTTCTTT ATCCAAGGCA 
    CTGCCTGGTT CAAAGCCAAG AGTTAGTTAC AAAGTACCTA TGAGACTTTC AGTGGATGGA 
    AGAAAGATCA ATAAACCCAA CATATCACCT TCAATAGAAA AGGATCAGAC AAAGCAAATT 
    TCAGCTTCTC TTCCAAAAGC TCAACTTCCT ACTGGAAGGA AAGATGAAGA TTTTCACAAA 
    ACATCTATAA AAACGCAGTC AACAGCACAA GAGGAAAGCC CTACTTCATC TTTAAGTTCA 
    AATTCCCCTT CATTGTCTTC TTCTGAAATG CTTACAAATG GAAACATTAA AAAGAATGAT 
    TATGAAAAGA ATAACTTTAT GGATTCTTCT TTTTCTCAAG TACAATCTAC AAATCTAGAA 
    GATGAGGAAG GCTTAAGTGC CCCTTTAACA CTAAAAGACA TTCCTCAAAG ATCATCGGGG 
    ACCTCCTCTA AATATTCAGT TGTGCAAAAG AAAACAAGTA GTACAACTAC AGTTATGCCT 
    ACCACAAGTC ACCCACAGCT TACCACCAGA ACCTCTCCAT ATCGACTAAT TCCTTCATTC 
    TCTAGAAGAC AAAGTTTTGG TAGACCATTA TTATCTACAG CTACACCTCC ACGAACAACT 
    ACTGTTTCAC CTACTAGTTC TTTATCATTA CGTCAAAGGA TAATAAATTC AAGGCTTCGT 
    TCTCCATTAC GAAGGCAATT TGGAAGACCA CTTTATAGGC AAGGTAACAA TGGAAGGCCA 
    AATCTAATAC CAAGAGTGGA CTCAAATGGG GATGTCCCAT CTGCTACTAA TGGACAAAGA 
    ATCATCCATG GCCCTCAAGG AACAAAGTGG GTTGTTGATC TAAATCGTGG ATTAGTTCTT 
    AATCCAGAAG GAAGGTTTCT TCAGGATTCT GAAGGAAAAC CGCTTCGTAT AAAGTTGGGA 
    GGAGATGGTC GAACCATTGT TGATATGAAT GGGGCTCCTG TTGTTAGCCC TGGTGGATTG 
    CCTCTCTTTG GAAATGGTAG ATTTAGCAAA CCTGTGGCCA ATGCACAAGA CAAGCCAGTG 
    TTGAGCCTGG GGGGAAGACC ATTGAAGGGT CTTGAAGTAC CTAGAACAAC AAGAATACCA 
    ACTACAAGAC CAACAACTAC CCCCACAACC ACTACAACTA CAACCACCAC TGCCACCACC 
    ACTACCCCTC CTACGACTAC ACCTGAACCA ACAACTATTG AACAAACTAC AGAGGAACCC 
    CCAATGCCTA CCTGTCCTCC AGGCACATAT TCACAGTATG ATGAAGAAGG AAATCTGATC 
    ATGGGACCTG ATGACAAGCC CGACTGCTAC ACAGAAGATA GCTTTTCAGG ACAAGATCTG 
    ATTGTTACCA CCGAAGCTTC TGAAATTGTA ACATACATGG ATCTTGATGA AGATAATTAT 
    TTAATTGAGA CCACTGAACC TCCCATTAAA TTAACAACTA AACCTCCAAC TCTTCCTGAG 
    GATCCAGAAA TGAAGTCAAT TACTTCAAAC CTGGTATCAG AATATGACAT TGCTGGAAAG 
    AAGAGATTTA CTGCTCCTTA TGTGACTTAT ATAAGTAAAG ACCCATCTGC ACCCTGTTCT 
    CTAACTGAGG CCCTGGAGCA TTTTCAAGTG GAAAATCTGG AAGAATTACT ACCCAAGGAC 
    ATCAGTGAGC CGATTCTACC TCCCCAGAAA ATATCCTACA ACATCACTGT TGTGGCAGTG 
    GAAGGCTGCC ATTCTTTTGT CATTCTAGAC TGGGCCAAAC CCAAAAAGGG GGATTTTATT 
    ACAGGATACT TAGTTTATAG TGCATCTTAT GATGACTTCC TGAGAAACAA GTGGTCAACG 
    CGAACTGCAG GAGCCACCAG TTTCCCTGTT GAAAATCTGA AACCTAATAC AAGATATTAC 
    TTTAAAATTC AAGCAGAGAA TCCTTATGGC GTAGGACCAA TGAGCCCTCA TGTATCATTT 
    GTTACAGAAT CAGATAATCC ACTGCTCATA GTGAGACCAC CAGGGGGTGA ACCAATCTGG 
    ATTCCATTTG CATTCAAGCA TGATTCAAGC TTCTCCGGCT GCAGTGGCAA ACAATATGTT 
    AAACGCACAT GGTACAGAAA GTTTGTGGGT GTTGTGCTCT GTAATTCTTT AAGATATAAA 
    ATTTACCTCA GTGAAAATCT AAGGGATACA TTTTACAGCA TAGGAGACAG CTGGGGTCGA 
    GGTGAAGATC ACTGCCAGTT TGTGGATTCT TACATGGAAG GAAGAACGGG ACCTATGACT 
    TATGTAGAGA CAATGCCTAC AGTCAATGGT TATTATCGCC AGTATGTTCA AGAGCCAGTG 
    TCGTTTGGCC AAATCGGTTT TGGAACACCA CATAACTACG TGGGCTGGTA TGAGTGTGGA 
    GTGCCCATTC CAGGCAAATG GTAA

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

    RefSeq XP_031758427.1
    CDS207..6050
    Translation

    Target ORF information:

    RefSeq Version XM_031902567.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031902567.1

    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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTGAAA GAATTAGAAC CAGCAGAGCT TCTGCCTCCT TATCATTCCT GGTCATCATA 
    CTTCTGGCTC TTCTCGCCTC ATCAGCTGCT GCAACAGAAA GGAAGGCCCC AAGAAGAATA 
    TTCCGAGTAC GCCCTCGACC AGCTGGTGAC AGATCATCTG TTCTACAGGC ATTGGGACTA 
    AGAACTACAC GCAGATTTCG AGGCTATTTG CCTAGTCCTG GAGAGAGCGC AAGGAAGATA 
    AATTATGCTC CTCTTAAGCA AAGTGCTCAG AACCAAGACA ATAAGCAACG TGCATCTGAG 
    TCAGTGCACG TGGTCTCATT ACCATCAACG AATTCTCAGA GGAAAAGCCA GCCAGTATAT 
    CGGGCAGCTG TTACAAAGCT TAAAATTCCA GAGGAAACCC ATTTTGTGGA ACTAAAAGAT 
    GTCAGCGTGA GAGTCATATC TTCTCAATCT GTGCTTGTTT CCTGGGTAGA CCCCGACTAT 
    GAAAAGTCAC CAAAGGTTGG CTCAAACAGA CAGTACGCTG TGCGCTACAG AGAAAAAGGA 
    GAATCTGCTC GATGGGATTA CAAGCAAGTT AACACAAGGC GTGCATTGGT GGACAAATTA 
    AATCCTGATG CTATGTATGA ATTTTCTGTC CGTGTTTCTG TAGAAGGCAC TGAGGGCCAA 
    TGGAGCTCTT CTGTTTTTCA AAGAACCCCT GAATCTGCTC CAACAAGTGC CCCAGACAAC 
    TTTGATGTGG ACCCATTAAA GGGAAAAGGA ACAGCTGTAA TGGCAAAATG GGATGATCTT 
    GATGATGCCA ATGGCAAGAT TAAAGAATAC ATTATCTCAT ATGCTCCTGC GCTGAAACCA 
    TTTGGAGGCA AATCCCTGTC CTACTCTGGA AGAACTACTT CAGCCATAAT AGAAGGCCTG 
    CACCCTGGGG AACGTTACAT TTTTAAAATA CGAGCAGCGA ATAGGAGGGG GCAGGGCCCA 
    CAGTCTAAAG CTGTTACAGT CATTATGCCC CTAGCCAGCA CTGCATCCAA AACTCTACAT 
    CCTTCATTTC AAAGAAAGGA TGCTGATGAA CTTGAAGAAA AACAAGAAAA AGATGATTTG 
    TTATCAACTT CAGAAGAGAC TGATAACTTA AAGTCTAATT TTAAAACTGA TACAGAATCA 
    GAATCTAATA CTAAATCATC ACATGCAGGT GTTAGAAAAA ACCCTCTAGA ATCCAGCAAG 
    AAAACTGTTG ATACAGAATC CAGTCCTCAA TCAACTGAAA TCACTTTAGA CATTAAACCT 
    ACAACACCAA AGCCAAAATT TCTACCCATT GCTCCAAGGA GGCGAGTTCG TCCTATTGTA 
    ATAAAGAGAC CTGTCTTAAA CAATGGAAGA AGACCTCTAA GAAAATATCC TACAGAAGTA 
    GAACAAAAAG AGCCAGATAA TAAACTTGTT TCCCCTACAC TTTCCATAGA TGAAGACAAT 
    GAAACCAGTG ACCCAAAAGT AGATGATTCA GACAATGATT CCCTTACTGA AAGAAATCCT 
    CCCTCTAAGG TAATGGAACC TAATGAGAAC CAAGAGGAGG AAGAACACCA GCTTTCAGAT 
    TATAATGATT CAAAGAATGT AGTGACCAAC ATTTCACCAT TAGATTCTAT AAAGACTGAA 
    ACAAGTATCT CTGGGAACAA AGATGATAGT GAACTTGATT TAGACATAAG CAAAAACATG 
    CCAGAATCCC TTTCTACTAA TGCCCCTAAA AAAGAATCAA CCTATTCAAA CCACAGAAAA 
    CCCTTAAACA GGTTTCCAGT TATTCAAGGA AATGGCAAAT CTTCTTCAAG CTCAGTTAGG 
    ATTCCAACAC GTAACCAGCC TAATTATGCT TCTAAATTGC CATTAACAAG TGTGCATCAA 
    GCAGAGAAAC AAACTAGTGA AAGTGAAGAA AAAACTAAAA ATGTTTTTGA TAAAAATCCA 
    GAAAGGACAA ATACCAGTCC TACCCAATCT ATCATTCATC CAAAACCTCG CTCTAAAATA 
    GTTTCCTCTC AAAAAACTGT TCCTCGTATA AAACCCCAAA CACAACCATC TGTCCATGTA 
    AACAAAGCCA AAGAATCAGG ACCTCATATT ACAAATAATT TAAGAAATCA TGATGTTGAT 
    ATTAGTGTTG AAACAAAGAA TACAGAAGAC AGAAGCAAAT ATTCAGATTT TAGGGAACAC 
    GGATCCTCAA AAACCCCTGT ACAGAAATTT CCTAACATAC ACACCAGTTC AACATTGAGT 
    TCATCTTCTG ATACTAATCC CATTTCATCT GATGAAGATT CTGATCATAT ATATACAGAG 
    CAAACAGAGA ACGAAAAAGA AGCCTTTGCA CCTGAGCACA ATAAGATACA AACAGCCATT 
    AGCAATACTG CAAAGGACAT CTCTACAAGT ACTCCTATTC CTACTACCAC TATTTCTACC 
    ACAACCACCT CTTCTACAAC TAAACCTCAA ACTACATCTA CATCTTTCAA GCCAAATATA 
    AGAGAAAAAC CCCATACAGA TTTGGTGCCA TCCTTCACTG GAAAATCTGC ATTATCAATT 
    CTAGAATATT ACAGAAGAAG GAGCAACCAA GTAAATCCAA ATGTTGGCAG TAGACTTACT 
    TATAGAAACA ACTTAAGGGT TCAGGCTACT ACAAGTACTA CTGTGGCAAC TACAACCATG 
    TCAACAACAA CAACAACAAC TGTTCCAACA ACATTAACCT CAAAATATAT AGAAGAAAAT 
    AGCCATAGCA GATCAATAGA TACTAAAAGG GAAAATGGAA AATACAACTT AGGGTCATCT 
    TTGTTGCCTT CAAAACCTAC AGTACATATT AAAACAGATC ACCAATCTCC TAATGAATTT 
    GAACCAAATG TTAATGTATC TCCAACTTCC CAAACACCTA GTGAAGCTGC TGAAAAATCC 
    TCTTTACCAG CACTTGTCAG CACTAAGAAA ACAAATACTT ATAATGTACC ATCAAAAACA 
    AATATTTTAC AGCCTAAATA TAAAAAAGTA ATTGCACCTA AAGTCCCTAT GAGAGACAAC 
    AGAAAGGTCT CTGCTGGTTC AATTCTGAAC CAAAAATTTC CTAATGATCG TCAGTCATCT 
    GCATCTAACA GGAAGAGTAA TATTTCTTCA GACAATTCCA ACTTAGAAGA AACAGAGAAA 
    ATATCTGACA TTTCTGTGAG TACATCTGAT CTCATATCTC CTTCAGCATC AAGCATTCAT 
    TCTAACAAAG GTTCCTCCTT ACCTTTTCCA AACCATAAAT CAAATAACAT TCAATCTAAG 
    AATAAAGAAG GAATATATCA AGCAAATAGC GAGACCATCA TTCCGTCTGT AGCATCATAT 
    TCCTACTTAC CATCCAACAG AAATGTTGGC ATTAGAAAAA CATCCCTGGG TAGACCCCAC 
    CAAAATCTTA CTTATTTACA ATCTGGTGTT GGTTCATTTT CAGAAGCTGG ACAAAATACA 
    AATACACAAA ACTTGCCAAA AGCTGTTGCC TCTGATAAAC ACACTTCTTT ATCCAAGGCA 
    CTGCCTGGTT CAAAGCCAAG AGTTAGTTAC AAAGTACCTA TGAGACTTTC AGTGGATGGA 
    AGAAAGATCA ATAAACCCAA CATATCACCT TCAATAGAAA AGGATCAGAC AAAGCAAATT 
    TCAGCTTCTC TTCCAAAAGC TCAACTTCCT ACTGGAAGGA AAGATGAAGA TTTTCACAAA 
    ACATCTATAA AAACGCAGTC AACAGCACAA GAGGAAAGCC CTACTTCATC TTTAAGTTCA 
    AATTCCCCTT CATTGTCTTC TTCTGAAATG CTTACAAATG GAAACATTAA AAAGAATGAT 
    TATGAAAAGA ATAACTTTAT GGATTCTTCT TTTTCTCAAG TACAATCTAC AAATCTAGAA 
    GATGAGGAAG GCTTAAGTGC CCCTTTAACA CTAAAAGACA TTCCTCAAAG ATCATCGGGG 
    ACCTCCTCTA AATATTCAGT TGTGCAAAAG AAAACAAGTA GTACAACTAC AGTTATGCCT 
    ACCACAAGTC ACCCACAGCT TACCACCAGA ACCTCTCCAT ATCGACTAAT TCCTTCATTC 
    TCTAGAAGAC AAAGTTTTGG TAGACCATTA TTATCTACAG CTACACCTCC ACGAACAACT 
    ACTGTTTCAC CTACTAGTTC TTTATCATTA CGTCAAAGGA TAATAAATTC AAGGCTTCGT 
    TCTCCATTAC GAAGGCAATT TGGAAGACCA CTTTATAGGC AAGGTAACAA TGGAAGGCCA 
    AATCTAATAC CAAGAGTGGA CTCAAATGGG GATGTCCCAT CTGCTACTAA TGGACAAAGA 
    ATCATCCATG GCCCTCAAGG AACAAAGTGG GTTGTTGATC TAAATCGTGG ATTAGTTCTT 
    AATCCAGAAG GAAGGTTTCT TCAGGATTCT GAAGGAAAAC CGCTTCGTAT AAAGTTGGGA 
    GGAGATGGTC GAACCATTGT TGATATGAAT GGGGCTCCTG TTGTTAGCCC TGGTGGATTG 
    CCTCTCTTTG GAAATGGTAG ATTTAGCAAA CCTGTGGCCA ATGCACAAGA CAAGCCAGTG 
    TTGAGCCTGG GGGGAAGACC ATTGAAGGGT CTTGAAGTAC CTAGAACAAC AAGAATACCA 
    ACTACAAGAC CAACAACTAC CCCCACAACC ACTACAACTA CAACCACCAC TGCCACCACC 
    ACTACCCCTC CTACGACTAC ACCTGAACCA ACAACTATTG AACAAACTAC AGAGGAACCC 
    CCAATGCCTA CCTGTCCTCC AGGCACATAT TCACAGTATG ATGAAGAAGG AAATCTGATC 
    ATGGGACCTG ATGACAAGCC CGACTGCTAC ACAGAAGATA GCTTTTCAGG ACAAGATCTG 
    ATTGTTACCA CCGAAGCTTC TGAAATTGTA ACATACATGG ATCTTGATGA AGATAATTAT 
    TTAATTGAGA CCACTGAACC TCCCATTAAA TTAACAACTA AACCTCCAAC TCTTCCTGAG 
    GATCCAGAAA TGAAGTCAAT TACTTCAAAC CTGGTATCAG AATATGACAT TGCTGGAAAG 
    AAGAGATTTA CTGCTCCTTA TGTGACTTAT ATAAGTAAAG ACCCATCTGC ACCCTGTTCT 
    CTAACTGAGG CCCTGGAGCA TTTTCAAGTG GAAAATCTGG AAGAATTACT ACCCAAGGAC 
    ATCAGTGAGC CGATTCTACC TCCCCAGAAA ATATCCTACA ACATCACTGT TGTGGCAGTG 
    GAAGGCTGCC ATTCTTTTGT CATTCTAGAC TGGGCCAAAC CCAAAAAGGG GGATTTTATT 
    ACAGGATACT TAGTTTATAG TGCATCTTAT GATGACTTCC TGAGAAACAA GTGGTCAACG 
    CGAACTGCAG GAGCCACCAG TTTCCCTGTT GAAAATCTGA AACCTAATAC AAGATATTAC 
    TTTAAAATTC AAGCAGAGAA TCCTTATGGC GTAGGACCAA TGAGCCCTCA TGTATCATTT 
    GTTACAGAAT CAGATAATCC ACTGCTCATA GTGAGACCAC CAGGGGGTGA ACCAATCTGG 
    ATTCCATTTG CATTCAAGCA TGATTCAAGC TTCTCCGGCT GCAGTGGCAA ACAATATGTT 
    AAACGCACAT GGTACAGAAA GTTTGTGGGT GTTGTGCTCT GTAATTCTTT AAGATATAAA 
    ATTTACCTCA GTGAAAATCT AAGGGATACA TTTTACAGCA TAGGAGACAG CTGGGGTCGA 
    GGTGAAGATC ACTGCCAGTT TGTGGATTCT TACATGGAAG GAAGAACGGG ACCTATGACT 
    TATGTAGAGA CAATGCCTAC AGTCAATGGT TATTATCGCC AGTATGTTCA AGAGCCAGTG 
    TCGTTTGGCC AAATCGGTTT TGGAACACCA CATAACTACG TGGGCTGGTA TGAGTGTGGA 
    GTGCCCATTC CAGGCAAATG GTAA

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

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