fer1l6 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following fer1l6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the fer1l6 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
OXa60887 XM_031904479.1
Latest version!
Xenopus tropicalis fer-1-like family member 6 (fer1l6), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa36759 XM_012964993.1
Latest version!
Xenopus tropicalis fer-1-like family member 6 (fer1l6), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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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)
    CloneID OXa60887
    Clone ID Related Accession (Same CDS sequence) XM_031904479.1
    Accession Version XM_031904479.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5661bp)
    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 fer-1-like protein 6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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
    ATGGATCCTA TGGAGAGCCC CCACAGCCAA AAGAAGGGGC TTTTTTCCGG GCTGCACCTG 
    AAGAAAAAGA AGAAAGGTGA CAAGGGGCTG ATCATAGCAA ACAAGGGCGC CCAGGGAAAA
    CATGATGATG CAGAAAGTCT CCATGGTGAT GTCACAGGAA ACGAAGGAGG AGCCAGTGAT
    GATGGAACCC TCATTGATTT GTCTGCCTCA AGCTCCTCCC TTTCTTTATG TATGCAGAGT
    AAAAGAGCCA AGCTCGTGCC CAAGATTCAC GAAGGAGAGA CCAAAATCCA AACGTACCAG
    ATTGCCATAA CAATCACTGA GGCCCGGCAA CTGATTGGGG AAAACATTGA TCCTGTTGTG
    ATCATTGAGA TCGGCGATGA CAAAAAGCAA ACAACGGTCA AAGAAGGAAC CAACGCACCT
    TTCTACAATG AGTACTTTGT GTTTGACTTT ATTGGACCAC AGGAGCAGCT CTTTGATAAA
    ATCATCAGAC TGTCTGTGAT GCACAACAAG CTTCTAGGAA GCATTTTAAT TGGATCTTTC
    AGAGTGGATT TGGGAACAGT TTATAATGAG CCAGGCCACC AGTTCTGTGA CAAGTGGGCT
    TTGCTGACAG ACCCCAGTGA TATCCGGACC GGAGTAAAAG GGTACCTAAA GTGTGACATC
    AGCGTGGCGG GAAAGGGCGA CACCGTGCAG TCCTCTCAGA AAATCAGTGA TGCGGAAGAA
    CAGATAGAAA AGAACTTGTT GATTCCTAAA GGGTTTCCAT CAGAAAGACC ATGGGCCAGG
    TTCTACGTTC GCATCTACAG AGCAGAAGGC CTCCCCAAGA TGAACTCCAG CATCATGGCC
    AATGTCACCA AAGCTTTTAT TGGAGATAGC AAAGACCTTG TGGATCCTTA TGTGGTGGTC
    ATGTTTGCAG GTCAAATGGG CCGAACCACT GCCCAGAAGA ACTGTGCAGA CCCGCTGTGG
    CACGAGCAGA TTGTATTCAA GGAAATGTTT CCTCCTCTGT GTCGAAGGGT GAAAATCCAG
    GTCTGGGATG AGGGGAGCAT GAACGATGTG GCTCTGGCTA CTCATTTTAT AGACCTCAAA
    AAGATTTCTG ATGAGCAAGA TGGCGACAAA GGGTTTCTCC CTACGTTTGG GCCTGCTTGG
    ATCAACCTTT ATGGTTCCCC CCGTAACACC ACTTTGATGG AAGACCACCA AGAACTTAAT
    GAAGGTCACG GGGAAGGGGT CTCATTCAGA GGACGCATCT TAATAGAAAT TGCTGTTGAG
    ATTCTTTCCG GAGGGGCACA TGAATCAAAA TTTTCTAAGG CTATCAAGGA TATGAAGCTT
    CCTCTTAAAG ACTCCAAGTC TTCCAAAGGG TCAGGGAAAG AGAAAGGAGA GAAGGGATCA
    GAAGATGCTA AACCAACTTC AGCAGTCGAT AAAACAAACT CTATCCAAGT GGAAGTTGAA
    CCCTTTGATG TGCCGCCAGA GTTTCAGGAA GAAAAGTCTG AAGATTTTCT CCTGTTTGGA
    TCAATTTTTG AAGCAACATT GATTGACAGG AAGATTGGCG ATAAGGGTAT AAGCTTTGAG
    TGTTCTGTAG GTAATTATGG AAATGTTCTG GATGGGGTGT CACATTCTGG AACAAAAAAA
    AAATCCCCGG AACACGAGGA CGGAGAAGGG GCCCCATTGC TTCAGCCAGA GGAAGGAGAA
    GCAGCACCAG AAGTCTCTTT ATCATTTATA TCAGTTACAA CACCAGAGAA ACCATTGATC
    ACAGATGGAA ACAGGAACTA TCATTACTTG CCATTTTATG AGAGAAAGCC TTGTATCTAC
    GTGAAGAGCA CCTGGGGAGA CCAAACCTTC CGGCTGTATT CTTCCAACAT GCTGCAGAAA
    ATGGCCGACC ACTTGGAGGA TGGCTTGGAG CAAGTGAAAG AGCTGGTCAA GATCTCTGAT
    CTAGCACCCG AGGAGAAAAT GCGTGACGTT CTAACAGAAT TCATTAACCA GAGCAGGGCA
    TTCATCTCCA CAGCGGAAAA GAGAAGCAAA ATGACAAATA CCACAGCTCT GGATAAGAAA
    AGAGTAACCC TGTGTAGGCA GGAGCTGGAG GCGATGTCAG CGAACGCAAA GGCAATTGTA
    CAGCAGAAAA AGAAGATGTC ATTAAGCGAC ATGACGCGAG AAATGCAGAG CTTAATAGAT
    AACATTAAGT TTCTGGTGGA TGAGCCCCAG CATACAGTAC CTGATGTATT TATCTGGCTG
    CTGAGCAACA ACAAACGAGT TGCTTATGCC CGTATCCCAG CAAGAGATAT TCTCTACTCC
    ACCGTGGCTG AAGAGAGAGG CCATCACTGC GGGAAGATTA AAACCCTTTT CTTCAAACTC
    CCTGGAAAGC GCCCCCCTGG CTGGAACGTA CAGGCTAAAG TAGATGTGTA CTTGTGGCTG
    GGCTCCAGCA AATATTCCCA TTTCATATTT GAGAACCTAC CCGGTGGATA TGAAGTAGAG
    ACACACTCAG CTTCTTCGGG GCATCATGGC TCTCCCCCTC CCGGAAACCT GGTCTACAAA
    TCCCAACACA TGTTCCAGCT ACGAGCCCAC ATGTACCAGG CAAGAGGACT GATTGCTGCT
    GACACTTCTG GGCTTTCGGA TCCATTTGCG AAGGTGACGT TTCTCTCCCA CTGCCAAACA
    ACAAAGATTA TTTCACAGAC ACTTTCTCCC ACATGGAACC AGATGCTGCT GTTTAACAAC
    CTTGTCATCT ATGGGGAACT GAAAGACATA GCTGAAGACC CTCCGAATAT AGTCATTGAG
    GTGTATGATG ATGATGCGCT TAGTAAATCA GAGTACATTG GTTCTACTGT GGCCTCCCCA
    ACTGTGATCT TGGCCAACCA GACCTACTCT CCAGCCAAAC TTACTTATCA TCCTTTGTTC
    TGTGGAAATC TCTCTGGAGG GGAACTGCTT GCTGCCTTTG AGTTGCTACA GGTTCCTGAG
    TCAGGTGTGC AGAGCCTCCC ACCAATCGAG ACTCCTGATG CTGCTCAGAT CTATCCAGTC
    CCATCAAATA TCCGCCCTGT GCTGAGTAAA TACAGAGTGG AGGTTCTCTT CTGGGGTGTG
    CGGGAGCTGA AGAAAGTGCA GCTTCTCTCG GTGGATCGGC CTCAGGTGCT GATAGAATGT
    GCTGGGAAGG GAGTGAAGTC TTGCGTTATA CAGAGTTACA AAAGCAACCC CAACTTCAAT
    GTGATTGGAG ATTGGTTCGA AGTGGAACTG CCCGAAAATG AAGTCTTGCA TCCCCCTCTG
    AGCATCTGCG TTGTTGACTG GAGAGCATTT GGACGCAGCA CTCTTGTCGG GACGCACACG
    ATCAATTGCC TGAAGCAGTT CTTGTACAAA CCCCACCGGG AGCAGACAAG TGCAATAGTC
    GGGCTGGTAG CGCAGAGTCC GCCTGCTGAA AGCGCCGGAC CCCAGTATGA TTCTCCTGAT
    CCGGGGGAAC AAGATCATAT CTATGTTGAC ATTGATCCAT CTCTAAGGAA GGACATGCCA
    CAAAGCCGCC CTCATTCTCC TGCGCCATCG CCTACGGCAA CTTTAGCGCC ATCTCCTACT
    CCGGCTACTG GCCCAGCATC TGATCCTGCT GCCTCTAAAG GCAAAGCCAC AAAAGCAGAG
    AAATCCCCTC TAAAGCAGGA TACCACCCAA CAGGCTTTGG TCAGAGGGTC ATTGAGACGA
    TCAACCAAAA AGAAGAAAAG AACAATAGCA GACGAATCAG CAGAAAATGT CATCGATTGG
    TGGTCAAAAT ACTACGCATC TGTGGAGAAG CTGCAGAAGG CCAAGGCTGC CGCCGCCGCC
    GCGGAGACGA CGGATTCGTC TGGCAGGACC CCGGGGCAAG TCAGTTTAAC AATTGAAGAA
    CCAGAAAAAA AGAAGAAAGA TGGGAAAAAA GGAATGGAAT TGGTCAAAAA GAAACCCAAA
    GAAGAAGGTC CCAAGCTTGC TACCCTGCAG ATCTATAGCA ATGAACTGGA AAATGAGTTT
    AAGAATTTTG AAGACTGGGT CAGAACCTTT GAACTTCTGC GAGGGAAATC TACAGATGAC
    GAGCACAGTG TCCACGATGA TAGGATCATT GGCAAATTCA AGGGATCGTT CTCCATATAC
    AAAAATGTAG ATGACACCAA CTTGAAGGAT GGCGGGCAGC TAAGGATTCT GCAGGGAATT
    CCACCCAACC ATACTGTGAA AGTCCTGATA CGGGTCTATA TTGTGGCAGG CTTTAACCTT
    AGCCCGGCCG ATCCGGATGG GAAGTCTGAC CCCTACATTG TGTTAAGACT TGGGAAGACT
    GAGATCAAAG ATCGAGATAA TTACATCCCT AAGCAGCTAA ACCCGGTGTT TGGGAGATCA
    TTTGAAATGC AAGCAACATT CCCGAAGGAC TCCATATTGT CCATTGTGAT ATACGACCAT
    GATATGATTG GGACGGACGA CCTCATTGGC GAAACAAAAA TAGATCTGGA GAATCGATTC
    TTCAGCCGAC ACCGCGCCAC CTGTGGCTTG CAGAGTCAAT ATGAAATAGA GGGATACAAT
    GCCTGGCGAG ACTCCACCAA ACCAACAGAG ATTCTGGCTA AACTTTGCAA AGACAACAAG
    CTGGACGGGC CCTACTTACG TCCTGGGCAG ATACAAATTG GAGGCAAAAT ATTTACCGGT
    CAAACCATAT TTAACCAAGA CGATGAGCAA GTGGAATCGT ATGAGCATCT TGCCCTGAAA
    GCTCTTCATT CTTGGTCCGA CATTCCTGAT ATTGGGTGCA ATCTAGTCCC AGAACACATT
    GAAACCCGAC CCTTGTACCA CAAGGACAAA CCTGGAATAG AGCAGGGGAG GATTCAGATG
    TGGGTGGACA TGTTCCCTAC AGATCTGCCG CTTCCAGGCC CTCCTGTTGA TATTTCCCCA
    AGGAAGCCAA AAGGATATGA ACTGAGAATC ATAATCTGGA ACACAGAAGA TGTGATATTA
    GAAGATGAGA ATATATTCAC AGGGCAAAAA TCTAGTGATA TCTATGTTAA AGGGTGGCTG
    AAGGGAATCG AAGACGACAG CCAGGAGACA GATGTCCATT ACAACTCCTT AACCGGCGAA
    GGCAATTTCA ACTGGCGTTT TGTATTTCCG TTCAGCTACC TCCCTGCAGA AAAACTAATG
    GTGGTCAGTA AGAGAGAGAA TATATTTTCT TTAGAGAAGA CGGAAAGGAA AATCCCCACA
    GTGCTGCTGC TCCAAGTCTG GGATTTTGAC AGACTTTCTT CTGATGACTT CCTAGGTTCT
    ATGGAGCTGA ACCTAAACGC GTTCCATCGG GGAGCCAAAA CTGCCAAGGG CTGTGACCTG
    AGCATGGCCG CCACCCCAAA GGATGAAAAC AAGATCTCCA TCTTCCAGCA GAAGCGAATC
    CGAGGCTGGT GGCCCTTTGT GAAATCCGGA GAGCTCACTG GCAAAGTGGA GGCAGAGTTT
    CATTTGGTGA CAACTGAAGA AGCAGAAAAG AATCCCGTTG GCCGTGCACG GAAAGAGCCT
    GAACCACTGG AAAAACCAAA CCGGCCGAAT ACCTCCTTTA ACTGGTTTGT GAATCCGTTT
    AAGTGCCTGT ATCACCTGAT CTGGAGGAAT TACAAGAAGT ACATCATTAT CGGGCTGGTT
    TTGCTCATCA TTACTCTCTT CCTGGTTCTT TTCTTCTACA CCCTACCGGG CGCCATCAGC
    AACAGGATCC TGTCCGGCTA A

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

    RefSeq XP_031760339.1
    CDS53..5713
    Translation

    Target ORF information:

    RefSeq Version XM_031904479.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis fer-1-like family member 6 (fer1l6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031904479.1

    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
    ATGGATCCTA TGGAGAGCCC CCACAGCCAA AAGAAGGGGC TTTTTTCCGG GCTGCACCTG 
    AAGAAAAAGA AGAAAGGTGA CAAGGGGCTG ATCATAGCAA ACAAGGGCGC CCAGGGAAAA
    CATGATGATG CAGAAAGTCT CCATGGTGAT GTCACAGGAA ACGAAGGAGG AGCCAGTGAT
    GATGGAACCC TCATTGATTT GTCTGCCTCA AGCTCCTCCC TTTCTTTATG TATGCAGAGT
    AAAAGAGCCA AGCTCGTGCC CAAGATTCAC GAAGGAGAGA CCAAAATCCA AACGTACCAG
    ATTGCCATAA CAATCACTGA GGCCCGGCAA CTGATTGGGG AAAACATTGA TCCTGTTGTG
    ATCATTGAGA TCGGCGATGA CAAAAAGCAA ACAACGGTCA AAGAAGGAAC CAACGCACCT
    TTCTACAATG AGTACTTTGT GTTTGACTTT ATTGGACCAC AGGAGCAGCT CTTTGATAAA
    ATCATCAGAC TGTCTGTGAT GCACAACAAG CTTCTAGGAA GCATTTTAAT TGGATCTTTC
    AGAGTGGATT TGGGAACAGT TTATAATGAG CCAGGCCACC AGTTCTGTGA CAAGTGGGCT
    TTGCTGACAG ACCCCAGTGA TATCCGGACC GGAGTAAAAG GGTACCTAAA GTGTGACATC
    AGCGTGGCGG GAAAGGGCGA CACCGTGCAG TCCTCTCAGA AAATCAGTGA TGCGGAAGAA
    CAGATAGAAA AGAACTTGTT GATTCCTAAA GGGTTTCCAT CAGAAAGACC ATGGGCCAGG
    TTCTACGTTC GCATCTACAG AGCAGAAGGC CTCCCCAAGA TGAACTCCAG CATCATGGCC
    AATGTCACCA AAGCTTTTAT TGGAGATAGC AAAGACCTTG TGGATCCTTA TGTGGTGGTC
    ATGTTTGCAG GTCAAATGGG CCGAACCACT GCCCAGAAGA ACTGTGCAGA CCCGCTGTGG
    CACGAGCAGA TTGTATTCAA GGAAATGTTT CCTCCTCTGT GTCGAAGGGT GAAAATCCAG
    GTCTGGGATG AGGGGAGCAT GAACGATGTG GCTCTGGCTA CTCATTTTAT AGACCTCAAA
    AAGATTTCTG ATGAGCAAGA TGGCGACAAA GGGTTTCTCC CTACGTTTGG GCCTGCTTGG
    ATCAACCTTT ATGGTTCCCC CCGTAACACC ACTTTGATGG AAGACCACCA AGAACTTAAT
    GAAGGTCACG GGGAAGGGGT CTCATTCAGA GGACGCATCT TAATAGAAAT TGCTGTTGAG
    ATTCTTTCCG GAGGGGCACA TGAATCAAAA TTTTCTAAGG CTATCAAGGA TATGAAGCTT
    CCTCTTAAAG ACTCCAAGTC TTCCAAAGGG TCAGGGAAAG AGAAAGGAGA GAAGGGATCA
    GAAGATGCTA AACCAACTTC AGCAGTCGAT AAAACAAACT CTATCCAAGT GGAAGTTGAA
    CCCTTTGATG TGCCGCCAGA GTTTCAGGAA GAAAAGTCTG AAGATTTTCT CCTGTTTGGA
    TCAATTTTTG AAGCAACATT GATTGACAGG AAGATTGGCG ATAAGGGTAT AAGCTTTGAG
    TGTTCTGTAG GTAATTATGG AAATGTTCTG GATGGGGTGT CACATTCTGG AACAAAAAAA
    AAATCCCCGG AACACGAGGA CGGAGAAGGG GCCCCATTGC TTCAGCCAGA GGAAGGAGAA
    GCAGCACCAG AAGTCTCTTT ATCATTTATA TCAGTTACAA CACCAGAGAA ACCATTGATC
    ACAGATGGAA ACAGGAACTA TCATTACTTG CCATTTTATG AGAGAAAGCC TTGTATCTAC
    GTGAAGAGCA CCTGGGGAGA CCAAACCTTC CGGCTGTATT CTTCCAACAT GCTGCAGAAA
    ATGGCCGACC ACTTGGAGGA TGGCTTGGAG CAAGTGAAAG AGCTGGTCAA GATCTCTGAT
    CTAGCACCCG AGGAGAAAAT GCGTGACGTT CTAACAGAAT TCATTAACCA GAGCAGGGCA
    TTCATCTCCA CAGCGGAAAA GAGAAGCAAA ATGACAAATA CCACAGCTCT GGATAAGAAA
    AGAGTAACCC TGTGTAGGCA GGAGCTGGAG GCGATGTCAG CGAACGCAAA GGCAATTGTA
    CAGCAGAAAA AGAAGATGTC ATTAAGCGAC ATGACGCGAG AAATGCAGAG CTTAATAGAT
    AACATTAAGT TTCTGGTGGA TGAGCCCCAG CATACAGTAC CTGATGTATT TATCTGGCTG
    CTGAGCAACA ACAAACGAGT TGCTTATGCC CGTATCCCAG CAAGAGATAT TCTCTACTCC
    ACCGTGGCTG AAGAGAGAGG CCATCACTGC GGGAAGATTA AAACCCTTTT CTTCAAACTC
    CCTGGAAAGC GCCCCCCTGG CTGGAACGTA CAGGCTAAAG TAGATGTGTA CTTGTGGCTG
    GGCTCCAGCA AATATTCCCA TTTCATATTT GAGAACCTAC CCGGTGGATA TGAAGTAGAG
    ACACACTCAG CTTCTTCGGG GCATCATGGC TCTCCCCCTC CCGGAAACCT GGTCTACAAA
    TCCCAACACA TGTTCCAGCT ACGAGCCCAC ATGTACCAGG CAAGAGGACT GATTGCTGCT
    GACACTTCTG GGCTTTCGGA TCCATTTGCG AAGGTGACGT TTCTCTCCCA CTGCCAAACA
    ACAAAGATTA TTTCACAGAC ACTTTCTCCC ACATGGAACC AGATGCTGCT GTTTAACAAC
    CTTGTCATCT ATGGGGAACT GAAAGACATA GCTGAAGACC CTCCGAATAT AGTCATTGAG
    GTGTATGATG ATGATGCGCT TAGTAAATCA GAGTACATTG GTTCTACTGT GGCCTCCCCA
    ACTGTGATCT TGGCCAACCA GACCTACTCT CCAGCCAAAC TTACTTATCA TCCTTTGTTC
    TGTGGAAATC TCTCTGGAGG GGAACTGCTT GCTGCCTTTG AGTTGCTACA GGTTCCTGAG
    TCAGGTGTGC AGAGCCTCCC ACCAATCGAG ACTCCTGATG CTGCTCAGAT CTATCCAGTC
    CCATCAAATA TCCGCCCTGT GCTGAGTAAA TACAGAGTGG AGGTTCTCTT CTGGGGTGTG
    CGGGAGCTGA AGAAAGTGCA GCTTCTCTCG GTGGATCGGC CTCAGGTGCT GATAGAATGT
    GCTGGGAAGG GAGTGAAGTC TTGCGTTATA CAGAGTTACA AAAGCAACCC CAACTTCAAT
    GTGATTGGAG ATTGGTTCGA AGTGGAACTG CCCGAAAATG AAGTCTTGCA TCCCCCTCTG
    AGCATCTGCG TTGTTGACTG GAGAGCATTT GGACGCAGCA CTCTTGTCGG GACGCACACG
    ATCAATTGCC TGAAGCAGTT CTTGTACAAA CCCCACCGGG AGCAGACAAG TGCAATAGTC
    GGGCTGGTAG CGCAGAGTCC GCCTGCTGAA AGCGCCGGAC CCCAGTATGA TTCTCCTGAT
    CCGGGGGAAC AAGATCATAT CTATGTTGAC ATTGATCCAT CTCTAAGGAA GGACATGCCA
    CAAAGCCGCC CTCATTCTCC TGCGCCATCG CCTACGGCAA CTTTAGCGCC ATCTCCTACT
    CCGGCTACTG GCCCAGCATC TGATCCTGCT GCCTCTAAAG GCAAAGCCAC AAAAGCAGAG
    AAATCCCCTC TAAAGCAGGA TACCACCCAA CAGGCTTTGG TCAGAGGGTC ATTGAGACGA
    TCAACCAAAA AGAAGAAAAG AACAATAGCA GACGAATCAG CAGAAAATGT CATCGATTGG
    TGGTCAAAAT ACTACGCATC TGTGGAGAAG CTGCAGAAGG CCAAGGCTGC CGCCGCCGCC
    GCGGAGACGA CGGATTCGTC TGGCAGGACC CCGGGGCAAG TCAGTTTAAC AATTGAAGAA
    CCAGAAAAAA AGAAGAAAGA TGGGAAAAAA GGAATGGAAT TGGTCAAAAA GAAACCCAAA
    GAAGAAGGTC CCAAGCTTGC TACCCTGCAG ATCTATAGCA ATGAACTGGA AAATGAGTTT
    AAGAATTTTG AAGACTGGGT CAGAACCTTT GAACTTCTGC GAGGGAAATC TACAGATGAC
    GAGCACAGTG TCCACGATGA TAGGATCATT GGCAAATTCA AGGGATCGTT CTCCATATAC
    AAAAATGTAG ATGACACCAA CTTGAAGGAT GGCGGGCAGC TAAGGATTCT GCAGGGAATT
    CCACCCAACC ATACTGTGAA AGTCCTGATA CGGGTCTATA TTGTGGCAGG CTTTAACCTT
    AGCCCGGCCG ATCCGGATGG GAAGTCTGAC CCCTACATTG TGTTAAGACT TGGGAAGACT
    GAGATCAAAG ATCGAGATAA TTACATCCCT AAGCAGCTAA ACCCGGTGTT TGGGAGATCA
    TTTGAAATGC AAGCAACATT CCCGAAGGAC TCCATATTGT CCATTGTGAT ATACGACCAT
    GATATGATTG GGACGGACGA CCTCATTGGC GAAACAAAAA TAGATCTGGA GAATCGATTC
    TTCAGCCGAC ACCGCGCCAC CTGTGGCTTG CAGAGTCAAT ATGAAATAGA GGGATACAAT
    GCCTGGCGAG ACTCCACCAA ACCAACAGAG ATTCTGGCTA AACTTTGCAA AGACAACAAG
    CTGGACGGGC CCTACTTACG TCCTGGGCAG ATACAAATTG GAGGCAAAAT ATTTACCGGT
    CAAACCATAT TTAACCAAGA CGATGAGCAA GTGGAATCGT ATGAGCATCT TGCCCTGAAA
    GCTCTTCATT CTTGGTCCGA CATTCCTGAT ATTGGGTGCA ATCTAGTCCC AGAACACATT
    GAAACCCGAC CCTTGTACCA CAAGGACAAA CCTGGAATAG AGCAGGGGAG GATTCAGATG
    TGGGTGGACA TGTTCCCTAC AGATCTGCCG CTTCCAGGCC CTCCTGTTGA TATTTCCCCA
    AGGAAGCCAA AAGGATATGA ACTGAGAATC ATAATCTGGA ACACAGAAGA TGTGATATTA
    GAAGATGAGA ATATATTCAC AGGGCAAAAA TCTAGTGATA TCTATGTTAA AGGGTGGCTG
    AAGGGAATCG AAGACGACAG CCAGGAGACA GATGTCCATT ACAACTCCTT AACCGGCGAA
    GGCAATTTCA ACTGGCGTTT TGTATTTCCG TTCAGCTACC TCCCTGCAGA AAAACTAATG
    GTGGTCAGTA AGAGAGAGAA TATATTTTCT TTAGAGAAGA CGGAAAGGAA AATCCCCACA
    GTGCTGCTGC TCCAAGTCTG GGATTTTGAC AGACTTTCTT CTGATGACTT CCTAGGTTCT
    ATGGAGCTGA ACCTAAACGC GTTCCATCGG GGAGCCAAAA CTGCCAAGGG CTGTGACCTG
    AGCATGGCCG CCACCCCAAA GGATGAAAAC AAGATCTCCA TCTTCCAGCA GAAGCGAATC
    CGAGGCTGGT GGCCCTTTGT GAAATCCGGA GAGCTCACTG GCAAAGTGGA GGCAGAGTTT
    CATTTGGTGA CAACTGAAGA AGCAGAAAAG AATCCCGTTG GCCGTGCACG GAAAGAGCCT
    GAACCACTGG AAAAACCAAA CCGGCCGAAT ACCTCCTTTA ACTGGTTTGT GAATCCGTTT
    AAGTGCCTGT ATCACCTGAT CTGGAGGAAT TACAAGAAGT ACATCATTAT CGGGCTGGTT
    TTGCTCATCA TTACTCTCTT CCTGGTTCTT TTCTTCTACA CCCTACCGGG CGCCATCAGC
    AACAGGATCC TGTCCGGCTA A

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

    CloneID OXa36759
    Clone ID Related Accession (Same CDS sequence) XM_012964993.1
    Accession Version XM_012964993.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5733bp)
    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 fer-1-like protein 6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016683417.1) 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 :: 4% 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
    ATGGCCTTTA AGATCTCCCG AATGCTGGAT GAGCAGGGGC GCATTGTGCG CTTACACCAT 
    GATGTCACAC AACACACGTG CCCACAAGAT ATCGGCGACA CACTGAAGGG GCTTTTTTCC
    GGGCTGCACC TGAAGAAAAA GAAGAAAGGT GACAAGGGGC TGATCATAGC AAACAAGGGC
    GCCCAGGGAA AACATGATGA TGCAGAAAGT CTCCATGGTG ATGTCACAGG AAACGAAGGA
    GGAGCCAGTG ATGATGGAAC CCTCATTGAT TTGTCTGCCT CAAGCTCCTC CCTTTCTTTA
    TGTATGCAGA GTAAAAGAGC CAAGCTCGTG CCCAAGATTC ACGAAGGAGA GACCAAAATC
    CAAACGTACC AGATTGCCAT AACAATCACT GAGGCCCGGC AACTGATTGG GGAAAACATT
    GATCCTGTTG TGATCATTGA GATCGGCGAT GACAAAAAGC AAACAACGGT CAAAGAAGGA
    ACCAACGCAC CTTTCTACAA TGAGTACTTT GTGTTTGACT TTATTGGACC ACAGGAGCAG
    CTCTTTGATA AAATCATCAG ACTGTCTGTG ATGCACAACA AGCTTCTAGG AAGCATTTTA
    ATTGGATCTT TCAGAGTGGA TTTGGGAACA GTATATAATG AGCCAGGCCA CCAGTTCTGT
    GACAAGTGGG CTTTGCTGAC AGACCCCAGT GATATCCGGA CCGGAGTAAA AGGGTACCTA
    AAGTGTGACA TCAGCGTGGC GGGAAAGGGC GACACCGTGC AGTCCTCTCA GAAAATCAGT
    GATGCGGAAG AACAGATAGA AAAGAACTTG TTGATTCCTA AAGGGTTTCC ATCAGAAAGA
    CCATGGGCCA GGTTCTACGT TCGCATCTAC AGAGCAGAAG GCCTCCCCAA GATGAACTCC
    AGCATCATGG CCAATGTCAC CAAAGCTTTT ATTGGAGATA GCAAAGACCT TGTGGATCCT
    TATGTGGTGG TCATGTTTGC AGGTCAAATG GGCCGAACCA CTGCCCAGAA GAACTGTGCA
    GACCCGCTGT GGCACGAGCA GATTGTATTC AAGGAAATGT TTCCTCCTCT GTGTCGAAGG
    GTGAAAATCC AGGTCTGGGA TGAGGGGAGC ATGAACGATG TGGCTCTGGC TACTCATTTT
    ATAGACCTCA AAAAGATTTC TGATGAGCAA GATGGCGACA AAGGGTTTCT CCCTACGTTT
    GGGCCTGCTT GGATCAACCT TTATGGTTCC CCCCGTAACA CCACTTTGAT GGAAGACCAC
    CAAGAACTTA ATGAAGGTCA CGGGGAAGGG GTCTCATTCA GAGGACGCAT CTTAATAGAA
    ATTGCTGTTG AGATTCTTTC CGGAGGGGCA CATGAATCAA AATTTTCTAA GGCTATCAAG
    GATATGAAGC TTCCTCTTAA AGACTCCAAA TCTTCCAAAG GGTCAGGGAA AGAGAAAGGA
    GAGAAGGGAT CAGAAGATGC TAAACCAACT TCAGCAGTCG ATAAAACAAA CTCTATCCAA
    GTGGAAGTTG AACCCTTTGA TGTGCCGCCA GAGTTTCAGG AAGAAAAGTC TGAAGATTTT
    CTCCTGTTTG GATCAATTTT TGAAGCAACA TTGATTGACA GGAAGATTGG CGATAAGGGT
    ATAAGCTTTG AGTGTTCTGT AGGTAATTAT GGAAATGTTC TGGATGGGGT GTCACATTCT
    GGAACAAAAA AAAAATCCCC GGAACACGAG GACGGAGAAG GGGCCCCATT GCTTCAGCCA
    GAGGAAGGAG AAGCAGCACC AGAAGTCTCT TTATCATTTA TATCAGTTAC AACACCAGAG
    AAACCATTGA TCACAGATGG AAACAGGAAC TATCATTACT TGCCATTTTA TGAGAGAAAG
    CCTTGTATCT ACGTGAAGAG CACCTGGGGA GACCAAACCT TCCGGCTGTA TTCTTCCAAC
    ATGCTGCAGA AAATGGCCGA CCACTTGGAG GATGGCTTGG AGCAAGTGAA AGAGCTGGTC
    AAGATCTCTG ATCTAGCACC CGAGGAGAAA ATGCGTGACG TTCTAACAGA ATTCATTAAC
    CAGAGCAGGG CATTCATCTC CACAGCGGAA AAGAGAAGCA AAATGACAAA TACTACAGCT
    CTGGATAAGA AAAGAGTAAC CCTGTGTAGG CAGGAGCTGG AGGCGATGTC AGCGAACGCA
    AAGGCAATTG TACAGCAGAA AAAGAAGATG TCATTAAGCG ACATGACGCG AGAAATGCAG
    AGCTTAATAG ATAACATTAA GTTTCTGGTG GATGAGCCCC AGCATACAGT ACCTGATGTA
    TTTATCTGGC TGCTGAGCAA CAACAAACGA GTTGCTTATG CCCGTATCCC AGCAAGAGAT
    ATTCTCTACT CCACCCTGGC TGAAGAGAGA GGCCATCACT GTGGGAAGAT TAAAACCCTT
    TTCTTCAAAC TCCCTGGAAA GCGCCCCCCT GGCTGGAACG TACAGGCTAA AGTAGATGTG
    TACTTGTGGC TGGGCTCCAG CAAATATTCC CATTTCATAT TTGAGAACCT ACCCGGTGGA
    TATGAAGTAG AGACACACTC AGCTTCTTCG GGGCATCATG GCTCTCCCCC TCCCGGAAAC
    CTGGTCTACA AATCCCAACA CATGTTCCAG CTACGAGCCC ACATGTACCA GGCAAGAGGA
    CTGATTGCTG CTGACACTTC TGGGCTTTCG GATCCATTTG CGAAGGTGAC GTTTCTCTCC
    CACTGCCAAA CAACAAAGAT TATTTCACAG ACACTTTCTC CCACATGGAA CCAGATGCTG
    CTGTTTAACA ACCTTGTCAT CTATGGGGAA CTGAAAGACA TAGCTGAAGA CCCTCCGAAT
    ATAGTCATTG AGGTGTATGA TGATGATGCG CTTAGTAAAT CAGAGTACAT TGGTTCTACT
    GTGGCCTCCC CAACTGTGAT CTTGGCCAAC CAGACCTACT CTCCAGCCAA ACTTACTTAT
    CATCCTTTGT TCTGTGGAAA TCTCTCTGGA GGGGAACTGC TTGCTGCCTT TGAGTTGCTA
    CAGGTTCCTG AGTCAGGTGT GCAGAGCCTC CCACCAATCG AGACTCCTGA TGCTGCTCAG
    ATCTATCCAG TCCCATCAAA TATCCGCCCT GTGCTGAGTA AATACAGAGT GGAGGTTCTC
    TTCTGGGGTG TGCGGGAGCT GAAGAAAGTG CAGCTTCTCT CGGTGGATCG GCCTCAGGTG
    CTGATAGAAT GTGCTGGGAA GGGAGTGAAG TCTTGCGTTA TACAGAGTTA CAAAAGCAAC
    CCCAACTTCA ATGTGATTGG AGATTGGTTC GAAGTGGAAC TGCCCGAAAA TGAAGTCTTG
    CATCCCCCTC TGAGCATCTG CGTTGTTGAC TGGAGAGCAT TTGGACGCAG CACTCTTGTC
    GGGACGCACA CGATCAATTG CCTGAAGCAG TTCTTGTACA AACCCCACCG GGAGCAGACA
    AGTGCAATAG TCGGGCTGGT AGCGCAGAGT CCGCCTGCTG AAAGCGCCGG ACCCCAGTAT
    GATTCTCCTG ATCCGGGGGA ACAAGATCAT ATCTATGTCG ACATTGATCC ATCTCTAAGG
    AAGGACATGC CACAAAGCCG CCCTCATTCT CCTGCGCCAT CGCCTACGGC AACTTTAGCC
    CCATCTCCTA CTCCGGCTGC TGGCCCAGCT TCTGATCCTG CTGCCTCTAA AGGCAAAGCC
    ACAAAAGCAG AGAAATCCCC TCTAAAGCAG GATACCACCC AACAGGCTTT GGTTAGAGGG
    TCATTGAGAC GATCAACCAA AAAGAAGAAA AGAACAATAG CAGACGAATC AGCAGAAAAT
    GTCATCGATT GGTGGTCAAA ATACTACGCA TCTGTGGAGA AGCTGCAGAA GGCCAAGGCT
    GCCGCCGCCG CCGCGGAGAC GACGGATTCG TCTGGCAGGA CCCCGGGGCA AGTCAGTTTA
    ACAATTGAAG AACCAGAAAA AAAGAAGAAA GATGGGAAAA AAGGAATGGA ATTGGTCAAA
    AAGAAACCCA AAGAAGAAGG TCCCAAGCTT GCTACCCTGC AGATCTATAG CAATGAACTG
    GAAAATGAGT TTAAGAATTT TGAAGACTGG GTCAGAACCT TTGAACTTCT GCGAGGGAAA
    TCTACAGATG ACGAGCACAG TGTCCACGAT GATAGGATCA TTGGCAAATT CAAGGGTTCG
    TTCTCCATAT ACAAAAATGT AGATGACACC AACCCGAAGG ATGGCGGGCA GCTAAGGATT
    CTGCAGGGAA TTCCACCCAA CCATACTGTG AAAGTCCTGA TACGGGTCTA TATTGTGGCA
    GGCTTTAACC TTAGCCCGGC CGATCCGGAT GGGAAGTCTG ACCCCTACAT TGTGTTAAGA
    CTTGGGAAGA CTGAGATCAA AGATCGAGAT AATTACATCC CTAAGCAGCT AAACCCGGTG
    TTTGGGAGAT CATTTGAAAT GCAAGCAACA TTCCCGAAGG ACTCCATATT GTCCATTGTG
    ATATACGACC ATGATATGAT TGGGACGGAC GACCTCATTG GCGAAACAAA AATAGATCTG
    GAGAATCGAT TCTTCAGCCG ACACCGCGCC ACCTGTGGCT TGCAGAGTCA ATATGAAATA
    GAGGGATACA ATGCCTGGCG AGACTCCACC AAACCAACAG AGATTCTGGC TAAACTTTGC
    AAAGACAACA AGCTGGACGG GCCCTACTTA CGTCCTGGGC AGATACAAAT TGGAGGCAAA
    ATATTTACCG GTCAAACCAT ATTTAACCAA GACGATGAGC AAGTGGAATC GTATGAGCAT
    CTTGCCCTGA AAGCTCTTCA TTCTTGGTCC GACATTCCTG ATATTGGGTG CAATCTAGTT
    CCAGAACACA TTGAAACCCG ACCCTTGTAC CACAAGGACA AACCTGGAAT AGAGCAGGGG
    AGGATTCAGA TGTGGGTGGA CATGTTCCCT ACAGATCTGC CGCTTCCAGG CCCTCCTGTT
    GATATTTCCC CAAGGAAGCC AAAAGGATAT GAACTGAGAA TCATAATCTG GAACACAGAA
    GATGTGATAT TAGAAGATGA GAATATATTC ACAGGGCAAA AATCTAGTGA TATCTATGTT
    AAAGGGTGGC TGAAGGGAAT CGAAGACGAC AGCCAGGAGA CAGATGTCCA TTACAACTCC
    TTAACCGGCG AAGGCAATTT CAACTGGCGT TTTGTATTTC CGTTCAGCTA CCTCCCTGCA
    GAAAAACTAA TGGTGGTCAG TAAGAGAGAG AATATATTTT CTTTAGAGAA GACGGAAAGG
    AAAATCCCCA CAGTGCTGCT GCTCCAAGTC TGGGATTTTG ACAGACTTTC TTCTGATGAC
    TTCCTAGGTT CTATGGAGCT GAACCTGAAC GCGTTCCATC GGGGAGCCAA AACTGCCAAG
    GGCTGTGACC TGAGCATGGC CGCCACCCCA AAGGATGAAA ACAAGATTTC CATCTTCCAG
    CAGAAGCGAA TCCGAGGCTG GTGGCCCTTT GTGAAATCCG GAGAGCTCAC TGGCAAAGTG
    GAGGCAGAGT TTCATTTGGT GACGACTGAA GAAGCAGAAA AGAATCCCGT TGGCCGTGCA
    CGGAAAGAGC CTGAACCACT GGAAAAACCA AACCGGCCGA ATACCTCCTT TAACTGGTTT
    GTGAATCCGT TTAAGTGCCT GTATCACCTG ATCTGGAGGA ATTACAAGAA GTACATCATT
    ATCGGGCTGG TTTTGCTCAT CATTACTCTC TTCCTGGTTC TTTTCTTCTA CACCCTACCG
    GGCGCCATCA GCAACAGGAT CCTGTCCGGC TAA

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

    RefSeq XP_012820447.1
    CDS1..5733
    Translation

    Target ORF information:

    RefSeq Version XM_012964993.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis fer-1-like family member 6 (fer1l6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012964993.1

    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
    ATGGCCTTTA AGATCTCCCG AATGCTGGAT GAGCAGGGGC GCATTGTGCG CTTACACCAT 
    GATGTCACAC AACACACGTG CCCACAAGAT ATCGGCGACA CACTGAAGGG GCTTTTTTCC
    GGGCTGCACC TGAAGAAAAA GAAGAAAGGT GACAAGGGGC TGATCATAGC AAACAAGGGC
    GCCCAGGGAA AACATGATGA TGCAGAAAGT CTCCATGGTG ATGTCACAGG AAACGAAGGA
    GGAGCCAGTG ATGATGGAAC CCTCATTGAT TTGTCTGCCT CAAGCTCCTC CCTTTCTTTA
    TGTATGCAGA GTAAAAGAGC CAAGCTCGTG CCCAAGATTC ACGAAGGAGA GACCAAAATC
    CAAACGTACC AGATTGCCAT AACAATCACT GAGGCCCGGC AACTGATTGG GGAAAACATT
    GATCCTGTTG TGATCATTGA GATCGGCGAT GACAAAAAGC AAACAACGGT CAAAGAAGGA
    ACCAACGCAC CTTTCTACAA TGAGTACTTT GTGTTTGACT TTATTGGACC ACAGGAGCAG
    CTCTTTGATA AAATCATCAG ACTGTCTGTG ATGCACAACA AGCTTCTAGG AAGCATTTTA
    ATTGGATCTT TCAGAGTGGA TTTGGGAACA GTATATAATG AGCCAGGCCA CCAGTTCTGT
    GACAAGTGGG CTTTGCTGAC AGACCCCAGT GATATCCGGA CCGGAGTAAA AGGGTACCTA
    AAGTGTGACA TCAGCGTGGC GGGAAAGGGC GACACCGTGC AGTCCTCTCA GAAAATCAGT
    GATGCGGAAG AACAGATAGA AAAGAACTTG TTGATTCCTA AAGGGTTTCC ATCAGAAAGA
    CCATGGGCCA GGTTCTACGT TCGCATCTAC AGAGCAGAAG GCCTCCCCAA GATGAACTCC
    AGCATCATGG CCAATGTCAC CAAAGCTTTT ATTGGAGATA GCAAAGACCT TGTGGATCCT
    TATGTGGTGG TCATGTTTGC AGGTCAAATG GGCCGAACCA CTGCCCAGAA GAACTGTGCA
    GACCCGCTGT GGCACGAGCA GATTGTATTC AAGGAAATGT TTCCTCCTCT GTGTCGAAGG
    GTGAAAATCC AGGTCTGGGA TGAGGGGAGC ATGAACGATG TGGCTCTGGC TACTCATTTT
    ATAGACCTCA AAAAGATTTC TGATGAGCAA GATGGCGACA AAGGGTTTCT CCCTACGTTT
    GGGCCTGCTT GGATCAACCT TTATGGTTCC CCCCGTAACA CCACTTTGAT GGAAGACCAC
    CAAGAACTTA ATGAAGGTCA CGGGGAAGGG GTCTCATTCA GAGGACGCAT CTTAATAGAA
    ATTGCTGTTG AGATTCTTTC CGGAGGGGCA CATGAATCAA AATTTTCTAA GGCTATCAAG
    GATATGAAGC TTCCTCTTAA AGACTCCAAA TCTTCCAAAG GGTCAGGGAA AGAGAAAGGA
    GAGAAGGGAT CAGAAGATGC TAAACCAACT TCAGCAGTCG ATAAAACAAA CTCTATCCAA
    GTGGAAGTTG AACCCTTTGA TGTGCCGCCA GAGTTTCAGG AAGAAAAGTC TGAAGATTTT
    CTCCTGTTTG GATCAATTTT TGAAGCAACA TTGATTGACA GGAAGATTGG CGATAAGGGT
    ATAAGCTTTG AGTGTTCTGT AGGTAATTAT GGAAATGTTC TGGATGGGGT GTCACATTCT
    GGAACAAAAA AAAAATCCCC GGAACACGAG GACGGAGAAG GGGCCCCATT GCTTCAGCCA
    GAGGAAGGAG AAGCAGCACC AGAAGTCTCT TTATCATTTA TATCAGTTAC AACACCAGAG
    AAACCATTGA TCACAGATGG AAACAGGAAC TATCATTACT TGCCATTTTA TGAGAGAAAG
    CCTTGTATCT ACGTGAAGAG CACCTGGGGA GACCAAACCT TCCGGCTGTA TTCTTCCAAC
    ATGCTGCAGA AAATGGCCGA CCACTTGGAG GATGGCTTGG AGCAAGTGAA AGAGCTGGTC
    AAGATCTCTG ATCTAGCACC CGAGGAGAAA ATGCGTGACG TTCTAACAGA ATTCATTAAC
    CAGAGCAGGG CATTCATCTC CACAGCGGAA AAGAGAAGCA AAATGACAAA TACTACAGCT
    CTGGATAAGA AAAGAGTAAC CCTGTGTAGG CAGGAGCTGG AGGCGATGTC AGCGAACGCA
    AAGGCAATTG TACAGCAGAA AAAGAAGATG TCATTAAGCG ACATGACGCG AGAAATGCAG
    AGCTTAATAG ATAACATTAA GTTTCTGGTG GATGAGCCCC AGCATACAGT ACCTGATGTA
    TTTATCTGGC TGCTGAGCAA CAACAAACGA GTTGCTTATG CCCGTATCCC AGCAAGAGAT
    ATTCTCTACT CCACCCTGGC TGAAGAGAGA GGCCATCACT GTGGGAAGAT TAAAACCCTT
    TTCTTCAAAC TCCCTGGAAA GCGCCCCCCT GGCTGGAACG TACAGGCTAA AGTAGATGTG
    TACTTGTGGC TGGGCTCCAG CAAATATTCC CATTTCATAT TTGAGAACCT ACCCGGTGGA
    TATGAAGTAG AGACACACTC AGCTTCTTCG GGGCATCATG GCTCTCCCCC TCCCGGAAAC
    CTGGTCTACA AATCCCAACA CATGTTCCAG CTACGAGCCC ACATGTACCA GGCAAGAGGA
    CTGATTGCTG CTGACACTTC TGGGCTTTCG GATCCATTTG CGAAGGTGAC GTTTCTCTCC
    CACTGCCAAA CAACAAAGAT TATTTCACAG ACACTTTCTC CCACATGGAA CCAGATGCTG
    CTGTTTAACA ACCTTGTCAT CTATGGGGAA CTGAAAGACA TAGCTGAAGA CCCTCCGAAT
    ATAGTCATTG AGGTGTATGA TGATGATGCG CTTAGTAAAT CAGAGTACAT TGGTTCTACT
    GTGGCCTCCC CAACTGTGAT CTTGGCCAAC CAGACCTACT CTCCAGCCAA ACTTACTTAT
    CATCCTTTGT TCTGTGGAAA TCTCTCTGGA GGGGAACTGC TTGCTGCCTT TGAGTTGCTA
    CAGGTTCCTG AGTCAGGTGT GCAGAGCCTC CCACCAATCG AGACTCCTGA TGCTGCTCAG
    ATCTATCCAG TCCCATCAAA TATCCGCCCT GTGCTGAGTA AATACAGAGT GGAGGTTCTC
    TTCTGGGGTG TGCGGGAGCT GAAGAAAGTG CAGCTTCTCT CGGTGGATCG GCCTCAGGTG
    CTGATAGAAT GTGCTGGGAA GGGAGTGAAG TCTTGCGTTA TACAGAGTTA CAAAAGCAAC
    CCCAACTTCA ATGTGATTGG AGATTGGTTC GAAGTGGAAC TGCCCGAAAA TGAAGTCTTG
    CATCCCCCTC TGAGCATCTG CGTTGTTGAC TGGAGAGCAT TTGGACGCAG CACTCTTGTC
    GGGACGCACA CGATCAATTG CCTGAAGCAG TTCTTGTACA AACCCCACCG GGAGCAGACA
    AGTGCAATAG TCGGGCTGGT AGCGCAGAGT CCGCCTGCTG AAAGCGCCGG ACCCCAGTAT
    GATTCTCCTG ATCCGGGGGA ACAAGATCAT ATCTATGTCG ACATTGATCC ATCTCTAAGG
    AAGGACATGC CACAAAGCCG CCCTCATTCT CCTGCGCCAT CGCCTACGGC AACTTTAGCC
    CCATCTCCTA CTCCGGCTGC TGGCCCAGCT TCTGATCCTG CTGCCTCTAA AGGCAAAGCC
    ACAAAAGCAG AGAAATCCCC TCTAAAGCAG GATACCACCC AACAGGCTTT GGTTAGAGGG
    TCATTGAGAC GATCAACCAA AAAGAAGAAA AGAACAATAG CAGACGAATC AGCAGAAAAT
    GTCATCGATT GGTGGTCAAA ATACTACGCA TCTGTGGAGA AGCTGCAGAA GGCCAAGGCT
    GCCGCCGCCG CCGCGGAGAC GACGGATTCG TCTGGCAGGA CCCCGGGGCA AGTCAGTTTA
    ACAATTGAAG AACCAGAAAA AAAGAAGAAA GATGGGAAAA AAGGAATGGA ATTGGTCAAA
    AAGAAACCCA AAGAAGAAGG TCCCAAGCTT GCTACCCTGC AGATCTATAG CAATGAACTG
    GAAAATGAGT TTAAGAATTT TGAAGACTGG GTCAGAACCT TTGAACTTCT GCGAGGGAAA
    TCTACAGATG ACGAGCACAG TGTCCACGAT GATAGGATCA TTGGCAAATT CAAGGGTTCG
    TTCTCCATAT ACAAAAATGT AGATGACACC AACCCGAAGG ATGGCGGGCA GCTAAGGATT
    CTGCAGGGAA TTCCACCCAA CCATACTGTG AAAGTCCTGA TACGGGTCTA TATTGTGGCA
    GGCTTTAACC TTAGCCCGGC CGATCCGGAT GGGAAGTCTG ACCCCTACAT TGTGTTAAGA
    CTTGGGAAGA CTGAGATCAA AGATCGAGAT AATTACATCC CTAAGCAGCT AAACCCGGTG
    TTTGGGAGAT CATTTGAAAT GCAAGCAACA TTCCCGAAGG ACTCCATATT GTCCATTGTG
    ATATACGACC ATGATATGAT TGGGACGGAC GACCTCATTG GCGAAACAAA AATAGATCTG
    GAGAATCGAT TCTTCAGCCG ACACCGCGCC ACCTGTGGCT TGCAGAGTCA ATATGAAATA
    GAGGGATACA ATGCCTGGCG AGACTCCACC AAACCAACAG AGATTCTGGC TAAACTTTGC
    AAAGACAACA AGCTGGACGG GCCCTACTTA CGTCCTGGGC AGATACAAAT TGGAGGCAAA
    ATATTTACCG GTCAAACCAT ATTTAACCAA GACGATGAGC AAGTGGAATC GTATGAGCAT
    CTTGCCCTGA AAGCTCTTCA TTCTTGGTCC GACATTCCTG ATATTGGGTG CAATCTAGTT
    CCAGAACACA TTGAAACCCG ACCCTTGTAC CACAAGGACA AACCTGGAAT AGAGCAGGGG
    AGGATTCAGA TGTGGGTGGA CATGTTCCCT ACAGATCTGC CGCTTCCAGG CCCTCCTGTT
    GATATTTCCC CAAGGAAGCC AAAAGGATAT GAACTGAGAA TCATAATCTG GAACACAGAA
    GATGTGATAT TAGAAGATGA GAATATATTC ACAGGGCAAA AATCTAGTGA TATCTATGTT
    AAAGGGTGGC TGAAGGGAAT CGAAGACGAC AGCCAGGAGA CAGATGTCCA TTACAACTCC
    TTAACCGGCG AAGGCAATTT CAACTGGCGT TTTGTATTTC CGTTCAGCTA CCTCCCTGCA
    GAAAAACTAA TGGTGGTCAG TAAGAGAGAG AATATATTTT CTTTAGAGAA GACGGAAAGG
    AAAATCCCCA CAGTGCTGCT GCTCCAAGTC TGGGATTTTG ACAGACTTTC TTCTGATGAC
    TTCCTAGGTT CTATGGAGCT GAACCTGAAC GCGTTCCATC GGGGAGCCAA AACTGCCAAG
    GGCTGTGACC TGAGCATGGC CGCCACCCCA AAGGATGAAA ACAAGATTTC CATCTTCCAG
    CAGAAGCGAA TCCGAGGCTG GTGGCCCTTT GTGAAATCCG GAGAGCTCAC TGGCAAAGTG
    GAGGCAGAGT TTCATTTGGT GACGACTGAA GAAGCAGAAA AGAATCCCGT TGGCCGTGCA
    CGGAAAGAGC CTGAACCACT GGAAAAACCA AACCGGCCGA ATACCTCCTT TAACTGGTTT
    GTGAATCCGT TTAAGTGCCT GTATCACCTG ATCTGGAGGA ATTACAAGAA GTACATCATT
    ATCGGGCTGG TTTTGCTCAT CATTACTCTC TTCCTGGTTC TTTTCTTCTA CACCCTACCG
    GGCGCCATCA GCAACAGGAT CCTGTCCGGC TAA

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