LOC101732922 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC101732922 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101732922 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
OXa58121 XM_031901828.1
Latest version!
Xenopus tropicalis uncharacterized LOC101732922 (LOC101732922), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa45625 XM_012967077.2
Latest version!
Xenopus tropicalis uncharacterized LOC101732922 (LOC101732922), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OXa58121
    Clone ID Related Accession (Same CDS sequence) XM_031901828.1
    Accession Version XM_031901828.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    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 uncharacterized protein LOC101732922
    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
    ATGGAACTTC AGGTTTCTAA AGCCGAAGGA GACTTACCAG GACTTGCATT CCTGGACACA 
    GCCAGAGGTG TTAACCCCAT AGTGCAAAAG CTACCCTACA ACTTGCAAGA ACGGTGGATG
    GCACATGGGT CTAAATTCAA ACAAACATAC AATGTCACAT TTCCCCCCTT CACTGTGTTT
    GTGGACTTTG TATACCAGCA AGCCAAGATG AGGAATGACC CCAGTTTTGA TCTCACTCTG
    CCACATGCCA CCCATTCAGT ACCTAATACT CGCAAAGCAG TAACAGTTCA CAAAACTAAT
    GTTTCCTCTT CAGGTTCTTT CCACAGATCT GCTGACAGCT CTCAGGAGGA GACAAACAAC
    AAAGACCCTG GTAAGCAGTG TCCCCTACAC CAAAGGCCTC ACCCTCTTCT GAAATGCAGA
    GCCTTCAGAG GAAAGTCCAT AGATGACCGC AAAGCCTTCC TAAAGGAAAA CCACATCTGC
    TACAAGTGCT GCTCATCAAC ATCTCACCTT GCCAAGGACT GTAAGGTCAG TGTAAAATGC
    ACAGAATGTG ACAGCACACA CCACAACACA GCATTACACC CTGGGCCAGC CCCGTGGACA
    TTACCTCACA ACAAGGGTAC TAGCGAGCAT GGCGGGGAGG AAGGTGACAC TGCTACAACT
    ACACCAGAGG TCACTTCACA ATGTACAGAA GTCTGCAAAG GAGCCATAGG TGGCAGATCC
    TGCTCCAAAA TCTGCTTAGT CAAAGTATAC CCGAAAGGCC AAAGGGATAA AGCTATTAGA
    CTTTATGCAA TCATGGACGA TCAGAGTAAT GGATCTCTAG CCTGTCCAGC CTTCTTTGAT
    TTATTCAATA TCAAAGGCCC AAGCATTCCT TACTCCTTAA AGACTTGTGC AGGAGTTATT
    GAGACAGCAG GGAGGAAGGC ATCTGGCTAC CAAGTAGAGT CCATAGATGG ACAAATATGC
    TTGCCTTTGC CACCTATAAC TGAGTGCAGT CGGATACCAG ATAATAGGAC TGAGATCCCT
    ACACCAGATG CAGCACTGCA CCATGCACAC TTGAAATGTA TAACGCACTT AATCCCTGAA
    CTTGACCCTA AGGCCCAGAT AATGCTTCTT CTTGGAAGAG ATATCCTACG GGTCCACAAA
    GCAAGGGACC AGATAAATGG TCCTCACAAT GCACCTTATG CTCAGAAGCT AGACCTTGGA
    TGGGTCATCA TAGGTGATGT ATGCCTGGGA GATGTACACA GACCAACCAA CATCAACACT
    CTGTATACTA ACACATTAGA GAATGGCCGC CCTTCTCTTT TTCAACCATG TCCAAATCGC
    TTTCTGATTA AAGAGATTCA GAATAACGCT TATCTAACCA ACCTCTTAGG AGAGAGCTAT
    CCCTGCGCTA AGGATGATGA TCATTTGGGT TGCAACGTGT TCCAGAGATC CAAAAATGAC
    AATCAACTTT CCCTTTCCAT AGAGGACAAA ATCTTCCTGG AAATCATGGA TCAAGGTCCA
    GACCTCAACA ACAAACTCTT GGGGGTACTC ATACGTTTCC GCAAAGACCC TATTGCCTTT
    ATAGCAGACA TCCAGCAAAT GTTCCACAGC TTTCTTGTGA GAGAAGATCA TAGGAACTTC
    TTGAGATTCT TCTGGTTCAG AGACAATGAT CCAGCGAAAG ATGTCCTAGA GTACCGCATG
    AAAGTGCATG TGTTTGGAAA CAGCCCTTCC CCTGCAGTGG CCATATATGG GCTCAGACGG
    TCTGCCCAGG AAGGAGAAGT TGACTATGGC AGAGATGTCA CACAATTTGT TGAGAGAGAC
    TTTTATGTAG ATGATGGTCT GAAATCATCA CCCTCTGAGG AGACAGCAAT CAGTCTGCTT
    AAGAGAACAC AAGACATGCT AGCCTGTTCC AACCTCAGAC TGCACAAAAT AGCCTCCAAC
    AGCATAGAGG TAATGAAAGC CTTCCCTTCC CAAGACCATG CTAATGATTT AAGAGACCTA
    GATTTGGGTA CAGACACATT ACCTGTACAA CGCAGCCTTG GCCTAAACTG GGACTTGAAA
    TCTGACACAT TTACATTTCA AGTGAACAAG GATGAGAAAC CCTTCACTCG CAGAGGAGTC
    TTATCTACAG TAAATAGTTT GTATGACCCT CTAGGATTTG CAGCTCCAGT GACTGTTCAA
    GGCAAAGCTC TACTACGAGA ACTAACTGTG GAATCTTGTG ACTGGGATTC CCCACTCCCA
    GCAGCAAAGG AACAAGTCTG GATAGAATGG AGAGACTCTT TAGGAGCATT GTCTAGCATT
    CAAATTCCAA GGCAATACAC TTGTACTCCT GCTGCAGGAA GAAAAGAAAG GAAGCTTTGT
    ATATTTTCCG ATGCTTCAAC CAAAGCAATA GCTGCTGTTG CCTACCTTAA GACTGTAGAT
    TGCAAAGGAC AGTGCCACAT TGGATTCATT ATGGGTAAAG CAAAACTAAC TCCACAACCT
    GAGCACACTA TACCCAGATT AGAGCTATGT GCAGCTGTGT TAGCAGTGGA AATGGCTGAA
    CTCATCACTT CAGAAATTGA TCTTCAACTA AGTGAGGCTG AATTCTACAC AGATAGCAAG
    GTAGTGTTGG GCTACATCTG CAATGAGACC AGACGATTCT ATGTCTATGT AAGCAACAGA
    ATTCTGCGCA TACGGAGATC AACACACCCA AAACAATGGC ACTATGTACC TTCTGAGAAA
    AATCCAGCAG ATCATGCAAC AAGAGCTGTA CCCGCAGCTT GTTTAAAACA AACCTCCTGG
    TTTACAGGGC CTTCTTTCCT GTATTCATCT GAACAGAATG ACCCTGCTGA TGGGTATGAA
    CTAATTGATA CAACATCTGA TCCAGAGATT CGTCCACAAG TATCTACACT CTGCACTGAT
    ACTTCAAGTA TGCACCTTGG GTCTCATCGC TTCAAGAGGT TCTCCACTTG GAAGTCTCTA
    GTCAGATCTA TTACCTGTCT GCTTCATATA GTGAAGTCCT TCAAGAAGGG TTTCCCTTCA
    ACATCCAACT GCAAAGGCTG GCACTACTGT CAAAGGGCAC ATACCGTTGA TGAACTTGAG
    CAAGCCAGAA ACATCATTCT TCTAAGTGTA CAGCAGGAAA CATATGCTAA AGGGCTTGAG
    TGTATCAAAA GCAAAAAGGC TATTTCCAAA GACAGTGTGT TAAAGAAACT TGACCCATTT
    ATTGATGAAA ATGGCTTACT GAGAGTTGGT GGTCGCATCA TGAAAGCTAC ACTTGAACAA
    GAAGAGAAAA ACCCACTGAT AATTCCCAGC AATCATCACA TTGCATCTTT ACTTGTTCTA
    CATTATCACC AACAGACAAG ACACCAAGGA CGTCTGTTTA CAGAAGGTGC CCTGCGTGCA
    GCAGGATTCT GGATAGTTGG AGCAAAGAAA CTTGTAAGTA GTGTTATCTT CAAATGTGTC
    ACTTGCAGGA AACTTCGTGG CATGTTTCAG ACTCAGAAAA TGGCTAATCT GCCAGCAGAC
    AGACTTAGTA CTGAACCTCC ATTTACAAAT GTTGGCCTTG ATGTATTTGG CCCCTGGTCT
    GTGACTTCAC GCCATACTAG AGGGGGTCAC GCTAATAGCA AACGCTGGGC AGTAATGTTT
    ACTTGTTTGA GTATCCGGGC AGTACACATA GAGGTTATTG AATCCATGGA TACTTCCAGT
    TTTGTCAATG CTCTCAGGAG ATTCATATCA ATTCGAGGGC CAGTGAAAAA CATTTACTCT
    GATAGAGGGA CTAATTTTGT GGGAGCCTGT AAAGAGCTAA ACATTCCTTC AAACATTGAC
    AAAAATCTTG TTGAAAAATA CTTGTCTGAC CAAGGTTGTG CATGGACATT CAACCCTCCT
    CATTCTTCCC ACATGGGAGG TGCTTGGGAA AGGATGATAG GAATAGCACG CAGAATTCTT
    GATTCTATGT TCTTACAGGA AGGGTCAACA AGGCTTACTC ATGAGACTCT CACTACTTTC
    ATGGCAGAAG TAGCAGCCAT TATGAATGCC AGACCTTTGA CCTCTGTATC CAATGACCCT
    GAGGATCCCT TCATACTTAC TCCATCCACC TTGCTTACTC AAAAGGTCAG TACCATCAAA
    GCTCCTCCTG GTGAGTTTGA TACCAAAGAC TTATATAAGC GCCAGTGGAG ACAAGTTCAA
    AGTCTTGCTA ATACCTTTTG GGACAAATGG AAGAAGCAGT ACATCTTCAC CTTACAGTCT
    AGGAATAAGT GGCAGTCTGA CAAACAGAAC ATTGAACCTG GCAACATTGT TCTCATGAAA
    GACTCTCAGA TCAAGAGAAA TGAGTGGCCT CTAGGACTTA TCACCAGAGT TTTCCCAAGT
    GAGGATGGAA AAGTCCGGAA AGTGGAGGTC AAGGTTGTAA GGCAGAATGA GACTAAACTT
    TTCCTTAGAC CTATATCTGA ACTAATCCTA TTGCTTTCTT CCACAGAACT TTCAAATGGG
    TGA

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

    RefSeq XP_031757688.1
    CDS88..4530
    Translation

    Target ORF information:

    RefSeq Version XM_031901828.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis uncharacterized LOC101732922 (LOC101732922), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031901828.1

    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
    ATGGAACTTC AGGTTTCTAA AGCCGAAGGA GACTTACCAG GACTTGCATT CCTGGACACA 
    GCCAGAGGTG TTAACCCCAT AGTGCAAAAG CTACCCTACA ACTTGCAAGA ACGGTGGATG
    GCACATGGGT CTAAATTCAA ACAAACATAC AATGTCACAT TTCCCCCCTT CACTGTGTTT
    GTGGACTTTG TATACCAGCA AGCCAAGATG AGGAATGACC CCAGTTTTGA TCTCACTCTG
    CCACATGCCA CCCATTCAGT ACCTAATACT CGCAAAGCAG TAACAGTTCA CAAAACTAAT
    GTTTCCTCTT CAGGTTCTTT CCACAGATCT GCTGACAGCT CTCAGGAGGA GACAAACAAC
    AAAGACCCTG GTAAGCAGTG TCCCCTACAC CAAAGGCCTC ACCCTCTTCT GAAATGCAGA
    GCCTTCAGAG GAAAGTCCAT AGATGACCGC AAAGCCTTCC TAAAGGAAAA CCACATCTGC
    TACAAGTGCT GCTCATCAAC ATCTCACCTT GCCAAGGACT GTAAGGTCAG TGTAAAATGC
    ACAGAATGTG ACAGCACACA CCACAACACA GCATTACACC CTGGGCCAGC CCCGTGGACA
    TTACCTCACA ACAAGGGTAC TAGCGAGCAT GGCGGGGAGG AAGGTGACAC TGCTACAACT
    ACACCAGAGG TCACTTCACA ATGTACAGAA GTCTGCAAAG GAGCCATAGG TGGCAGATCC
    TGCTCCAAAA TCTGCTTAGT CAAAGTATAC CCGAAAGGCC AAAGGGATAA AGCTATTAGA
    CTTTATGCAA TCATGGACGA TCAGAGTAAT GGATCTCTAG CCTGTCCAGC CTTCTTTGAT
    TTATTCAATA TCAAAGGCCC AAGCATTCCT TACTCCTTAA AGACTTGTGC AGGAGTTATT
    GAGACAGCAG GGAGGAAGGC ATCTGGCTAC CAAGTAGAGT CCATAGATGG ACAAATATGC
    TTGCCTTTGC CACCTATAAC TGAGTGCAGT CGGATACCAG ATAATAGGAC TGAGATCCCT
    ACACCAGATG CAGCACTGCA CCATGCACAC TTGAAATGTA TAACGCACTT AATCCCTGAA
    CTTGACCCTA AGGCCCAGAT AATGCTTCTT CTTGGAAGAG ATATCCTACG GGTCCACAAA
    GCAAGGGACC AGATAAATGG TCCTCACAAT GCACCTTATG CTCAGAAGCT AGACCTTGGA
    TGGGTCATCA TAGGTGATGT ATGCCTGGGA GATGTACACA GACCAACCAA CATCAACACT
    CTGTATACTA ACACATTAGA GAATGGCCGC CCTTCTCTTT TTCAACCATG TCCAAATCGC
    TTTCTGATTA AAGAGATTCA GAATAACGCT TATCTAACCA ACCTCTTAGG AGAGAGCTAT
    CCCTGCGCTA AGGATGATGA TCATTTGGGT TGCAACGTGT TCCAGAGATC CAAAAATGAC
    AATCAACTTT CCCTTTCCAT AGAGGACAAA ATCTTCCTGG AAATCATGGA TCAAGGTCCA
    GACCTCAACA ACAAACTCTT GGGGGTACTC ATACGTTTCC GCAAAGACCC TATTGCCTTT
    ATAGCAGACA TCCAGCAAAT GTTCCACAGC TTTCTTGTGA GAGAAGATCA TAGGAACTTC
    TTGAGATTCT TCTGGTTCAG AGACAATGAT CCAGCGAAAG ATGTCCTAGA GTACCGCATG
    AAAGTGCATG TGTTTGGAAA CAGCCCTTCC CCTGCAGTGG CCATATATGG GCTCAGACGG
    TCTGCCCAGG AAGGAGAAGT TGACTATGGC AGAGATGTCA CACAATTTGT TGAGAGAGAC
    TTTTATGTAG ATGATGGTCT GAAATCATCA CCCTCTGAGG AGACAGCAAT CAGTCTGCTT
    AAGAGAACAC AAGACATGCT AGCCTGTTCC AACCTCAGAC TGCACAAAAT AGCCTCCAAC
    AGCATAGAGG TAATGAAAGC CTTCCCTTCC CAAGACCATG CTAATGATTT AAGAGACCTA
    GATTTGGGTA CAGACACATT ACCTGTACAA CGCAGCCTTG GCCTAAACTG GGACTTGAAA
    TCTGACACAT TTACATTTCA AGTGAACAAG GATGAGAAAC CCTTCACTCG CAGAGGAGTC
    TTATCTACAG TAAATAGTTT GTATGACCCT CTAGGATTTG CAGCTCCAGT GACTGTTCAA
    GGCAAAGCTC TACTACGAGA ACTAACTGTG GAATCTTGTG ACTGGGATTC CCCACTCCCA
    GCAGCAAAGG AACAAGTCTG GATAGAATGG AGAGACTCTT TAGGAGCATT GTCTAGCATT
    CAAATTCCAA GGCAATACAC TTGTACTCCT GCTGCAGGAA GAAAAGAAAG GAAGCTTTGT
    ATATTTTCCG ATGCTTCAAC CAAAGCAATA GCTGCTGTTG CCTACCTTAA GACTGTAGAT
    TGCAAAGGAC AGTGCCACAT TGGATTCATT ATGGGTAAAG CAAAACTAAC TCCACAACCT
    GAGCACACTA TACCCAGATT AGAGCTATGT GCAGCTGTGT TAGCAGTGGA AATGGCTGAA
    CTCATCACTT CAGAAATTGA TCTTCAACTA AGTGAGGCTG AATTCTACAC AGATAGCAAG
    GTAGTGTTGG GCTACATCTG CAATGAGACC AGACGATTCT ATGTCTATGT AAGCAACAGA
    ATTCTGCGCA TACGGAGATC AACACACCCA AAACAATGGC ACTATGTACC TTCTGAGAAA
    AATCCAGCAG ATCATGCAAC AAGAGCTGTA CCCGCAGCTT GTTTAAAACA AACCTCCTGG
    TTTACAGGGC CTTCTTTCCT GTATTCATCT GAACAGAATG ACCCTGCTGA TGGGTATGAA
    CTAATTGATA CAACATCTGA TCCAGAGATT CGTCCACAAG TATCTACACT CTGCACTGAT
    ACTTCAAGTA TGCACCTTGG GTCTCATCGC TTCAAGAGGT TCTCCACTTG GAAGTCTCTA
    GTCAGATCTA TTACCTGTCT GCTTCATATA GTGAAGTCCT TCAAGAAGGG TTTCCCTTCA
    ACATCCAACT GCAAAGGCTG GCACTACTGT CAAAGGGCAC ATACCGTTGA TGAACTTGAG
    CAAGCCAGAA ACATCATTCT TCTAAGTGTA CAGCAGGAAA CATATGCTAA AGGGCTTGAG
    TGTATCAAAA GCAAAAAGGC TATTTCCAAA GACAGTGTGT TAAAGAAACT TGACCCATTT
    ATTGATGAAA ATGGCTTACT GAGAGTTGGT GGTCGCATCA TGAAAGCTAC ACTTGAACAA
    GAAGAGAAAA ACCCACTGAT AATTCCCAGC AATCATCACA TTGCATCTTT ACTTGTTCTA
    CATTATCACC AACAGACAAG ACACCAAGGA CGTCTGTTTA CAGAAGGTGC CCTGCGTGCA
    GCAGGATTCT GGATAGTTGG AGCAAAGAAA CTTGTAAGTA GTGTTATCTT CAAATGTGTC
    ACTTGCAGGA AACTTCGTGG CATGTTTCAG ACTCAGAAAA TGGCTAATCT GCCAGCAGAC
    AGACTTAGTA CTGAACCTCC ATTTACAAAT GTTGGCCTTG ATGTATTTGG CCCCTGGTCT
    GTGACTTCAC GCCATACTAG AGGGGGTCAC GCTAATAGCA AACGCTGGGC AGTAATGTTT
    ACTTGTTTGA GTATCCGGGC AGTACACATA GAGGTTATTG AATCCATGGA TACTTCCAGT
    TTTGTCAATG CTCTCAGGAG ATTCATATCA ATTCGAGGGC CAGTGAAAAA CATTTACTCT
    GATAGAGGGA CTAATTTTGT GGGAGCCTGT AAAGAGCTAA ACATTCCTTC AAACATTGAC
    AAAAATCTTG TTGAAAAATA CTTGTCTGAC CAAGGTTGTG CATGGACATT CAACCCTCCT
    CATTCTTCCC ACATGGGAGG TGCTTGGGAA AGGATGATAG GAATAGCACG CAGAATTCTT
    GATTCTATGT TCTTACAGGA AGGGTCAACA AGGCTTACTC ATGAGACTCT CACTACTTTC
    ATGGCAGAAG TAGCAGCCAT TATGAATGCC AGACCTTTGA CCTCTGTATC CAATGACCCT
    GAGGATCCCT TCATACTTAC TCCATCCACC TTGCTTACTC AAAAGGTCAG TACCATCAAA
    GCTCCTCCTG GTGAGTTTGA TACCAAAGAC TTATATAAGC GCCAGTGGAG ACAAGTTCAA
    AGTCTTGCTA ATACCTTTTG GGACAAATGG AAGAAGCAGT ACATCTTCAC CTTACAGTCT
    AGGAATAAGT GGCAGTCTGA CAAACAGAAC ATTGAACCTG GCAACATTGT TCTCATGAAA
    GACTCTCAGA TCAAGAGAAA TGAGTGGCCT CTAGGACTTA TCACCAGAGT TTTCCCAAGT
    GAGGATGGAA AAGTCCGGAA AGTGGAGGTC AAGGTTGTAA GGCAGAATGA GACTAAACTT
    TTCCTTAGAC CTATATCTGA ACTAATCCTA TTGCTTTCTT CCACAGAACT TTCAAATGGG
    TGA

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

    CloneID OXa45625
    Clone ID Related Accession (Same CDS sequence) XM_012967077.2
    Accession Version XM_012967077.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4905bp)
    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 uncharacterized protein LOC101732922
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012967077.1. ##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 :: 17% 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
    ATGTCACAGA AACGGACACC CTCACTAACA ACAAGGTCCC AAGTCTCGGG TTCCTCCCAG 
    CGCTCATCTG TCATCAATGC GGCCGCAATT GCCCGCGCGA AGGCAGAAGC AGCCAAGGCC
    CGAGTCTCCT TTGCAGAAAG GGAGATGGAG GCAAAAACAG AAAAAGCACG CCTAGAAGCA
    GAGAATGCAC GCTTAGAAGC GTCTCTAGAA AAGCTGGCCA TAGAGAGGGA AGCTGCAGCA
    GCCATAGCTG AAGCAGAAGC TCTAGAGGCA ATCGTATACC CTGACAGCGA AAGACACAGC
    AGGGCACCAG ATCTAGAGAT TGAAGGTCAA GACCCACTGC AGCGCACCTC TGAGTATGTC
    CAGCAGCACT CCAAACAAAA CACAGATTCT CTTTCAGCAC AAGAACCAGG TCAACACGCT
    ACCAGAGAGC CAGACCAACA ATGCTATACG ACTCAAGAAG TCAGCAGCAA GTCACAAGTG
    CACCAGAGAG GTAACACAGA GCAAAATGAT CCTGCTTATG GCACTCACAT CAGCTGGGTA
    CCCAAGCCTA CGGGTAACCC TACAACTACT TCCTCTGATA TGTTAAGGCG GTATGTCACA
    AGTCAGCCTA AAGAAGAACC TCCAGACAGG GAACTAAGTG ACCTGTTAAT GGAACTTCAG
    GTTGCTAAAG CCGAAGGAGA CTTACCAGGA CTCGCATTCC TGGACACAGC CAGAGGTGTT
    AACCCCATAG TGCAAAAGCT ACCCTACAAC TTGCAAGAAC GGTGGATGGC ACATGGGTCT
    AAATTCAAAC AAACATACAA TGTCACATTT CCCCCCTTCA CTGTGTTTGT GGACTTCCAG
    TGTCCCCTAC ACCAAAGGCC TCACCCTCTT CTGAAATGCA GAGCCTTCAG AGGAAAGTCC
    ATAGATGACC GCAAAGCCTT CCTAAAGGAA AACCACATCT GCTACAAGTG CTGCTCATCA
    ACATCTCACC TTGCCAAGGA CTGTAAGGTC AGTGTAAAAT GCACAGAATG TGACAGCACA
    CACCACAACA CAGCATTACA CCCTGGGCCA GCCCCGTGGA CATTACCTCA CAACAAGGGT
    ACTAGCGAGC ATGGCGGGGA GGAAGGTGAC ACTGCTACAA CTACACCAGA GGTCACTTCA
    CAATGTACAG AAGTCTGCAA AGGAGCCATA GGTGGCAGAT CCTGCTCCAA AATCTGCTTA
    GTCAAAGTAT ACCCGAAAGG CCAAAGGGAT AAAGCTATTA GACTTTATGC AATCATGGAC
    GATCAGAGTA ATGGATCTCT AGCCTGTCCA GCCTTCTTTG ATTTATTCAA TATCAAAGGC
    CCAAGCATTC CTTACTCCTT AAAGACTTGT GCAGGAGTTA TTGAGACAGC AGGGAGGAAG
    GCATCTGGCT ACCAAGTAGA GTCCATAGAT GGACAAATAT GCTTGCCTTT GCCACCTATA
    ACTGAGTGCA GTCGGATACC AGATAATAGG ACTGAGATCC CTACACCAGA TGCAGCACTG
    CACCATGCAC ACTTGAAATG TATAACGCAC TTAATCCCTG AACTTGACCC TAAGGCCCAG
    ATAATGCTTC TTCTTGGAAG AGATATCCTA CGGGTCCACA AAGCAAGGGA CCAGATAAAT
    GGTCCTCACA ATGCACCTTA TGCTCAGAAG CTAGACCTTG GATGGGTCAT CATAGGTGAT
    GTATGCCTGG GAGATGTACA CAGGCCAACC AACATCAACA CTCTGTATAC TAACACATTA
    GAGAATGGCC GCCCTTCTCT TTTTCAACCA TGTCCAAATC GCTTTCTGAT TAAAGAGATT
    CAGAATAACG CTTATCTAAC CAACCTCTTA GGAGAGAGCT ATCCCTGCGC TAAGGATGAT
    GATCATTTGG GTTGCAACGT GTTCCAGAGA TCCAAAAATG ACAATCAACT TTCCCTTTCC
    ATAGAGGACA AAATCTTCCT GGAAATCATG GATCAAGGTC CAGACCTCAA CAACAAACTC
    TTGGGGGTAC TCATACGTTT CCGCAAAGAC CCTATTGCCT TTATAGCAGA CATCCAGCAA
    ATGTTCCACA GCTTTCTTGT GAGAGAAGAT CATAGGAACT TCTTGAGATT CTTCTGGTTC
    AGAGACAATG ATCCAGCGAA AGATGTCCTA GAGTACCGCA TGAAAGTGCA TGTGTTTGGA
    AACAGCCCTT CCCCTGCAGT GGCCATATAT GGGCTCAGAC GGTCTGCCCA GGAAGGAGAA
    GTTGACTATG GCAGAGATGT CACACAATTT GTTGAGAGAG ACTTTTATGT AGATGATGGT
    CTGAAATCAT CACCCTCTGA GGAGACAGCA ATCAGTCTGC TTAAGAGAAC ACAAGACATG
    CTAGCCTGTT CCAACCTCAG ACTGCACAAA ATAGCCTCCA ACAGCATAGA GGTAATGAAA
    GCCTTCCCTT CCCAAGACCA TGCTAATGAT TTAAGAGACC TAGATTTGGG TACAGACACA
    TTACCTGTAC AACGCAGCCT TGGCCTAAAC TGGGACTTGA AATCTGACAC ATTTACATTT
    CAAGTGAACA AGGATGAGAA ACCCTTCACT CGCAGAGGAG TCTTATCTAC AGTAAATAGT
    TTGTATGACC CTCTAGGATT TGCAGCTCCA GTGACTGTTC AAGGCAAAGC TCTACTACGA
    GAACTAACTG TGGAATCTTG TGACTGGGAT TCCCCACTCC CAGCAGCAAA GGAACAAGTC
    TGGATAGAAT GGAGAGACTC TTTAGGAGCA TTGTCTAGCA TTCAAATTCC AAGGCAATAC
    ACTTGTACTC CTGCTGCAGG AATAAAAGAA AGGAAGCTTT GTATATTTTC CGATGCTTCA
    ACCAAAGCAA TAGCTGCTGT TGCCTACCTT AAGACTGTAG ATTGCAAAGG ACAGTGCCAC
    ATTGGATTCA TTATGGGTAA AGCAAAACTA ACTCCACAAC CTGAGCACAC TATACCCAGA
    TTAGAGCTAT GTGCAGCTGT GTTAGCAGTG GAAATGGCTG AACTCATCAC TTCAGAAATT
    GATCTTCAAC TAAGTGAGGC TGAATTCTAC ACAGATAGCA AGGTAGTGTT GGGCTACATC
    TGCAATGAGA CCAGACGATT CTATGTCTAT GTAAGCAACA GAATTCTGCG CATACGGAGA
    TCAACACACC CAAAACAATG GCACTATGTA CCTTCTGAGA AAAATCCAGC AGATCATGCA
    ACAAGAGCTG TACCCGCAGC TTGTTTAAAA CAAACCTCCT GGTTTACAGG GCCTTCTTTC
    CTGTATTCAT CTGAACAGAA TGACCCTGCT GATGGGTATG AACTAATTGA TACAACATCT
    GATCCAGAGA TTCGTCCACA AGTATCTACA CTCTGCACTG ATACTTCAAG TATGCACCTT
    GGGTCTCATC GCTTCAAGAG GTTCTCCACT TGGAAGTCTC TAGTCAGATC TATTACCTGT
    CTGCTTCATA TAGTGAAGTT CTTCAAGAAG GGTTTCCCTT CAACATCCAA CTGCAAAGGC
    TGGCACTACT GTCAAAGGGC ACATACCGTT GATGAACTTG AGCAAGCCAG AAACATCAGT
    CTTCTAAGTG TACAGCAGGA AACATATGCT AAAGAGCTTG AGTGTATCAA AAGCAAAAAG
    GCTATTTCCA AAGACAGTGT GTTAAAGAAA CTTGACCCAT TTATTGATGA AAATGGCTTA
    CTGAGAGTTG GTGGTCGCAT CATGAAAGCT ACACTTGAAC AAGAAGAGAA AAACCCACTG
    ATAATTCCCA GCAATCATCA CATTGCATCT TTACTTGTTC TACATTATCA CCAACAGACA
    AGACACCAAG GACGTCTGTT TACAGAAGGT GCCCTGCGTG CAGCAGGATT CTGGATAGTT
    GGAGCAAAGA AACTTGTAAG TAGTGTTATC TTCAAATGTG TCACTTGCAG GAAACTTCGT
    GGCATGTTTC AGACTCAGAA AATGGCTAAT CTGCCAGCAG ACAGACTTAG TACTGAACCT
    CCATTTACAA ATGTTGGCCT TGATGTATTT GGCCCCTGGT CTGTGACTTC ACGCCATACT
    AGAGGGGGTC ACGCTAATAG CAAACGCTGG GCAGTAATGT TTACTTGTTT GAGTATCCGG
    GCAGTACACA TAGAGGTTAT TGAATCCATG GATACTTCCA GTTTTGTCAA TGCTCTCAGG
    AGATTCATAT CAATTCGAGG GCCAGTGAAA AACATTTACT CTGATAGAGG GACTAATTTT
    GTGGGAGCCT GTAAAGAGCT AAACATTCCT TCAAACATTG ACAAAAATCT TGTTGAAAAA
    TACTTGTCTG ACCAAGGTTG TGCATGGACA TTCAACCCTC CTCATTCTTC CCACATGGGA
    GGTGCTTGGG AAAGGATGAT AGGAATAGCA CGCAGAATTC TTGATTCTAT GTTCTTACAG
    GAAGGGTCAA CAAGGCTTAC TCATGAGACT CTCACTACTT TCATGGCAGA AGTAGCAGCC
    ATTATGAATG CCAGACCTTT GACCTCTGTA TCCAATGACC CTGAGGATCC CTTCATACTT
    ACTCCATCCA CCTTGCTTAC TCAAAAGGTC AGTACCATCA AAGCTCCTCC TGGTGAGTTT
    GATACCAAAG ACTTATATAA GCGCCAGTGG AGACAAGTTC AAAGTCTTGC TAATACCTTT
    TGGGACAAAT GGAAGAAGCA GTACATCTTC ACCTTACAGT CTAGGAATAA GTGGCAGTCT
    GACAAACAGA ACATTGAACC TGGCAACATT GTTCTCATGA AAGACTCTCA GATCAAGAGA
    AATGAGTGGC CTCTAGGACT TATCACCAGA GTTTTCCCAA GTGAGGATGG AAAAGTCCGG
    AAAGTGGAGG TCAAGGTTGT AAGGCAGAAT GAGACTAAAC TTTTCCTTAG ACCTATATCT
    GAACTAATCC TATTGCTTTC TTCCACAGAA CTTTCAAATG GGTGA

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

    RefSeq XP_012822531.2
    CDS1..4905
    Translation

    Target ORF information:

    RefSeq Version XM_012967077.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis uncharacterized LOC101732922 (LOC101732922), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012967077.2

    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
    ATGTCACAGA AACGGACACC CTCACTAACA ACAAGGTCCC AAGTCTCGGG TTCCTCCCAG 
    CGCTCATCTG TCATCAATGC GGCCGCAATT GCCCGCGCGA AGGCAGAAGC AGCCAAGGCC
    CGAGTCTCCT TTGCAGAAAG GGAGATGGAG GCAAAAACAG AAAAAGCACG CCTAGAAGCA
    GAGAATGCAC GCTTAGAAGC GTCTCTAGAA AAGCTGGCCA TAGAGAGGGA AGCTGCAGCA
    GCCATAGCTG AAGCAGAAGC TCTAGAGGCA ATCGTATACC CTGACAGCGA AAGACACAGC
    AGGGCACCAG ATCTAGAGAT TGAAGGTCAA GACCCACTGC AGCGCACCTC TGAGTATGTC
    CAGCAGCACT CCAAACAAAA CACAGATTCT CTTTCAGCAC AAGAACCAGG TCAACACGCT
    ACCAGAGAGC CAGACCAACA ATGCTATACG ACTCAAGAAG TCAGCAGCAA GTCACAAGTG
    CACCAGAGAG GTAACACAGA GCAAAATGAT CCTGCTTATG GCACTCACAT CAGCTGGGTA
    CCCAAGCCTA CGGGTAACCC TACAACTACT TCCTCTGATA TGTTAAGGCG GTATGTCACA
    AGTCAGCCTA AAGAAGAACC TCCAGACAGG GAACTAAGTG ACCTGTTAAT GGAACTTCAG
    GTTGCTAAAG CCGAAGGAGA CTTACCAGGA CTCGCATTCC TGGACACAGC CAGAGGTGTT
    AACCCCATAG TGCAAAAGCT ACCCTACAAC TTGCAAGAAC GGTGGATGGC ACATGGGTCT
    AAATTCAAAC AAACATACAA TGTCACATTT CCCCCCTTCA CTGTGTTTGT GGACTTCCAG
    TGTCCCCTAC ACCAAAGGCC TCACCCTCTT CTGAAATGCA GAGCCTTCAG AGGAAAGTCC
    ATAGATGACC GCAAAGCCTT CCTAAAGGAA AACCACATCT GCTACAAGTG CTGCTCATCA
    ACATCTCACC TTGCCAAGGA CTGTAAGGTC AGTGTAAAAT GCACAGAATG TGACAGCACA
    CACCACAACA CAGCATTACA CCCTGGGCCA GCCCCGTGGA CATTACCTCA CAACAAGGGT
    ACTAGCGAGC ATGGCGGGGA GGAAGGTGAC ACTGCTACAA CTACACCAGA GGTCACTTCA
    CAATGTACAG AAGTCTGCAA AGGAGCCATA GGTGGCAGAT CCTGCTCCAA AATCTGCTTA
    GTCAAAGTAT ACCCGAAAGG CCAAAGGGAT AAAGCTATTA GACTTTATGC AATCATGGAC
    GATCAGAGTA ATGGATCTCT AGCCTGTCCA GCCTTCTTTG ATTTATTCAA TATCAAAGGC
    CCAAGCATTC CTTACTCCTT AAAGACTTGT GCAGGAGTTA TTGAGACAGC AGGGAGGAAG
    GCATCTGGCT ACCAAGTAGA GTCCATAGAT GGACAAATAT GCTTGCCTTT GCCACCTATA
    ACTGAGTGCA GTCGGATACC AGATAATAGG ACTGAGATCC CTACACCAGA TGCAGCACTG
    CACCATGCAC ACTTGAAATG TATAACGCAC TTAATCCCTG AACTTGACCC TAAGGCCCAG
    ATAATGCTTC TTCTTGGAAG AGATATCCTA CGGGTCCACA AAGCAAGGGA CCAGATAAAT
    GGTCCTCACA ATGCACCTTA TGCTCAGAAG CTAGACCTTG GATGGGTCAT CATAGGTGAT
    GTATGCCTGG GAGATGTACA CAGGCCAACC AACATCAACA CTCTGTATAC TAACACATTA
    GAGAATGGCC GCCCTTCTCT TTTTCAACCA TGTCCAAATC GCTTTCTGAT TAAAGAGATT
    CAGAATAACG CTTATCTAAC CAACCTCTTA GGAGAGAGCT ATCCCTGCGC TAAGGATGAT
    GATCATTTGG GTTGCAACGT GTTCCAGAGA TCCAAAAATG ACAATCAACT TTCCCTTTCC
    ATAGAGGACA AAATCTTCCT GGAAATCATG GATCAAGGTC CAGACCTCAA CAACAAACTC
    TTGGGGGTAC TCATACGTTT CCGCAAAGAC CCTATTGCCT TTATAGCAGA CATCCAGCAA
    ATGTTCCACA GCTTTCTTGT GAGAGAAGAT CATAGGAACT TCTTGAGATT CTTCTGGTTC
    AGAGACAATG ATCCAGCGAA AGATGTCCTA GAGTACCGCA TGAAAGTGCA TGTGTTTGGA
    AACAGCCCTT CCCCTGCAGT GGCCATATAT GGGCTCAGAC GGTCTGCCCA GGAAGGAGAA
    GTTGACTATG GCAGAGATGT CACACAATTT GTTGAGAGAG ACTTTTATGT AGATGATGGT
    CTGAAATCAT CACCCTCTGA GGAGACAGCA ATCAGTCTGC TTAAGAGAAC ACAAGACATG
    CTAGCCTGTT CCAACCTCAG ACTGCACAAA ATAGCCTCCA ACAGCATAGA GGTAATGAAA
    GCCTTCCCTT CCCAAGACCA TGCTAATGAT TTAAGAGACC TAGATTTGGG TACAGACACA
    TTACCTGTAC AACGCAGCCT TGGCCTAAAC TGGGACTTGA AATCTGACAC ATTTACATTT
    CAAGTGAACA AGGATGAGAA ACCCTTCACT CGCAGAGGAG TCTTATCTAC AGTAAATAGT
    TTGTATGACC CTCTAGGATT TGCAGCTCCA GTGACTGTTC AAGGCAAAGC TCTACTACGA
    GAACTAACTG TGGAATCTTG TGACTGGGAT TCCCCACTCC CAGCAGCAAA GGAACAAGTC
    TGGATAGAAT GGAGAGACTC TTTAGGAGCA TTGTCTAGCA TTCAAATTCC AAGGCAATAC
    ACTTGTACTC CTGCTGCAGG AATAAAAGAA AGGAAGCTTT GTATATTTTC CGATGCTTCA
    ACCAAAGCAA TAGCTGCTGT TGCCTACCTT AAGACTGTAG ATTGCAAAGG ACAGTGCCAC
    ATTGGATTCA TTATGGGTAA AGCAAAACTA ACTCCACAAC CTGAGCACAC TATACCCAGA
    TTAGAGCTAT GTGCAGCTGT GTTAGCAGTG GAAATGGCTG AACTCATCAC TTCAGAAATT
    GATCTTCAAC TAAGTGAGGC TGAATTCTAC ACAGATAGCA AGGTAGTGTT GGGCTACATC
    TGCAATGAGA CCAGACGATT CTATGTCTAT GTAAGCAACA GAATTCTGCG CATACGGAGA
    TCAACACACC CAAAACAATG GCACTATGTA CCTTCTGAGA AAAATCCAGC AGATCATGCA
    ACAAGAGCTG TACCCGCAGC TTGTTTAAAA CAAACCTCCT GGTTTACAGG GCCTTCTTTC
    CTGTATTCAT CTGAACAGAA TGACCCTGCT GATGGGTATG AACTAATTGA TACAACATCT
    GATCCAGAGA TTCGTCCACA AGTATCTACA CTCTGCACTG ATACTTCAAG TATGCACCTT
    GGGTCTCATC GCTTCAAGAG GTTCTCCACT TGGAAGTCTC TAGTCAGATC TATTACCTGT
    CTGCTTCATA TAGTGAAGTT CTTCAAGAAG GGTTTCCCTT CAACATCCAA CTGCAAAGGC
    TGGCACTACT GTCAAAGGGC ACATACCGTT GATGAACTTG AGCAAGCCAG AAACATCAGT
    CTTCTAAGTG TACAGCAGGA AACATATGCT AAAGAGCTTG AGTGTATCAA AAGCAAAAAG
    GCTATTTCCA AAGACAGTGT GTTAAAGAAA CTTGACCCAT TTATTGATGA AAATGGCTTA
    CTGAGAGTTG GTGGTCGCAT CATGAAAGCT ACACTTGAAC AAGAAGAGAA AAACCCACTG
    ATAATTCCCA GCAATCATCA CATTGCATCT TTACTTGTTC TACATTATCA CCAACAGACA
    AGACACCAAG GACGTCTGTT TACAGAAGGT GCCCTGCGTG CAGCAGGATT CTGGATAGTT
    GGAGCAAAGA AACTTGTAAG TAGTGTTATC TTCAAATGTG TCACTTGCAG GAAACTTCGT
    GGCATGTTTC AGACTCAGAA AATGGCTAAT CTGCCAGCAG ACAGACTTAG TACTGAACCT
    CCATTTACAA ATGTTGGCCT TGATGTATTT GGCCCCTGGT CTGTGACTTC ACGCCATACT
    AGAGGGGGTC ACGCTAATAG CAAACGCTGG GCAGTAATGT TTACTTGTTT GAGTATCCGG
    GCAGTACACA TAGAGGTTAT TGAATCCATG GATACTTCCA GTTTTGTCAA TGCTCTCAGG
    AGATTCATAT CAATTCGAGG GCCAGTGAAA AACATTTACT CTGATAGAGG GACTAATTTT
    GTGGGAGCCT GTAAAGAGCT AAACATTCCT TCAAACATTG ACAAAAATCT TGTTGAAAAA
    TACTTGTCTG ACCAAGGTTG TGCATGGACA TTCAACCCTC CTCATTCTTC CCACATGGGA
    GGTGCTTGGG AAAGGATGAT AGGAATAGCA CGCAGAATTC TTGATTCTAT GTTCTTACAG
    GAAGGGTCAA CAAGGCTTAC TCATGAGACT CTCACTACTT TCATGGCAGA AGTAGCAGCC
    ATTATGAATG CCAGACCTTT GACCTCTGTA TCCAATGACC CTGAGGATCC CTTCATACTT
    ACTCCATCCA CCTTGCTTAC TCAAAAGGTC AGTACCATCA AAGCTCCTCC TGGTGAGTTT
    GATACCAAAG ACTTATATAA GCGCCAGTGG AGACAAGTTC AAAGTCTTGC TAATACCTTT
    TGGGACAAAT GGAAGAAGCA GTACATCTTC ACCTTACAGT CTAGGAATAA GTGGCAGTCT
    GACAAACAGA ACATTGAACC TGGCAACATT GTTCTCATGA AAGACTCTCA GATCAAGAGA
    AATGAGTGGC CTCTAGGACT TATCACCAGA GTTTTCCCAA GTGAGGATGG AAAAGTCCGG
    AAAGTGGAGG TCAAGGTTGT AAGGCAGAAT GAGACTAAAC TTTTCCTTAG ACCTATATCT
    GAACTAATCC TATTGCTTTC TTCCACAGAA CTTTCAAATG GGTGA

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