nup153 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following nup153 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the nup153 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
OXa20373 NM_001278749.1
Latest version!
Xenopus tropicalis nucleoporin 153kDa (nup153), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OXa44877 XM_018094578.1
Latest version!
Xenopus tropicalis nucleoporin 153kDa (nup153), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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 OXa20373
    Clone ID Related Accession (Same CDS sequence) NM_001278749.1
    Accession Version NM_001278749.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4644bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product nuclear pore complex protein Nup153
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from JX993585.1. On Jul 15, 2013 this sequence version replaced XM_002932690.2. ##Evidence-Data-START## Transcript exon combination :: JX993585.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028291, SAMD00028292 [ECO:0000348] ##Evidence-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
    ATGGCGGCGG CCGGAGGAGG CGGAGGGGCA GGTGAATCGG GAACCGGGGG CAAAATACGG 
    AGTAGAAGAT ACCACCTCAG TTCCGGACGG ACTCCTTACA GCAAGAGCCG GCAGCGGCAG
    GGTATCATCA GTCGTGTCAC AGATGCTGTC AAGAGCATTG TTCCTGGATG GTTGCAGAAT
    TATTTTAATA AACAAGAAGA AGAACGCGGT AGAGCACATA ATGCAAGTGA ACTGATTGTG
    GAGGATACTG AGGGTAGACA AAATAACACT GAACACCATA TATATGTTGA TGATGAAGGA
    AACTCTGCAA GTGGCAGAGT CACACCTGAA CCAATAATTA ATGTTGATGA AGAAGTTCCG
    TCCACTAGTC AGTCGGCAAT AAATGACACA GATGCCCTTA CTAGACCATC ATTGCATCGG
    GCTAATCTAA ACTTCAACCT ATTTGATTCT CCGGCCATGA ACTGCCAGCC CACAACTTCT
    ACATTTCCTA TTGGCACCTC TGGCTTCTCC CTTGTTAAAG AGATTAAGGA CTCTACCTCT
    CAACATGATG ATGATAACAT TTCCACCACC AGTGGTTTTT CTTCTCGAGC ATCTGATAAG
    GATATGGCAG TTTCCAAAAA TGTCGGTGTG CCACCTCTTT GGTCTCCTGA AGTTGATCGC
    TCACAGTCTT TGTCACATAA CTCCTCCATG ACCTCCAAAA AACCAACTTT TAATTTGTCT
    GCTTTCAGTT CTCTGTCACC ATCTCTTGGA AACGCCTCTT TCGTAAACAG TCAGCTTGGG
    GATTCTCCTT TTTATCCTGG TAAAACAACA TACCAAGGAG CAGCTGCAGT CCGTTCCTCT
    CGTGTGCGCT CTAACCCATA TCAAGCACCT TTACGAAGAC AGGTGAAGGC AAAACCAGCA
    AACGCTCAGC AGTATGGGGT TACCAGCTCC ACTGCTCGTC GCATTCTACA GTCTTTGGAG
    AAGATGTCTA GCCCTTTGGC GGATGCCAAA AGGATTCCAT CAAACTCTTT ATCACATACA
    CCAGAAAAGA GCCTCATGGA TATTGCAGAA AACCCATCAA AAAGGAAAAA AGTGGAGTCT
    CCATTTCCCC CTGTTCAGAA ACTTGTGACT CCAAAATCAA TTTCTGTCTC TACAAACCGT
    TCCCTGTATA TCAAGCCTTC ACTGACACCA TCTGCTGTAT CAAATACAAG CAGTCGCAGA
    GTACAGCCAG ACAAGCACAA TGAGTCCAGA GAGAATAATG TTCAGACTGT GCAATCAACA
    TCTCACAGCT TCTCTTACCC AAAGTTCAGC ACTCCGACAT CCAATGAATT GCTATCAAGA
    GGTGGTGGCA AAATGATGAG GCAGAAAGGC TCTCATTATT CAACAAAGCC AGCTGAGGAG
    ACAAGTGGAT TAACCAGCAG CAGCCCATTG TTCACATTTT CATCCCCTAT TGTGAAATCA
    ACTGAATCAA ATGCTCAGTC TCCTGGCTCA TCTGTTGATT TTACATTCAG TGTACCAACA
    GTCAAAGTGT CTTCTGCAAC AACATCTATA GATAGCAAGG TGTCTGCTGT AAGTACCACA
    GCTAAAACGC ATATTGCTGT GAATAACAGC AGTGCAAAGG ACTCTGATGA ACAAGTGGGA
    TTTTGTAAAC CTGCAAAAAC TTTGAAGGAA GGAAGTGTGT TAGATATCCT GAGAAGTCCA
    GGGTTTTCAT CGTCACCTTC CCAACAGACT TCAGCATCCA CTCCCAACAG AAGCACATCA
    ACTTTCTCAA AGACTGTGGG AAATGCCTTC TCCCCTGTAA AGGTCACCTT AGGAGTAGGA
    GGCAAGCAAG CTTTGGGACT GTGGCAATGC AGTGCATGCT GTCATGAGAA TATGGCATCT
    GACAGCAACT GTACTGCTTG CTGTGCTGCA AAACCCCAGC CTGCTGAAAC CAACAAGAAA
    CTGCCTGCTT CACCACAACA TAGCAATACA AAAACCACCG TTCCCCTTTC TAGTGTACAA
    GGACTAGGAG ACAAATTTAA ACTGCCTGCA GGCACGTGGG ATTGTGACAC TTGTTTAGTA
    CAGAACAAAG CAGAGGTAAC AAAGTGTGTT GCTTGTGAAA CCCCCAAACC TGGCACTGGC
    ATGAAAGCTA ACTTGTTGTT ACCTCCTGCT ACAAAGGCGC TAAATTCTGC TCCAACTCCT
    TCTGCTTTTG TATCTTCTTC TGGAAGCATT ACAAATGAAG AAAAGCCTGA AGGATCTTGG
    GATTGCACAG GTTGTCGTAT GCAGAATAAA ACTGAGAATA ATACATGTGT GGCCTGCAAA
    GCAGATAAGC CAGGAGCCAT CAAGAGCTTA TCTACAGCTG CACCATCAGG GCTGCTGGGA
    TTGTTAGATC ACTTTAAGAA ACCAGCAGGG AGCTGGGATT GTGATGTCTG CTTAATACAG
    AACAAACCAG AAGCCACCAA ATGTGTTGCA TGTGAAAGTG CCAAGCCAGG CACCAAACCA
    GAACTGAAAG GTACTTTCGG AACAGTGCAA ACTTCAGCTG CACCCGTTTC TTTAGGGCTG
    GGATTGCTAG ATCAGTTTAA GAAGTCGGCA GGAAGCTGGG ATTGTGAAGT CTGTCTGGTA
    GAAAACAAAC CAGAAGCCAA CAAATGTATT GCCTGTGAGA GTGCAAAGCC AGGCACCAAA
    GCAGAGTTAA AAGGTTTTGG AACATCAACC TTATCAGCTG GAACCACAGC TCCAACCTTC
    AAGTTTGGTG TGCAACCCTC GGATAGCGCA GGGGAGTTGA AATCAGGTGC CTCTACAGAC
    TCTACAAGTG GCTTTTCTTT TGCCAAACCT ATAGGGGATT TTAAATTTGG TTTAGCATCT
    GCCTCCGCAA CAACAGAAGA AACTGGCAAG AAAAGCTTTA CATTTGGCAC TTCTACCAGC
    AATCAAGCTT CAGCAGGTTT TAAGTTTGGC GTTGCCAGCT CTGCTCAGAC AAACCAAGAC
    ACCAGTGGTG GTTTCACATT CGGCTCTGTA TCCAGCACTG TTTCTTTTTC TCCTGCTGCA
    ACTTATTCAG GGAGTACAGG CTTGCAGGTG CCGGCTGCAG ATGACGATTC CAGCCGTGCA
    TCAGCAGCTG GCTTAAAATC TGCAGAAGAA AAAAAGCCTG AAGCACCTGC CGTGACAGCT
    TTTTCTTTTG GGAAAACAGA TCAAAATAAA GAGACTGTAT CCACATCGTT TATCTTTGGA
    AAGAAAGATG AAAAGACTGA CTCTGCTCCA ACTGGAAACT CGTTTGGTTT TGGGTTAAAA
    AAGGATGGGG AGGAGCCTAA GCAGTTTCTG TTTGGAAAAC CTGAGCCAAC CAAAGAAGAT
    AGTACTAGTA GTACAGCATC TGCTGGTTTT GCTTTTAGAG TGTCTAATCC CACCGAGAAA
    AAGGATGTTG AACAGCCTGT GAAGTCAGTT TTTGCCTTTG GGTCTCAAAC TTCCACAACA
    GATGCTGGAG CTTCCAAGCA GCCTTTCAGT TTCCTGACCG GTGTCTCCTC CACTTCAGCT
    TCATCAAGCG CTTCTGGTGT CTCTAGCAGT GTGTTTGGCA GTGTGGCTCA GTCCAGCACT
    CCTGCAAACC CTAGTAATGT GTTCGGTAGT GCTACTTCAT CAAATCCTCC TGCCGTGTCT
    AGTGGTGTAT TTGGAAACCT TAATCCATCA AATGCCCCTG CAAGTTCTAG CACTTTGTTT
    GGTAATGTTG CTCCTTCAAG TACTCCCTCG GGCTCCAGTA GTTTGTTTGG CACTGCTAAC
    CCATCAAGTA CTCCTGCCAG TTCCAGTAGC TTGTTTGGCA CTGCAGCCAA ACTGAGTGCT
    CCTGTGGGCT CTGGTGGGGT GTTCAACAGT GCGGCCCCTG TGCCCCCAGC ATCAACTTCA
    AGTAGTGTGT TTGGAAGTGC GGCTCCAGCA AACACTTCTG CAAATTCTGC AAACATATTT
    GGAAGCGCTG GTGGAACCTC TGGTGCTCCT GGGACTTTTG TGTTTGGACA GCCAGCTAGC
    ACTACTAGCA CTGTTTTTGG GAATTCAAGT GAATCCAAGT CAACATTTGC TTTCTCTGGT
    CAGGAGACTA AACCAGTGAC CTCTGCAATT ACTTCTGCTA CTCCATTTGT ATTTGGAGCA
    GAGTCTGCCA GTACTACCCC AGCAGCTCCA GGTTTTAACT TTGGACGAAC AAACACCTCA
    AACGTGACAG GCACTAGTTC TTCTCCGTTT ATCTTTGGTG GTGGCCCAAC TGCCTCAGCT
    TCACCGAGCC TGACTGCTCA TGCTAATCCA GTGCCGGCAT TTGGGCAAAG TGCTAACTCA
    TCTACTGCTC CGGCTTTTGG GTCTTCAACT TCAGTGTTTC CAGCTGGTAA TTCTCAGCAA
    GTGCCAGCCT TTGGTTCTAG TACTGCACAG CCCCCTGTGT TTGGGCAGCA AGCTGCTCAG
    CCTTCTTTTG GATCATCTGC TGCACCCAGT GCTGGATCTG GCTTCCAGTT TGGCAACAAC
    ACAAACTTCA ACTTTACCAC CCCAAATTCG TCAGGTGGAG TGTTCACTTT TGGTGCAAAT
    GCTGGATCCA CCCCCCAGCC ACCTGCCCCA GGCTTTATGT TTAATGCAGC TGCTTCAGGT
    TTTAACGTGG GAACGAACGG CAGGAGTACT CCAGCATCTT CTATTTCGAA TCGCAAGATA
    AAGACCGCCA GAAGACGAAA ATAA

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

    RefSeq NP_001265678.1
    CDS220..4863
    Translation

    Target ORF information:

    RefSeq Version NM_001278749.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis nucleoporin 153kDa (nup153), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001278749.1

    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
    ATGGCGGCGG CCGGAGGAGG CGGAGGGGCA GGTGAATCGG GAACCGGGGG CAAAATACGG 
    AGTAGAAGAT ACCACCTCAG TTCCGGACGG ACTCCTTACA GCAAGAGCCG GCAGCGGCAG
    GGTATCATCA GTCGTGTCAC AGATGCTGTC AAGAGCATTG TTCCTGGATG GTTGCAGAAT
    TATTTTAATA AACAAGAAGA AGAACGCGGT AGAGCACATA ATGCAAGTGA ACTGATTGTG
    GAGGATACTG AGGGTAGACA AAATAACACT GAACACCATA TATATGTTGA TGATGAAGGA
    AACTCTGCAA GTGGCAGAGT CACACCTGAA CCAATAATTA ATGTTGATGA AGAAGTTCCG
    TCCACTAGTC AGTCGGCAAT AAATGACACA GATGCCCTTA CTAGACCATC ATTGCATCGG
    GCTAATCTAA ACTTCAACCT ATTTGATTCT CCGGCCATGA ACTGCCAGCC CACAACTTCT
    ACATTTCCTA TTGGCACCTC TGGCTTCTCC CTTGTTAAAG AGATTAAGGA CTCTACCTCT
    CAACATGATG ATGATAACAT TTCCACCACC AGTGGTTTTT CTTCTCGAGC ATCTGATAAG
    GATATGGCAG TTTCCAAAAA TGTCGGTGTG CCACCTCTTT GGTCTCCTGA AGTTGATCGC
    TCACAGTCTT TGTCACATAA CTCCTCCATG ACCTCCAAAA AACCAACTTT TAATTTGTCT
    GCTTTCAGTT CTCTGTCACC ATCTCTTGGA AACGCCTCTT TCGTAAACAG TCAGCTTGGG
    GATTCTCCTT TTTATCCTGG TAAAACAACA TACCAAGGAG CAGCTGCAGT CCGTTCCTCT
    CGTGTGCGCT CTAACCCATA TCAAGCACCT TTACGAAGAC AGGTGAAGGC AAAACCAGCA
    AACGCTCAGC AGTATGGGGT TACCAGCTCC ACTGCTCGTC GCATTCTACA GTCTTTGGAG
    AAGATGTCTA GCCCTTTGGC GGATGCCAAA AGGATTCCAT CAAACTCTTT ATCACATACA
    CCAGAAAAGA GCCTCATGGA TATTGCAGAA AACCCATCAA AAAGGAAAAA AGTGGAGTCT
    CCATTTCCCC CTGTTCAGAA ACTTGTGACT CCAAAATCAA TTTCTGTCTC TACAAACCGT
    TCCCTGTATA TCAAGCCTTC ACTGACACCA TCTGCTGTAT CAAATACAAG CAGTCGCAGA
    GTACAGCCAG ACAAGCACAA TGAGTCCAGA GAGAATAATG TTCAGACTGT GCAATCAACA
    TCTCACAGCT TCTCTTACCC AAAGTTCAGC ACTCCGACAT CCAATGAATT GCTATCAAGA
    GGTGGTGGCA AAATGATGAG GCAGAAAGGC TCTCATTATT CAACAAAGCC AGCTGAGGAG
    ACAAGTGGAT TAACCAGCAG CAGCCCATTG TTCACATTTT CATCCCCTAT TGTGAAATCA
    ACTGAATCAA ATGCTCAGTC TCCTGGCTCA TCTGTTGATT TTACATTCAG TGTACCAACA
    GTCAAAGTGT CTTCTGCAAC AACATCTATA GATAGCAAGG TGTCTGCTGT AAGTACCACA
    GCTAAAACGC ATATTGCTGT GAATAACAGC AGTGCAAAGG ACTCTGATGA ACAAGTGGGA
    TTTTGTAAAC CTGCAAAAAC TTTGAAGGAA GGAAGTGTGT TAGATATCCT GAGAAGTCCA
    GGGTTTTCAT CGTCACCTTC CCAACAGACT TCAGCATCCA CTCCCAACAG AAGCACATCA
    ACTTTCTCAA AGACTGTGGG AAATGCCTTC TCCCCTGTAA AGGTCACCTT AGGAGTAGGA
    GGCAAGCAAG CTTTGGGACT GTGGCAATGC AGTGCATGCT GTCATGAGAA TATGGCATCT
    GACAGCAACT GTACTGCTTG CTGTGCTGCA AAACCCCAGC CTGCTGAAAC CAACAAGAAA
    CTGCCTGCTT CACCACAACA TAGCAATACA AAAACCACCG TTCCCCTTTC TAGTGTACAA
    GGACTAGGAG ACAAATTTAA ACTGCCTGCA GGCACGTGGG ATTGTGACAC TTGTTTAGTA
    CAGAACAAAG CAGAGGTAAC AAAGTGTGTT GCTTGTGAAA CCCCCAAACC TGGCACTGGC
    ATGAAAGCTA ACTTGTTGTT ACCTCCTGCT ACAAAGGCGC TAAATTCTGC TCCAACTCCT
    TCTGCTTTTG TATCTTCTTC TGGAAGCATT ACAAATGAAG AAAAGCCTGA AGGATCTTGG
    GATTGCACAG GTTGTCGTAT GCAGAATAAA ACTGAGAATA ATACATGTGT GGCCTGCAAA
    GCAGATAAGC CAGGAGCCAT CAAGAGCTTA TCTACAGCTG CACCATCAGG GCTGCTGGGA
    TTGTTAGATC ACTTTAAGAA ACCAGCAGGG AGCTGGGATT GTGATGTCTG CTTAATACAG
    AACAAACCAG AAGCCACCAA ATGTGTTGCA TGTGAAAGTG CCAAGCCAGG CACCAAACCA
    GAACTGAAAG GTACTTTCGG AACAGTGCAA ACTTCAGCTG CACCCGTTTC TTTAGGGCTG
    GGATTGCTAG ATCAGTTTAA GAAGTCGGCA GGAAGCTGGG ATTGTGAAGT CTGTCTGGTA
    GAAAACAAAC CAGAAGCCAA CAAATGTATT GCCTGTGAGA GTGCAAAGCC AGGCACCAAA
    GCAGAGTTAA AAGGTTTTGG AACATCAACC TTATCAGCTG GAACCACAGC TCCAACCTTC
    AAGTTTGGTG TGCAACCCTC GGATAGCGCA GGGGAGTTGA AATCAGGTGC CTCTACAGAC
    TCTACAAGTG GCTTTTCTTT TGCCAAACCT ATAGGGGATT TTAAATTTGG TTTAGCATCT
    GCCTCCGCAA CAACAGAAGA AACTGGCAAG AAAAGCTTTA CATTTGGCAC TTCTACCAGC
    AATCAAGCTT CAGCAGGTTT TAAGTTTGGC GTTGCCAGCT CTGCTCAGAC AAACCAAGAC
    ACCAGTGGTG GTTTCACATT CGGCTCTGTA TCCAGCACTG TTTCTTTTTC TCCTGCTGCA
    ACTTATTCAG GGAGTACAGG CTTGCAGGTG CCGGCTGCAG ATGACGATTC CAGCCGTGCA
    TCAGCAGCTG GCTTAAAATC TGCAGAAGAA AAAAAGCCTG AAGCACCTGC CGTGACAGCT
    TTTTCTTTTG GGAAAACAGA TCAAAATAAA GAGACTGTAT CCACATCGTT TATCTTTGGA
    AAGAAAGATG AAAAGACTGA CTCTGCTCCA ACTGGAAACT CGTTTGGTTT TGGGTTAAAA
    AAGGATGGGG AGGAGCCTAA GCAGTTTCTG TTTGGAAAAC CTGAGCCAAC CAAAGAAGAT
    AGTACTAGTA GTACAGCATC TGCTGGTTTT GCTTTTAGAG TGTCTAATCC CACCGAGAAA
    AAGGATGTTG AACAGCCTGT GAAGTCAGTT TTTGCCTTTG GGTCTCAAAC TTCCACAACA
    GATGCTGGAG CTTCCAAGCA GCCTTTCAGT TTCCTGACCG GTGTCTCCTC CACTTCAGCT
    TCATCAAGCG CTTCTGGTGT CTCTAGCAGT GTGTTTGGCA GTGTGGCTCA GTCCAGCACT
    CCTGCAAACC CTAGTAATGT GTTCGGTAGT GCTACTTCAT CAAATCCTCC TGCCGTGTCT
    AGTGGTGTAT TTGGAAACCT TAATCCATCA AATGCCCCTG CAAGTTCTAG CACTTTGTTT
    GGTAATGTTG CTCCTTCAAG TACTCCCTCG GGCTCCAGTA GTTTGTTTGG CACTGCTAAC
    CCATCAAGTA CTCCTGCCAG TTCCAGTAGC TTGTTTGGCA CTGCAGCCAA ACTGAGTGCT
    CCTGTGGGCT CTGGTGGGGT GTTCAACAGT GCGGCCCCTG TGCCCCCAGC ATCAACTTCA
    AGTAGTGTGT TTGGAAGTGC GGCTCCAGCA AACACTTCTG CAAATTCTGC AAACATATTT
    GGAAGCGCTG GTGGAACCTC TGGTGCTCCT GGGACTTTTG TGTTTGGACA GCCAGCTAGC
    ACTACTAGCA CTGTTTTTGG GAATTCAAGT GAATCCAAGT CAACATTTGC TTTCTCTGGT
    CAGGAGACTA AACCAGTGAC CTCTGCAATT ACTTCTGCTA CTCCATTTGT ATTTGGAGCA
    GAGTCTGCCA GTACTACCCC AGCAGCTCCA GGTTTTAACT TTGGACGAAC AAACACCTCA
    AACGTGACAG GCACTAGTTC TTCTCCGTTT ATCTTTGGTG GTGGCCCAAC TGCCTCAGCT
    TCACCGAGCC TGACTGCTCA TGCTAATCCA GTGCCGGCAT TTGGGCAAAG TGCTAACTCA
    TCTACTGCTC CGGCTTTTGG GTCTTCAACT TCAGTGTTTC CAGCTGGTAA TTCTCAGCAA
    GTGCCAGCCT TTGGTTCTAG TACTGCACAG CCCCCTGTGT TTGGGCAGCA AGCTGCTCAG
    CCTTCTTTTG GATCATCTGC TGCACCCAGT GCTGGATCTG GCTTCCAGTT TGGCAACAAC
    ACAAACTTCA ACTTTACCAC CCCAAATTCG TCAGGTGGAG TGTTCACTTT TGGTGCAAAT
    GCTGGATCCA CCCCCCAGCC ACCTGCCCCA GGCTTTATGT TTAATGCAGC TGCTTCAGGT
    TTTAACGTGG GAACGAACGG CAGGAGTACT CCAGCATCTT CTATTTCGAA TCGCAAGATA
    AAGACCGCCA GAAGACGAAA ATAA

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

    CloneID OXa44877
    Clone ID Related Accession (Same CDS sequence) XM_018094578.1
    Accession Version XM_018094578.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4608bp)
    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 nuclear pore complex protein Nup153 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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##

    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
    ATGGCGGCGG CCGGAGGAGG CGGAGGGGCA GGTGAATCGG GAACCGGGGG CAAAATACGG 
    AGTAGAAGAT ACCACCTCAG TTCCGGACGG ACTCCTTACA GCAAGAGCCG GCAGCGGCAG
    GGTATCATCA GTCGTGTCAC AGATGCTGTC AAGAGCATTG TTCCTGGATG GTTGCAGAAT
    TATTTTAATA AACAAGAAGA AGAACGCGGT AGAGCACATA ATGCAAGTGA ACTGATTGTG
    GAGGATACTG AGGGTAGACA AAATAACACT GAACACCATA TATATGTTGA TGATGAAGGA
    AACTCTGCAA GTGGCAGAGT CACACCTGAA CCAATAATTA ATGTTGATGA AGAAGTTCCG
    TCCACTAGTC AGTCGGCAAT AAATGACACA GATGCCCTTA CTAGACCATC ATTGCATCGG
    GCTAATCTAA ACTTCAACCT ATTTGATTCT CCGGCCATGA ACTGCCAGCC CACAACTTCT
    ACATTTCCTA TTGGCACCTC TGGCTTCTCC CTTGTTAAAG AGATTAAGGA CTCTACCTCT
    CAACATGATG ATGATAACAT TTCCACCACC AGTGGTTTTT CTTCTCGAGC ATCTGATAAG
    GATATGGCAG TTTCCAAAAA TGTCGGTGTG CCACCTCTTT GGTCTCCTGA AGTTGATCGC
    TCACAGTCTT TGTCACATAA CTCCTCCATG ACCTCCAAAA AACCAACTTT TAATTTGTCT
    GCTTTCAGTT CTCTGTCACC ATCTCTTGGA AACGCCTCTT TCGTAAACAG TCAGCTTGGG
    GATTCTCCTT TTTATCCTGG TAAAACAACA TACCAAGGAG CAGCTGCAGT CCGTTCCTCT
    CGTGTGCGCT CTAACCCATA TCAAGCACCT TTACGAAGAC AGGTGAAGGC AAAACCAGCA
    AACGCTCAGC AGTATGGGGT TACCAGCTCC ACTGCTCGTC GCATTCTACA GTCTTTGGAG
    AAGATGTCTA GCCCTTTGGC GACACCAGAA AAGAGCCTCA TGGATATTGC AGAAAACCCA
    TCAAAAAGGA AAAAAGTGGA GTCTCCATTT CCCCCTGTTC AGAAACTTGT GACTCCAAAA
    TCAATTTCTG TCTCTACAAA CCGTTCCCTG TATATCAAGC CTTCACTGAC ACCATCTGCT
    GTATCAAATA CAAGCAGTCG CAGAGTACAG CCAGACAAGC ACAATGAGTC CAGAGAGAAT
    AATGTTCAGA CTGTGCAATC AACATCTCAC AGCTTCTCTT ACCCAAAGTT CAGCACTCCG
    ACATCCAATG AATTGCTATC AAGAGGTGGT GGCAAAATGA TGAGGCAGAA AGGCTCTCAT
    TATTCAACAA AGCCAGCTGA GGAGACAAGT GGATTAACCA GCAGCAGCCC ATTGTTCACA
    TTTTCATCCC CTATTGTGAA ATCAACTGAA TCAAATGCTC AGTCTCCTGG CTCATCTGTT
    GATTTTACAT TCAGTGTACC AACAGTCAAA GTGTCTTCTG CAACAACATC TATAGATAGC
    AAGGTGTCTG CTGTAAGTAC CACAGCTAAA ACGCATATTG CTGTGAATAA CAGCAGTGCA
    AAGGACTCTG ATGAACAAGT GGGATTTTGT AAACCTGCAA AAACTTTGAA GGAAGGAAGT
    GTGTTAGATA TCCTGAGAAG TCCAGGGTTT TCATCGTCAC CTTCCCAACA GACTTCAGCA
    TCCACTCCCA ACAGAAGCAC ATCAACTTTC TCAAAGACTG TGGGAAATGC CTTCTCCCCT
    GTAAAGGTCA CCTTAGGAGT AGGAGGCAAG CAAGCTTTGG GACTGTGGCA ATGCAGTGCA
    TGCTGTCATG AGAATATGGC ATCTGACAGC AACTGTACTG CTTGCTGTGC TGCAAAACCC
    CAGCCTGCTG AAACCAACAA GAAACTGCCT GCTTCACCAC AACATAGCAA TACAAAAACC
    ACCGTTCCCC TTTCTAGTGT ACAAGGACTA GGAGACAAAT TTAAACTGCC TGCAGGCACG
    TGGGATTGTG ACACTTGTTT AGTACAGAAC AAAGCAGAGG TAACAAAGTG TGTTGCTTGT
    GAAACCCCCA AACCTGGCAC TGGCATGAAA GCTAACTTGT TGTTACCTCC TGCTACAAAG
    GCGCTAAATT CTGCTCCAAC TCCTTCTGCT TTTGTATCTT CTTCTGGAAG CATTACAAAT
    GAAGAAAAGC CTGAAGGATC TTGGGATTGC ACAGGTTGTC GTATGCAGAA TAAAACTGAG
    AATAATACAT GTGTGGCCTG CAAAGCAGAT AAGCCAGGAG CCATCAAGAG CTTATCTACA
    GCTGCACCAT CAGGGCTGCT GGGATTGTTA GATCACTTTA AGAAACCAGC AGGGAGCTGG
    GATTGTGATG TCTGCTTAAT ACAGAACAAA CCAGAAGCCA CCAAATGTGT TGCATGTGAA
    AGTGCCAAGC CAGGCACCAA ACCAGAACTG AAAGGTACTT TCGGAACAGT GCAAACTTCA
    GCTGCACCCG TTTCTTTAGG GCTGGGATTG CTAGATCAGT TTAAGAAGTC GGCAGGAAGC
    TGGGATTGTG AAGTCTGTCT GGTAGAAAAC AAACCAGAAG CCAACAAATG TATTGCCTGT
    GAGAGTGCAA AGCCAGGCAC CAAAGCAGAG TTAAAAGGTT TTGGAACATC AACCTTATCA
    GCTGGAACCA CAGCTCCAAC CTTCAAGTTT GGTGTGCAAC CCTCGGATAG CGCAGGGGAG
    TTGAAATCAG GTGCCTCTAC AGACTCTACA AGTGGCTTTT CTTTTGCCAA ACCTATAGGG
    GATTTTAAAT TTGGTTTAGC ATCTGCCTCC GCAACAACAG AAGAAACTGG CAAGAAAAGC
    TTTACATTTG GCACTTCTAC CAGCAATCAA GCTTCAGCAG GTTTTAAGTT TGGCGTTGCC
    AGCTCTGCTC AGACAAACCA AGACACCAGT GGTGGTTTCA CATTCGGCTC TGTATCCAGC
    ACTGTTTCTT TTTCTCCTGC TGCAACTTAT TCAGGGAGTA CAGGCTTGCA GGTGCCGGCT
    GCAGATGACG ATTCCAGCCG TGCATCAGCA GCTGGCTTAA AATCTGCAGA AGAAAAAAAG
    CCTGAAGCAC CTGCCGTGAC AGCTTTTTCT TTTGGGAAAA CAGATCAAAA TAAAGAGACT
    GTATCCACAT CGTTTATCTT TGGAAAGAAA GATGAAAAGA CTGACTCTGC TCCAACTGGA
    AACTCGTTTG GTTTTGGGTT AAAAAAGGAT GGGGAGGAGC CTAAGCAGTT TCTGTTTGGA
    AAACCTGAGC CAACCAAAGA AGATAGTACT AGTAGTACAG CATCTGCTGG TTTTGCTTTT
    AGAGTGTCTA ATCCCACCGA GAAAAAGGAT GTTGAACAGC CTGTGAAGTC AGTTTTTGCC
    TTTGGGTCTC AAACTTCCAC AACAGATGCT GGAGCTTCCA AGCAGCCTTT CAGTTTCCTG
    ACCGGTGTCT CCTCCACTTC AGCTTCATCA AGCGCTTCTG GTGTCTCTAG CAGTGTGTTT
    GGCAGTGTGG CTCAGTCCAG CACTCCTGCA AACCCTAGTA ATGTGTTCGG TAGTGCTACT
    TCATCAAATC CTCCTGCCGT GTCTAGTGGT GTATTTGGAA ACCTTAATCC ATCAAATGCC
    CCTGCAAGTT CTAGCACTTT GTTTGGTAAT GTTGCTCCTT CAAGTACTCC CTCGGGCTCC
    AGTAGTTTGT TTGGCACTGC TAACCCATCA AGTACTCCTG CCAGTTCCAG TAGCTTGTTT
    GGCACTGCAG CCAAACTGAG TGCTCCTGTG GGCTCTGGTG GGGTGTTCAA CAGTGCGGCC
    CCTGTGCCCC CAGCATCAAC TTCAAGTAGT GTGTTTGGAA GTGCGGCTCC AGCAAACACT
    TCTGCAAATT CTGCAAACAT ATTTGGAAGC GCTGGTGGAA CCTCTGGTGC TCCTGGGACT
    TTTGTGTTTG GACAGCCAGC TAGCACTACT AGCACTGTTT TTGGGAATTC AAGTGAATCC
    AAGTCAACAT TTGCTTTCTC TGGTCAGGAG ACTAAACCAG TGACCTCTGC AATTACTTCT
    GCTACTCCAT TTGTATTTGG AGCAGAGTCT GCCAGTACTA CCCCAGCAGC TCCAGGTTTT
    AACTTTGGAC GAACAAACAC CTCAAACGTG ACAGGCACTA GTTCTTCTCC GTTTATCTTT
    GGTGGTGGCC CAACTGCCTC AGCTTCACCG AGCCTGACTG CTCATGCTAA TCCAGTGCCG
    GCATTTGGGC AAAGTGCTAA CTCATCTACT GCTCCGGCTT TTGGGTCTTC AACTTCAGTG
    TTTCCAGCTG GTAATTCTCA GCAAGTGCCA GCCTTTGGTT CTAGTACTGC ACAGCCCCCT
    GTGTTTGGGC AGCAAGCTGC TCAGCCTTCT TTTGGATCAT CTGCTGCACC CAGTGCTGGA
    TCTGGCTTCC AGTTTGGCAA CAACACAAAC TTCAACTTTA CCACCCCAAA TTCGTCAGGT
    GGAGTGTTCA CTTTTGGTGC AAATGCTGGA TCCACCCCCC AGCCACCTGC CCCAGGCTTT
    ATGTTTAATG CAGCTGCTTC AGGTTTTAAC GTGGGAACGA ACGGCAGGAG TACTCCAGCA
    TCTTCTATTT CGAATCGCAA GATAAAGACC GCCAGAAGAC GAAAATAA

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

    RefSeq XP_017950067.1
    CDS615..5222
    Translation

    Target ORF information:

    RefSeq Version XM_018094578.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis nucleoporin 153kDa (nup153), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018094578.1

    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
    ATGGCGGCGG CCGGAGGAGG CGGAGGGGCA GGTGAATCGG GAACCGGGGG CAAAATACGG 
    AGTAGAAGAT ACCACCTCAG TTCCGGACGG ACTCCTTACA GCAAGAGCCG GCAGCGGCAG
    GGTATCATCA GTCGTGTCAC AGATGCTGTC AAGAGCATTG TTCCTGGATG GTTGCAGAAT
    TATTTTAATA AACAAGAAGA AGAACGCGGT AGAGCACATA ATGCAAGTGA ACTGATTGTG
    GAGGATACTG AGGGTAGACA AAATAACACT GAACACCATA TATATGTTGA TGATGAAGGA
    AACTCTGCAA GTGGCAGAGT CACACCTGAA CCAATAATTA ATGTTGATGA AGAAGTTCCG
    TCCACTAGTC AGTCGGCAAT AAATGACACA GATGCCCTTA CTAGACCATC ATTGCATCGG
    GCTAATCTAA ACTTCAACCT ATTTGATTCT CCGGCCATGA ACTGCCAGCC CACAACTTCT
    ACATTTCCTA TTGGCACCTC TGGCTTCTCC CTTGTTAAAG AGATTAAGGA CTCTACCTCT
    CAACATGATG ATGATAACAT TTCCACCACC AGTGGTTTTT CTTCTCGAGC ATCTGATAAG
    GATATGGCAG TTTCCAAAAA TGTCGGTGTG CCACCTCTTT GGTCTCCTGA AGTTGATCGC
    TCACAGTCTT TGTCACATAA CTCCTCCATG ACCTCCAAAA AACCAACTTT TAATTTGTCT
    GCTTTCAGTT CTCTGTCACC ATCTCTTGGA AACGCCTCTT TCGTAAACAG TCAGCTTGGG
    GATTCTCCTT TTTATCCTGG TAAAACAACA TACCAAGGAG CAGCTGCAGT CCGTTCCTCT
    CGTGTGCGCT CTAACCCATA TCAAGCACCT TTACGAAGAC AGGTGAAGGC AAAACCAGCA
    AACGCTCAGC AGTATGGGGT TACCAGCTCC ACTGCTCGTC GCATTCTACA GTCTTTGGAG
    AAGATGTCTA GCCCTTTGGC GACACCAGAA AAGAGCCTCA TGGATATTGC AGAAAACCCA
    TCAAAAAGGA AAAAAGTGGA GTCTCCATTT CCCCCTGTTC AGAAACTTGT GACTCCAAAA
    TCAATTTCTG TCTCTACAAA CCGTTCCCTG TATATCAAGC CTTCACTGAC ACCATCTGCT
    GTATCAAATA CAAGCAGTCG CAGAGTACAG CCAGACAAGC ACAATGAGTC CAGAGAGAAT
    AATGTTCAGA CTGTGCAATC AACATCTCAC AGCTTCTCTT ACCCAAAGTT CAGCACTCCG
    ACATCCAATG AATTGCTATC AAGAGGTGGT GGCAAAATGA TGAGGCAGAA AGGCTCTCAT
    TATTCAACAA AGCCAGCTGA GGAGACAAGT GGATTAACCA GCAGCAGCCC ATTGTTCACA
    TTTTCATCCC CTATTGTGAA ATCAACTGAA TCAAATGCTC AGTCTCCTGG CTCATCTGTT
    GATTTTACAT TCAGTGTACC AACAGTCAAA GTGTCTTCTG CAACAACATC TATAGATAGC
    AAGGTGTCTG CTGTAAGTAC CACAGCTAAA ACGCATATTG CTGTGAATAA CAGCAGTGCA
    AAGGACTCTG ATGAACAAGT GGGATTTTGT AAACCTGCAA AAACTTTGAA GGAAGGAAGT
    GTGTTAGATA TCCTGAGAAG TCCAGGGTTT TCATCGTCAC CTTCCCAACA GACTTCAGCA
    TCCACTCCCA ACAGAAGCAC ATCAACTTTC TCAAAGACTG TGGGAAATGC CTTCTCCCCT
    GTAAAGGTCA CCTTAGGAGT AGGAGGCAAG CAAGCTTTGG GACTGTGGCA ATGCAGTGCA
    TGCTGTCATG AGAATATGGC ATCTGACAGC AACTGTACTG CTTGCTGTGC TGCAAAACCC
    CAGCCTGCTG AAACCAACAA GAAACTGCCT GCTTCACCAC AACATAGCAA TACAAAAACC
    ACCGTTCCCC TTTCTAGTGT ACAAGGACTA GGAGACAAAT TTAAACTGCC TGCAGGCACG
    TGGGATTGTG ACACTTGTTT AGTACAGAAC AAAGCAGAGG TAACAAAGTG TGTTGCTTGT
    GAAACCCCCA AACCTGGCAC TGGCATGAAA GCTAACTTGT TGTTACCTCC TGCTACAAAG
    GCGCTAAATT CTGCTCCAAC TCCTTCTGCT TTTGTATCTT CTTCTGGAAG CATTACAAAT
    GAAGAAAAGC CTGAAGGATC TTGGGATTGC ACAGGTTGTC GTATGCAGAA TAAAACTGAG
    AATAATACAT GTGTGGCCTG CAAAGCAGAT AAGCCAGGAG CCATCAAGAG CTTATCTACA
    GCTGCACCAT CAGGGCTGCT GGGATTGTTA GATCACTTTA AGAAACCAGC AGGGAGCTGG
    GATTGTGATG TCTGCTTAAT ACAGAACAAA CCAGAAGCCA CCAAATGTGT TGCATGTGAA
    AGTGCCAAGC CAGGCACCAA ACCAGAACTG AAAGGTACTT TCGGAACAGT GCAAACTTCA
    GCTGCACCCG TTTCTTTAGG GCTGGGATTG CTAGATCAGT TTAAGAAGTC GGCAGGAAGC
    TGGGATTGTG AAGTCTGTCT GGTAGAAAAC AAACCAGAAG CCAACAAATG TATTGCCTGT
    GAGAGTGCAA AGCCAGGCAC CAAAGCAGAG TTAAAAGGTT TTGGAACATC AACCTTATCA
    GCTGGAACCA CAGCTCCAAC CTTCAAGTTT GGTGTGCAAC CCTCGGATAG CGCAGGGGAG
    TTGAAATCAG GTGCCTCTAC AGACTCTACA AGTGGCTTTT CTTTTGCCAA ACCTATAGGG
    GATTTTAAAT TTGGTTTAGC ATCTGCCTCC GCAACAACAG AAGAAACTGG CAAGAAAAGC
    TTTACATTTG GCACTTCTAC CAGCAATCAA GCTTCAGCAG GTTTTAAGTT TGGCGTTGCC
    AGCTCTGCTC AGACAAACCA AGACACCAGT GGTGGTTTCA CATTCGGCTC TGTATCCAGC
    ACTGTTTCTT TTTCTCCTGC TGCAACTTAT TCAGGGAGTA CAGGCTTGCA GGTGCCGGCT
    GCAGATGACG ATTCCAGCCG TGCATCAGCA GCTGGCTTAA AATCTGCAGA AGAAAAAAAG
    CCTGAAGCAC CTGCCGTGAC AGCTTTTTCT TTTGGGAAAA CAGATCAAAA TAAAGAGACT
    GTATCCACAT CGTTTATCTT TGGAAAGAAA GATGAAAAGA CTGACTCTGC TCCAACTGGA
    AACTCGTTTG GTTTTGGGTT AAAAAAGGAT GGGGAGGAGC CTAAGCAGTT TCTGTTTGGA
    AAACCTGAGC CAACCAAAGA AGATAGTACT AGTAGTACAG CATCTGCTGG TTTTGCTTTT
    AGAGTGTCTA ATCCCACCGA GAAAAAGGAT GTTGAACAGC CTGTGAAGTC AGTTTTTGCC
    TTTGGGTCTC AAACTTCCAC AACAGATGCT GGAGCTTCCA AGCAGCCTTT CAGTTTCCTG
    ACCGGTGTCT CCTCCACTTC AGCTTCATCA AGCGCTTCTG GTGTCTCTAG CAGTGTGTTT
    GGCAGTGTGG CTCAGTCCAG CACTCCTGCA AACCCTAGTA ATGTGTTCGG TAGTGCTACT
    TCATCAAATC CTCCTGCCGT GTCTAGTGGT GTATTTGGAA ACCTTAATCC ATCAAATGCC
    CCTGCAAGTT CTAGCACTTT GTTTGGTAAT GTTGCTCCTT CAAGTACTCC CTCGGGCTCC
    AGTAGTTTGT TTGGCACTGC TAACCCATCA AGTACTCCTG CCAGTTCCAG TAGCTTGTTT
    GGCACTGCAG CCAAACTGAG TGCTCCTGTG GGCTCTGGTG GGGTGTTCAA CAGTGCGGCC
    CCTGTGCCCC CAGCATCAAC TTCAAGTAGT GTGTTTGGAA GTGCGGCTCC AGCAAACACT
    TCTGCAAATT CTGCAAACAT ATTTGGAAGC GCTGGTGGAA CCTCTGGTGC TCCTGGGACT
    TTTGTGTTTG GACAGCCAGC TAGCACTACT AGCACTGTTT TTGGGAATTC AAGTGAATCC
    AAGTCAACAT TTGCTTTCTC TGGTCAGGAG ACTAAACCAG TGACCTCTGC AATTACTTCT
    GCTACTCCAT TTGTATTTGG AGCAGAGTCT GCCAGTACTA CCCCAGCAGC TCCAGGTTTT
    AACTTTGGAC GAACAAACAC CTCAAACGTG ACAGGCACTA GTTCTTCTCC GTTTATCTTT
    GGTGGTGGCC CAACTGCCTC AGCTTCACCG AGCCTGACTG CTCATGCTAA TCCAGTGCCG
    GCATTTGGGC AAAGTGCTAA CTCATCTACT GCTCCGGCTT TTGGGTCTTC AACTTCAGTG
    TTTCCAGCTG GTAATTCTCA GCAAGTGCCA GCCTTTGGTT CTAGTACTGC ACAGCCCCCT
    GTGTTTGGGC AGCAAGCTGC TCAGCCTTCT TTTGGATCAT CTGCTGCACC CAGTGCTGGA
    TCTGGCTTCC AGTTTGGCAA CAACACAAAC TTCAACTTTA CCACCCCAAA TTCGTCAGGT
    GGAGTGTTCA CTTTTGGTGC AAATGCTGGA TCCACCCCCC AGCCACCTGC CCCAGGCTTT
    ATGTTTAATG CAGCTGCTTC AGGTTTTAAC GTGGGAACGA ACGGCAGGAG TACTCCAGCA
    TCTTCTATTT CGAATCGCAA GATAAAGACC GCCAGAAGAC GAAAATAA

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