NUP188 cDNA ORF clone, Homo sapiens(human)

The following NUP188 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NUP188 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
OHu20110 NM_015354.3
Latest version!
Homo sapiens nucleoporin 188 (NUP188), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
View Old Accession Versions >>
OHu20110 NM_015354.2 Homo sapiens nucleoporin 188 (NUP188), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

  • Reference Sequences (Refseq)
    CloneID OHu20110
    Clone ID Related Accession (Same CDS sequence) NM_015354.3 , NM_015354.2
    Accession Version NM_015354.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5250bp)
    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 2019-08-21
    Organism Homo sapiens(human)
    Product nucleoporin NUP188 homolog
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY094051.1, D79991.1 and AA731883.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_015354.2. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.225471.1, SRR1660809.113796.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000372577.2/ ENSP00000361658.2 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length.

    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
    ATGGCGGCGG CCGCCGGCGG GCCGTGTGTG AGGAGCAGTA GAGAACTGTG GACTATTCTG 
    CTTGGAAGGT CAGCTCTGAG AGAGCTGAGT CAGATTGAGG CAGAACTGAA TAAACATTGG
    CGGCGATTGT TAGAGGGGCT TTCTTACTAC AAACCTCCCA GTCCAAGTTC AGCTGAAAAA
    GTGAAAGCTA ATAAAGATGT AGCTTCACCA TTGAAGGAAC TGGGTTTAAG AATCAGCAAG
    TTTTTGGGTC TTGATGAAGA ACAGAGTGTG CAGTTACTCC AGTGTTACCT GCAAGAGGAC
    TACAGGGGTA CTCGGGACTC AGTAAAGACA GTACTGCAAG ATGAGAGGCA GAGCCAGGCC
    TTAATCCTGA AGATTGCAGA TTATTATTAT GAAGAAAGAA CCTGTATTCT TCGTTGTGTC
    TTACACCTTC TCACTTACTT CCAAGATGAA AGACACCCCT ATAGGGTTGA ATATGCAGAC
    TGTGTTGATA AATTGGAGAA GGAACTAGTT TCAAAATACA GACAGCAGTT CGAAGAGCTT
    TATAAAACTG AAGCACCAAC TTGGGAGACA CATGGAAATC TCATGACAGA GCGCCAAGTG
    TCTCGCTGGT TTGTTCAGTG CCTTCGGGAA CAGTCCATGC TGCTAGAAAT TATTTTCCTT
    TATTATGCAT ACTTTGAGAT GGCACCCAGT GACTTACTTG TATTAACCAA GATGTTTAAA
    GAGCAAGGAT TTGGTAGTAG GCAGACCAAT AGGCACCTGG TGGATGAGAC TATGGATCCT
    TTTGTAGATC GGATTGGCTA CTTCAGTGCC CTCATCCTGG TGGAGGGCAT GGATATCGAG
    TCCTTGCATA AGTGTGCTTT GGATGACAGA AGAGAACTGC ATCAGTTTGC GCAGGATGGG
    CTTATTTGTC AGGATATGGA CTGTTTAATG TTGACCTTTG GGGACATTCC ACATCATGCC
    CCAGTGCTTT TGGCCTGGGC TCTCCTCCGT CACACTCTGA ACCCAGAAGA GACAAGCAGT
    GTGGTCCGGA AGATAGGTGG CACAGCCATC CAGCTGAATG TGTTTCAGTA CTTGACCCGA
    TTGCTCCAGT CCCTTGCCAG TGGGGGAAAT GATTGCACCA CCAGCACTGC ATGCATGTGT
    GTCTATGGAC TGCTCTCTTT CGTTCTGACC TCGTTGGAGC TGCACACCCT GGGCAATCAG
    CAGGATATAA TTGATACAGC ATGTGAAGTA TTGGCCGACC CTTCTCTTCC GGAACTGTTC
    TGGGGAACAG AGCCAACTTC TGGCCTTGGG ATCATTCTGG ACAGTGTGTG TGGAATGTTT
    CCCCACCTTC TCTCCCCACT CCTGCAACTG CTCCGAGCCC TGGTATCAGG GAAGTCCACA
    GCCAAAAAGG TGTATAGCTT CTTGGATAAG ATGTCTTTCT ACAATGAACT TTATAAACAC
    AAGCCTCATG ATGTGATCTC CCATGAAGAT GGAACTCTTT GGCGGAGACA AACACCCAAA
    CTCCTTTATC CCCTTGGGGG TCAAACCAAC CTTCGCATAC CTCAAGGCAC TGTGGGCCAA
    GTAATGTTGG ATGATAGGGC ATACCTGGTA CGCTGGGAAT ACTCCTATAG CAGCTGGACC
    CTCTTTACCT GCGAGATTGA AATGTTGCTT CATGTTGTTT CAACTGCAGA TGTGATTCAG
    CACTGCCAGC GAGTCAAACC CATCATTGAT CTCGTCCATA AGGTCATCAG TACAGACCTG
    TCGATAGCAG ACTGTCTCCT GCCCATCACA TCTCGCATCT ACATGCTGCT GCAGCGGTTA
    ACGACAGTGA TCTCCCCACC TGTGGATGTC ATTGCTTCTT GTGTCAACTG CTTAACTGTT
    TTGGCTGCCC GCAATCCAGC AAAGGTCTGG ACTGATCTTC GTCACACAGG TTTTTTACCA
    TTTGTGGCCC ATCCTGTCTC CAGCCTGAGT CAGATGATTA GTGCGGAAGG GATGAATGCT
    GGAGGGTACG GAAACCTCTT GATGAACAGT GAACAGCCTC AGGGCGAGTA TGGGGTTACT
    ATTGCCTTTC TGCGCTTGAT CACCACCCTT GTCAAGGGGC AACTTGGTAG TACCCAGAGC
    CAAGGACTTG TACCCTGTGT AATGTTTGTG CTGAAGGAGA TGCTTCCCAG CTACCATAAG
    TGGCGCTACA ACTCTCATGG AGTGAGGGAA CAGATTGGTT GCCTGATCTT GGAGCTGATT
    CATGCGATAC TGAACCTGTG CCACGAGACA GACCTGCACA GCAGTCATAC TCCCAGCCTG
    CAGTTTCTCT GCATCTGCAG CCTGGCATAC ACAGAAGCAG GACAGACAGT TATCAATATC
    ATGGGCATTG GCGTGGACAC CATTGACATG GTGATGGCTG CTCAGCCTCG AAGTGATGGG
    GCAGAGGGCC AGGGGCAGGG CCAGCTGCTG ATCAAGACAG TGAAACTGGC ATTCTCCGTC
    ACCAACAATG TTATTCGGCT GAAACCTCCT TCTAATGTGG TGTCCCCCCT GGAACAGGCT
    CTCTCACAAC ATGGTGCTCA TGGAAACAAC CTCATTGCTG TTCTAGCCAA ATACATCTAC
    CACAAACATG ACCCTGCTTT GCCACGTCTT GCCATTCAGC TGCTGAAACG TCTGGCCACG
    GTGGCCCCAA TGTCAGTGTA TGCTTGTCTG GGCAATGATG CGGCTGCCAT TCGTGATGCC
    TTCCTGACCC GATTGCAGAG CAAAATTGAG GACATGCGCA TCAAAGTCAT GATTCTAGAG
    TTCCTCACTG TTGCAGTAGA GACCCAGCCA GGCCTCATCG AACTGTTTCT GAACCTGGAA
    GTTAAGGATG GCAGTGATGG CTCAAAGGAA TTCAGCCTTG GGATGTGGAG CTGTCTCCAT
    GCAGTGCTGG AGCTGATTGA TTCCCAACAG CAAGATCGAT ACTGGTGCCC ACCCCTGCTG
    CATCGTGCCG CCATTGCCTT TTTGCATGCT CTGTGGCAGG ATCGGAGGGA CAGTGCCATG
    CTGGTCCTCC GAACCAAACC CAAGTTTTGG GAAAATTTAA CCAGTCCGCT GTTTGGAACC
    CTTTCTCCTC CCTCTGAAAC ATCAGAGCCC AGCATCCTGG AAACCTGTGC CCTAATCATG
    AAGATAATTT GCTTGGAGAT ATACTATGTA GTAAAGGGTT CATTAGACCA GTCATTAAAG
    GATACACTGA AGAAATTTTC CATCGAGAAA CGCTTTGCCT ACTGGTCAGG GTATGTCAAG
    TCATTGGCAG TTCACGTGGC CGAAACAGAA GGCAGCAGCT GCACCTCCTT GTTAGAGTAC
    CAGATGCTGG TGTCCGCCTG GAGGATGCTT CTCATCATTG CCACCACTCA TGCAGATATA
    ATGCACCTGA CTGACTCTGT GGTGCGTCGC CAGCTCTTTC TTGACGTGCT TGATGGAACC
    AAAGCATTAC TCCTAGTTCC AGCCTCAGTG AACTGCCTTC GCCTTGGCTC CATGAAGTGC
    ACTCTGCTGC TTATCCTCCT CCGGCAGTGG AAGAGAGAGT TAGGTTCTGT GGATGAAATC
    CTTGGACCCT TGACGGAGAT CCTGGAGGGA GTGCTGCAGG CCGACCAGCA ACTCATGGAG
    AAGACCAAGG CCAAGGTGTT CTCAGCATTC ATCACAGTGT TGCAAATGAA GGAGATGAAA
    GTAAGTGACA TCCCCCAGTA CTCCCAGCTG GTGCTGAATG TCTGTGAGAC CCTCCAAGAG
    GAAGTGATTG CACTCTTCGA CCAGACCCGC CACAGTCTGG CATTAGGCAG TGCCACAGAG
    GACAAGGACA GCATGGAGAC TGACGACTGT TCTCGGTCCC GGCACAGGGA CCAGCGTGAT
    GGGGTGTGTG TCCTGGGCCT GCACCTGGCC AAGGAGCTGT GTGAGGTAGA CGAGGATGGT
    GACTCCTGGC TGCAGGTAAC CCGCAGGCTC CCCATCCTAC CCACCCTCCT CACCACTCTA
    GAGGTGAGCC TTCGCATGAA GCAGAACCTG CATTTCACTG AGGCCACATT GCATCTGCTC
    CTCACCCTGG CTCGCACTCA GCAGGGAGCC ACAGCAGTGG CTGGAGCTGG CATCACCCAG
    AGCATTTGTT TGCCCCTTCT GAGTGTGTAC CAGCTGAGCA CCAACGGCAC AGCACAGACA
    CCTAGTGCCT CTCGGAAGTC CCTGGATGCC CCCTCTTGGC CAGGAGTCTA CCGCCTGTCC
    ATGTCCCTGA TGGAGCAGCT GCTCAAAACT CTGCGCTACA ACTTCCTGCC TGAGGCCCTG
    GACTTCGTGG GTGTCCACCA GGAGCGGACC TTACAGTGCC TCAACGCAGT GAGGACAGTG
    CAGAGTCTGG CCTGCCTGGA GGAGGCGGAC CACACCGTGG GTTTTATTCT GCAGCTCTCT
    AACTTCATGA AGGAGTGGCA CTTCCACCTG CCTCAGCTCA TGCGTGATAT CCAGGTCAAC
    CTGGGTTACT TGTGCCAGGC ATGTACCTCT CTCCTGCACA GTCGAAAGAT GCTGCAGCAT
    TACTTACAGA ACAAAAATGG GGATGGCCTC CCCTCAGCTG TTGCCCAGCG AGTCCAGAGG
    CCACCGTCTG CTGCTTCTGC TGCCCCCTCC TCCTCAAAGC AGCCCGCTGC TGACACAGAG
    GCATCAGAGC AGCAGGCCTT GCACACAGTC CAGTATGGCC TTCTCAAGAT CCTCAGCAAG
    ACGCTGGCAG CCCTGCGCCA CTTCACCCCA GATGTCTGCC AGATTCTGCT GGATCAGTCC
    CTGGACCTTG CTGAATACAA CTTCCTGTTT GCCCTGAGCT TTACCACTCC CACCTTTGAC
    TCCGAAGTGG CCCCCTCCTT CGGGACCCTT CTGGCCACAG TGAATGTGGC CCTCAACATG
    CTTGGAGAGC TGGACAAGAA AAAGGAGCCC CTCACCCAGG CAGTGGGGCT CAGCACACAG
    GCAGAAGGGA CCAGGACGTT AAAGTCCCTC CTGATGTTTA CCATGGAAAA CTGCTTCTAC
    CTGCTCATCT CTCAGGCGAT GCGGTACCTT AGGGACCCGG CTGTGCACCC CCGGGACAAA
    CAGCGGATGA AGCAGGAGCT CAGCTCTGAG TTGAGCACGC TGCTGTCCAG CCTCTCGCGC
    TACTTCCGCC GGGGAGCCCC CAGCTCCCCT GCCACTGGTG TCCTCCCCTC GCCGCAGGGC
    AAGTCCACCT CTCTCTCCAA AGCCAGCCCT GAGAGTCAGG AGCCTCTGAT CCAGTTGGTG
    CAGGCGTTTG TCCGGCATAT GCAAAGATAG

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

    RefSeq NP_056169.1
    CDS22..5271
    Translation

    Target ORF information:

    RefSeq Version NM_015354.3
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 188 (NUP188), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015354.3

    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
    ATGGCGGCGG CCGCCGGCGG GCCGTGTGTG AGGAGCAGTA GAGAACTGTG GACTATTCTG 
    CTTGGAAGGT CAGCTCTGAG AGAGCTGAGT CAGATTGAGG CAGAACTGAA TAAACATTGG
    CGGCGATTGT TAGAGGGGCT TTCTTACTAC AAACCTCCCA GTCCAAGTTC AGCTGAAAAA
    GTGAAAGCTA ATAAAGATGT AGCTTCACCA TTGAAGGAAC TGGGTTTAAG AATCAGCAAG
    TTTTTGGGTC TTGATGAAGA ACAGAGTGTG CAGTTACTCC AGTGTTACCT GCAAGAGGAC
    TACAGGGGTA CTCGGGACTC AGTAAAGACA GTACTGCAAG ATGAGAGGCA GAGCCAGGCC
    TTAATCCTGA AGATTGCAGA TTATTATTAT GAAGAAAGAA CCTGTATTCT TCGTTGTGTC
    TTACACCTTC TCACTTACTT CCAAGATGAA AGACACCCCT ATAGGGTTGA ATATGCAGAC
    TGTGTTGATA AATTGGAGAA GGAACTAGTT TCAAAATACA GACAGCAGTT CGAAGAGCTT
    TATAAAACTG AAGCACCAAC TTGGGAGACA CATGGAAATC TCATGACAGA GCGCCAAGTG
    TCTCGCTGGT TTGTTCAGTG CCTTCGGGAA CAGTCCATGC TGCTAGAAAT TATTTTCCTT
    TATTATGCAT ACTTTGAGAT GGCACCCAGT GACTTACTTG TATTAACCAA GATGTTTAAA
    GAGCAAGGAT TTGGTAGTAG GCAGACCAAT AGGCACCTGG TGGATGAGAC TATGGATCCT
    TTTGTAGATC GGATTGGCTA CTTCAGTGCC CTCATCCTGG TGGAGGGCAT GGATATCGAG
    TCCTTGCATA AGTGTGCTTT GGATGACAGA AGAGAACTGC ATCAGTTTGC GCAGGATGGG
    CTTATTTGTC AGGATATGGA CTGTTTAATG TTGACCTTTG GGGACATTCC ACATCATGCC
    CCAGTGCTTT TGGCCTGGGC TCTCCTCCGT CACACTCTGA ACCCAGAAGA GACAAGCAGT
    GTGGTCCGGA AGATAGGTGG CACAGCCATC CAGCTGAATG TGTTTCAGTA CTTGACCCGA
    TTGCTCCAGT CCCTTGCCAG TGGGGGAAAT GATTGCACCA CCAGCACTGC ATGCATGTGT
    GTCTATGGAC TGCTCTCTTT CGTTCTGACC TCGTTGGAGC TGCACACCCT GGGCAATCAG
    CAGGATATAA TTGATACAGC ATGTGAAGTA TTGGCCGACC CTTCTCTTCC GGAACTGTTC
    TGGGGAACAG AGCCAACTTC TGGCCTTGGG ATCATTCTGG ACAGTGTGTG TGGAATGTTT
    CCCCACCTTC TCTCCCCACT CCTGCAACTG CTCCGAGCCC TGGTATCAGG GAAGTCCACA
    GCCAAAAAGG TGTATAGCTT CTTGGATAAG ATGTCTTTCT ACAATGAACT TTATAAACAC
    AAGCCTCATG ATGTGATCTC CCATGAAGAT GGAACTCTTT GGCGGAGACA AACACCCAAA
    CTCCTTTATC CCCTTGGGGG TCAAACCAAC CTTCGCATAC CTCAAGGCAC TGTGGGCCAA
    GTAATGTTGG ATGATAGGGC ATACCTGGTA CGCTGGGAAT ACTCCTATAG CAGCTGGACC
    CTCTTTACCT GCGAGATTGA AATGTTGCTT CATGTTGTTT CAACTGCAGA TGTGATTCAG
    CACTGCCAGC GAGTCAAACC CATCATTGAT CTCGTCCATA AGGTCATCAG TACAGACCTG
    TCGATAGCAG ACTGTCTCCT GCCCATCACA TCTCGCATCT ACATGCTGCT GCAGCGGTTA
    ACGACAGTGA TCTCCCCACC TGTGGATGTC ATTGCTTCTT GTGTCAACTG CTTAACTGTT
    TTGGCTGCCC GCAATCCAGC AAAGGTCTGG ACTGATCTTC GTCACACAGG TTTTTTACCA
    TTTGTGGCCC ATCCTGTCTC CAGCCTGAGT CAGATGATTA GTGCGGAAGG GATGAATGCT
    GGAGGGTACG GAAACCTCTT GATGAACAGT GAACAGCCTC AGGGCGAGTA TGGGGTTACT
    ATTGCCTTTC TGCGCTTGAT CACCACCCTT GTCAAGGGGC AACTTGGTAG TACCCAGAGC
    CAAGGACTTG TACCCTGTGT AATGTTTGTG CTGAAGGAGA TGCTTCCCAG CTACCATAAG
    TGGCGCTACA ACTCTCATGG AGTGAGGGAA CAGATTGGTT GCCTGATCTT GGAGCTGATT
    CATGCGATAC TGAACCTGTG CCACGAGACA GACCTGCACA GCAGTCATAC TCCCAGCCTG
    CAGTTTCTCT GCATCTGCAG CCTGGCATAC ACAGAAGCAG GACAGACAGT TATCAATATC
    ATGGGCATTG GCGTGGACAC CATTGACATG GTGATGGCTG CTCAGCCTCG AAGTGATGGG
    GCAGAGGGCC AGGGGCAGGG CCAGCTGCTG ATCAAGACAG TGAAACTGGC ATTCTCCGTC
    ACCAACAATG TTATTCGGCT GAAACCTCCT TCTAATGTGG TGTCCCCCCT GGAACAGGCT
    CTCTCACAAC ATGGTGCTCA TGGAAACAAC CTCATTGCTG TTCTAGCCAA ATACATCTAC
    CACAAACATG ACCCTGCTTT GCCACGTCTT GCCATTCAGC TGCTGAAACG TCTGGCCACG
    GTGGCCCCAA TGTCAGTGTA TGCTTGTCTG GGCAATGATG CGGCTGCCAT TCGTGATGCC
    TTCCTGACCC GATTGCAGAG CAAAATTGAG GACATGCGCA TCAAAGTCAT GATTCTAGAG
    TTCCTCACTG TTGCAGTAGA GACCCAGCCA GGCCTCATCG AACTGTTTCT GAACCTGGAA
    GTTAAGGATG GCAGTGATGG CTCAAAGGAA TTCAGCCTTG GGATGTGGAG CTGTCTCCAT
    GCAGTGCTGG AGCTGATTGA TTCCCAACAG CAAGATCGAT ACTGGTGCCC ACCCCTGCTG
    CATCGTGCCG CCATTGCCTT TTTGCATGCT CTGTGGCAGG ATCGGAGGGA CAGTGCCATG
    CTGGTCCTCC GAACCAAACC CAAGTTTTGG GAAAATTTAA CCAGTCCGCT GTTTGGAACC
    CTTTCTCCTC CCTCTGAAAC ATCAGAGCCC AGCATCCTGG AAACCTGTGC CCTAATCATG
    AAGATAATTT GCTTGGAGAT ATACTATGTA GTAAAGGGTT CATTAGACCA GTCATTAAAG
    GATACACTGA AGAAATTTTC CATCGAGAAA CGCTTTGCCT ACTGGTCAGG GTATGTCAAG
    TCATTGGCAG TTCACGTGGC CGAAACAGAA GGCAGCAGCT GCACCTCCTT GTTAGAGTAC
    CAGATGCTGG TGTCCGCCTG GAGGATGCTT CTCATCATTG CCACCACTCA TGCAGATATA
    ATGCACCTGA CTGACTCTGT GGTGCGTCGC CAGCTCTTTC TTGACGTGCT TGATGGAACC
    AAAGCATTAC TCCTAGTTCC AGCCTCAGTG AACTGCCTTC GCCTTGGCTC CATGAAGTGC
    ACTCTGCTGC TTATCCTCCT CCGGCAGTGG AAGAGAGAGT TAGGTTCTGT GGATGAAATC
    CTTGGACCCT TGACGGAGAT CCTGGAGGGA GTGCTGCAGG CCGACCAGCA ACTCATGGAG
    AAGACCAAGG CCAAGGTGTT CTCAGCATTC ATCACAGTGT TGCAAATGAA GGAGATGAAA
    GTAAGTGACA TCCCCCAGTA CTCCCAGCTG GTGCTGAATG TCTGTGAGAC CCTCCAAGAG
    GAAGTGATTG CACTCTTCGA CCAGACCCGC CACAGTCTGG CATTAGGCAG TGCCACAGAG
    GACAAGGACA GCATGGAGAC TGACGACTGT TCTCGGTCCC GGCACAGGGA CCAGCGTGAT
    GGGGTGTGTG TCCTGGGCCT GCACCTGGCC AAGGAGCTGT GTGAGGTAGA CGAGGATGGT
    GACTCCTGGC TGCAGGTAAC CCGCAGGCTC CCCATCCTAC CCACCCTCCT CACCACTCTA
    GAGGTGAGCC TTCGCATGAA GCAGAACCTG CATTTCACTG AGGCCACATT GCATCTGCTC
    CTCACCCTGG CTCGCACTCA GCAGGGAGCC ACAGCAGTGG CTGGAGCTGG CATCACCCAG
    AGCATTTGTT TGCCCCTTCT GAGTGTGTAC CAGCTGAGCA CCAACGGCAC AGCACAGACA
    CCTAGTGCCT CTCGGAAGTC CCTGGATGCC CCCTCTTGGC CAGGAGTCTA CCGCCTGTCC
    ATGTCCCTGA TGGAGCAGCT GCTCAAAACT CTGCGCTACA ACTTCCTGCC TGAGGCCCTG
    GACTTCGTGG GTGTCCACCA GGAGCGGACC TTACAGTGCC TCAACGCAGT GAGGACAGTG
    CAGAGTCTGG CCTGCCTGGA GGAGGCGGAC CACACCGTGG GTTTTATTCT GCAGCTCTCT
    AACTTCATGA AGGAGTGGCA CTTCCACCTG CCTCAGCTCA TGCGTGATAT CCAGGTCAAC
    CTGGGTTACT TGTGCCAGGC ATGTACCTCT CTCCTGCACA GTCGAAAGAT GCTGCAGCAT
    TACTTACAGA ACAAAAATGG GGATGGCCTC CCCTCAGCTG TTGCCCAGCG AGTCCAGAGG
    CCACCGTCTG CTGCTTCTGC TGCCCCCTCC TCCTCAAAGC AGCCCGCTGC TGACACAGAG
    GCATCAGAGC AGCAGGCCTT GCACACAGTC CAGTATGGCC TTCTCAAGAT CCTCAGCAAG
    ACGCTGGCAG CCCTGCGCCA CTTCACCCCA GATGTCTGCC AGATTCTGCT GGATCAGTCC
    CTGGACCTTG CTGAATACAA CTTCCTGTTT GCCCTGAGCT TTACCACTCC CACCTTTGAC
    TCCGAAGTGG CCCCCTCCTT CGGGACCCTT CTGGCCACAG TGAATGTGGC CCTCAACATG
    CTTGGAGAGC TGGACAAGAA AAAGGAGCCC CTCACCCAGG CAGTGGGGCT CAGCACACAG
    GCAGAAGGGA CCAGGACGTT AAAGTCCCTC CTGATGTTTA CCATGGAAAA CTGCTTCTAC
    CTGCTCATCT CTCAGGCGAT GCGGTACCTT AGGGACCCGG CTGTGCACCC CCGGGACAAA
    CAGCGGATGA AGCAGGAGCT CAGCTCTGAG TTGAGCACGC TGCTGTCCAG CCTCTCGCGC
    TACTTCCGCC GGGGAGCCCC CAGCTCCCCT GCCACTGGTG TCCTCCCCTC GCCGCAGGGC
    AAGTCCACCT CTCTCTCCAA AGCCAGCCCT GAGAGTCAGG AGCCTCTGAT CCAGTTGGTG
    CAGGCGTTTG TCCGGCATAT GCAAAGATAG

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

    CloneID OHu20110
    Clone ID Related Accession (Same CDS sequence) NM_015354.3 , NM_015354.2
    Accession Version NM_015354.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5250bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-02
    Organism Homo sapiens(human)
    Product nucleoporin NUP188 homolog
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY094051.1, D79991.1 and AA731883.1. This sequence is a reference standard in the RefSeqGene project. On Jan 25, 2013 this sequence version replaced NM_015354.1. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.225471.1, SRR1660809.113796.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGCGGCGG CCGCCGGCGG GCCGTGTGTG AGGAGCAGTA GAGAACTGTG GACTATTCTG 
    CTTGGAAGGT CAGCTCTGAG AGAGCTGAGT CAGATTGAGG CAGAACTGAA TAAACATTGG
    CGGCGATTGT TAGAGGGGCT TTCTTACTAC AAACCTCCCA GTCCAAGTTC AGCTGAAAAA
    GTGAAAGCTA ATAAAGATGT AGCTTCACCA TTGAAGGAAC TGGGTTTAAG AATCAGCAAG
    TTTTTGGGTC TTGATGAAGA ACAGAGTGTG CAGTTACTCC AGTGTTACCT GCAAGAGGAC
    TACAGGGGTA CTCGGGACTC AGTAAAGACA GTACTGCAAG ATGAGAGGCA GAGCCAGGCC
    TTAATCCTGA AGATTGCAGA TTATTATTAT GAAGAAAGAA CCTGTATTCT TCGTTGTGTC
    TTACACCTTC TCACTTACTT CCAAGATGAA AGACACCCCT ATAGGGTTGA ATATGCAGAC
    TGTGTTGATA AATTGGAGAA GGAACTAGTT TCAAAATACA GACAGCAGTT CGAAGAGCTT
    TATAAAACTG AAGCACCAAC TTGGGAGACA CATGGAAATC TCATGACAGA GCGCCAAGTG
    TCTCGCTGGT TTGTTCAGTG CCTTCGGGAA CAGTCCATGC TGCTAGAAAT TATTTTCCTT
    TATTATGCAT ACTTTGAGAT GGCACCCAGT GACTTACTTG TATTAACCAA GATGTTTAAA
    GAGCAAGGAT TTGGTAGTAG GCAGACCAAT AGGCACCTGG TGGATGAGAC TATGGATCCT
    TTTGTAGATC GGATTGGCTA CTTCAGTGCC CTCATCCTGG TGGAGGGCAT GGATATCGAG
    TCCTTGCATA AGTGTGCTTT GGATGACAGA AGAGAACTGC ATCAGTTTGC GCAGGATGGG
    CTTATTTGTC AGGATATGGA CTGTTTAATG TTGACCTTTG GGGACATTCC ACATCATGCC
    CCAGTGCTTT TGGCCTGGGC TCTCCTCCGT CACACTCTGA ACCCAGAAGA GACAAGCAGT
    GTGGTCCGGA AGATAGGTGG CACAGCCATC CAGCTGAATG TGTTTCAGTA CTTGACCCGA
    TTGCTCCAGT CCCTTGCCAG TGGGGGAAAT GATTGCACCA CCAGCACTGC ATGCATGTGT
    GTCTATGGAC TGCTCTCTTT CGTTCTGACC TCGTTGGAGC TGCACACCCT GGGCAATCAG
    CAGGATATAA TTGATACAGC ATGTGAAGTA TTGGCCGACC CTTCTCTTCC GGAACTGTTC
    TGGGGAACAG AGCCAACTTC TGGCCTTGGG ATCATTCTGG ACAGTGTGTG TGGAATGTTT
    CCCCACCTTC TCTCCCCACT CCTGCAACTG CTCCGAGCCC TGGTATCAGG GAAGTCCACA
    GCCAAAAAGG TGTATAGCTT CTTGGATAAG ATGTCTTTCT ACAATGAACT TTATAAACAC
    AAGCCTCATG ATGTGATCTC CCATGAAGAT GGAACTCTTT GGCGGAGACA AACACCCAAA
    CTCCTTTATC CCCTTGGGGG TCAAACCAAC CTTCGCATAC CTCAAGGCAC TGTGGGCCAA
    GTAATGTTGG ATGATAGGGC ATACCTGGTA CGCTGGGAAT ACTCCTATAG CAGCTGGACC
    CTCTTTACCT GCGAGATTGA AATGTTGCTT CATGTTGTTT CAACTGCAGA TGTGATTCAG
    CACTGCCAGC GAGTCAAACC CATCATTGAT CTCGTCCATA AGGTCATCAG TACAGACCTG
    TCGATAGCAG ACTGTCTCCT GCCCATCACA TCTCGCATCT ACATGCTGCT GCAGCGGTTA
    ACGACAGTGA TCTCCCCACC TGTGGATGTC ATTGCTTCTT GTGTCAACTG CTTAACTGTT
    TTGGCTGCCC GCAATCCAGC AAAGGTCTGG ACTGATCTTC GTCACACAGG TTTTTTACCA
    TTTGTGGCCC ATCCTGTCTC CAGCCTGAGT CAGATGATTA GTGCGGAAGG GATGAATGCT
    GGAGGGTACG GAAACCTCTT GATGAACAGT GAACAGCCTC AGGGCGAGTA TGGGGTTACT
    ATTGCCTTTC TGCGCTTGAT CACCACCCTT GTCAAGGGGC AACTTGGTAG TACCCAGAGC
    CAAGGACTTG TACCCTGTGT AATGTTTGTG CTGAAGGAGA TGCTTCCCAG CTACCATAAG
    TGGCGCTACA ACTCTCATGG AGTGAGGGAA CAGATTGGTT GCCTGATCTT GGAGCTGATT
    CATGCGATAC TGAACCTGTG CCACGAGACA GACCTGCACA GCAGTCATAC TCCCAGCCTG
    CAGTTTCTCT GCATCTGCAG CCTGGCATAC ACAGAAGCAG GACAGACAGT TATCAATATC
    ATGGGCATTG GCGTGGACAC CATTGACATG GTGATGGCTG CTCAGCCTCG AAGTGATGGG
    GCAGAGGGCC AGGGGCAGGG CCAGCTGCTG ATCAAGACAG TGAAACTGGC ATTCTCCGTC
    ACCAACAATG TTATTCGGCT GAAACCTCCT TCTAATGTGG TGTCCCCCCT GGAACAGGCT
    CTCTCACAAC ATGGTGCTCA TGGAAACAAC CTCATTGCTG TTCTAGCCAA ATACATCTAC
    CACAAACATG ACCCTGCTTT GCCACGTCTT GCCATTCAGC TGCTGAAACG TCTGGCCACG
    GTGGCCCCAA TGTCAGTGTA TGCTTGTCTG GGCAATGATG CGGCTGCCAT TCGTGATGCC
    TTCCTGACCC GATTGCAGAG CAAAATTGAG GACATGCGCA TCAAAGTCAT GATTCTAGAG
    TTCCTCACTG TTGCAGTAGA GACCCAGCCA GGCCTCATCG AACTGTTTCT GAACCTGGAA
    GTTAAGGATG GCAGTGATGG CTCAAAGGAA TTCAGCCTTG GGATGTGGAG CTGTCTCCAT
    GCAGTGCTGG AGCTGATTGA TTCCCAACAG CAAGATCGAT ACTGGTGCCC ACCCCTGCTG
    CATCGTGCCG CCATTGCCTT TTTGCATGCT CTGTGGCAGG ATCGGAGGGA CAGTGCCATG
    CTGGTCCTCC GAACCAAACC CAAGTTTTGG GAAAATTTAA CCAGTCCGCT GTTTGGAACC
    CTTTCTCCTC CCTCTGAAAC ATCAGAGCCC AGCATCCTGG AAACCTGTGC CCTAATCATG
    AAGATAATTT GCTTGGAGAT ATACTATGTA GTAAAGGGTT CATTAGACCA GTCATTAAAG
    GATACACTGA AGAAATTTTC CATCGAGAAA CGCTTTGCCT ACTGGTCAGG GTATGTCAAG
    TCATTGGCAG TTCACGTGGC CGAAACAGAA GGCAGCAGCT GCACCTCCTT GTTAGAGTAC
    CAGATGCTGG TGTCCGCCTG GAGGATGCTT CTCATCATTG CCACCACTCA TGCAGATATA
    ATGCACCTGA CTGACTCTGT GGTGCGTCGC CAGCTCTTTC TTGACGTGCT TGATGGAACC
    AAAGCATTAC TCCTAGTTCC AGCCTCAGTG AACTGCCTTC GCCTTGGCTC CATGAAGTGC
    ACTCTGCTGC TTATCCTCCT CCGGCAGTGG AAGAGAGAGT TAGGTTCTGT GGATGAAATC
    CTTGGACCCT TGACGGAGAT CCTGGAGGGA GTGCTGCAGG CCGACCAGCA ACTCATGGAG
    AAGACCAAGG CCAAGGTGTT CTCAGCATTC ATCACAGTGT TGCAAATGAA GGAGATGAAA
    GTAAGTGACA TCCCCCAGTA CTCCCAGCTG GTGCTGAATG TCTGTGAGAC CCTCCAAGAG
    GAAGTGATTG CACTCTTCGA CCAGACCCGC CACAGTCTGG CATTAGGCAG TGCCACAGAG
    GACAAGGACA GCATGGAGAC TGACGACTGT TCTCGGTCCC GGCACAGGGA CCAGCGTGAT
    GGGGTGTGTG TCCTGGGCCT GCACCTGGCC AAGGAGCTGT GTGAGGTAGA CGAGGATGGT
    GACTCCTGGC TGCAGGTAAC CCGCAGGCTC CCCATCCTAC CCACCCTCCT CACCACTCTA
    GAGGTGAGCC TTCGCATGAA GCAGAACCTG CATTTCACTG AGGCCACATT GCATCTGCTC
    CTCACCCTGG CTCGCACTCA GCAGGGAGCC ACAGCAGTGG CTGGAGCTGG CATCACCCAG
    AGCATTTGTT TGCCCCTTCT GAGTGTGTAC CAGCTGAGCA CCAACGGCAC AGCACAGACA
    CCTAGTGCCT CTCGGAAGTC CCTGGATGCC CCCTCTTGGC CAGGAGTCTA CCGCCTGTCC
    ATGTCCCTGA TGGAGCAGCT GCTCAAAACT CTGCGCTACA ACTTCCTGCC TGAGGCCCTG
    GACTTCGTGG GTGTCCACCA GGAGCGGACC TTACAGTGCC TCAACGCAGT GAGGACAGTG
    CAGAGTCTGG CCTGCCTGGA GGAGGCGGAC CACACCGTGG GTTTTATTCT GCAGCTCTCT
    AACTTCATGA AGGAGTGGCA CTTCCACCTG CCTCAGCTCA TGCGTGATAT CCAGGTCAAC
    CTGGGTTACT TGTGCCAGGC ATGTACCTCT CTCCTGCACA GTCGAAAGAT GCTGCAGCAT
    TACTTACAGA ACAAAAATGG GGATGGCCTC CCCTCAGCTG TTGCCCAGCG AGTCCAGAGG
    CCACCGTCTG CTGCTTCTGC TGCCCCCTCC TCCTCAAAGC AGCCCGCTGC TGACACAGAG
    GCATCAGAGC AGCAGGCCTT GCACACAGTC CAGTATGGCC TTCTCAAGAT CCTCAGCAAG
    ACGCTGGCAG CCCTGCGCCA CTTCACCCCA GATGTCTGCC AGATTCTGCT GGATCAGTCC
    CTGGACCTTG CTGAATACAA CTTCCTGTTT GCCCTGAGCT TTACCACTCC CACCTTTGAC
    TCCGAAGTGG CCCCCTCCTT CGGGACCCTT CTGGCCACAG TGAATGTGGC CCTCAACATG
    CTTGGAGAGC TGGACAAGAA AAAGGAGCCC CTCACCCAGG CAGTGGGGCT CAGCACACAG
    GCAGAAGGGA CCAGGACGTT AAAGTCCCTC CTGATGTTTA CCATGGAAAA CTGCTTCTAC
    CTGCTCATCT CTCAGGCGAT GCGGTACCTT AGGGACCCGG CTGTGCACCC CCGGGACAAA
    CAGCGGATGA AGCAGGAGCT CAGCTCTGAG TTGAGCACGC TGCTGTCCAG CCTCTCGCGC
    TACTTCCGCC GGGGAGCCCC CAGCTCCCCT GCCACTGGTG TCCTCCCCTC GCCGCAGGGC
    AAGTCCACCT CTCTCTCCAA AGCCAGCCCT GAGAGTCAGG AGCCTCTGAT CCAGTTGGTG
    CAGGCGTTTG TCCGGCATAT GCAAAGATAG

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

    RefSeq NP_056169.1
    CDS28..5277
    Translation

    Target ORF information:

    RefSeq Version NM_015354.2
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 188 (NUP188), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015354.2

    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
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGCGGCGG CCGCCGGCGG GCCGTGTGTG AGGAGCAGTA GAGAACTGTG GACTATTCTG 
    CTTGGAAGGT CAGCTCTGAG AGAGCTGAGT CAGATTGAGG CAGAACTGAA TAAACATTGG
    CGGCGATTGT TAGAGGGGCT TTCTTACTAC AAACCTCCCA GTCCAAGTTC AGCTGAAAAA
    GTGAAAGCTA ATAAAGATGT AGCTTCACCA TTGAAGGAAC TGGGTTTAAG AATCAGCAAG
    TTTTTGGGTC TTGATGAAGA ACAGAGTGTG CAGTTACTCC AGTGTTACCT GCAAGAGGAC
    TACAGGGGTA CTCGGGACTC AGTAAAGACA GTACTGCAAG ATGAGAGGCA GAGCCAGGCC
    TTAATCCTGA AGATTGCAGA TTATTATTAT GAAGAAAGAA CCTGTATTCT TCGTTGTGTC
    TTACACCTTC TCACTTACTT CCAAGATGAA AGACACCCCT ATAGGGTTGA ATATGCAGAC
    TGTGTTGATA AATTGGAGAA GGAACTAGTT TCAAAATACA GACAGCAGTT CGAAGAGCTT
    TATAAAACTG AAGCACCAAC TTGGGAGACA CATGGAAATC TCATGACAGA GCGCCAAGTG
    TCTCGCTGGT TTGTTCAGTG CCTTCGGGAA CAGTCCATGC TGCTAGAAAT TATTTTCCTT
    TATTATGCAT ACTTTGAGAT GGCACCCAGT GACTTACTTG TATTAACCAA GATGTTTAAA
    GAGCAAGGAT TTGGTAGTAG GCAGACCAAT AGGCACCTGG TGGATGAGAC TATGGATCCT
    TTTGTAGATC GGATTGGCTA CTTCAGTGCC CTCATCCTGG TGGAGGGCAT GGATATCGAG
    TCCTTGCATA AGTGTGCTTT GGATGACAGA AGAGAACTGC ATCAGTTTGC GCAGGATGGG
    CTTATTTGTC AGGATATGGA CTGTTTAATG TTGACCTTTG GGGACATTCC ACATCATGCC
    CCAGTGCTTT TGGCCTGGGC TCTCCTCCGT CACACTCTGA ACCCAGAAGA GACAAGCAGT
    GTGGTCCGGA AGATAGGTGG CACAGCCATC CAGCTGAATG TGTTTCAGTA CTTGACCCGA
    TTGCTCCAGT CCCTTGCCAG TGGGGGAAAT GATTGCACCA CCAGCACTGC ATGCATGTGT
    GTCTATGGAC TGCTCTCTTT CGTTCTGACC TCGTTGGAGC TGCACACCCT GGGCAATCAG
    CAGGATATAA TTGATACAGC ATGTGAAGTA TTGGCCGACC CTTCTCTTCC GGAACTGTTC
    TGGGGAACAG AGCCAACTTC TGGCCTTGGG ATCATTCTGG ACAGTGTGTG TGGAATGTTT
    CCCCACCTTC TCTCCCCACT CCTGCAACTG CTCCGAGCCC TGGTATCAGG GAAGTCCACA
    GCCAAAAAGG TGTATAGCTT CTTGGATAAG ATGTCTTTCT ACAATGAACT TTATAAACAC
    AAGCCTCATG ATGTGATCTC CCATGAAGAT GGAACTCTTT GGCGGAGACA AACACCCAAA
    CTCCTTTATC CCCTTGGGGG TCAAACCAAC CTTCGCATAC CTCAAGGCAC TGTGGGCCAA
    GTAATGTTGG ATGATAGGGC ATACCTGGTA CGCTGGGAAT ACTCCTATAG CAGCTGGACC
    CTCTTTACCT GCGAGATTGA AATGTTGCTT CATGTTGTTT CAACTGCAGA TGTGATTCAG
    CACTGCCAGC GAGTCAAACC CATCATTGAT CTCGTCCATA AGGTCATCAG TACAGACCTG
    TCGATAGCAG ACTGTCTCCT GCCCATCACA TCTCGCATCT ACATGCTGCT GCAGCGGTTA
    ACGACAGTGA TCTCCCCACC TGTGGATGTC ATTGCTTCTT GTGTCAACTG CTTAACTGTT
    TTGGCTGCCC GCAATCCAGC AAAGGTCTGG ACTGATCTTC GTCACACAGG TTTTTTACCA
    TTTGTGGCCC ATCCTGTCTC CAGCCTGAGT CAGATGATTA GTGCGGAAGG GATGAATGCT
    GGAGGGTACG GAAACCTCTT GATGAACAGT GAACAGCCTC AGGGCGAGTA TGGGGTTACT
    ATTGCCTTTC TGCGCTTGAT CACCACCCTT GTCAAGGGGC AACTTGGTAG TACCCAGAGC
    CAAGGACTTG TACCCTGTGT AATGTTTGTG CTGAAGGAGA TGCTTCCCAG CTACCATAAG
    TGGCGCTACA ACTCTCATGG AGTGAGGGAA CAGATTGGTT GCCTGATCTT GGAGCTGATT
    CATGCGATAC TGAACCTGTG CCACGAGACA GACCTGCACA GCAGTCATAC TCCCAGCCTG
    CAGTTTCTCT GCATCTGCAG CCTGGCATAC ACAGAAGCAG GACAGACAGT TATCAATATC
    ATGGGCATTG GCGTGGACAC CATTGACATG GTGATGGCTG CTCAGCCTCG AAGTGATGGG
    GCAGAGGGCC AGGGGCAGGG CCAGCTGCTG ATCAAGACAG TGAAACTGGC ATTCTCCGTC
    ACCAACAATG TTATTCGGCT GAAACCTCCT TCTAATGTGG TGTCCCCCCT GGAACAGGCT
    CTCTCACAAC ATGGTGCTCA TGGAAACAAC CTCATTGCTG TTCTAGCCAA ATACATCTAC
    CACAAACATG ACCCTGCTTT GCCACGTCTT GCCATTCAGC TGCTGAAACG TCTGGCCACG
    GTGGCCCCAA TGTCAGTGTA TGCTTGTCTG GGCAATGATG CGGCTGCCAT TCGTGATGCC
    TTCCTGACCC GATTGCAGAG CAAAATTGAG GACATGCGCA TCAAAGTCAT GATTCTAGAG
    TTCCTCACTG TTGCAGTAGA GACCCAGCCA GGCCTCATCG AACTGTTTCT GAACCTGGAA
    GTTAAGGATG GCAGTGATGG CTCAAAGGAA TTCAGCCTTG GGATGTGGAG CTGTCTCCAT
    GCAGTGCTGG AGCTGATTGA TTCCCAACAG CAAGATCGAT ACTGGTGCCC ACCCCTGCTG
    CATCGTGCCG CCATTGCCTT TTTGCATGCT CTGTGGCAGG ATCGGAGGGA CAGTGCCATG
    CTGGTCCTCC GAACCAAACC CAAGTTTTGG GAAAATTTAA CCAGTCCGCT GTTTGGAACC
    CTTTCTCCTC CCTCTGAAAC ATCAGAGCCC AGCATCCTGG AAACCTGTGC CCTAATCATG
    AAGATAATTT GCTTGGAGAT ATACTATGTA GTAAAGGGTT CATTAGACCA GTCATTAAAG
    GATACACTGA AGAAATTTTC CATCGAGAAA CGCTTTGCCT ACTGGTCAGG GTATGTCAAG
    TCATTGGCAG TTCACGTGGC CGAAACAGAA GGCAGCAGCT GCACCTCCTT GTTAGAGTAC
    CAGATGCTGG TGTCCGCCTG GAGGATGCTT CTCATCATTG CCACCACTCA TGCAGATATA
    ATGCACCTGA CTGACTCTGT GGTGCGTCGC CAGCTCTTTC TTGACGTGCT TGATGGAACC
    AAAGCATTAC TCCTAGTTCC AGCCTCAGTG AACTGCCTTC GCCTTGGCTC CATGAAGTGC
    ACTCTGCTGC TTATCCTCCT CCGGCAGTGG AAGAGAGAGT TAGGTTCTGT GGATGAAATC
    CTTGGACCCT TGACGGAGAT CCTGGAGGGA GTGCTGCAGG CCGACCAGCA ACTCATGGAG
    AAGACCAAGG CCAAGGTGTT CTCAGCATTC ATCACAGTGT TGCAAATGAA GGAGATGAAA
    GTAAGTGACA TCCCCCAGTA CTCCCAGCTG GTGCTGAATG TCTGTGAGAC CCTCCAAGAG
    GAAGTGATTG CACTCTTCGA CCAGACCCGC CACAGTCTGG CATTAGGCAG TGCCACAGAG
    GACAAGGACA GCATGGAGAC TGACGACTGT TCTCGGTCCC GGCACAGGGA CCAGCGTGAT
    GGGGTGTGTG TCCTGGGCCT GCACCTGGCC AAGGAGCTGT GTGAGGTAGA CGAGGATGGT
    GACTCCTGGC TGCAGGTAAC CCGCAGGCTC CCCATCCTAC CCACCCTCCT CACCACTCTA
    GAGGTGAGCC TTCGCATGAA GCAGAACCTG CATTTCACTG AGGCCACATT GCATCTGCTC
    CTCACCCTGG CTCGCACTCA GCAGGGAGCC ACAGCAGTGG CTGGAGCTGG CATCACCCAG
    AGCATTTGTT TGCCCCTTCT GAGTGTGTAC CAGCTGAGCA CCAACGGCAC AGCACAGACA
    CCTAGTGCCT CTCGGAAGTC CCTGGATGCC CCCTCTTGGC CAGGAGTCTA CCGCCTGTCC
    ATGTCCCTGA TGGAGCAGCT GCTCAAAACT CTGCGCTACA ACTTCCTGCC TGAGGCCCTG
    GACTTCGTGG GTGTCCACCA GGAGCGGACC TTACAGTGCC TCAACGCAGT GAGGACAGTG
    CAGAGTCTGG CCTGCCTGGA GGAGGCGGAC CACACCGTGG GTTTTATTCT GCAGCTCTCT
    AACTTCATGA AGGAGTGGCA CTTCCACCTG CCTCAGCTCA TGCGTGATAT CCAGGTCAAC
    CTGGGTTACT TGTGCCAGGC ATGTACCTCT CTCCTGCACA GTCGAAAGAT GCTGCAGCAT
    TACTTACAGA ACAAAAATGG GGATGGCCTC CCCTCAGCTG TTGCCCAGCG AGTCCAGAGG
    CCACCGTCTG CTGCTTCTGC TGCCCCCTCC TCCTCAAAGC AGCCCGCTGC TGACACAGAG
    GCATCAGAGC AGCAGGCCTT GCACACAGTC CAGTATGGCC TTCTCAAGAT CCTCAGCAAG
    ACGCTGGCAG CCCTGCGCCA CTTCACCCCA GATGTCTGCC AGATTCTGCT GGATCAGTCC
    CTGGACCTTG CTGAATACAA CTTCCTGTTT GCCCTGAGCT TTACCACTCC CACCTTTGAC
    TCCGAAGTGG CCCCCTCCTT CGGGACCCTT CTGGCCACAG TGAATGTGGC CCTCAACATG
    CTTGGAGAGC TGGACAAGAA AAAGGAGCCC CTCACCCAGG CAGTGGGGCT CAGCACACAG
    GCAGAAGGGA CCAGGACGTT AAAGTCCCTC CTGATGTTTA CCATGGAAAA CTGCTTCTAC
    CTGCTCATCT CTCAGGCGAT GCGGTACCTT AGGGACCCGG CTGTGCACCC CCGGGACAAA
    CAGCGGATGA AGCAGGAGCT CAGCTCTGAG TTGAGCACGC TGCTGTCCAG CCTCTCGCGC
    TACTTCCGCC GGGGAGCCCC CAGCTCCCCT GCCACTGGTG TCCTCCCCTC GCCGCAGGGC
    AAGTCCACCT CTCTCTCCAA AGCCAGCCCT GAGAGTCAGG AGCCTCTGAT CCAGTTGGTG
    CAGGCGTTTG TCCGGCATAT GCAAAGATAG

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