NUP153 cDNA ORF clone, Homo sapiens(human)

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
OHu26545 NM_001278209.1
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$579.50-$811.30
$1159.00
OHu40560 XM_006715291.4
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu96960 XM_017011594.2
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu26475 NM_001278210.1
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu26520 NM_005124.4
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40558 XM_006715290.3
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40559 XM_005249507.3
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu63568 XM_011515028.3
Latest version!
Homo sapiens nucleoporin 153 (NUP153), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu40560 XM_006715291.3 Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu26520 NM_005124.3 Homo sapiens nucleoporin 153 (NUP153), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu63568 XM_011515028.2 Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40558 XM_006715290.2 Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu40559 XM_005249507.2 Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu96960 XM_017011594.1 Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
Hide Old Accession Versions >>

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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 OHu26545
    Clone ID Related Accession (Same CDS sequence) NM_001278209.1
    Accession Version NM_001278209.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4521bp)
    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 2019-12-09
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB210024.1, AK295644.1, BC052965.1, AL597150.1, AI948895.1 and CB217525.1. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK295644.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGAGACA AGGTCTCACC GTATTGCCCA AGCTGATCTC GAGCTCCTGC
    GCTCAAGCGA TCATCCCATC TTGGCCTCTC AAAGTGCTGA GATTACAGGA AATGGAAGTT
    CCAGTATTAC CGAAAATCTC TCTACCGATC ACCAGTTCTT CACTGCCTAC CTTTAATTTT
    AGTTCCCCTG AGATCACAAC TTCCTCTCCA TCACCCATCA ATTCGTCTCA AGCATTAACA
    AACAAGGTAC AAATGACCTC TCCGAGCAGC ACTGGCAGTC CCATGTTTAA ATTTTCATCT
    CCAATCGTAA AATCTACTGA GGCAAATGTA CTACCTCCAT CATCTATTGG ATTTACATTT
    AGTGTGCCTG TTGCAAAAAC AGCAGAACTT TCTGGTTCTA GTAGTACTTT AGAACCAATT
    ATAAGTAGTT CAGCTCATCA TGTCACTACA GTGAACAGTA CAAATTGTAA GAAGACACCA
    CCTGAAGATT GTGAGGGTCC TTTTAGACCT GCAGAAATCC TGAAAGAAGG AAGTGTTCTA
    GATATTCTGA AAAGCCCTGG TTTCGCATCG CCGAAGATAG ATTCTGTTGC TGCTCAGCCC
    ACCGCAACAA GCCCAGTAGT TTATACAAGA CCAGCAATAA GTAGCTTTTC TTCTAGTGGA
    ATTGGGTTTG GGGAGAGTTT AAAAGCTGGG TCATCATGGC AGTGTGATAC ATGTCTACTC
    CAGAACAAAG TTACAGACAA CAAATGCATA GCCTGTCAAG CAGCAAAATT GTCACCCAGA
    GATACTGCTA AACAGACTGG AATTGAAACA CCAAATAAAA GTGGCAAAAC AACTCTTTCT
    GCATCAGGGA CAGGCTTTGG AGACAAATTT AAACCAGTGA TAGGCACTTG GGATTGTGAT
    ACCTGTTTAG TGCAAAATAA ACCTGAAGCA ATAAAATGTG TAGCCTGTGA AACACCGAAA
    CCTGGAACTT GTGTGAAGCG AGCCCTTACA TTGACAGTGG TTTCGGAAAG TGCTGAGACT
    ATGACTGCTT CATCTTCCAG CTGCACTGTA ACCACTGGTA CCTTAGGATT TGGAGATAAA
    TTCAAAAGGC CCATTGGATC TTGGGAGTGT TCAGTATGCT GTGTTTCTAA TAATGCAGAA
    GACAATAAGT GTGTGTCCTG TATGTCTGAG AAACCAGGAA GTTCAGTACC TGCTTCAAGT
    AGCAGCACTG TACCTGTCTC TCTGCCTTCT GGAGGCTCTC TAGGATTGGA AAAGTTCAAG
    AAACCCGAGG GAAGCTGGGA CTGTGAATTG TGCCTAGTGC AGAATAAGGC AGACTCTACC
    AAATGTTTGG CATGTGAAAG TGCAAAGCCA GGCACAAAAT CTGGGTTTAA AGGCTTTGAC
    ACATCTTCCT CATCTTCGAA CTCAGCAGCC TCCTCATCCT TCAAATTTGG TGTCTCATCA
    TCCTCTTCTG GGCCTTCTCA GACTTTAACA AGCACTGGAA ATTTTAAATT TGGAGATCAG
    GGAGGATTCA AAATAGGTGT GTCATCCGAT TCTGGGTCTA TAAACCCCAT GAGTGAAGGC
    TTTAAATTTT CTAAACCAAT AGGAGATTTT AAATTTGGAG TTTCATCTGA ATCTAAGCCC
    GAAGAAGTTA AAAAAGATAG TAAGAATGAT AATTTTAAGT TTGGACTTTC TTCTGGTTTA
    AGCAACCCAG TTTCTTTAAC TCCATTTCAA TTTGGGGTAT CTAATCTTGG ACAGGAAGAA
    AAGAAAGAGG AACTGCCCAA ATCTTCCTCT GCAGGTTTTA GCTTTGGTAC AGGTGTTATT
    AACTCCACCC CTGCTCCTGC TAACACCATA GTGACCTCTG AGAACAAGAG CAGCTTCAAC
    CTTGGAACCA TAGAAACCAA GAGTGCTTCA GTGGCTCCTT TCACATGTAA GACATCAGAA
    GCTAAAAAAG AAGAAATGCC TGCCACCAAA GGAGGATTCT CTTTTGGCAA CGTGGAGCCT
    GCCTCTCTGC CATCTGCCTC AGTGTTTGTT TTGGGAAGGA CAGAAGAGAA ACAGCAAGAG
    CCTGTCACTT CTACTTCCCT AGTTTTTGGG AAGAAAGCTG ACAATGAAGA GCCAAAGTGT
    CAACCAGTGT TTTCCTTTGG GAATTCAGAG CAAACCAAAG ATGAGAATTC TTCAAAGTCC
    ACATTTAGTT TTAGTATGAC AAAACCATCT GAGAAGGAAT CTGAACAGCC AGCAAAAGCC
    ACTTTTGCCT TTGGAGCTCA AACTAGTACT ACAGCTGATC AAGGTGCAGC AAAGCCAGTT
    TTTAGTTTCT TGAACAACAG TTCCTCTAGT TCAAGTACAC CAGCCACTTC TGCTGGTGGT
    GGCATATTTG GTAGTTCCAC CTCTTCCTCC AATCCACCTG TGGCTACCTT TGTGTTTGGA
    CAGTCCAGCA ATCCTGTGAG CAGCTCTGCC TTTGGTAACA CTGCTGAATC CAGCACCTCT
    CAGTCTTTGC TATTTTCTCA AGATAGCAAA CTAGCAACCA CATCCAGCAC AGGTACAGCT
    GTCACCCCAT TTGTCTTTGG TCCAGGAGCC AGCAGTAATA ATACTACCAC CTCTGGTTTC
    GGCTTTGGAG CCACAACCAC ATCTAGCTCT GCAGGATCCT CCTTTGTATT TGGAACTGGA
    CCCTCAGCAC CATCTGCCAG TCCAGCATTT GGTGCTAACC AGACCCCAAC ATTTGGACAA
    AGTCAAGGTG CCAGCCAGCC CAATCCCCCA GGCTTTGGAT CTATATCATC TTCCACAGCA
    TTATTTCCCA CTGGTTCTCA GCCTGCACCA CCTACTTTTG GGACAGTGTC AAGCAGTAGC
    CAGCCCCCTG TGTTTGGACA GCAACCTAGT CAGTCTGCAT TTGGCTCTGG AACAACTCCT
    AATTCTAGTT CGGCTTTCCA GTTTGGCAGC AGCACTACAA ATTTCAACTT CACAAACAAC
    AGTCCATCAG GAGTGTTCAC ATTTGGTGCA AATTCTAGCA CACCTGCAGC CTCAGCCCAG
    CCTTCAGGCT CGGGGGGCTT TCCATTTAAC CAGTCTCCAG CAGCATTTAC AGTGGGGTCA
    AATGGGAAAA ATGTGTTCTC TTCTTCTGGA ACTTCATTCT CTGGTCGCAA GATAAAGACT
    GCTGTTAGAC GCAGGAAATA A

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

    RefSeq NP_001265138.1
    CDS448..4968
    Translation

    Target ORF information:

    RefSeq Version NM_001278209.1
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001278209.1

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGAGACA AGGTCTCACC GTATTGCCCA AGCTGATCTC GAGCTCCTGC
    GCTCAAGCGA TCATCCCATC TTGGCCTCTC AAAGTGCTGA GATTACAGGA AATGGAAGTT
    CCAGTATTAC CGAAAATCTC TCTACCGATC ACCAGTTCTT CACTGCCTAC CTTTAATTTT
    AGTTCCCCTG AGATCACAAC TTCCTCTCCA TCACCCATCA ATTCGTCTCA AGCATTAACA
    AACAAGGTAC AAATGACCTC TCCGAGCAGC ACTGGCAGTC CCATGTTTAA ATTTTCATCT
    CCAATCGTAA AATCTACTGA GGCAAATGTA CTACCTCCAT CATCTATTGG ATTTACATTT
    AGTGTGCCTG TTGCAAAAAC AGCAGAACTT TCTGGTTCTA GTAGTACTTT AGAACCAATT
    ATAAGTAGTT CAGCTCATCA TGTCACTACA GTGAACAGTA CAAATTGTAA GAAGACACCA
    CCTGAAGATT GTGAGGGTCC TTTTAGACCT GCAGAAATCC TGAAAGAAGG AAGTGTTCTA
    GATATTCTGA AAAGCCCTGG TTTCGCATCG CCGAAGATAG ATTCTGTTGC TGCTCAGCCC
    ACCGCAACAA GCCCAGTAGT TTATACAAGA CCAGCAATAA GTAGCTTTTC TTCTAGTGGA
    ATTGGGTTTG GGGAGAGTTT AAAAGCTGGG TCATCATGGC AGTGTGATAC ATGTCTACTC
    CAGAACAAAG TTACAGACAA CAAATGCATA GCCTGTCAAG CAGCAAAATT GTCACCCAGA
    GATACTGCTA AACAGACTGG AATTGAAACA CCAAATAAAA GTGGCAAAAC AACTCTTTCT
    GCATCAGGGA CAGGCTTTGG AGACAAATTT AAACCAGTGA TAGGCACTTG GGATTGTGAT
    ACCTGTTTAG TGCAAAATAA ACCTGAAGCA ATAAAATGTG TAGCCTGTGA AACACCGAAA
    CCTGGAACTT GTGTGAAGCG AGCCCTTACA TTGACAGTGG TTTCGGAAAG TGCTGAGACT
    ATGACTGCTT CATCTTCCAG CTGCACTGTA ACCACTGGTA CCTTAGGATT TGGAGATAAA
    TTCAAAAGGC CCATTGGATC TTGGGAGTGT TCAGTATGCT GTGTTTCTAA TAATGCAGAA
    GACAATAAGT GTGTGTCCTG TATGTCTGAG AAACCAGGAA GTTCAGTACC TGCTTCAAGT
    AGCAGCACTG TACCTGTCTC TCTGCCTTCT GGAGGCTCTC TAGGATTGGA AAAGTTCAAG
    AAACCCGAGG GAAGCTGGGA CTGTGAATTG TGCCTAGTGC AGAATAAGGC AGACTCTACC
    AAATGTTTGG CATGTGAAAG TGCAAAGCCA GGCACAAAAT CTGGGTTTAA AGGCTTTGAC
    ACATCTTCCT CATCTTCGAA CTCAGCAGCC TCCTCATCCT TCAAATTTGG TGTCTCATCA
    TCCTCTTCTG GGCCTTCTCA GACTTTAACA AGCACTGGAA ATTTTAAATT TGGAGATCAG
    GGAGGATTCA AAATAGGTGT GTCATCCGAT TCTGGGTCTA TAAACCCCAT GAGTGAAGGC
    TTTAAATTTT CTAAACCAAT AGGAGATTTT AAATTTGGAG TTTCATCTGA ATCTAAGCCC
    GAAGAAGTTA AAAAAGATAG TAAGAATGAT AATTTTAAGT TTGGACTTTC TTCTGGTTTA
    AGCAACCCAG TTTCTTTAAC TCCATTTCAA TTTGGGGTAT CTAATCTTGG ACAGGAAGAA
    AAGAAAGAGG AACTGCCCAA ATCTTCCTCT GCAGGTTTTA GCTTTGGTAC AGGTGTTATT
    AACTCCACCC CTGCTCCTGC TAACACCATA GTGACCTCTG AGAACAAGAG CAGCTTCAAC
    CTTGGAACCA TAGAAACCAA GAGTGCTTCA GTGGCTCCTT TCACATGTAA GACATCAGAA
    GCTAAAAAAG AAGAAATGCC TGCCACCAAA GGAGGATTCT CTTTTGGCAA CGTGGAGCCT
    GCCTCTCTGC CATCTGCCTC AGTGTTTGTT TTGGGAAGGA CAGAAGAGAA ACAGCAAGAG
    CCTGTCACTT CTACTTCCCT AGTTTTTGGG AAGAAAGCTG ACAATGAAGA GCCAAAGTGT
    CAACCAGTGT TTTCCTTTGG GAATTCAGAG CAAACCAAAG ATGAGAATTC TTCAAAGTCC
    ACATTTAGTT TTAGTATGAC AAAACCATCT GAGAAGGAAT CTGAACAGCC AGCAAAAGCC
    ACTTTTGCCT TTGGAGCTCA AACTAGTACT ACAGCTGATC AAGGTGCAGC AAAGCCAGTT
    TTTAGTTTCT TGAACAACAG TTCCTCTAGT TCAAGTACAC CAGCCACTTC TGCTGGTGGT
    GGCATATTTG GTAGTTCCAC CTCTTCCTCC AATCCACCTG TGGCTACCTT TGTGTTTGGA
    CAGTCCAGCA ATCCTGTGAG CAGCTCTGCC TTTGGTAACA CTGCTGAATC CAGCACCTCT
    CAGTCTTTGC TATTTTCTCA AGATAGCAAA CTAGCAACCA CATCCAGCAC AGGTACAGCT
    GTCACCCCAT TTGTCTTTGG TCCAGGAGCC AGCAGTAATA ATACTACCAC CTCTGGTTTC
    GGCTTTGGAG CCACAACCAC ATCTAGCTCT GCAGGATCCT CCTTTGTATT TGGAACTGGA
    CCCTCAGCAC CATCTGCCAG TCCAGCATTT GGTGCTAACC AGACCCCAAC ATTTGGACAA
    AGTCAAGGTG CCAGCCAGCC CAATCCCCCA GGCTTTGGAT CTATATCATC TTCCACAGCA
    TTATTTCCCA CTGGTTCTCA GCCTGCACCA CCTACTTTTG GGACAGTGTC AAGCAGTAGC
    CAGCCCCCTG TGTTTGGACA GCAACCTAGT CAGTCTGCAT TTGGCTCTGG AACAACTCCT
    AATTCTAGTT CGGCTTTCCA GTTTGGCAGC AGCACTACAA ATTTCAACTT CACAAACAAC
    AGTCCATCAG GAGTGTTCAC ATTTGGTGCA AATTCTAGCA CACCTGCAGC CTCAGCCCAG
    CCTTCAGGCT CGGGGGGCTT TCCATTTAAC CAGTCTCCAG CAGCATTTAC AGTGGGGTCA
    AATGGGAAAA ATGTGTTCTC TTCTTCTGGA ACTTCATTCT CTGGTCGCAA GATAAAGACT
    GCTGTTAGAC GCAGGAAATA A

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

    CloneID OHu40560
    Clone ID Related Accession (Same CDS sequence) XM_006715291.3 , XM_006715291.4
    Accession Version XM_006715291.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2520bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006715291.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGTTGTC ACTTGGTGAT GGTGCCACTG TGCTTTTATT TTCCCCCTTT AAGACCATGA

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

    RefSeq XP_006715354.1
    CDS403..2922
    Translation

    Target ORF information:

    RefSeq Version XM_006715291.3
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006715291.3

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGTTGTC ACTTGGTGAT GGTGCCACTG TGCTTTTATT TTCCCCCTTT AAGACCATGA

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

    CloneID OHu40560
    Clone ID Related Accession (Same CDS sequence) XM_006715291.3 , XM_006715291.4
    Accession Version XM_006715291.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2520bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006715291.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGTTGTC ACTTGGTGAT GGTGCCACTG TGCTTTTATT TTCCCCCTTT AAGACCATGA

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

    RefSeq XP_006715354.1
    CDS39..2558
    Translation

    Target ORF information:

    RefSeq Version XM_006715291.4
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006715291.4

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGTTGTC ACTTGGTGAT GGTGCCACTG TGCTTTTATT TTCCCCCTTT AAGACCATGA

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

    CloneID OHu96960
    Clone ID Related Accession (Same CDS sequence) XM_017011594.1 , XM_017011594.2
    Accession Version XM_017011594.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGTGAA CAGTACAAAT
    TGTAAGAAGA CACCACCTGA AGATTGTGAG GGTCCTTTTA GACCTGCAGA AATCCTGAAA
    GAAGGAAGTG TTCTAGATAT TCTGAAAAGC CCTGGTTTCG CATCGCCGAA GATAGATTCT
    GTTGCTGCTC AGCCCACCGC AACAAGCCCA GTAGTTTATA CAAGACCAGC AATAAGTAGC
    TTTTCTTCTA GTGGAATTGG GTTTGGGGAG AGTTTAAAAG CTGGGTCATC ATGGCAGTGT
    GATACATGTC TACTCCAGAA CAAAGTTACA GACAACAAAT GCATAGCCTG TCAAGCAGCA
    AAATTGTCAC CCAGAGATAC TGCTAAACAG ACTGGAATTG AAACACCAAA TAAAAGTGGC
    AAAACAACTC TTTCTGCATC AGGGACAGGC TTTGGAGACA AATTTAAACC AGTGATAGGC
    ACTTGGGATT GTGATACCTG TTTAGTGCAA AATAAACCTG AAGCAATAAA ATGTGTAGCC
    TGTGAAACAC CGAAACCTGG AACTTGTGTG AAGCGAGCCC TTACATTGAC AGTGGTTTCG
    GAAAGTGCTG AGACTATGAC TGCTTCATCT TCCAGCTGCA CTGTAACCAC TGGTACCTTA
    GGATTTGGAG ATAAATTCAA AAGGCCCATT GGATCTTGGG AGTGTTCAGT ATGCTGTGTT
    TCTAATAATG CAGAAGACAA TAAGTGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA
    GTACCTGCTT CAAGTAGCAG CACTGTACCT GTCTCTCTGC CTTCTGGAGG CTCTCTAGGA
    TTGGAAAAGT TCAAGAAACC CGAGGGAAGC TGGGACTGTG AATTGTGCCT AGTGCAGAAT
    AAGGCAGACT CTACCAAATG TTTGGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGGG
    TTTAAAGGCT TTGACACATC TTCCTCATCT TCGAACTCAG CAGCCTCCTC ATCCTTCAAA
    TTTGGTGTCT CATCATCCTC TTCTGGGCCT TCTCAGACTT TAACAAGCAC TGGAAATTTT
    AAATTTGGAG ATCAGGGAGG ATTCAAAATA GGTGTGTCAT CCGATTCTGG GTCTATAAAC
    CCCATGAGTG AAGGCTTTAA ATTTTCTAAA CCAATAGGAG ATTTTAAATT TGGAGTTTCA
    TCTGAATCTA AGCCCGAAGA AGTTAAAAAA GATAGTAAGA ATGATAATTT TAAGTTTGGA
    CTTTCTTCTG GTTTAAGCAA CCCAGTTTCT TTAACTCCAT TTCAATTTGG GGTATCTAAT
    CTTGGACAGG AAGAAAAGAA AGAGGAACTG CCCAAATCTT CCTCTGCAGG TTTTAGCTTT
    GGTACAGGTG TTATTAACTC CACCCCTGCT CCTGCTAACA CCATAGTGAC CTCTGAGAAC
    AAGAGCAGCT TCAACCTTGG AACCATAGAA ACCAAGAGTG CTTCAGTGGC TCCTTTCACA
    TGTAAGACAT CAGAAGCTAA AAAAGAAGAA ATGCCTGCCA CCAAAGGAGG ATTCTCTTTT
    GGCAACGTGG AGCCTGCCTC TCTGCCATCT GCCTCAGTGT TTGTTTTGGG AAGGACAGAA
    GAGAAACAGC AAGAGCCTGT CACTTCTACT TCCCTAGTTT TTGGGAAGAA AGCTGACAAT
    GAAGAGCCAA AGTGTCAACC AGTGTTTTCC TTTGGGAATT CAGAGCAAAC CAAAGATGAG
    AATTCTTCAA AGTCCACATT TAGTTTTAGT ATGACAAAAC CATCTGAGAA GGAATCTGAA
    CAGCCAGCAA AAGCCACTTT TGCCTTTGGA GCTCAAACTA GTACTACAGC TGATCAAGGT
    GCAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAGTTCAAG TACACCAGCC
    ACTTCTGCTG GTGGTGGCAT ATTTGGTAGT TCCACCTCTT CCTCCAATCC ACCTGTGGCT
    ACCTTTGTGT TTGGACAGTC CAGCAATCCT GTGAGCAGCT CTGCCTTTGG TAACACTGCT
    GAATCCAGCA CCTCTCAGTC TTTGCTATTT TCTCAAGATA GCAAACTAGC AACCACATCC
    AGCACAGGTA CAGCTGTCAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAATAATACT
    ACCACCTCTG GTTTCGGCTT TGGAGCCACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT
    GTATTTGGAA CTGGACCCTC AGCACCATCT GCCAGTCCAG CATTTGGTGC TAACCAGACC
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCCCAATC CCCCAGGCTT TGGATCTATA
    TCATCTTCCA CAGCATTATT TCCCACTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA
    GTGTCAAGCA GTAGCCAGCC CCCTGTGTTT GGACAGCAAC CTAGTCAGTC TGCATTTGGC
    TCTGGAACAA CTCCTAATTC TAGTTCGGCT TTCCAGTTTG GCAGCAGCAC TACAAATTTC
    AACTTCACAA ACAACAGTCC ATCAGGAGTG TTCACATTTG GTGCAAATTC TAGCACACCT
    GCAGCCTCAG CCCAGCCTTC AGGCTCGGGG GGCTTTCCAT TTAACCAGTC TCCAGCAGCA
    TTTACAGTGG GGTCAAATGG GAAAAATGTG TTCTCTTCTT CTGGAACTTC ATTCTCTGGT
    CGCAAGATAA AGACTGCTGT TAGACGCAGG AAATAA

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

    RefSeq XP_016867083.1
    CDS350..4705
    Translation

    Target ORF information:

    RefSeq Version XM_017011594.1
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017011594.1

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGTGAA CAGTACAAAT
    TGTAAGAAGA CACCACCTGA AGATTGTGAG GGTCCTTTTA GACCTGCAGA AATCCTGAAA
    GAAGGAAGTG TTCTAGATAT TCTGAAAAGC CCTGGTTTCG CATCGCCGAA GATAGATTCT
    GTTGCTGCTC AGCCCACCGC AACAAGCCCA GTAGTTTATA CAAGACCAGC AATAAGTAGC
    TTTTCTTCTA GTGGAATTGG GTTTGGGGAG AGTTTAAAAG CTGGGTCATC ATGGCAGTGT
    GATACATGTC TACTCCAGAA CAAAGTTACA GACAACAAAT GCATAGCCTG TCAAGCAGCA
    AAATTGTCAC CCAGAGATAC TGCTAAACAG ACTGGAATTG AAACACCAAA TAAAAGTGGC
    AAAACAACTC TTTCTGCATC AGGGACAGGC TTTGGAGACA AATTTAAACC AGTGATAGGC
    ACTTGGGATT GTGATACCTG TTTAGTGCAA AATAAACCTG AAGCAATAAA ATGTGTAGCC
    TGTGAAACAC CGAAACCTGG AACTTGTGTG AAGCGAGCCC TTACATTGAC AGTGGTTTCG
    GAAAGTGCTG AGACTATGAC TGCTTCATCT TCCAGCTGCA CTGTAACCAC TGGTACCTTA
    GGATTTGGAG ATAAATTCAA AAGGCCCATT GGATCTTGGG AGTGTTCAGT ATGCTGTGTT
    TCTAATAATG CAGAAGACAA TAAGTGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA
    GTACCTGCTT CAAGTAGCAG CACTGTACCT GTCTCTCTGC CTTCTGGAGG CTCTCTAGGA
    TTGGAAAAGT TCAAGAAACC CGAGGGAAGC TGGGACTGTG AATTGTGCCT AGTGCAGAAT
    AAGGCAGACT CTACCAAATG TTTGGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGGG
    TTTAAAGGCT TTGACACATC TTCCTCATCT TCGAACTCAG CAGCCTCCTC ATCCTTCAAA
    TTTGGTGTCT CATCATCCTC TTCTGGGCCT TCTCAGACTT TAACAAGCAC TGGAAATTTT
    AAATTTGGAG ATCAGGGAGG ATTCAAAATA GGTGTGTCAT CCGATTCTGG GTCTATAAAC
    CCCATGAGTG AAGGCTTTAA ATTTTCTAAA CCAATAGGAG ATTTTAAATT TGGAGTTTCA
    TCTGAATCTA AGCCCGAAGA AGTTAAAAAA GATAGTAAGA ATGATAATTT TAAGTTTGGA
    CTTTCTTCTG GTTTAAGCAA CCCAGTTTCT TTAACTCCAT TTCAATTTGG GGTATCTAAT
    CTTGGACAGG AAGAAAAGAA AGAGGAACTG CCCAAATCTT CCTCTGCAGG TTTTAGCTTT
    GGTACAGGTG TTATTAACTC CACCCCTGCT CCTGCTAACA CCATAGTGAC CTCTGAGAAC
    AAGAGCAGCT TCAACCTTGG AACCATAGAA ACCAAGAGTG CTTCAGTGGC TCCTTTCACA
    TGTAAGACAT CAGAAGCTAA AAAAGAAGAA ATGCCTGCCA CCAAAGGAGG ATTCTCTTTT
    GGCAACGTGG AGCCTGCCTC TCTGCCATCT GCCTCAGTGT TTGTTTTGGG AAGGACAGAA
    GAGAAACAGC AAGAGCCTGT CACTTCTACT TCCCTAGTTT TTGGGAAGAA AGCTGACAAT
    GAAGAGCCAA AGTGTCAACC AGTGTTTTCC TTTGGGAATT CAGAGCAAAC CAAAGATGAG
    AATTCTTCAA AGTCCACATT TAGTTTTAGT ATGACAAAAC CATCTGAGAA GGAATCTGAA
    CAGCCAGCAA AAGCCACTTT TGCCTTTGGA GCTCAAACTA GTACTACAGC TGATCAAGGT
    GCAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAGTTCAAG TACACCAGCC
    ACTTCTGCTG GTGGTGGCAT ATTTGGTAGT TCCACCTCTT CCTCCAATCC ACCTGTGGCT
    ACCTTTGTGT TTGGACAGTC CAGCAATCCT GTGAGCAGCT CTGCCTTTGG TAACACTGCT
    GAATCCAGCA CCTCTCAGTC TTTGCTATTT TCTCAAGATA GCAAACTAGC AACCACATCC
    AGCACAGGTA CAGCTGTCAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAATAATACT
    ACCACCTCTG GTTTCGGCTT TGGAGCCACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT
    GTATTTGGAA CTGGACCCTC AGCACCATCT GCCAGTCCAG CATTTGGTGC TAACCAGACC
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCCCAATC CCCCAGGCTT TGGATCTATA
    TCATCTTCCA CAGCATTATT TCCCACTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA
    GTGTCAAGCA GTAGCCAGCC CCCTGTGTTT GGACAGCAAC CTAGTCAGTC TGCATTTGGC
    TCTGGAACAA CTCCTAATTC TAGTTCGGCT TTCCAGTTTG GCAGCAGCAC TACAAATTTC
    AACTTCACAA ACAACAGTCC ATCAGGAGTG TTCACATTTG GTGCAAATTC TAGCACACCT
    GCAGCCTCAG CCCAGCCTTC AGGCTCGGGG GGCTTTCCAT TTAACCAGTC TCCAGCAGCA
    TTTACAGTGG GGTCAAATGG GAAAAATGTG TTCTCTTCTT CTGGAACTTC ATTCTCTGGT
    CGCAAGATAA AGACTGCTGT TAGACGCAGG AAATAA

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

    CloneID OHu96960
    Clone ID Related Accession (Same CDS sequence) XM_017011594.1 , XM_017011594.2
    Accession Version XM_017011594.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017011594.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGTGAA CAGTACAAAT
    TGTAAGAAGA CACCACCTGA AGATTGTGAG GGTCCTTTTA GACCTGCAGA AATCCTGAAA
    GAAGGAAGTG TTCTAGATAT TCTGAAAAGC CCTGGTTTCG CATCGCCGAA GATAGATTCT
    GTTGCTGCTC AGCCCACCGC AACAAGCCCA GTAGTTTATA CAAGACCAGC AATAAGTAGC
    TTTTCTTCTA GTGGAATTGG GTTTGGGGAG AGTTTAAAAG CTGGGTCATC ATGGCAGTGT
    GATACATGTC TACTCCAGAA CAAAGTTACA GACAACAAAT GCATAGCCTG TCAAGCAGCA
    AAATTGTCAC CCAGAGATAC TGCTAAACAG ACTGGAATTG AAACACCAAA TAAAAGTGGC
    AAAACAACTC TTTCTGCATC AGGGACAGGC TTTGGAGACA AATTTAAACC AGTGATAGGC
    ACTTGGGATT GTGATACCTG TTTAGTGCAA AATAAACCTG AAGCAATAAA ATGTGTAGCC
    TGTGAAACAC CGAAACCTGG AACTTGTGTG AAGCGAGCCC TTACATTGAC AGTGGTTTCG
    GAAAGTGCTG AGACTATGAC TGCTTCATCT TCCAGCTGCA CTGTAACCAC TGGTACCTTA
    GGATTTGGAG ATAAATTCAA AAGGCCCATT GGATCTTGGG AGTGTTCAGT ATGCTGTGTT
    TCTAATAATG CAGAAGACAA TAAGTGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA
    GTACCTGCTT CAAGTAGCAG CACTGTACCT GTCTCTCTGC CTTCTGGAGG CTCTCTAGGA
    TTGGAAAAGT TCAAGAAACC CGAGGGAAGC TGGGACTGTG AATTGTGCCT AGTGCAGAAT
    AAGGCAGACT CTACCAAATG TTTGGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGGG
    TTTAAAGGCT TTGACACATC TTCCTCATCT TCGAACTCAG CAGCCTCCTC ATCCTTCAAA
    TTTGGTGTCT CATCATCCTC TTCTGGGCCT TCTCAGACTT TAACAAGCAC TGGAAATTTT
    AAATTTGGAG ATCAGGGAGG ATTCAAAATA GGTGTGTCAT CCGATTCTGG GTCTATAAAC
    CCCATGAGTG AAGGCTTTAA ATTTTCTAAA CCAATAGGAG ATTTTAAATT TGGAGTTTCA
    TCTGAATCTA AGCCCGAAGA AGTTAAAAAA GATAGTAAGA ATGATAATTT TAAGTTTGGA
    CTTTCTTCTG GTTTAAGCAA CCCAGTTTCT TTAACTCCAT TTCAATTTGG GGTATCTAAT
    CTTGGACAGG AAGAAAAGAA AGAGGAACTG CCCAAATCTT CCTCTGCAGG TTTTAGCTTT
    GGTACAGGTG TTATTAACTC CACCCCTGCT CCTGCTAACA CCATAGTGAC CTCTGAGAAC
    AAGAGCAGCT TCAACCTTGG AACCATAGAA ACCAAGAGTG CTTCAGTGGC TCCTTTCACA
    TGTAAGACAT CAGAAGCTAA AAAAGAAGAA ATGCCTGCCA CCAAAGGAGG ATTCTCTTTT
    GGCAACGTGG AGCCTGCCTC TCTGCCATCT GCCTCAGTGT TTGTTTTGGG AAGGACAGAA
    GAGAAACAGC AAGAGCCTGT CACTTCTACT TCCCTAGTTT TTGGGAAGAA AGCTGACAAT
    GAAGAGCCAA AGTGTCAACC AGTGTTTTCC TTTGGGAATT CAGAGCAAAC CAAAGATGAG
    AATTCTTCAA AGTCCACATT TAGTTTTAGT ATGACAAAAC CATCTGAGAA GGAATCTGAA
    CAGCCAGCAA AAGCCACTTT TGCCTTTGGA GCTCAAACTA GTACTACAGC TGATCAAGGT
    GCAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAGTTCAAG TACACCAGCC
    ACTTCTGCTG GTGGTGGCAT ATTTGGTAGT TCCACCTCTT CCTCCAATCC ACCTGTGGCT
    ACCTTTGTGT TTGGACAGTC CAGCAATCCT GTGAGCAGCT CTGCCTTTGG TAACACTGCT
    GAATCCAGCA CCTCTCAGTC TTTGCTATTT TCTCAAGATA GCAAACTAGC AACCACATCC
    AGCACAGGTA CAGCTGTCAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAATAATACT
    ACCACCTCTG GTTTCGGCTT TGGAGCCACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT
    GTATTTGGAA CTGGACCCTC AGCACCATCT GCCAGTCCAG CATTTGGTGC TAACCAGACC
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCCCAATC CCCCAGGCTT TGGATCTATA
    TCATCTTCCA CAGCATTATT TCCCACTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA
    GTGTCAAGCA GTAGCCAGCC CCCTGTGTTT GGACAGCAAC CTAGTCAGTC TGCATTTGGC
    TCTGGAACAA CTCCTAATTC TAGTTCGGCT TTCCAGTTTG GCAGCAGCAC TACAAATTTC
    AACTTCACAA ACAACAGTCC ATCAGGAGTG TTCACATTTG GTGCAAATTC TAGCACACCT
    GCAGCCTCAG CCCAGCCTTC AGGCTCGGGG GGCTTTCCAT TTAACCAGTC TCCAGCAGCA
    TTTACAGTGG GGTCAAATGG GAAAAATGTG TTCTCTTCTT CTGGAACTTC ATTCTCTGGT
    CGCAAGATAA AGACTGCTGT TAGACGCAGG AAATAA

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

    RefSeq XP_016867083.1
    CDS39..4394
    Translation

    Target ORF information:

    RefSeq Version XM_017011594.2
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017011594.2

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGTGAA CAGTACAAAT
    TGTAAGAAGA CACCACCTGA AGATTGTGAG GGTCCTTTTA GACCTGCAGA AATCCTGAAA
    GAAGGAAGTG TTCTAGATAT TCTGAAAAGC CCTGGTTTCG CATCGCCGAA GATAGATTCT
    GTTGCTGCTC AGCCCACCGC AACAAGCCCA GTAGTTTATA CAAGACCAGC AATAAGTAGC
    TTTTCTTCTA GTGGAATTGG GTTTGGGGAG AGTTTAAAAG CTGGGTCATC ATGGCAGTGT
    GATACATGTC TACTCCAGAA CAAAGTTACA GACAACAAAT GCATAGCCTG TCAAGCAGCA
    AAATTGTCAC CCAGAGATAC TGCTAAACAG ACTGGAATTG AAACACCAAA TAAAAGTGGC
    AAAACAACTC TTTCTGCATC AGGGACAGGC TTTGGAGACA AATTTAAACC AGTGATAGGC
    ACTTGGGATT GTGATACCTG TTTAGTGCAA AATAAACCTG AAGCAATAAA ATGTGTAGCC
    TGTGAAACAC CGAAACCTGG AACTTGTGTG AAGCGAGCCC TTACATTGAC AGTGGTTTCG
    GAAAGTGCTG AGACTATGAC TGCTTCATCT TCCAGCTGCA CTGTAACCAC TGGTACCTTA
    GGATTTGGAG ATAAATTCAA AAGGCCCATT GGATCTTGGG AGTGTTCAGT ATGCTGTGTT
    TCTAATAATG CAGAAGACAA TAAGTGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA
    GTACCTGCTT CAAGTAGCAG CACTGTACCT GTCTCTCTGC CTTCTGGAGG CTCTCTAGGA
    TTGGAAAAGT TCAAGAAACC CGAGGGAAGC TGGGACTGTG AATTGTGCCT AGTGCAGAAT
    AAGGCAGACT CTACCAAATG TTTGGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGGG
    TTTAAAGGCT TTGACACATC TTCCTCATCT TCGAACTCAG CAGCCTCCTC ATCCTTCAAA
    TTTGGTGTCT CATCATCCTC TTCTGGGCCT TCTCAGACTT TAACAAGCAC TGGAAATTTT
    AAATTTGGAG ATCAGGGAGG ATTCAAAATA GGTGTGTCAT CCGATTCTGG GTCTATAAAC
    CCCATGAGTG AAGGCTTTAA ATTTTCTAAA CCAATAGGAG ATTTTAAATT TGGAGTTTCA
    TCTGAATCTA AGCCCGAAGA AGTTAAAAAA GATAGTAAGA ATGATAATTT TAAGTTTGGA
    CTTTCTTCTG GTTTAAGCAA CCCAGTTTCT TTAACTCCAT TTCAATTTGG GGTATCTAAT
    CTTGGACAGG AAGAAAAGAA AGAGGAACTG CCCAAATCTT CCTCTGCAGG TTTTAGCTTT
    GGTACAGGTG TTATTAACTC CACCCCTGCT CCTGCTAACA CCATAGTGAC CTCTGAGAAC
    AAGAGCAGCT TCAACCTTGG AACCATAGAA ACCAAGAGTG CTTCAGTGGC TCCTTTCACA
    TGTAAGACAT CAGAAGCTAA AAAAGAAGAA ATGCCTGCCA CCAAAGGAGG ATTCTCTTTT
    GGCAACGTGG AGCCTGCCTC TCTGCCATCT GCCTCAGTGT TTGTTTTGGG AAGGACAGAA
    GAGAAACAGC AAGAGCCTGT CACTTCTACT TCCCTAGTTT TTGGGAAGAA AGCTGACAAT
    GAAGAGCCAA AGTGTCAACC AGTGTTTTCC TTTGGGAATT CAGAGCAAAC CAAAGATGAG
    AATTCTTCAA AGTCCACATT TAGTTTTAGT ATGACAAAAC CATCTGAGAA GGAATCTGAA
    CAGCCAGCAA AAGCCACTTT TGCCTTTGGA GCTCAAACTA GTACTACAGC TGATCAAGGT
    GCAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAGTTCAAG TACACCAGCC
    ACTTCTGCTG GTGGTGGCAT ATTTGGTAGT TCCACCTCTT CCTCCAATCC ACCTGTGGCT
    ACCTTTGTGT TTGGACAGTC CAGCAATCCT GTGAGCAGCT CTGCCTTTGG TAACACTGCT
    GAATCCAGCA CCTCTCAGTC TTTGCTATTT TCTCAAGATA GCAAACTAGC AACCACATCC
    AGCACAGGTA CAGCTGTCAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAATAATACT
    ACCACCTCTG GTTTCGGCTT TGGAGCCACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT
    GTATTTGGAA CTGGACCCTC AGCACCATCT GCCAGTCCAG CATTTGGTGC TAACCAGACC
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCCCAATC CCCCAGGCTT TGGATCTATA
    TCATCTTCCA CAGCATTATT TCCCACTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA
    GTGTCAAGCA GTAGCCAGCC CCCTGTGTTT GGACAGCAAC CTAGTCAGTC TGCATTTGGC
    TCTGGAACAA CTCCTAATTC TAGTTCGGCT TTCCAGTTTG GCAGCAGCAC TACAAATTTC
    AACTTCACAA ACAACAGTCC ATCAGGAGTG TTCACATTTG GTGCAAATTC TAGCACACCT
    GCAGCCTCAG CCCAGCCTTC AGGCTCGGGG GGCTTTCCAT TTAACCAGTC TCCAGCAGCA
    TTTACAGTGG GGTCAAATGG GAAAAATGTG TTCTCTTCTT CTGGAACTTC ATTCTCTGGT
    CGCAAGATAA AGACTGCTGT TAGACGCAGG AAATAA

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

    CloneID OHu26475
    Clone ID Related Accession (Same CDS sequence) NM_001278210.1
    Accession Version NM_001278210.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
    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 2019-12-09
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB210024.1, DA856239.1, AL597150.1, AI948895.1 and CB217525.1. Transcript Variant: This variant (3) lacks two alternate in-frame exons in the 5' coding region compared to variant 1. It encodes isoform 3 which is shorter than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB210024.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG GTTTCGCATC GCCGAAGATA
    GATTCTGTTG CTGCTCAGCC CACCGCAACA AGCCCAGTAG TTTATACAAG ACCAGCAATA
    AGTAGCTTTT CTTCTAGTGG AATTGGGTTT GGGGAGAGTT TAAAAGCTGG GTCATCATGG
    CAGTGTGATA CATGTCTACT CCAGAACAAA GTTACAGACA ACAAATGCAT AGCCTGTCAA
    GCAGCAAAAT TGTCACCCAG AGATACTGCT AAACAGACTG GAATTGAAAC ACCAAATAAA
    AGTGGCAAAA CAACTCTTTC TGCATCAGGG ACAGGCTTTG GAGACAAATT TAAACCAGTG
    ATAGGCACTT GGGATTGTGA TACCTGTTTA GTGCAAAATA AACCTGAAGC AATAAAATGT
    GTAGCCTGTG AAACACCGAA ACCTGGAACT TGTGTGAAGC GAGCCCTTAC ATTGACAGTG
    GTTTCGGAAA GTGCTGAGAC TATGACTGCT TCATCTTCCA GCTGCACTGT AACCACTGGT
    ACCTTAGGAT TTGGAGATAA ATTCAAAAGG CCCATTGGAT CTTGGGAGTG TTCAGTATGC
    TGTGTTTCTA ATAATGCAGA AGACAATAAG TGTGTGTCCT GTATGTCTGA GAAACCAGGA
    AGTTCAGTAC CTGCTTCAAG TAGCAGCACT GTACCTGTCT CTCTGCCTTC TGGAGGCTCT
    CTAGGATTGG AAAAGTTCAA GAAACCCGAG GGAAGCTGGG ACTGTGAATT GTGCCTAGTG
    CAGAATAAGG CAGACTCTAC CAAATGTTTG GCATGTGAAA GTGCAAAGCC AGGCACAAAA
    TCTGGGTTTA AAGGCTTTGA CACATCTTCC TCATCTTCGA ACTCAGCAGC CTCCTCATCC
    TTCAAATTTG GTGTCTCATC ATCCTCTTCT GGGCCTTCTC AGACTTTAAC AAGCACTGGA
    AATTTTAAAT TTGGAGATCA GGGAGGATTC AAAATAGGTG TGTCATCCGA TTCTGGGTCT
    ATAAACCCCA TGAGTGAAGG CTTTAAATTT TCTAAACCAA TAGGAGATTT TAAATTTGGA
    GTTTCATCTG AATCTAAGCC CGAAGAAGTT AAAAAAGATA GTAAGAATGA TAATTTTAAG
    TTTGGACTTT CTTCTGGTTT AAGCAACCCA GTTTCTTTAA CTCCATTTCA ATTTGGGGTA
    TCTAATCTTG GACAGGAAGA AAAGAAAGAG GAACTGCCCA AATCTTCCTC TGCAGGTTTT
    AGCTTTGGTA CAGGTGTTAT TAACTCCACC CCTGCTCCTG CTAACACCAT AGTGACCTCT
    GAGAACAAGA GCAGCTTCAA CCTTGGAACC ATAGAAACCA AGAGTGCTTC AGTGGCTCCT
    TTCACATGTA AGACATCAGA AGCTAAAAAA GAAGAAATGC CTGCCACCAA AGGAGGATTC
    TCTTTTGGCA ACGTGGAGCC TGCCTCTCTG CCATCTGCCT CAGTGTTTGT TTTGGGAAGG
    ACAGAAGAGA AACAGCAAGA GCCTGTCACT TCTACTTCCC TAGTTTTTGG GAAGAAAGCT
    GACAATGAAG AGCCAAAGTG TCAACCAGTG TTTTCCTTTG GGAATTCAGA GCAAACCAAA
    GATGAGAATT CTTCAAAGTC CACATTTAGT TTTAGTATGA CAAAACCATC TGAGAAGGAA
    TCTGAACAGC CAGCAAAAGC CACTTTTGCC TTTGGAGCTC AAACTAGTAC TACAGCTGAT
    CAAGGTGCAG CAAAGCCAGT TTTTAGTTTC TTGAACAACA GTTCCTCTAG TTCAAGTACA
    CCAGCCACTT CTGCTGGTGG TGGCATATTT GGTAGTTCCA CCTCTTCCTC CAATCCACCT
    GTGGCTACCT TTGTGTTTGG ACAGTCCAGC AATCCTGTGA GCAGCTCTGC CTTTGGTAAC
    ACTGCTGAAT CCAGCACCTC TCAGTCTTTG CTATTTTCTC AAGATAGCAA ACTAGCAACC
    ACATCCAGCA CAGGTACAGC TGTCACCCCA TTTGTCTTTG GTCCAGGAGC CAGCAGTAAT
    AATACTACCA CCTCTGGTTT CGGCTTTGGA GCCACAACCA CATCTAGCTC TGCAGGATCC
    TCCTTTGTAT TTGGAACTGG ACCCTCAGCA CCATCTGCCA GTCCAGCATT TGGTGCTAAC
    CAGACCCCAA CATTTGGACA AAGTCAAGGT GCCAGCCAGC CCAATCCCCC AGGCTTTGGA
    TCTATATCAT CTTCCACAGC ATTATTTCCC ACTGGTTCTC AGCCTGCACC ACCTACTTTT
    GGGACAGTGT CAAGCAGTAG CCAGCCCCCT GTGTTTGGAC AGCAACCTAG TCAGTCTGCA
    TTTGGCTCTG GAACAACTCC TAATTCTAGT TCGGCTTTCC AGTTTGGCAG CAGCACTACA
    AATTTCAACT TCACAAACAA CAGTCCATCA GGAGTGTTCA CATTTGGTGC AAATTCTAGC
    ACACCTGCAG CCTCAGCCCA GCCTTCAGGC TCGGGGGGCT TTCCATTTAA CCAGTCTCCA
    GCAGCATTTA CAGTGGGGTC AAATGGGAAA AATGTGTTCT CTTCTTCTGG AACTTCATTC
    TCTGGTCGCA AGATAAAGAC TGCTGTTAGA CGCAGGAAAT AA

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

    RefSeq NP_001265139.1
    CDS448..4749
    Translation

    Target ORF information:

    RefSeq Version NM_001278210.1
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001278210.1

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG GTTTCGCATC GCCGAAGATA
    GATTCTGTTG CTGCTCAGCC CACCGCAACA AGCCCAGTAG TTTATACAAG ACCAGCAATA
    AGTAGCTTTT CTTCTAGTGG AATTGGGTTT GGGGAGAGTT TAAAAGCTGG GTCATCATGG
    CAGTGTGATA CATGTCTACT CCAGAACAAA GTTACAGACA ACAAATGCAT AGCCTGTCAA
    GCAGCAAAAT TGTCACCCAG AGATACTGCT AAACAGACTG GAATTGAAAC ACCAAATAAA
    AGTGGCAAAA CAACTCTTTC TGCATCAGGG ACAGGCTTTG GAGACAAATT TAAACCAGTG
    ATAGGCACTT GGGATTGTGA TACCTGTTTA GTGCAAAATA AACCTGAAGC AATAAAATGT
    GTAGCCTGTG AAACACCGAA ACCTGGAACT TGTGTGAAGC GAGCCCTTAC ATTGACAGTG
    GTTTCGGAAA GTGCTGAGAC TATGACTGCT TCATCTTCCA GCTGCACTGT AACCACTGGT
    ACCTTAGGAT TTGGAGATAA ATTCAAAAGG CCCATTGGAT CTTGGGAGTG TTCAGTATGC
    TGTGTTTCTA ATAATGCAGA AGACAATAAG TGTGTGTCCT GTATGTCTGA GAAACCAGGA
    AGTTCAGTAC CTGCTTCAAG TAGCAGCACT GTACCTGTCT CTCTGCCTTC TGGAGGCTCT
    CTAGGATTGG AAAAGTTCAA GAAACCCGAG GGAAGCTGGG ACTGTGAATT GTGCCTAGTG
    CAGAATAAGG CAGACTCTAC CAAATGTTTG GCATGTGAAA GTGCAAAGCC AGGCACAAAA
    TCTGGGTTTA AAGGCTTTGA CACATCTTCC TCATCTTCGA ACTCAGCAGC CTCCTCATCC
    TTCAAATTTG GTGTCTCATC ATCCTCTTCT GGGCCTTCTC AGACTTTAAC AAGCACTGGA
    AATTTTAAAT TTGGAGATCA GGGAGGATTC AAAATAGGTG TGTCATCCGA TTCTGGGTCT
    ATAAACCCCA TGAGTGAAGG CTTTAAATTT TCTAAACCAA TAGGAGATTT TAAATTTGGA
    GTTTCATCTG AATCTAAGCC CGAAGAAGTT AAAAAAGATA GTAAGAATGA TAATTTTAAG
    TTTGGACTTT CTTCTGGTTT AAGCAACCCA GTTTCTTTAA CTCCATTTCA ATTTGGGGTA
    TCTAATCTTG GACAGGAAGA AAAGAAAGAG GAACTGCCCA AATCTTCCTC TGCAGGTTTT
    AGCTTTGGTA CAGGTGTTAT TAACTCCACC CCTGCTCCTG CTAACACCAT AGTGACCTCT
    GAGAACAAGA GCAGCTTCAA CCTTGGAACC ATAGAAACCA AGAGTGCTTC AGTGGCTCCT
    TTCACATGTA AGACATCAGA AGCTAAAAAA GAAGAAATGC CTGCCACCAA AGGAGGATTC
    TCTTTTGGCA ACGTGGAGCC TGCCTCTCTG CCATCTGCCT CAGTGTTTGT TTTGGGAAGG
    ACAGAAGAGA AACAGCAAGA GCCTGTCACT TCTACTTCCC TAGTTTTTGG GAAGAAAGCT
    GACAATGAAG AGCCAAAGTG TCAACCAGTG TTTTCCTTTG GGAATTCAGA GCAAACCAAA
    GATGAGAATT CTTCAAAGTC CACATTTAGT TTTAGTATGA CAAAACCATC TGAGAAGGAA
    TCTGAACAGC CAGCAAAAGC CACTTTTGCC TTTGGAGCTC AAACTAGTAC TACAGCTGAT
    CAAGGTGCAG CAAAGCCAGT TTTTAGTTTC TTGAACAACA GTTCCTCTAG TTCAAGTACA
    CCAGCCACTT CTGCTGGTGG TGGCATATTT GGTAGTTCCA CCTCTTCCTC CAATCCACCT
    GTGGCTACCT TTGTGTTTGG ACAGTCCAGC AATCCTGTGA GCAGCTCTGC CTTTGGTAAC
    ACTGCTGAAT CCAGCACCTC TCAGTCTTTG CTATTTTCTC AAGATAGCAA ACTAGCAACC
    ACATCCAGCA CAGGTACAGC TGTCACCCCA TTTGTCTTTG GTCCAGGAGC CAGCAGTAAT
    AATACTACCA CCTCTGGTTT CGGCTTTGGA GCCACAACCA CATCTAGCTC TGCAGGATCC
    TCCTTTGTAT TTGGAACTGG ACCCTCAGCA CCATCTGCCA GTCCAGCATT TGGTGCTAAC
    CAGACCCCAA CATTTGGACA AAGTCAAGGT GCCAGCCAGC CCAATCCCCC AGGCTTTGGA
    TCTATATCAT CTTCCACAGC ATTATTTCCC ACTGGTTCTC AGCCTGCACC ACCTACTTTT
    GGGACAGTGT CAAGCAGTAG CCAGCCCCCT GTGTTTGGAC AGCAACCTAG TCAGTCTGCA
    TTTGGCTCTG GAACAACTCC TAATTCTAGT TCGGCTTTCC AGTTTGGCAG CAGCACTACA
    AATTTCAACT TCACAAACAA CAGTCCATCA GGAGTGTTCA CATTTGGTGC AAATTCTAGC
    ACACCTGCAG CCTCAGCCCA GCCTTCAGGC TCGGGGGGCT TTCCATTTAA CCAGTCTCCA
    GCAGCATTTA CAGTGGGGTC AAATGGGAAA AATGTGTTCT CTTCTTCTGG AACTTCATTC
    TCTGGTCGCA AGATAAAGAC TGCTGTTAGA CGCAGGAAAT AA

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

    CloneID OHu26520
    Clone ID Related Accession (Same CDS sequence) NM_005124.3 , NM_005124.4
    Accession Version NM_005124.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4428bp)
    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 2019-02-23
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB210024.1, BC052965.1, AL597150.1, AI948895.1 and CB217525.1. On May 18, 2013 this sequence version replaced NM_005124.2. Transcript Variant: This variant (2) lacks an alternate in-frame exon in the 5' coding region compared to variant 1. It encodes isoform 2 which is shorter than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.64284.1, SRR1803614.132286.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGAAGTT CAGTACCTGC TTCAAGTAGC AGCACTGTAC CTGTCTCTCT GCCTTCTGGA
    GGCTCTCTAG GATTGGAAAA GTTCAAGAAA CCCGAGGGAA GCTGGGACTG TGAATTGTGC
    CTAGTGCAGA ATAAGGCAGA CTCTACCAAA TGTTTGGCAT GTGAAAGTGC AAAGCCAGGC
    ACAAAATCTG GGTTTAAAGG CTTTGACACA TCTTCCTCAT CTTCGAACTC AGCAGCCTCC
    TCATCCTTCA AATTTGGTGT CTCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC
    ACTGGAAATT TTAAATTTGG AGATCAGGGA GGATTCAAAA TAGGTGTGTC ATCCGATTCT
    GGGTCTATAA ACCCCATGAG TGAAGGCTTT AAATTTTCTA AACCAATAGG AGATTTTAAA
    TTTGGAGTTT CATCTGAATC TAAGCCCGAA GAAGTTAAAA AAGATAGTAA GAATGATAAT
    TTTAAGTTTG GACTTTCTTC TGGTTTAAGC AACCCAGTTT CTTTAACTCC ATTTCAATTT
    GGGGTATCTA ATCTTGGACA GGAAGAAAAG AAAGAGGAAC TGCCCAAATC TTCCTCTGCA
    GGTTTTAGCT TTGGTACAGG TGTTATTAAC TCCACCCCTG CTCCTGCTAA CACCATAGTG
    ACCTCTGAGA ACAAGAGCAG CTTCAACCTT GGAACCATAG AAACCAAGAG TGCTTCAGTG
    GCTCCTTTCA CATGTAAGAC ATCAGAAGCT AAAAAAGAAG AAATGCCTGC CACCAAAGGA
    GGATTCTCTT TTGGCAACGT GGAGCCTGCC TCTCTGCCAT CTGCCTCAGT GTTTGTTTTG
    GGAAGGACAG AAGAGAAACA GCAAGAGCCT GTCACTTCTA CTTCCCTAGT TTTTGGGAAG
    AAAGCTGACA ATGAAGAGCC AAAGTGTCAA CCAGTGTTTT CCTTTGGGAA TTCAGAGCAA
    ACCAAAGATG AGAATTCTTC AAAGTCCACA TTTAGTTTTA GTATGACAAA ACCATCTGAG
    AAGGAATCTG AACAGCCAGC AAAAGCCACT TTTGCCTTTG GAGCTCAAAC TAGTACTACA
    GCTGATCAAG GTGCAGCAAA GCCAGTTTTT AGTTTCTTGA ACAACAGTTC CTCTAGTTCA
    AGTACACCAG CCACTTCTGC TGGTGGTGGC ATATTTGGTA GTTCCACCTC TTCCTCCAAT
    CCACCTGTGG CTACCTTTGT GTTTGGACAG TCCAGCAATC CTGTGAGCAG CTCTGCCTTT
    GGTAACACTG CTGAATCCAG CACCTCTCAG TCTTTGCTAT TTTCTCAAGA TAGCAAACTA
    GCAACCACAT CCAGCACAGG TACAGCTGTC ACCCCATTTG TCTTTGGTCC AGGAGCCAGC
    AGTAATAATA CTACCACCTC TGGTTTCGGC TTTGGAGCCA CAACCACATC TAGCTCTGCA
    GGATCCTCCT TTGTATTTGG AACTGGACCC TCAGCACCAT CTGCCAGTCC AGCATTTGGT
    GCTAACCAGA CCCCAACATT TGGACAAAGT CAAGGTGCCA GCCAGCCCAA TCCCCCAGGC
    TTTGGATCTA TATCATCTTC CACAGCATTA TTTCCCACTG GTTCTCAGCC TGCACCACCT
    ACTTTTGGGA CAGTGTCAAG CAGTAGCCAG CCCCCTGTGT TTGGACAGCA ACCTAGTCAG
    TCTGCATTTG GCTCTGGAAC AACTCCTAAT TCTAGTTCGG CTTTCCAGTT TGGCAGCAGC
    ACTACAAATT TCAACTTCAC AAACAACAGT CCATCAGGAG TGTTCACATT TGGTGCAAAT
    TCTAGCACAC CTGCAGCCTC AGCCCAGCCT TCAGGCTCGG GGGGCTTTCC ATTTAACCAG
    TCTCCAGCAG CATTTACAGT GGGGTCAAAT GGGAAAAATG TGTTCTCTTC TTCTGGAACT
    TCATTCTCTG GTCGCAAGAT AAAGACTGCT GTTAGACGCA GGAAATAA

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

    RefSeq NP_005115.2
    CDS448..4875
    Translation

    Target ORF information:

    RefSeq Version NM_005124.3
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_005124.3

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGAAGTT CAGTACCTGC TTCAAGTAGC AGCACTGTAC CTGTCTCTCT GCCTTCTGGA
    GGCTCTCTAG GATTGGAAAA GTTCAAGAAA CCCGAGGGAA GCTGGGACTG TGAATTGTGC
    CTAGTGCAGA ATAAGGCAGA CTCTACCAAA TGTTTGGCAT GTGAAAGTGC AAAGCCAGGC
    ACAAAATCTG GGTTTAAAGG CTTTGACACA TCTTCCTCAT CTTCGAACTC AGCAGCCTCC
    TCATCCTTCA AATTTGGTGT CTCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC
    ACTGGAAATT TTAAATTTGG AGATCAGGGA GGATTCAAAA TAGGTGTGTC ATCCGATTCT
    GGGTCTATAA ACCCCATGAG TGAAGGCTTT AAATTTTCTA AACCAATAGG AGATTTTAAA
    TTTGGAGTTT CATCTGAATC TAAGCCCGAA GAAGTTAAAA AAGATAGTAA GAATGATAAT
    TTTAAGTTTG GACTTTCTTC TGGTTTAAGC AACCCAGTTT CTTTAACTCC ATTTCAATTT
    GGGGTATCTA ATCTTGGACA GGAAGAAAAG AAAGAGGAAC TGCCCAAATC TTCCTCTGCA
    GGTTTTAGCT TTGGTACAGG TGTTATTAAC TCCACCCCTG CTCCTGCTAA CACCATAGTG
    ACCTCTGAGA ACAAGAGCAG CTTCAACCTT GGAACCATAG AAACCAAGAG TGCTTCAGTG
    GCTCCTTTCA CATGTAAGAC ATCAGAAGCT AAAAAAGAAG AAATGCCTGC CACCAAAGGA
    GGATTCTCTT TTGGCAACGT GGAGCCTGCC TCTCTGCCAT CTGCCTCAGT GTTTGTTTTG
    GGAAGGACAG AAGAGAAACA GCAAGAGCCT GTCACTTCTA CTTCCCTAGT TTTTGGGAAG
    AAAGCTGACA ATGAAGAGCC AAAGTGTCAA CCAGTGTTTT CCTTTGGGAA TTCAGAGCAA
    ACCAAAGATG AGAATTCTTC AAAGTCCACA TTTAGTTTTA GTATGACAAA ACCATCTGAG
    AAGGAATCTG AACAGCCAGC AAAAGCCACT TTTGCCTTTG GAGCTCAAAC TAGTACTACA
    GCTGATCAAG GTGCAGCAAA GCCAGTTTTT AGTTTCTTGA ACAACAGTTC CTCTAGTTCA
    AGTACACCAG CCACTTCTGC TGGTGGTGGC ATATTTGGTA GTTCCACCTC TTCCTCCAAT
    CCACCTGTGG CTACCTTTGT GTTTGGACAG TCCAGCAATC CTGTGAGCAG CTCTGCCTTT
    GGTAACACTG CTGAATCCAG CACCTCTCAG TCTTTGCTAT TTTCTCAAGA TAGCAAACTA
    GCAACCACAT CCAGCACAGG TACAGCTGTC ACCCCATTTG TCTTTGGTCC AGGAGCCAGC
    AGTAATAATA CTACCACCTC TGGTTTCGGC TTTGGAGCCA CAACCACATC TAGCTCTGCA
    GGATCCTCCT TTGTATTTGG AACTGGACCC TCAGCACCAT CTGCCAGTCC AGCATTTGGT
    GCTAACCAGA CCCCAACATT TGGACAAAGT CAAGGTGCCA GCCAGCCCAA TCCCCCAGGC
    TTTGGATCTA TATCATCTTC CACAGCATTA TTTCCCACTG GTTCTCAGCC TGCACCACCT
    ACTTTTGGGA CAGTGTCAAG CAGTAGCCAG CCCCCTGTGT TTGGACAGCA ACCTAGTCAG
    TCTGCATTTG GCTCTGGAAC AACTCCTAAT TCTAGTTCGG CTTTCCAGTT TGGCAGCAGC
    ACTACAAATT TCAACTTCAC AAACAACAGT CCATCAGGAG TGTTCACATT TGGTGCAAAT
    TCTAGCACAC CTGCAGCCTC AGCCCAGCCT TCAGGCTCGG GGGGCTTTCC ATTTAACCAG
    TCTCCAGCAG CATTTACAGT GGGGTCAAAT GGGAAAAATG TGTTCTCTTC TTCTGGAACT
    TCATTCTCTG GTCGCAAGAT AAAGACTGCT GTTAGACGCA GGAAATAA

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

    CloneID OHu26520
    Clone ID Related Accession (Same CDS sequence) NM_005124.3 , NM_005124.4
    Accession Version NM_005124.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4428bp)
    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 2020-01-04
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL138724.12, AB210024.1, BC052965.1, AL597150.1 and AI948895.1. On Jun 2, 2019 this sequence version replaced NM_005124.3. Transcript Variant: This variant (2) lacks an alternate in-frame exon in the 5' coding region compared to variant 1. It encodes isoform 2 which is shorter than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC052965.1, SRR1660803.64284.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on manual assertion, conservation, expression ##RefSeq-Attributes-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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGAAGTT CAGTACCTGC TTCAAGTAGC AGCACTGTAC CTGTCTCTCT GCCTTCTGGA
    GGCTCTCTAG GATTGGAAAA GTTCAAGAAA CCCGAGGGAA GCTGGGACTG TGAATTGTGC
    CTAGTGCAGA ATAAGGCAGA CTCTACCAAA TGTTTGGCAT GTGAAAGTGC AAAGCCAGGC
    ACAAAATCTG GGTTTAAAGG CTTTGACACA TCTTCCTCAT CTTCGAACTC AGCAGCCTCC
    TCATCCTTCA AATTTGGTGT CTCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC
    ACTGGAAATT TTAAATTTGG AGATCAGGGA GGATTCAAAA TAGGTGTGTC ATCCGATTCT
    GGGTCTATAA ACCCCATGAG TGAAGGCTTT AAATTTTCTA AACCAATAGG AGATTTTAAA
    TTTGGAGTTT CATCTGAATC TAAGCCCGAA GAAGTTAAAA AAGATAGTAA GAATGATAAT
    TTTAAGTTTG GACTTTCTTC TGGTTTAAGC AACCCAGTTT CTTTAACTCC ATTTCAATTT
    GGGGTATCTA ATCTTGGACA GGAAGAAAAG AAAGAGGAAC TGCCCAAATC TTCCTCTGCA
    GGTTTTAGCT TTGGTACAGG TGTTATTAAC TCCACCCCTG CTCCTGCTAA CACCATAGTG
    ACCTCTGAGA ACAAGAGCAG CTTCAACCTT GGAACCATAG AAACCAAGAG TGCTTCAGTG
    GCTCCTTTCA CATGTAAGAC ATCAGAAGCT AAAAAAGAAG AAATGCCTGC CACCAAAGGA
    GGATTCTCTT TTGGCAACGT GGAGCCTGCC TCTCTGCCAT CTGCCTCAGT GTTTGTTTTG
    GGAAGGACAG AAGAGAAACA GCAAGAGCCT GTCACTTCTA CTTCCCTAGT TTTTGGGAAG
    AAAGCTGACA ATGAAGAGCC AAAGTGTCAA CCAGTGTTTT CCTTTGGGAA TTCAGAGCAA
    ACCAAAGATG AGAATTCTTC AAAGTCCACA TTTAGTTTTA GTATGACAAA ACCATCTGAG
    AAGGAATCTG AACAGCCAGC AAAAGCCACT TTTGCCTTTG GAGCTCAAAC TAGTACTACA
    GCTGATCAAG GTGCAGCAAA GCCAGTTTTT AGTTTCTTGA ACAACAGTTC CTCTAGTTCA
    AGTACACCAG CCACTTCTGC TGGTGGTGGC ATATTTGGTA GTTCCACCTC TTCCTCCAAT
    CCACCTGTGG CTACCTTTGT GTTTGGACAG TCCAGCAATC CTGTGAGCAG CTCTGCCTTT
    GGTAACACTG CTGAATCCAG CACCTCTCAG TCTTTGCTAT TTTCTCAAGA TAGCAAACTA
    GCAACCACAT CCAGCACAGG TACAGCTGTC ACCCCATTTG TCTTTGGTCC AGGAGCCAGC
    AGTAATAATA CTACCACCTC TGGTTTCGGC TTTGGAGCCA CAACCACATC TAGCTCTGCA
    GGATCCTCCT TTGTATTTGG AACTGGACCC TCAGCACCAT CTGCCAGTCC AGCATTTGGT
    GCTAACCAGA CCCCAACATT TGGACAAAGT CAAGGTGCCA GCCAGCCCAA TCCCCCAGGC
    TTTGGATCTA TATCATCTTC CACAGCATTA TTTCCCACTG GTTCTCAGCC TGCACCACCT
    ACTTTTGGGA CAGTGTCAAG CAGTAGCCAG CCCCCTGTGT TTGGACAGCA ACCTAGTCAG
    TCTGCATTTG GCTCTGGAAC AACTCCTAAT TCTAGTTCGG CTTTCCAGTT TGGCAGCAGC
    ACTACAAATT TCAACTTCAC AAACAACAGT CCATCAGGAG TGTTCACATT TGGTGCAAAT
    TCTAGCACAC CTGCAGCCTC AGCCCAGCCT TCAGGCTCGG GGGGCTTTCC ATTTAACCAG
    TCTCCAGCAG CATTTACAGT GGGGTCAAAT GGGAAAAATG TGTTCTCTTC TTCTGGAACT
    TCATTCTCTG GTCGCAAGAT AAAGACTGCT GTTAGACGCA GGAAATAA

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

    RefSeq NP_005115.2
    CDS539..4966
    Translation

    Target ORF information:

    RefSeq Version NM_005124.4
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_005124.4

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGAAGTT CAGTACCTGC TTCAAGTAGC AGCACTGTAC CTGTCTCTCT GCCTTCTGGA
    GGCTCTCTAG GATTGGAAAA GTTCAAGAAA CCCGAGGGAA GCTGGGACTG TGAATTGTGC
    CTAGTGCAGA ATAAGGCAGA CTCTACCAAA TGTTTGGCAT GTGAAAGTGC AAAGCCAGGC
    ACAAAATCTG GGTTTAAAGG CTTTGACACA TCTTCCTCAT CTTCGAACTC AGCAGCCTCC
    TCATCCTTCA AATTTGGTGT CTCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC
    ACTGGAAATT TTAAATTTGG AGATCAGGGA GGATTCAAAA TAGGTGTGTC ATCCGATTCT
    GGGTCTATAA ACCCCATGAG TGAAGGCTTT AAATTTTCTA AACCAATAGG AGATTTTAAA
    TTTGGAGTTT CATCTGAATC TAAGCCCGAA GAAGTTAAAA AAGATAGTAA GAATGATAAT
    TTTAAGTTTG GACTTTCTTC TGGTTTAAGC AACCCAGTTT CTTTAACTCC ATTTCAATTT
    GGGGTATCTA ATCTTGGACA GGAAGAAAAG AAAGAGGAAC TGCCCAAATC TTCCTCTGCA
    GGTTTTAGCT TTGGTACAGG TGTTATTAAC TCCACCCCTG CTCCTGCTAA CACCATAGTG
    ACCTCTGAGA ACAAGAGCAG CTTCAACCTT GGAACCATAG AAACCAAGAG TGCTTCAGTG
    GCTCCTTTCA CATGTAAGAC ATCAGAAGCT AAAAAAGAAG AAATGCCTGC CACCAAAGGA
    GGATTCTCTT TTGGCAACGT GGAGCCTGCC TCTCTGCCAT CTGCCTCAGT GTTTGTTTTG
    GGAAGGACAG AAGAGAAACA GCAAGAGCCT GTCACTTCTA CTTCCCTAGT TTTTGGGAAG
    AAAGCTGACA ATGAAGAGCC AAAGTGTCAA CCAGTGTTTT CCTTTGGGAA TTCAGAGCAA
    ACCAAAGATG AGAATTCTTC AAAGTCCACA TTTAGTTTTA GTATGACAAA ACCATCTGAG
    AAGGAATCTG AACAGCCAGC AAAAGCCACT TTTGCCTTTG GAGCTCAAAC TAGTACTACA
    GCTGATCAAG GTGCAGCAAA GCCAGTTTTT AGTTTCTTGA ACAACAGTTC CTCTAGTTCA
    AGTACACCAG CCACTTCTGC TGGTGGTGGC ATATTTGGTA GTTCCACCTC TTCCTCCAAT
    CCACCTGTGG CTACCTTTGT GTTTGGACAG TCCAGCAATC CTGTGAGCAG CTCTGCCTTT
    GGTAACACTG CTGAATCCAG CACCTCTCAG TCTTTGCTAT TTTCTCAAGA TAGCAAACTA
    GCAACCACAT CCAGCACAGG TACAGCTGTC ACCCCATTTG TCTTTGGTCC AGGAGCCAGC
    AGTAATAATA CTACCACCTC TGGTTTCGGC TTTGGAGCCA CAACCACATC TAGCTCTGCA
    GGATCCTCCT TTGTATTTGG AACTGGACCC TCAGCACCAT CTGCCAGTCC AGCATTTGGT
    GCTAACCAGA CCCCAACATT TGGACAAAGT CAAGGTGCCA GCCAGCCCAA TCCCCCAGGC
    TTTGGATCTA TATCATCTTC CACAGCATTA TTTCCCACTG GTTCTCAGCC TGCACCACCT
    ACTTTTGGGA CAGTGTCAAG CAGTAGCCAG CCCCCTGTGT TTGGACAGCA ACCTAGTCAG
    TCTGCATTTG GCTCTGGAAC AACTCCTAAT TCTAGTTCGG CTTTCCAGTT TGGCAGCAGC
    ACTACAAATT TCAACTTCAC AAACAACAGT CCATCAGGAG TGTTCACATT TGGTGCAAAT
    TCTAGCACAC CTGCAGCCTC AGCCCAGCCT TCAGGCTCGG GGGGCTTTCC ATTTAACCAG
    TCTCCAGCAG CATTTACAGT GGGGTCAAAT GGGAAAAATG TGTTCTCTTC TTCTGGAACT
    TCATTCTCTG GTCGCAAGAT AAAGACTGCT GTTAGACGCA GGAAATAA

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

    CloneID OHu40558
    Clone ID Related Accession (Same CDS sequence) XM_006715290.2 , XM_006715290.3
    Accession Version XM_006715290.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    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_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006715290.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG TGAACAGTAC AAATTGTAAG
    AAGACACCAC CTGAAGATTG TGAGGGTCCT TTTAGACCTG CAGAAATCCT GAAAGAAGGA
    AGTGTTCTAG ATATTCTGAA AAGCCCTGGT TTCGCATCGC CGAAGATAGA TTCTGTTGCT
    GCTCAGCCCA CCGCAACAAG CCCAGTAGTT TATACAAGAC CAGCAATAAG TAGCTTTTCT
    TCTAGTGGAA TTGGGTTTGG GGAGAGTTTA AAAGCTGGGT CATCATGGCA GTGTGATACA
    TGTCTACTCC AGAACAAAGT TACAGACAAC AAATGCATAG CCTGTCAAGC AGCAAAATTG
    TCACCCAGAG ATACTGCTAA ACAGACTGGA ATTGAAACAC CAAATAAAAG TGGCAAAACA
    ACTCTTTCTG CATCAGGGAC AGGCTTTGGA GACAAATTTA AACCAGTGAT AGGCACTTGG
    GATTGTGATA CCTGTTTAGT GCAAAATAAA CCTGAAGCAA TAAAATGTGT AGCCTGTGAA
    ACACCGAAAC CTGGAACTTG TGTGAAGCGA GCCCTTACAT TGACAGTGGT TTCGGAAAGT
    GCTGAGACTA TGACTGCTTC ATCTTCCAGC TGCACTGTAA CCACTGGTAC CTTAGGATTT
    GGAGATAAAT TCAAAAGGCC CATTGGATCT TGGGAGTGTT CAGTATGCTG TGTTTCTAAT
    AATGCAGAAG ACAATAAGTG TGTGTCCTGT ATGTCTGAGA AACCAGGAAG TTCAGTACCT
    GCTTCAAGTA GCAGCACTGT ACCTGTCTCT CTGCCTTCTG GAGGCTCTCT AGGATTGGAA
    AAGTTCAAGA AACCCGAGGG AAGCTGGGAC TGTGAATTGT GCCTAGTGCA GAATAAGGCA
    GACTCTACCA AATGTTTGGC ATGTGAAAGT GCAAAGCCAG GCACAAAATC TGGGTTTAAA
    GGCTTTGACA CATCTTCCTC ATCTTCGAAC TCAGCAGCCT CCTCATCCTT CAAATTTGGT
    GTCTCATCAT CCTCTTCTGG GCCTTCTCAG ACTTTAACAA GCACTGGAAA TTTTAAATTT
    GGAGATCAGG GAGGATTCAA AATAGGTGTG TCATCCGATT CTGGGTCTAT AAACCCCATG
    AGTGAAGGCT TTAAATTTTC TAAACCAATA GGAGATTTTA AATTTGGAGT TTCATCTGAA
    TCTAAGCCCG AAGAAGTTAA AAAAGATAGT AAGAATGATA ATTTTAAGTT TGGACTTTCT
    TCTGGTTTAA GCAACCCAGT TTCTTTAACT CCATTTCAAT TTGGGGTATC TAATCTTGGA
    CAGGAAGAAA AGAAAGAGGA ACTGCCCAAA TCTTCCTCTG CAGGTTTTAG CTTTGGTACA
    GGTGTTATTA ACTCCACCCC TGCTCCTGCT AACACCATAG TGACCTCTGA GAACAAGAGC
    AGCTTCAACC TTGGAACCAT AGAAACCAAG AGTGCTTCAG TGGCTCCTTT CACATGTAAG
    ACATCAGAAG CTAAAAAAGA AGAAATGCCT GCCACCAAAG GAGGATTCTC TTTTGGCAAC
    GTGGAGCCTG CCTCTCTGCC ATCTGCCTCA GTGTTTGTTT TGGGAAGGAC AGAAGAGAAA
    CAGCAAGAGC CTGTCACTTC TACTTCCCTA GTTTTTGGGA AGAAAGCTGA CAATGAAGAG
    CCAAAGTGTC AACCAGTGTT TTCCTTTGGG AATTCAGAGC AAACCAAAGA TGAGAATTCT
    TCAAAGTCCA CATTTAGTTT TAGTATGACA AAACCATCTG AGAAGGAATC TGAACAGCCA
    GCAAAAGCCA CTTTTGCCTT TGGAGCTCAA ACTAGTACTA CAGCTGATCA AGGTGCAGCA
    AAGCCAGTTT TTAGTTTCTT GAACAACAGT TCCTCTAGTT CAAGTACACC AGCCACTTCT
    GCTGGTGGTG GCATATTTGG TAGTTCCACC TCTTCCTCCA ATCCACCTGT GGCTACCTTT
    GTGTTTGGAC AGTCCAGCAA TCCTGTGAGC AGCTCTGCCT TTGGTAACAC TGCTGAATCC
    AGCACCTCTC AGTCTTTGCT ATTTTCTCAA GATAGCAAAC TAGCAACCAC ATCCAGCACA
    GGTACAGCTG TCACCCCATT TGTCTTTGGT CCAGGAGCCA GCAGTAATAA TACTACCACC
    TCTGGTTTCG GCTTTGGAGC CACAACCACA TCTAGCTCTG CAGGATCCTC CTTTGTATTT
    GGAACTGGAC CCTCAGCACC ATCTGCCAGT CCAGCATTTG GTGCTAACCA GACCCCAACA
    TTTGGACAAA GTCAAGGTGC CAGCCAGCCC AATCCCCCAG GCTTTGGATC TATATCATCT
    TCCACAGCAT TATTTCCCAC TGGTTCTCAG CCTGCACCAC CTACTTTTGG GACAGTGTCA
    AGCAGTAGCC AGCCCCCTGT GTTTGGACAG CAACCTAGTC AGTCTGCATT TGGCTCTGGA
    ACAACTCCTA ATTCTAGTTC GGCTTTCCAG TTTGGCAGCA GCACTACAAA TTTCAACTTC
    ACAAACAACA GTCCATCAGG AGTGTTCACA TTTGGTGCAA ATTCTAGCAC ACCTGCAGCC
    TCAGCCCAGC CTTCAGGCTC GGGGGGCTTT CCATTTAACC AGTCTCCAGC AGCATTTACA
    GTGGGGTCAA ATGGGAAAAA TGTGTTCTCT TCTTCTGGAA CTTCATTCTC TGGTCGCAAG
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    RefSeq XP_006715353.1
    CDS403..4812
    Translation

    Target ORF information:

    RefSeq Version XM_006715290.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_006715290.2

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG TGAACAGTAC AAATTGTAAG
    AAGACACCAC CTGAAGATTG TGAGGGTCCT TTTAGACCTG CAGAAATCCT GAAAGAAGGA
    AGTGTTCTAG ATATTCTGAA AAGCCCTGGT TTCGCATCGC CGAAGATAGA TTCTGTTGCT
    GCTCAGCCCA CCGCAACAAG CCCAGTAGTT TATACAAGAC CAGCAATAAG TAGCTTTTCT
    TCTAGTGGAA TTGGGTTTGG GGAGAGTTTA AAAGCTGGGT CATCATGGCA GTGTGATACA
    TGTCTACTCC AGAACAAAGT TACAGACAAC AAATGCATAG CCTGTCAAGC AGCAAAATTG
    TCACCCAGAG ATACTGCTAA ACAGACTGGA ATTGAAACAC CAAATAAAAG TGGCAAAACA
    ACTCTTTCTG CATCAGGGAC AGGCTTTGGA GACAAATTTA AACCAGTGAT AGGCACTTGG
    GATTGTGATA CCTGTTTAGT GCAAAATAAA CCTGAAGCAA TAAAATGTGT AGCCTGTGAA
    ACACCGAAAC CTGGAACTTG TGTGAAGCGA GCCCTTACAT TGACAGTGGT TTCGGAAAGT
    GCTGAGACTA TGACTGCTTC ATCTTCCAGC TGCACTGTAA CCACTGGTAC CTTAGGATTT
    GGAGATAAAT TCAAAAGGCC CATTGGATCT TGGGAGTGTT CAGTATGCTG TGTTTCTAAT
    AATGCAGAAG ACAATAAGTG TGTGTCCTGT ATGTCTGAGA AACCAGGAAG TTCAGTACCT
    GCTTCAAGTA GCAGCACTGT ACCTGTCTCT CTGCCTTCTG GAGGCTCTCT AGGATTGGAA
    AAGTTCAAGA AACCCGAGGG AAGCTGGGAC TGTGAATTGT GCCTAGTGCA GAATAAGGCA
    GACTCTACCA AATGTTTGGC ATGTGAAAGT GCAAAGCCAG GCACAAAATC TGGGTTTAAA
    GGCTTTGACA CATCTTCCTC ATCTTCGAAC TCAGCAGCCT CCTCATCCTT CAAATTTGGT
    GTCTCATCAT CCTCTTCTGG GCCTTCTCAG ACTTTAACAA GCACTGGAAA TTTTAAATTT
    GGAGATCAGG GAGGATTCAA AATAGGTGTG TCATCCGATT CTGGGTCTAT AAACCCCATG
    AGTGAAGGCT TTAAATTTTC TAAACCAATA GGAGATTTTA AATTTGGAGT TTCATCTGAA
    TCTAAGCCCG AAGAAGTTAA AAAAGATAGT AAGAATGATA ATTTTAAGTT TGGACTTTCT
    TCTGGTTTAA GCAACCCAGT TTCTTTAACT CCATTTCAAT TTGGGGTATC TAATCTTGGA
    CAGGAAGAAA AGAAAGAGGA ACTGCCCAAA TCTTCCTCTG CAGGTTTTAG CTTTGGTACA
    GGTGTTATTA ACTCCACCCC TGCTCCTGCT AACACCATAG TGACCTCTGA GAACAAGAGC
    AGCTTCAACC TTGGAACCAT AGAAACCAAG AGTGCTTCAG TGGCTCCTTT CACATGTAAG
    ACATCAGAAG CTAAAAAAGA AGAAATGCCT GCCACCAAAG GAGGATTCTC TTTTGGCAAC
    GTGGAGCCTG CCTCTCTGCC ATCTGCCTCA GTGTTTGTTT TGGGAAGGAC AGAAGAGAAA
    CAGCAAGAGC CTGTCACTTC TACTTCCCTA GTTTTTGGGA AGAAAGCTGA CAATGAAGAG
    CCAAAGTGTC AACCAGTGTT TTCCTTTGGG AATTCAGAGC AAACCAAAGA TGAGAATTCT
    TCAAAGTCCA CATTTAGTTT TAGTATGACA AAACCATCTG AGAAGGAATC TGAACAGCCA
    GCAAAAGCCA CTTTTGCCTT TGGAGCTCAA ACTAGTACTA CAGCTGATCA AGGTGCAGCA
    AAGCCAGTTT TTAGTTTCTT GAACAACAGT TCCTCTAGTT CAAGTACACC AGCCACTTCT
    GCTGGTGGTG GCATATTTGG TAGTTCCACC TCTTCCTCCA ATCCACCTGT GGCTACCTTT
    GTGTTTGGAC AGTCCAGCAA TCCTGTGAGC AGCTCTGCCT TTGGTAACAC TGCTGAATCC
    AGCACCTCTC AGTCTTTGCT ATTTTCTCAA GATAGCAAAC TAGCAACCAC ATCCAGCACA
    GGTACAGCTG TCACCCCATT TGTCTTTGGT CCAGGAGCCA GCAGTAATAA TACTACCACC
    TCTGGTTTCG GCTTTGGAGC CACAACCACA TCTAGCTCTG CAGGATCCTC CTTTGTATTT
    GGAACTGGAC CCTCAGCACC ATCTGCCAGT CCAGCATTTG GTGCTAACCA GACCCCAACA
    TTTGGACAAA GTCAAGGTGC CAGCCAGCCC AATCCCCCAG GCTTTGGATC TATATCATCT
    TCCACAGCAT TATTTCCCAC TGGTTCTCAG CCTGCACCAC CTACTTTTGG GACAGTGTCA
    AGCAGTAGCC AGCCCCCTGT GTTTGGACAG CAACCTAGTC AGTCTGCATT TGGCTCTGGA
    ACAACTCCTA ATTCTAGTTC GGCTTTCCAG TTTGGCAGCA GCACTACAAA TTTCAACTTC
    ACAAACAACA GTCCATCAGG AGTGTTCACA TTTGGTGCAA ATTCTAGCAC ACCTGCAGCC
    TCAGCCCAGC CTTCAGGCTC GGGGGGCTTT CCATTTAACC AGTCTCCAGC AGCATTTACA
    GTGGGGTCAA ATGGGAAAAA TGTGTTCTCT TCTTCTGGAA CTTCATTCTC TGGTCGCAAG
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    CloneID OHu40558
    Clone ID Related Accession (Same CDS sequence) XM_006715290.2 , XM_006715290.3
    Accession Version XM_006715290.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006715290.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG TGAACAGTAC AAATTGTAAG
    AAGACACCAC CTGAAGATTG TGAGGGTCCT TTTAGACCTG CAGAAATCCT GAAAGAAGGA
    AGTGTTCTAG ATATTCTGAA AAGCCCTGGT TTCGCATCGC CGAAGATAGA TTCTGTTGCT
    GCTCAGCCCA CCGCAACAAG CCCAGTAGTT TATACAAGAC CAGCAATAAG TAGCTTTTCT
    TCTAGTGGAA TTGGGTTTGG GGAGAGTTTA AAAGCTGGGT CATCATGGCA GTGTGATACA
    TGTCTACTCC AGAACAAAGT TACAGACAAC AAATGCATAG CCTGTCAAGC AGCAAAATTG
    TCACCCAGAG ATACTGCTAA ACAGACTGGA ATTGAAACAC CAAATAAAAG TGGCAAAACA
    ACTCTTTCTG CATCAGGGAC AGGCTTTGGA GACAAATTTA AACCAGTGAT AGGCACTTGG
    GATTGTGATA CCTGTTTAGT GCAAAATAAA CCTGAAGCAA TAAAATGTGT AGCCTGTGAA
    ACACCGAAAC CTGGAACTTG TGTGAAGCGA GCCCTTACAT TGACAGTGGT TTCGGAAAGT
    GCTGAGACTA TGACTGCTTC ATCTTCCAGC TGCACTGTAA CCACTGGTAC CTTAGGATTT
    GGAGATAAAT TCAAAAGGCC CATTGGATCT TGGGAGTGTT CAGTATGCTG TGTTTCTAAT
    AATGCAGAAG ACAATAAGTG TGTGTCCTGT ATGTCTGAGA AACCAGGAAG TTCAGTACCT
    GCTTCAAGTA GCAGCACTGT ACCTGTCTCT CTGCCTTCTG GAGGCTCTCT AGGATTGGAA
    AAGTTCAAGA AACCCGAGGG AAGCTGGGAC TGTGAATTGT GCCTAGTGCA GAATAAGGCA
    GACTCTACCA AATGTTTGGC ATGTGAAAGT GCAAAGCCAG GCACAAAATC TGGGTTTAAA
    GGCTTTGACA CATCTTCCTC ATCTTCGAAC TCAGCAGCCT CCTCATCCTT CAAATTTGGT
    GTCTCATCAT CCTCTTCTGG GCCTTCTCAG ACTTTAACAA GCACTGGAAA TTTTAAATTT
    GGAGATCAGG GAGGATTCAA AATAGGTGTG TCATCCGATT CTGGGTCTAT AAACCCCATG
    AGTGAAGGCT TTAAATTTTC TAAACCAATA GGAGATTTTA AATTTGGAGT TTCATCTGAA
    TCTAAGCCCG AAGAAGTTAA AAAAGATAGT AAGAATGATA ATTTTAAGTT TGGACTTTCT
    TCTGGTTTAA GCAACCCAGT TTCTTTAACT CCATTTCAAT TTGGGGTATC TAATCTTGGA
    CAGGAAGAAA AGAAAGAGGA ACTGCCCAAA TCTTCCTCTG CAGGTTTTAG CTTTGGTACA
    GGTGTTATTA ACTCCACCCC TGCTCCTGCT AACACCATAG TGACCTCTGA GAACAAGAGC
    AGCTTCAACC TTGGAACCAT AGAAACCAAG AGTGCTTCAG TGGCTCCTTT CACATGTAAG
    ACATCAGAAG CTAAAAAAGA AGAAATGCCT GCCACCAAAG GAGGATTCTC TTTTGGCAAC
    GTGGAGCCTG CCTCTCTGCC ATCTGCCTCA GTGTTTGTTT TGGGAAGGAC AGAAGAGAAA
    CAGCAAGAGC CTGTCACTTC TACTTCCCTA GTTTTTGGGA AGAAAGCTGA CAATGAAGAG
    CCAAAGTGTC AACCAGTGTT TTCCTTTGGG AATTCAGAGC AAACCAAAGA TGAGAATTCT
    TCAAAGTCCA CATTTAGTTT TAGTATGACA AAACCATCTG AGAAGGAATC TGAACAGCCA
    GCAAAAGCCA CTTTTGCCTT TGGAGCTCAA ACTAGTACTA CAGCTGATCA AGGTGCAGCA
    AAGCCAGTTT TTAGTTTCTT GAACAACAGT TCCTCTAGTT CAAGTACACC AGCCACTTCT
    GCTGGTGGTG GCATATTTGG TAGTTCCACC TCTTCCTCCA ATCCACCTGT GGCTACCTTT
    GTGTTTGGAC AGTCCAGCAA TCCTGTGAGC AGCTCTGCCT TTGGTAACAC TGCTGAATCC
    AGCACCTCTC AGTCTTTGCT ATTTTCTCAA GATAGCAAAC TAGCAACCAC ATCCAGCACA
    GGTACAGCTG TCACCCCATT TGTCTTTGGT CCAGGAGCCA GCAGTAATAA TACTACCACC
    TCTGGTTTCG GCTTTGGAGC CACAACCACA TCTAGCTCTG CAGGATCCTC CTTTGTATTT
    GGAACTGGAC CCTCAGCACC ATCTGCCAGT CCAGCATTTG GTGCTAACCA GACCCCAACA
    TTTGGACAAA GTCAAGGTGC CAGCCAGCCC AATCCCCCAG GCTTTGGATC TATATCATCT
    TCCACAGCAT TATTTCCCAC TGGTTCTCAG CCTGCACCAC CTACTTTTGG GACAGTGTCA
    AGCAGTAGCC AGCCCCCTGT GTTTGGACAG CAACCTAGTC AGTCTGCATT TGGCTCTGGA
    ACAACTCCTA ATTCTAGTTC GGCTTTCCAG TTTGGCAGCA GCACTACAAA TTTCAACTTC
    ACAAACAACA GTCCATCAGG AGTGTTCACA TTTGGTGCAA ATTCTAGCAC ACCTGCAGCC
    TCAGCCCAGC CTTCAGGCTC GGGGGGCTTT CCATTTAACC AGTCTCCAGC AGCATTTACA
    GTGGGGTCAA ATGGGAAAAA TGTGTTCTCT TCTTCTGGAA CTTCATTCTC TGGTCGCAAG
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    RefSeq XP_006715353.1
    CDS39..4448
    Translation

    Target ORF information:

    RefSeq Version XM_006715290.3
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006715290.3

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG TGAACAGTAC AAATTGTAAG
    AAGACACCAC CTGAAGATTG TGAGGGTCCT TTTAGACCTG CAGAAATCCT GAAAGAAGGA
    AGTGTTCTAG ATATTCTGAA AAGCCCTGGT TTCGCATCGC CGAAGATAGA TTCTGTTGCT
    GCTCAGCCCA CCGCAACAAG CCCAGTAGTT TATACAAGAC CAGCAATAAG TAGCTTTTCT
    TCTAGTGGAA TTGGGTTTGG GGAGAGTTTA AAAGCTGGGT CATCATGGCA GTGTGATACA
    TGTCTACTCC AGAACAAAGT TACAGACAAC AAATGCATAG CCTGTCAAGC AGCAAAATTG
    TCACCCAGAG ATACTGCTAA ACAGACTGGA ATTGAAACAC CAAATAAAAG TGGCAAAACA
    ACTCTTTCTG CATCAGGGAC AGGCTTTGGA GACAAATTTA AACCAGTGAT AGGCACTTGG
    GATTGTGATA CCTGTTTAGT GCAAAATAAA CCTGAAGCAA TAAAATGTGT AGCCTGTGAA
    ACACCGAAAC CTGGAACTTG TGTGAAGCGA GCCCTTACAT TGACAGTGGT TTCGGAAAGT
    GCTGAGACTA TGACTGCTTC ATCTTCCAGC TGCACTGTAA CCACTGGTAC CTTAGGATTT
    GGAGATAAAT TCAAAAGGCC CATTGGATCT TGGGAGTGTT CAGTATGCTG TGTTTCTAAT
    AATGCAGAAG ACAATAAGTG TGTGTCCTGT ATGTCTGAGA AACCAGGAAG TTCAGTACCT
    GCTTCAAGTA GCAGCACTGT ACCTGTCTCT CTGCCTTCTG GAGGCTCTCT AGGATTGGAA
    AAGTTCAAGA AACCCGAGGG AAGCTGGGAC TGTGAATTGT GCCTAGTGCA GAATAAGGCA
    GACTCTACCA AATGTTTGGC ATGTGAAAGT GCAAAGCCAG GCACAAAATC TGGGTTTAAA
    GGCTTTGACA CATCTTCCTC ATCTTCGAAC TCAGCAGCCT CCTCATCCTT CAAATTTGGT
    GTCTCATCAT CCTCTTCTGG GCCTTCTCAG ACTTTAACAA GCACTGGAAA TTTTAAATTT
    GGAGATCAGG GAGGATTCAA AATAGGTGTG TCATCCGATT CTGGGTCTAT AAACCCCATG
    AGTGAAGGCT TTAAATTTTC TAAACCAATA GGAGATTTTA AATTTGGAGT TTCATCTGAA
    TCTAAGCCCG AAGAAGTTAA AAAAGATAGT AAGAATGATA ATTTTAAGTT TGGACTTTCT
    TCTGGTTTAA GCAACCCAGT TTCTTTAACT CCATTTCAAT TTGGGGTATC TAATCTTGGA
    CAGGAAGAAA AGAAAGAGGA ACTGCCCAAA TCTTCCTCTG CAGGTTTTAG CTTTGGTACA
    GGTGTTATTA ACTCCACCCC TGCTCCTGCT AACACCATAG TGACCTCTGA GAACAAGAGC
    AGCTTCAACC TTGGAACCAT AGAAACCAAG AGTGCTTCAG TGGCTCCTTT CACATGTAAG
    ACATCAGAAG CTAAAAAAGA AGAAATGCCT GCCACCAAAG GAGGATTCTC TTTTGGCAAC
    GTGGAGCCTG CCTCTCTGCC ATCTGCCTCA GTGTTTGTTT TGGGAAGGAC AGAAGAGAAA
    CAGCAAGAGC CTGTCACTTC TACTTCCCTA GTTTTTGGGA AGAAAGCTGA CAATGAAGAG
    CCAAAGTGTC AACCAGTGTT TTCCTTTGGG AATTCAGAGC AAACCAAAGA TGAGAATTCT
    TCAAAGTCCA CATTTAGTTT TAGTATGACA AAACCATCTG AGAAGGAATC TGAACAGCCA
    GCAAAAGCCA CTTTTGCCTT TGGAGCTCAA ACTAGTACTA CAGCTGATCA AGGTGCAGCA
    AAGCCAGTTT TTAGTTTCTT GAACAACAGT TCCTCTAGTT CAAGTACACC AGCCACTTCT
    GCTGGTGGTG GCATATTTGG TAGTTCCACC TCTTCCTCCA ATCCACCTGT GGCTACCTTT
    GTGTTTGGAC AGTCCAGCAA TCCTGTGAGC AGCTCTGCCT TTGGTAACAC TGCTGAATCC
    AGCACCTCTC AGTCTTTGCT ATTTTCTCAA GATAGCAAAC TAGCAACCAC ATCCAGCACA
    GGTACAGCTG TCACCCCATT TGTCTTTGGT CCAGGAGCCA GCAGTAATAA TACTACCACC
    TCTGGTTTCG GCTTTGGAGC CACAACCACA TCTAGCTCTG CAGGATCCTC CTTTGTATTT
    GGAACTGGAC CCTCAGCACC ATCTGCCAGT CCAGCATTTG GTGCTAACCA GACCCCAACA
    TTTGGACAAA GTCAAGGTGC CAGCCAGCCC AATCCCCCAG GCTTTGGATC TATATCATCT
    TCCACAGCAT TATTTCCCAC TGGTTCTCAG CCTGCACCAC CTACTTTTGG GACAGTGTCA
    AGCAGTAGCC AGCCCCCTGT GTTTGGACAG CAACCTAGTC AGTCTGCATT TGGCTCTGGA
    ACAACTCCTA ATTCTAGTTC GGCTTTCCAG TTTGGCAGCA GCACTACAAA TTTCAACTTC
    ACAAACAACA GTCCATCAGG AGTGTTCACA TTTGGTGCAA ATTCTAGCAC ACCTGCAGCC
    TCAGCCCAGC CTTCAGGCTC GGGGGGCTTT CCATTTAACC AGTCTCCAGC AGCATTTACA
    GTGGGGTCAA ATGGGAAAAA TGTGTTCTCT TCTTCTGGAA CTTCATTCTC TGGTCGCAAG
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    CloneID OHu40559
    Clone ID Related Accession (Same CDS sequence) XM_005249507.3 , XM_005249507.2
    Accession Version XM_005249507.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005249507.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGCTCA TCATGTCACT
    ACAGTGAACA GTACAAATTG TAAGAAGACA CCACCTGAAG ATTGTGAGGG TCCTTTTAGA
    CCTGCAGAAA TCCTGAAAGA AGGAAGTGTT CTAGATATTC TGAAAAGCCC TGGTTTCGCA
    TCGCCGAAGA TAGATTCTGT TGCTGCTCAG CCCACCGCAA CAAGCCCAGT AGTTTATACA
    AGACCAGCAA TAAGTAGCTT TTCTTCTAGT GGAATTGGGT TTGGGGAGAG TTTAAAAGCT
    GGGTCATCAT GGCAGTGTGA TACATGTCTA CTCCAGAACA AAGTTACAGA CAACAAATGC
    ATAGCCTGTC AAGCAGCAAA ATTGTCACCC AGAGATACTG CTAAACAGAC TGGAATTGAA
    ACACCAAATA AAAGTGGCAA AACAACTCTT TCTGCATCAG GGACAGGCTT TGGAGACAAA
    TTTAAACCAG TGATAGGCAC TTGGGATTGT GATACCTGTT TAGTGCAAAA TAAACCTGAA
    GCAATAAAAT GTGTAGCCTG TGAAACACCG AAACCTGGAA CTTGTGTGAA GCGAGCCCTT
    ACATTGACAG TGGTTTCGGA AAGTGCTGAG ACTATGACTG CTTCATCTTC CAGCTGCACT
    GTAACCACTG GTACCTTAGG ATTTGGAGAT AAATTCAAAA GGCCCATTGG ATCTTGGGAG
    TGTTCAGTAT GCTGTGTTTC TAATAATGCA GAAGACAATA AGTGTGTGTC CTGTATGTCT
    GAGAAACCAG GAAGTTCAGT ACCTGCTTCA AGTAGCAGCA CTGTACCTGT CTCTCTGCCT
    TCTGGAGGCT CTCTAGGATT GGAAAAGTTC AAGAAACCCG AGGGAAGCTG GGACTGTGAA
    TTGTGCCTAG TGCAGAATAA GGCAGACTCT ACCAAATGTT TGGCATGTGA AAGTGCAAAG
    CCAGGCACAA AATCTGGGTT TAAAGGCTTT GACACATCTT CCTCATCTTC GAACTCAGCA
    GCCTCCTCAT CCTTCAAATT TGGTGTCTCA TCATCCTCTT CTGGGCCTTC TCAGACTTTA
    ACAAGCACTG GAAATTTTAA ATTTGGAGAT CAGGGAGGAT TCAAAATAGG TGTGTCATCC
    GATTCTGGGT CTATAAACCC CATGAGTGAA GGCTTTAAAT TTTCTAAACC AATAGGAGAT
    TTTAAATTTG GAGTTTCATC TGAATCTAAG CCCGAAGAAG TTAAAAAAGA TAGTAAGAAT
    GATAATTTTA AGTTTGGACT TTCTTCTGGT TTAAGCAACC CAGTTTCTTT AACTCCATTT
    CAATTTGGGG TATCTAATCT TGGACAGGAA GAAAAGAAAG AGGAACTGCC CAAATCTTCC
    TCTGCAGGTT TTAGCTTTGG TACAGGTGTT ATTAACTCCA CCCCTGCTCC TGCTAACACC
    ATAGTGACCT CTGAGAACAA GAGCAGCTTC AACCTTGGAA CCATAGAAAC CAAGAGTGCT
    TCAGTGGCTC CTTTCACATG TAAGACATCA GAAGCTAAAA AAGAAGAAAT GCCTGCCACC
    AAAGGAGGAT TCTCTTTTGG CAACGTGGAG CCTGCCTCTC TGCCATCTGC CTCAGTGTTT
    GTTTTGGGAA GGACAGAAGA GAAACAGCAA GAGCCTGTCA CTTCTACTTC CCTAGTTTTT
    GGGAAGAAAG CTGACAATGA AGAGCCAAAG TGTCAACCAG TGTTTTCCTT TGGGAATTCA
    GAGCAAACCA AAGATGAGAA TTCTTCAAAG TCCACATTTA GTTTTAGTAT GACAAAACCA
    TCTGAGAAGG AATCTGAACA GCCAGCAAAA GCCACTTTTG CCTTTGGAGC TCAAACTAGT
    ACTACAGCTG ATCAAGGTGC AGCAAAGCCA GTTTTTAGTT TCTTGAACAA CAGTTCCTCT
    AGTTCAAGTA CACCAGCCAC TTCTGCTGGT GGTGGCATAT TTGGTAGTTC CACCTCTTCC
    TCCAATCCAC CTGTGGCTAC CTTTGTGTTT GGACAGTCCA GCAATCCTGT GAGCAGCTCT
    GCCTTTGGTA ACACTGCTGA ATCCAGCACC TCTCAGTCTT TGCTATTTTC TCAAGATAGC
    AAACTAGCAA CCACATCCAG CACAGGTACA GCTGTCACCC CATTTGTCTT TGGTCCAGGA
    GCCAGCAGTA ATAATACTAC CACCTCTGGT TTCGGCTTTG GAGCCACAAC CACATCTAGC
    TCTGCAGGAT CCTCCTTTGT ATTTGGAACT GGACCCTCAG CACCATCTGC CAGTCCAGCA
    TTTGGTGCTA ACCAGACCCC AACATTTGGA CAAAGTCAAG GTGCCAGCCA GCCCAATCCC
    CCAGGCTTTG GATCTATATC ATCTTCCACA GCATTATTTC CCACTGGTTC TCAGCCTGCA
    CCACCTACTT TTGGGACAGT GTCAAGCAGT AGCCAGCCCC CTGTGTTTGG ACAGCAACCT
    AGTCAGTCTG CATTTGGCTC TGGAACAACT CCTAATTCTA GTTCGGCTTT CCAGTTTGGC
    AGCAGCACTA CAAATTTCAA CTTCACAAAC AACAGTCCAT CAGGAGTGTT CACATTTGGT
    GCAAATTCTA GCACACCTGC AGCCTCAGCC CAGCCTTCAG GCTCGGGGGG CTTTCCATTT
    AACCAGTCTC CAGCAGCATT TACAGTGGGG TCAAATGGGA AAAATGTGTT CTCTTCTTCT
    GGAACTTCAT TCTCTGGTCG CAAGATAAAG ACTGCTGTTA GACGCAGGAA ATAA

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

    RefSeq XP_005249564.1
    CDS39..4412
    Translation

    Target ORF information:

    RefSeq Version XM_005249507.3
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005249507.3

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGCTCA TCATGTCACT
    ACAGTGAACA GTACAAATTG TAAGAAGACA CCACCTGAAG ATTGTGAGGG TCCTTTTAGA
    CCTGCAGAAA TCCTGAAAGA AGGAAGTGTT CTAGATATTC TGAAAAGCCC TGGTTTCGCA
    TCGCCGAAGA TAGATTCTGT TGCTGCTCAG CCCACCGCAA CAAGCCCAGT AGTTTATACA
    AGACCAGCAA TAAGTAGCTT TTCTTCTAGT GGAATTGGGT TTGGGGAGAG TTTAAAAGCT
    GGGTCATCAT GGCAGTGTGA TACATGTCTA CTCCAGAACA AAGTTACAGA CAACAAATGC
    ATAGCCTGTC AAGCAGCAAA ATTGTCACCC AGAGATACTG CTAAACAGAC TGGAATTGAA
    ACACCAAATA AAAGTGGCAA AACAACTCTT TCTGCATCAG GGACAGGCTT TGGAGACAAA
    TTTAAACCAG TGATAGGCAC TTGGGATTGT GATACCTGTT TAGTGCAAAA TAAACCTGAA
    GCAATAAAAT GTGTAGCCTG TGAAACACCG AAACCTGGAA CTTGTGTGAA GCGAGCCCTT
    ACATTGACAG TGGTTTCGGA AAGTGCTGAG ACTATGACTG CTTCATCTTC CAGCTGCACT
    GTAACCACTG GTACCTTAGG ATTTGGAGAT AAATTCAAAA GGCCCATTGG ATCTTGGGAG
    TGTTCAGTAT GCTGTGTTTC TAATAATGCA GAAGACAATA AGTGTGTGTC CTGTATGTCT
    GAGAAACCAG GAAGTTCAGT ACCTGCTTCA AGTAGCAGCA CTGTACCTGT CTCTCTGCCT
    TCTGGAGGCT CTCTAGGATT GGAAAAGTTC AAGAAACCCG AGGGAAGCTG GGACTGTGAA
    TTGTGCCTAG TGCAGAATAA GGCAGACTCT ACCAAATGTT TGGCATGTGA AAGTGCAAAG
    CCAGGCACAA AATCTGGGTT TAAAGGCTTT GACACATCTT CCTCATCTTC GAACTCAGCA
    GCCTCCTCAT CCTTCAAATT TGGTGTCTCA TCATCCTCTT CTGGGCCTTC TCAGACTTTA
    ACAAGCACTG GAAATTTTAA ATTTGGAGAT CAGGGAGGAT TCAAAATAGG TGTGTCATCC
    GATTCTGGGT CTATAAACCC CATGAGTGAA GGCTTTAAAT TTTCTAAACC AATAGGAGAT
    TTTAAATTTG GAGTTTCATC TGAATCTAAG CCCGAAGAAG TTAAAAAAGA TAGTAAGAAT
    GATAATTTTA AGTTTGGACT TTCTTCTGGT TTAAGCAACC CAGTTTCTTT AACTCCATTT
    CAATTTGGGG TATCTAATCT TGGACAGGAA GAAAAGAAAG AGGAACTGCC CAAATCTTCC
    TCTGCAGGTT TTAGCTTTGG TACAGGTGTT ATTAACTCCA CCCCTGCTCC TGCTAACACC
    ATAGTGACCT CTGAGAACAA GAGCAGCTTC AACCTTGGAA CCATAGAAAC CAAGAGTGCT
    TCAGTGGCTC CTTTCACATG TAAGACATCA GAAGCTAAAA AAGAAGAAAT GCCTGCCACC
    AAAGGAGGAT TCTCTTTTGG CAACGTGGAG CCTGCCTCTC TGCCATCTGC CTCAGTGTTT
    GTTTTGGGAA GGACAGAAGA GAAACAGCAA GAGCCTGTCA CTTCTACTTC CCTAGTTTTT
    GGGAAGAAAG CTGACAATGA AGAGCCAAAG TGTCAACCAG TGTTTTCCTT TGGGAATTCA
    GAGCAAACCA AAGATGAGAA TTCTTCAAAG TCCACATTTA GTTTTAGTAT GACAAAACCA
    TCTGAGAAGG AATCTGAACA GCCAGCAAAA GCCACTTTTG CCTTTGGAGC TCAAACTAGT
    ACTACAGCTG ATCAAGGTGC AGCAAAGCCA GTTTTTAGTT TCTTGAACAA CAGTTCCTCT
    AGTTCAAGTA CACCAGCCAC TTCTGCTGGT GGTGGCATAT TTGGTAGTTC CACCTCTTCC
    TCCAATCCAC CTGTGGCTAC CTTTGTGTTT GGACAGTCCA GCAATCCTGT GAGCAGCTCT
    GCCTTTGGTA ACACTGCTGA ATCCAGCACC TCTCAGTCTT TGCTATTTTC TCAAGATAGC
    AAACTAGCAA CCACATCCAG CACAGGTACA GCTGTCACCC CATTTGTCTT TGGTCCAGGA
    GCCAGCAGTA ATAATACTAC CACCTCTGGT TTCGGCTTTG GAGCCACAAC CACATCTAGC
    TCTGCAGGAT CCTCCTTTGT ATTTGGAACT GGACCCTCAG CACCATCTGC CAGTCCAGCA
    TTTGGTGCTA ACCAGACCCC AACATTTGGA CAAAGTCAAG GTGCCAGCCA GCCCAATCCC
    CCAGGCTTTG GATCTATATC ATCTTCCACA GCATTATTTC CCACTGGTTC TCAGCCTGCA
    CCACCTACTT TTGGGACAGT GTCAAGCAGT AGCCAGCCCC CTGTGTTTGG ACAGCAACCT
    AGTCAGTCTG CATTTGGCTC TGGAACAACT CCTAATTCTA GTTCGGCTTT CCAGTTTGGC
    AGCAGCACTA CAAATTTCAA CTTCACAAAC AACAGTCCAT CAGGAGTGTT CACATTTGGT
    GCAAATTCTA GCACACCTGC AGCCTCAGCC CAGCCTTCAG GCTCGGGGGG CTTTCCATTT
    AACCAGTCTC CAGCAGCATT TACAGTGGGG TCAAATGGGA AAAATGTGTT CTCTTCTTCT
    GGAACTTCAT TCTCTGGTCG CAAGATAAAG ACTGCTGTTA GACGCAGGAA ATAA

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

    CloneID OHu40559
    Clone ID Related Accession (Same CDS sequence) XM_005249507.3 , XM_005249507.2
    Accession Version XM_005249507.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005249507.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGCTCA TCATGTCACT
    ACAGTGAACA GTACAAATTG TAAGAAGACA CCACCTGAAG ATTGTGAGGG TCCTTTTAGA
    CCTGCAGAAA TCCTGAAAGA AGGAAGTGTT CTAGATATTC TGAAAAGCCC TGGTTTCGCA
    TCGCCGAAGA TAGATTCTGT TGCTGCTCAG CCCACCGCAA CAAGCCCAGT AGTTTATACA
    AGACCAGCAA TAAGTAGCTT TTCTTCTAGT GGAATTGGGT TTGGGGAGAG TTTAAAAGCT
    GGGTCATCAT GGCAGTGTGA TACATGTCTA CTCCAGAACA AAGTTACAGA CAACAAATGC
    ATAGCCTGTC AAGCAGCAAA ATTGTCACCC AGAGATACTG CTAAACAGAC TGGAATTGAA
    ACACCAAATA AAAGTGGCAA AACAACTCTT TCTGCATCAG GGACAGGCTT TGGAGACAAA
    TTTAAACCAG TGATAGGCAC TTGGGATTGT GATACCTGTT TAGTGCAAAA TAAACCTGAA
    GCAATAAAAT GTGTAGCCTG TGAAACACCG AAACCTGGAA CTTGTGTGAA GCGAGCCCTT
    ACATTGACAG TGGTTTCGGA AAGTGCTGAG ACTATGACTG CTTCATCTTC CAGCTGCACT
    GTAACCACTG GTACCTTAGG ATTTGGAGAT AAATTCAAAA GGCCCATTGG ATCTTGGGAG
    TGTTCAGTAT GCTGTGTTTC TAATAATGCA GAAGACAATA AGTGTGTGTC CTGTATGTCT
    GAGAAACCAG GAAGTTCAGT ACCTGCTTCA AGTAGCAGCA CTGTACCTGT CTCTCTGCCT
    TCTGGAGGCT CTCTAGGATT GGAAAAGTTC AAGAAACCCG AGGGAAGCTG GGACTGTGAA
    TTGTGCCTAG TGCAGAATAA GGCAGACTCT ACCAAATGTT TGGCATGTGA AAGTGCAAAG
    CCAGGCACAA AATCTGGGTT TAAAGGCTTT GACACATCTT CCTCATCTTC GAACTCAGCA
    GCCTCCTCAT CCTTCAAATT TGGTGTCTCA TCATCCTCTT CTGGGCCTTC TCAGACTTTA
    ACAAGCACTG GAAATTTTAA ATTTGGAGAT CAGGGAGGAT TCAAAATAGG TGTGTCATCC
    GATTCTGGGT CTATAAACCC CATGAGTGAA GGCTTTAAAT TTTCTAAACC AATAGGAGAT
    TTTAAATTTG GAGTTTCATC TGAATCTAAG CCCGAAGAAG TTAAAAAAGA TAGTAAGAAT
    GATAATTTTA AGTTTGGACT TTCTTCTGGT TTAAGCAACC CAGTTTCTTT AACTCCATTT
    CAATTTGGGG TATCTAATCT TGGACAGGAA GAAAAGAAAG AGGAACTGCC CAAATCTTCC
    TCTGCAGGTT TTAGCTTTGG TACAGGTGTT ATTAACTCCA CCCCTGCTCC TGCTAACACC
    ATAGTGACCT CTGAGAACAA GAGCAGCTTC AACCTTGGAA CCATAGAAAC CAAGAGTGCT
    TCAGTGGCTC CTTTCACATG TAAGACATCA GAAGCTAAAA AAGAAGAAAT GCCTGCCACC
    AAAGGAGGAT TCTCTTTTGG CAACGTGGAG CCTGCCTCTC TGCCATCTGC CTCAGTGTTT
    GTTTTGGGAA GGACAGAAGA GAAACAGCAA GAGCCTGTCA CTTCTACTTC CCTAGTTTTT
    GGGAAGAAAG CTGACAATGA AGAGCCAAAG TGTCAACCAG TGTTTTCCTT TGGGAATTCA
    GAGCAAACCA AAGATGAGAA TTCTTCAAAG TCCACATTTA GTTTTAGTAT GACAAAACCA
    TCTGAGAAGG AATCTGAACA GCCAGCAAAA GCCACTTTTG CCTTTGGAGC TCAAACTAGT
    ACTACAGCTG ATCAAGGTGC AGCAAAGCCA GTTTTTAGTT TCTTGAACAA CAGTTCCTCT
    AGTTCAAGTA CACCAGCCAC TTCTGCTGGT GGTGGCATAT TTGGTAGTTC CACCTCTTCC
    TCCAATCCAC CTGTGGCTAC CTTTGTGTTT GGACAGTCCA GCAATCCTGT GAGCAGCTCT
    GCCTTTGGTA ACACTGCTGA ATCCAGCACC TCTCAGTCTT TGCTATTTTC TCAAGATAGC
    AAACTAGCAA CCACATCCAG CACAGGTACA GCTGTCACCC CATTTGTCTT TGGTCCAGGA
    GCCAGCAGTA ATAATACTAC CACCTCTGGT TTCGGCTTTG GAGCCACAAC CACATCTAGC
    TCTGCAGGAT CCTCCTTTGT ATTTGGAACT GGACCCTCAG CACCATCTGC CAGTCCAGCA
    TTTGGTGCTA ACCAGACCCC AACATTTGGA CAAAGTCAAG GTGCCAGCCA GCCCAATCCC
    CCAGGCTTTG GATCTATATC ATCTTCCACA GCATTATTTC CCACTGGTTC TCAGCCTGCA
    CCACCTACTT TTGGGACAGT GTCAAGCAGT AGCCAGCCCC CTGTGTTTGG ACAGCAACCT
    AGTCAGTCTG CATTTGGCTC TGGAACAACT CCTAATTCTA GTTCGGCTTT CCAGTTTGGC
    AGCAGCACTA CAAATTTCAA CTTCACAAAC AACAGTCCAT CAGGAGTGTT CACATTTGGT
    GCAAATTCTA GCACACCTGC AGCCTCAGCC CAGCCTTCAG GCTCGGGGGG CTTTCCATTT
    AACCAGTCTC CAGCAGCATT TACAGTGGGG TCAAATGGGA AAAATGTGTT CTCTTCTTCT
    GGAACTTCAT TCTCTGGTCG CAAGATAAAG ACTGCTGTTA GACGCAGGAA ATAA

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

    RefSeq XP_005249564.1
    CDS350..4723
    Translation

    Target ORF information:

    RefSeq Version XM_005249507.2
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005249507.2

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTGTGGAT
    TCTCAATATC CTCCTGTTCA GAGACTTATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT
    CGAAGTGTTT ATTTTAAACC ATCTCTGACT CCTTCTGGTG AATTCAGGAA GACTAATCAA
    AGAATAGATA ACAAGTGCAG TACTGGATAT GAAAAAAATA TGACACCCGG ACAAAATAGA
    GAACAACGAG AAAGTGGCTT TTCATATCCA AATTTCAGTT TGCCTGCAGC CAATGGTTTA
    TCTTCTGGAG TAGGTGGTGG AGGTGGCAAG ATGAGACGAG AAAGAACACG CTTTGTTGCT
    TCTAAACCTC TGGAGGAGGA GGAAATGGAA GTTCCAGTAT TACCGAAAAT CTCTCTACCG
    ATCACCAGTT CTTCACTGCC TACCTTTAAT TTTAGTTCCC CTGAGATCAC AACTTCCTCT
    CCATCACCCA TCAATTCGTC TCAAGCATTA ACAAACAAGG TACAAATGAC CTCTCCGAGC
    AGCACTGGCA GTCCCATGTT TAAATTTTCA TCTCCAATCG TAAAATCTAC TGAGGCAAAT
    GTACTACCTC CATCATCTAT TGGATTTACA TTTAGTGTGC CTGTTGCAAA AACAGCAGAA
    CTTTCTGGTT CTAGTAGTAC TTTAGAACCA ATTATAAGTA GTTCAGCTCA TCATGTCACT
    ACAGTGAACA GTACAAATTG TAAGAAGACA CCACCTGAAG ATTGTGAGGG TCCTTTTAGA
    CCTGCAGAAA TCCTGAAAGA AGGAAGTGTT CTAGATATTC TGAAAAGCCC TGGTTTCGCA
    TCGCCGAAGA TAGATTCTGT TGCTGCTCAG CCCACCGCAA CAAGCCCAGT AGTTTATACA
    AGACCAGCAA TAAGTAGCTT TTCTTCTAGT GGAATTGGGT TTGGGGAGAG TTTAAAAGCT
    GGGTCATCAT GGCAGTGTGA TACATGTCTA CTCCAGAACA AAGTTACAGA CAACAAATGC
    ATAGCCTGTC AAGCAGCAAA ATTGTCACCC AGAGATACTG CTAAACAGAC TGGAATTGAA
    ACACCAAATA AAAGTGGCAA AACAACTCTT TCTGCATCAG GGACAGGCTT TGGAGACAAA
    TTTAAACCAG TGATAGGCAC TTGGGATTGT GATACCTGTT TAGTGCAAAA TAAACCTGAA
    GCAATAAAAT GTGTAGCCTG TGAAACACCG AAACCTGGAA CTTGTGTGAA GCGAGCCCTT
    ACATTGACAG TGGTTTCGGA AAGTGCTGAG ACTATGACTG CTTCATCTTC CAGCTGCACT
    GTAACCACTG GTACCTTAGG ATTTGGAGAT AAATTCAAAA GGCCCATTGG ATCTTGGGAG
    TGTTCAGTAT GCTGTGTTTC TAATAATGCA GAAGACAATA AGTGTGTGTC CTGTATGTCT
    GAGAAACCAG GAAGTTCAGT ACCTGCTTCA AGTAGCAGCA CTGTACCTGT CTCTCTGCCT
    TCTGGAGGCT CTCTAGGATT GGAAAAGTTC AAGAAACCCG AGGGAAGCTG GGACTGTGAA
    TTGTGCCTAG TGCAGAATAA GGCAGACTCT ACCAAATGTT TGGCATGTGA AAGTGCAAAG
    CCAGGCACAA AATCTGGGTT TAAAGGCTTT GACACATCTT CCTCATCTTC GAACTCAGCA
    GCCTCCTCAT CCTTCAAATT TGGTGTCTCA TCATCCTCTT CTGGGCCTTC TCAGACTTTA
    ACAAGCACTG GAAATTTTAA ATTTGGAGAT CAGGGAGGAT TCAAAATAGG TGTGTCATCC
    GATTCTGGGT CTATAAACCC CATGAGTGAA GGCTTTAAAT TTTCTAAACC AATAGGAGAT
    TTTAAATTTG GAGTTTCATC TGAATCTAAG CCCGAAGAAG TTAAAAAAGA TAGTAAGAAT
    GATAATTTTA AGTTTGGACT TTCTTCTGGT TTAAGCAACC CAGTTTCTTT AACTCCATTT
    CAATTTGGGG TATCTAATCT TGGACAGGAA GAAAAGAAAG AGGAACTGCC CAAATCTTCC
    TCTGCAGGTT TTAGCTTTGG TACAGGTGTT ATTAACTCCA CCCCTGCTCC TGCTAACACC
    ATAGTGACCT CTGAGAACAA GAGCAGCTTC AACCTTGGAA CCATAGAAAC CAAGAGTGCT
    TCAGTGGCTC CTTTCACATG TAAGACATCA GAAGCTAAAA AAGAAGAAAT GCCTGCCACC
    AAAGGAGGAT TCTCTTTTGG CAACGTGGAG CCTGCCTCTC TGCCATCTGC CTCAGTGTTT
    GTTTTGGGAA GGACAGAAGA GAAACAGCAA GAGCCTGTCA CTTCTACTTC CCTAGTTTTT
    GGGAAGAAAG CTGACAATGA AGAGCCAAAG TGTCAACCAG TGTTTTCCTT TGGGAATTCA
    GAGCAAACCA AAGATGAGAA TTCTTCAAAG TCCACATTTA GTTTTAGTAT GACAAAACCA
    TCTGAGAAGG AATCTGAACA GCCAGCAAAA GCCACTTTTG CCTTTGGAGC TCAAACTAGT
    ACTACAGCTG ATCAAGGTGC AGCAAAGCCA GTTTTTAGTT TCTTGAACAA CAGTTCCTCT
    AGTTCAAGTA CACCAGCCAC TTCTGCTGGT GGTGGCATAT TTGGTAGTTC CACCTCTTCC
    TCCAATCCAC CTGTGGCTAC CTTTGTGTTT GGACAGTCCA GCAATCCTGT GAGCAGCTCT
    GCCTTTGGTA ACACTGCTGA ATCCAGCACC TCTCAGTCTT TGCTATTTTC TCAAGATAGC
    AAACTAGCAA CCACATCCAG CACAGGTACA GCTGTCACCC CATTTGTCTT TGGTCCAGGA
    GCCAGCAGTA ATAATACTAC CACCTCTGGT TTCGGCTTTG GAGCCACAAC CACATCTAGC
    TCTGCAGGAT CCTCCTTTGT ATTTGGAACT GGACCCTCAG CACCATCTGC CAGTCCAGCA
    TTTGGTGCTA ACCAGACCCC AACATTTGGA CAAAGTCAAG GTGCCAGCCA GCCCAATCCC
    CCAGGCTTTG GATCTATATC ATCTTCCACA GCATTATTTC CCACTGGTTC TCAGCCTGCA
    CCACCTACTT TTGGGACAGT GTCAAGCAGT AGCCAGCCCC CTGTGTTTGG ACAGCAACCT
    AGTCAGTCTG CATTTGGCTC TGGAACAACT CCTAATTCTA GTTCGGCTTT CCAGTTTGGC
    AGCAGCACTA CAAATTTCAA CTTCACAAAC AACAGTCCAT CAGGAGTGTT CACATTTGGT
    GCAAATTCTA GCACACCTGC AGCCTCAGCC CAGCCTTCAG GCTCGGGGGG CTTTCCATTT
    AACCAGTCTC CAGCAGCATT TACAGTGGGG TCAAATGGGA AAAATGTGTT CTCTTCTTCT
    GGAACTTCAT TCTCTGGTCG CAAGATAAAG ACTGCTGTTA GACGCAGGAA ATAA

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

    CloneID OHu63568
    Clone ID Related Accession (Same CDS sequence) XM_011515028.3 , XM_011515028.2
    Accession Version XM_011515028.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011515028.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGCTTTG ACACATCTTC CTCATCTTCG AACTCAGCAG CCTCCTCATC CTTCAAATTT
    GGTGTCTCAT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGG AAATTTTAAA
    TTTGGAGATC AGGGAGGATT CAAAATAGGT GTGTCATCCG ATTCTGGGTC TATAAACCCC
    ATGAGTGAAG GCTTTAAATT TTCTAAACCA ATAGGAGATT TTAAATTTGG AGTTTCATCT
    GAATCTAAGC CCGAAGAAGT TAAAAAAGAT AGTAAGAATG ATAATTTTAA GTTTGGACTT
    TCTTCTGGTT TAAGCAACCC AGTTTCTTTA ACTCCATTTC AATTTGGGGT ATCTAATCTT
    GGACAGGAAG AAAAGAAAGA GGAACTGCCC AAATCTTCCT CTGCAGGTTT TAGCTTTGGT
    ACAGGTGTTA TTAACTCCAC CCCTGCTCCT GCTAACACCA TAGTGACCTC TGAGAACAAG
    AGCAGCTTCA ACCTTGGAAC CATAGAAACC AAGAGTGCTT CAGTGGCTCC TTTCACATGT
    AAGACATCAG AAGCTAAAAA AGAAGAAATG CCTGCCACCA AAGGAGGATT CTCTTTTGGC
    AACGTGGAGC CTGCCTCTCT GCCATCTGCC TCAGTGTTTG TTTTGGGAAG GACAGAAGAG
    AAACAGCAAG AGCCTGTCAC TTCTACTTCC CTAGTTTTTG GGAAGAAAGC TGACAATGAA
    GAGCCAAAGT GTCAACCAGT GTTTTCCTTT GGGAATTCAG AGCAAACCAA AGATGAGAAT
    TCTTCAAAGT CCACATTTAG TTTTAGTATG ACAAAACCAT CTGAGAAGGA ATCTGAACAG
    CCAGCAAAAG CCACTTTTGC CTTTGGAGCT CAAACTAGTA CTACAGCTGA TCAAGGTGCA
    GCAAAGCCAG TTTTTAGTTT CTTGAACAAC AGTTCCTCTA GTTCAAGTAC ACCAGCCACT
    TCTGCTGGTG GTGGCATATT TGGTAGTTCC ACCTCTTCCT CCAATCCACC TGTGGCTACC
    TTTGTGTTTG GACAGTCCAG CAATCCTGTG AGCAGCTCTG CCTTTGGTAA CACTGCTGAA
    TCCAGCACCT CTCAGTCTTT GCTATTTTCT CAAGATAGCA AACTAGCAAC CACATCCAGC
    ACAGGTACAG CTGTCACCCC ATTTGTCTTT GGTCCAGGAG CCAGCAGTAA TAATACTACC
    ACCTCTGGTT TCGGCTTTGG AGCCACAACC ACATCTAGCT CTGCAGGATC CTCCTTTGTA
    TTTGGAACTG GACCCTCAGC ACCATCTGCC AGTCCAGCAT TTGGTGCTAA CCAGACCCCA
    ACATTTGGAC AAAGTCAAGG TGCCAGCCAG CCCAATCCCC CAGGCTTTGG ATCTATATCA
    TCTTCCACAG CATTATTTCC CACTGGTTCT CAGCCTGCAC CACCTACTTT TGGGACAGTG
    TCAAGCAGTA GCCAGCCCCC TGTGTTTGGA CAGCAACCTA GTCAGTCTGC ATTTGGCTCT
    GGAACAACTC CTAATTCTAG TTCGGCTTTC CAGTTTGGCA GCAGCACTAC AAATTTCAAC
    TTCACAAACA ACAGTCCATC AGGAGTGTTC ACATTTGGTG CAAATTCTAG CACACCTGCA
    GCCTCAGCCC AGCCTTCAGG CTCGGGGGGC TTTCCATTTA ACCAGTCTCC AGCAGCATTT
    ACAGTGGGGT CAAATGGGAA AAATGTGTTC TCTTCTTCTG GAACTTCATT CTCTGGTCGC
    AAGATAAAGA CTGCTGTTAG ACGCAGGAAA TAA

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

    RefSeq XP_011513330.1
    CDS39..4271
    Translation

    Target ORF information:

    RefSeq Version XM_011515028.3
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153 (NUP153), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011515028.3

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGCTTTG ACACATCTTC CTCATCTTCG AACTCAGCAG CCTCCTCATC CTTCAAATTT
    GGTGTCTCAT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGG AAATTTTAAA
    TTTGGAGATC AGGGAGGATT CAAAATAGGT GTGTCATCCG ATTCTGGGTC TATAAACCCC
    ATGAGTGAAG GCTTTAAATT TTCTAAACCA ATAGGAGATT TTAAATTTGG AGTTTCATCT
    GAATCTAAGC CCGAAGAAGT TAAAAAAGAT AGTAAGAATG ATAATTTTAA GTTTGGACTT
    TCTTCTGGTT TAAGCAACCC AGTTTCTTTA ACTCCATTTC AATTTGGGGT ATCTAATCTT
    GGACAGGAAG AAAAGAAAGA GGAACTGCCC AAATCTTCCT CTGCAGGTTT TAGCTTTGGT
    ACAGGTGTTA TTAACTCCAC CCCTGCTCCT GCTAACACCA TAGTGACCTC TGAGAACAAG
    AGCAGCTTCA ACCTTGGAAC CATAGAAACC AAGAGTGCTT CAGTGGCTCC TTTCACATGT
    AAGACATCAG AAGCTAAAAA AGAAGAAATG CCTGCCACCA AAGGAGGATT CTCTTTTGGC
    AACGTGGAGC CTGCCTCTCT GCCATCTGCC TCAGTGTTTG TTTTGGGAAG GACAGAAGAG
    AAACAGCAAG AGCCTGTCAC TTCTACTTCC CTAGTTTTTG GGAAGAAAGC TGACAATGAA
    GAGCCAAAGT GTCAACCAGT GTTTTCCTTT GGGAATTCAG AGCAAACCAA AGATGAGAAT
    TCTTCAAAGT CCACATTTAG TTTTAGTATG ACAAAACCAT CTGAGAAGGA ATCTGAACAG
    CCAGCAAAAG CCACTTTTGC CTTTGGAGCT CAAACTAGTA CTACAGCTGA TCAAGGTGCA
    GCAAAGCCAG TTTTTAGTTT CTTGAACAAC AGTTCCTCTA GTTCAAGTAC ACCAGCCACT
    TCTGCTGGTG GTGGCATATT TGGTAGTTCC ACCTCTTCCT CCAATCCACC TGTGGCTACC
    TTTGTGTTTG GACAGTCCAG CAATCCTGTG AGCAGCTCTG CCTTTGGTAA CACTGCTGAA
    TCCAGCACCT CTCAGTCTTT GCTATTTTCT CAAGATAGCA AACTAGCAAC CACATCCAGC
    ACAGGTACAG CTGTCACCCC ATTTGTCTTT GGTCCAGGAG CCAGCAGTAA TAATACTACC
    ACCTCTGGTT TCGGCTTTGG AGCCACAACC ACATCTAGCT CTGCAGGATC CTCCTTTGTA
    TTTGGAACTG GACCCTCAGC ACCATCTGCC AGTCCAGCAT TTGGTGCTAA CCAGACCCCA
    ACATTTGGAC AAAGTCAAGG TGCCAGCCAG CCCAATCCCC CAGGCTTTGG ATCTATATCA
    TCTTCCACAG CATTATTTCC CACTGGTTCT CAGCCTGCAC CACCTACTTT TGGGACAGTG
    TCAAGCAGTA GCCAGCCCCC TGTGTTTGGA CAGCAACCTA GTCAGTCTGC ATTTGGCTCT
    GGAACAACTC CTAATTCTAG TTCGGCTTTC CAGTTTGGCA GCAGCACTAC AAATTTCAAC
    TTCACAAACA ACAGTCCATC AGGAGTGTTC ACATTTGGTG CAAATTCTAG CACACCTGCA
    GCCTCAGCCC AGCCTTCAGG CTCGGGGGGC TTTCCATTTA ACCAGTCTCC AGCAGCATTT
    ACAGTGGGGT CAAATGGGAA AAATGTGTTC TCTTCTTCTG GAACTTCATT CTCTGGTCGC
    AAGATAAAGA CTGCTGTTAG ACGCAGGAAA TAA

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

    CloneID OHu63568
    Clone ID Related Accession (Same CDS sequence) XM_011515028.3 , XM_011515028.2
    Accession Version XM_011515028.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product nuclear pore complex protein Nup153 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011515028.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGCTTTG ACACATCTTC CTCATCTTCG AACTCAGCAG CCTCCTCATC CTTCAAATTT
    GGTGTCTCAT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGG AAATTTTAAA
    TTTGGAGATC AGGGAGGATT CAAAATAGGT GTGTCATCCG ATTCTGGGTC TATAAACCCC
    ATGAGTGAAG GCTTTAAATT TTCTAAACCA ATAGGAGATT TTAAATTTGG AGTTTCATCT
    GAATCTAAGC CCGAAGAAGT TAAAAAAGAT AGTAAGAATG ATAATTTTAA GTTTGGACTT
    TCTTCTGGTT TAAGCAACCC AGTTTCTTTA ACTCCATTTC AATTTGGGGT ATCTAATCTT
    GGACAGGAAG AAAAGAAAGA GGAACTGCCC AAATCTTCCT CTGCAGGTTT TAGCTTTGGT
    ACAGGTGTTA TTAACTCCAC CCCTGCTCCT GCTAACACCA TAGTGACCTC TGAGAACAAG
    AGCAGCTTCA ACCTTGGAAC CATAGAAACC AAGAGTGCTT CAGTGGCTCC TTTCACATGT
    AAGACATCAG AAGCTAAAAA AGAAGAAATG CCTGCCACCA AAGGAGGATT CTCTTTTGGC
    AACGTGGAGC CTGCCTCTCT GCCATCTGCC TCAGTGTTTG TTTTGGGAAG GACAGAAGAG
    AAACAGCAAG AGCCTGTCAC TTCTACTTCC CTAGTTTTTG GGAAGAAAGC TGACAATGAA
    GAGCCAAAGT GTCAACCAGT GTTTTCCTTT GGGAATTCAG AGCAAACCAA AGATGAGAAT
    TCTTCAAAGT CCACATTTAG TTTTAGTATG ACAAAACCAT CTGAGAAGGA ATCTGAACAG
    CCAGCAAAAG CCACTTTTGC CTTTGGAGCT CAAACTAGTA CTACAGCTGA TCAAGGTGCA
    GCAAAGCCAG TTTTTAGTTT CTTGAACAAC AGTTCCTCTA GTTCAAGTAC ACCAGCCACT
    TCTGCTGGTG GTGGCATATT TGGTAGTTCC ACCTCTTCCT CCAATCCACC TGTGGCTACC
    TTTGTGTTTG GACAGTCCAG CAATCCTGTG AGCAGCTCTG CCTTTGGTAA CACTGCTGAA
    TCCAGCACCT CTCAGTCTTT GCTATTTTCT CAAGATAGCA AACTAGCAAC CACATCCAGC
    ACAGGTACAG CTGTCACCCC ATTTGTCTTT GGTCCAGGAG CCAGCAGTAA TAATACTACC
    ACCTCTGGTT TCGGCTTTGG AGCCACAACC ACATCTAGCT CTGCAGGATC CTCCTTTGTA
    TTTGGAACTG GACCCTCAGC ACCATCTGCC AGTCCAGCAT TTGGTGCTAA CCAGACCCCA
    ACATTTGGAC AAAGTCAAGG TGCCAGCCAG CCCAATCCCC CAGGCTTTGG ATCTATATCA
    TCTTCCACAG CATTATTTCC CACTGGTTCT CAGCCTGCAC CACCTACTTT TGGGACAGTG
    TCAAGCAGTA GCCAGCCCCC TGTGTTTGGA CAGCAACCTA GTCAGTCTGC ATTTGGCTCT
    GGAACAACTC CTAATTCTAG TTCGGCTTTC CAGTTTGGCA GCAGCACTAC AAATTTCAAC
    TTCACAAACA ACAGTCCATC AGGAGTGTTC ACATTTGGTG CAAATTCTAG CACACCTGCA
    GCCTCAGCCC AGCCTTCAGG CTCGGGGGGC TTTCCATTTA ACCAGTCTCC AGCAGCATTT
    ACAGTGGGGT CAAATGGGAA AAATGTGTTC TCTTCTTCTG GAACTTCATT CTCTGGTCGC
    AAGATAAAGA CTGCTGTTAG ACGCAGGAAA TAA

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

    RefSeq XP_011513330.1
    CDS403..4635
    Translation

    Target ORF information:

    RefSeq Version XM_011515028.2
    Organism Homo sapiens(human)
    Definition Homo sapiens nucleoporin 153kDa (NUP153), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011515028.2

    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
    ATGGCCTCGG GAGCCGGAGG AGTCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCATCA GGGCATTCTT
    AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGGT GGCTACAAAG ATACTTCAAC
    AAGAATGAAG ATGTATGCAG CTGTTCAACA GACACAAGCG AGGTTCCACG CTGGCCAGAA
    AATAAAGAGG ACCATCTGGT ATATGCCGAT GAGGAGAGCT CTAATATTAC TGATGGGAGA
    ATCACACCTG AGCCAGCAGT CAGTAATACA GAAGAACCTT CAACAACTAG TACTGCTTCA
    AATTATCCAG ATGTGTTAAC AAGGCCTTCT CTTCATCGGA GCCATCTGAA TTTTTCCATG
    TTGGAATCCC CTGCATTACA CTGTCAGCCA TCTACATCCT CGGCATTCCC AATTGGCAGT
    TCGGGATTTT CCCTTGTAAA GGAAATTAAA GATTCTACCT CTCAGCATGA TGATGATAAC
    ATCTCAACTA CCAGTGGTTT TTCTTCAAGA GCTTCTGATA AAGATATAAC TGTTTCAAAG
    AACACTTCAT TGCCACCTCT GTGGTCCCCA GAAGCTGAAC GTTCTCACTC ACTCTCACAG
    CACACTGCCA CCAGCTCAAA AAAACCAGCA TTCAACTTGT CTGCCTTTGG AACACTTTCC
    CCTTCACTTG GGAATTCTTC AATCCTTAAA ACCAGTCAGC TTGGAGATTC TCCTTTTTAT
    CCTGGAAAAA CAACATACGG TGGGGCAGCA GCTGCTGTAA GACAGTCTAA ACTACGAAAT
    ACACCTTATC AGGCACCAGT TAGAAGACAA ATGAAAGCTA AGCAACTCAG TGCACAATCT
    TACGGTGTGA CCAGTTCAAC AGCTCGGCGA ATATTGCAGT CTTTAGAGAA GATGTCAAGC
    CCTTTAGCGG ATGCAAAAAG AATTCCATCC ATTGTTTCTT CTCCTCTGAA TTCTCCTCTT
    GATAGGAGTG GGATAGATAT CACAGATTTT CAGGCCAAAA GAGAAAAGGT GGATTCTCAA
    TATCCTCCTG TTCAGAGACT TATGACCCCA AAGCCAGTTT CCATAGCAAC AAATCGAAGT
    GTTTATTTTA AACCATCTCT GACTCCTTCT GGTGAATTCA GGAAGACTAA TCAAAGAATA
    GATAACAAGT GCAGTACTGG ATATGAAAAA AATATGACAC CCGGACAAAA TAGAGAACAA
    CGAGAAAGTG GCTTTTCATA TCCAAATTTC AGTTTGCCTG CAGCCAATGG TTTATCTTCT
    GGAGTAGGTG GTGGAGGTGG CAAGATGAGA CGAGAAAGAA CACGCTTTGT TGCTTCTAAA
    CCTCTGGAGG AGGAGGAAAT GGAAGTTCCA GTATTACCGA AAATCTCTCT ACCGATCACC
    AGTTCTTCAC TGCCTACCTT TAATTTTAGT TCCCCTGAGA TCACAACTTC CTCTCCATCA
    CCCATCAATT CGTCTCAAGC ATTAACAAAC AAGGTACAAA TGACCTCTCC GAGCAGCACT
    GGCAGTCCCA TGTTTAAATT TTCATCTCCA ATCGTAAAAT CTACTGAGGC AAATGTACTA
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT
    GGTTCTAGTA GTACTTTAGA ACCAATTATA AGTAGTTCAG CTCATCATGT CACTACAGTG
    AACAGTACAA ATTGTAAGAA GACACCACCT GAAGATTGTG AGGGTCCTTT TAGACCTGCA
    GAAATCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CGCATCGCCG
    AAGATAGATT CTGTTGCTGC TCAGCCCACC GCAACAAGCC CAGTAGTTTA TACAAGACCA
    GCAATAAGTA GCTTTTCTTC TAGTGGAATT GGGTTTGGGG AGAGTTTAAA AGCTGGGTCA
    TCATGGCAGT GTGATACATG TCTACTCCAG AACAAAGTTA CAGACAACAA ATGCATAGCC
    TGTCAAGCAG CAAAATTGTC ACCCAGAGAT ACTGCTAAAC AGACTGGAAT TGAAACACCA
    AATAAAAGTG GCAAAACAAC TCTTTCTGCA TCAGGGACAG GCTTTGGAGA CAAATTTAAA
    CCAGTGATAG GCACTTGGGA TTGTGATACC TGTTTAGTGC AAAATAAACC TGAAGCAATA
    AAATGTGTAG CCTGTGAAAC ACCGAAACCT GGAACTTGTG TGAAGCGAGC CCTTACATTG
    ACAGTGGTTT CGGAAAGTGC TGAGACTATG ACTGCTTCAT CTTCCAGCTG CACTGTAACC
    ACTGGTACCT TAGGATTTGG AGATAAATTC AAAAGGCCCA TTGGATCTTG GGAGTGTTCA
    GTATGCTGTG TTTCTAATAA TGCAGAAGAC AATAAGTGTG TGTCCTGTAT GTCTGAGAAA
    CCAGGCTTTG ACACATCTTC CTCATCTTCG AACTCAGCAG CCTCCTCATC CTTCAAATTT
    GGTGTCTCAT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGG AAATTTTAAA
    TTTGGAGATC AGGGAGGATT CAAAATAGGT GTGTCATCCG ATTCTGGGTC TATAAACCCC
    ATGAGTGAAG GCTTTAAATT TTCTAAACCA ATAGGAGATT TTAAATTTGG AGTTTCATCT
    GAATCTAAGC CCGAAGAAGT TAAAAAAGAT AGTAAGAATG ATAATTTTAA GTTTGGACTT
    TCTTCTGGTT TAAGCAACCC AGTTTCTTTA ACTCCATTTC AATTTGGGGT ATCTAATCTT
    GGACAGGAAG AAAAGAAAGA GGAACTGCCC AAATCTTCCT CTGCAGGTTT TAGCTTTGGT
    ACAGGTGTTA TTAACTCCAC CCCTGCTCCT GCTAACACCA TAGTGACCTC TGAGAACAAG
    AGCAGCTTCA ACCTTGGAAC CATAGAAACC AAGAGTGCTT CAGTGGCTCC TTTCACATGT
    AAGACATCAG AAGCTAAAAA AGAAGAAATG CCTGCCACCA AAGGAGGATT CTCTTTTGGC
    AACGTGGAGC CTGCCTCTCT GCCATCTGCC TCAGTGTTTG TTTTGGGAAG GACAGAAGAG
    AAACAGCAAG AGCCTGTCAC TTCTACTTCC CTAGTTTTTG GGAAGAAAGC TGACAATGAA
    GAGCCAAAGT GTCAACCAGT GTTTTCCTTT GGGAATTCAG AGCAAACCAA AGATGAGAAT
    TCTTCAAAGT CCACATTTAG TTTTAGTATG ACAAAACCAT CTGAGAAGGA ATCTGAACAG
    CCAGCAAAAG CCACTTTTGC CTTTGGAGCT CAAACTAGTA CTACAGCTGA TCAAGGTGCA
    GCAAAGCCAG TTTTTAGTTT CTTGAACAAC AGTTCCTCTA GTTCAAGTAC ACCAGCCACT
    TCTGCTGGTG GTGGCATATT TGGTAGTTCC ACCTCTTCCT CCAATCCACC TGTGGCTACC
    TTTGTGTTTG GACAGTCCAG CAATCCTGTG AGCAGCTCTG CCTTTGGTAA CACTGCTGAA
    TCCAGCACCT CTCAGTCTTT GCTATTTTCT CAAGATAGCA AACTAGCAAC CACATCCAGC
    ACAGGTACAG CTGTCACCCC ATTTGTCTTT GGTCCAGGAG CCAGCAGTAA TAATACTACC
    ACCTCTGGTT TCGGCTTTGG AGCCACAACC ACATCTAGCT CTGCAGGATC CTCCTTTGTA
    TTTGGAACTG GACCCTCAGC ACCATCTGCC AGTCCAGCAT TTGGTGCTAA CCAGACCCCA
    ACATTTGGAC AAAGTCAAGG TGCCAGCCAG CCCAATCCCC CAGGCTTTGG ATCTATATCA
    TCTTCCACAG CATTATTTCC CACTGGTTCT CAGCCTGCAC CACCTACTTT TGGGACAGTG
    TCAAGCAGTA GCCAGCCCCC TGTGTTTGGA CAGCAACCTA GTCAGTCTGC ATTTGGCTCT
    GGAACAACTC CTAATTCTAG TTCGGCTTTC CAGTTTGGCA GCAGCACTAC AAATTTCAAC
    TTCACAAACA ACAGTCCATC AGGAGTGTTC ACATTTGGTG CAAATTCTAG CACACCTGCA
    GCCTCAGCCC AGCCTTCAGG CTCGGGGGGC TTTCCATTTA ACCAGTCTCC AGCAGCATTT
    ACAGTGGGGT CAAATGGGAA AAATGTGTTC TCTTCTTCTG GAACTTCATT CTCTGGTCGC
    AAGATAAAGA CTGCTGTTAG ACGCAGGAAA TAA

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