ORF » Species Summary » Pteropus alecto » NUP153 cDNA ORF clone

NUP153 cDNA ORF clone, Pteropus alecto(black flying fox)

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
OPt11400 XM_006909240.3
Latest version!		 Pteropus alecto nucleoporin 153 (NUP153), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OPt11401 XM_006909241.3
Latest version!		 Pteropus alecto nucleoporin 153 (NUP153), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
View Old Accession Versions >>
OPt11400 XM_006909240.2 Pteropus alecto nucleoporin 153kDa (NUP153), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OPt11401 XM_006909241.2 Pteropus alecto nucleoporin 153kDa (NUP153), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
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)
    NUP153 ( XM_006909240.3 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006909302.1 Pteropus alecto nucleoporin 153 (NUP153), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPt11400
    Clone ID Related Accession (Same CDS sequence) XM_006909240.3 , XM_006909240.2
    Accession Version XM_006909240.3 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 2018-05-06
    Organism Pteropus alecto(black flying fox)
    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 (NW_006434369.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On May 7, 2018 this sequence version replaced XM_006909240.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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 AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG CTCAAGATAT CACTGCAGTG 
    AACAGTACAA ACTGTAAGAA TAAGCTAGAA GAAGACTGTG AGTGCCCTTT TAGACCTGCA 
    AAAGTCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CACATCACCA 
    AAGGCAGATT CTCTTGCTGC TCAGCCTACT ACAAGCCCAG TAGTTTATAC AAGACCAGCA 
    ATAAGTAGCT TTTCTTCTAG TGGAATCGGA TTTGGGGAAA GTTTAAAAGC TGGATCATCG 
    TGGCAGTGTG ATAGTTGTCT ACTCCAGAAC AGAATTACAG ACAACAAGTG CATAGCCTGT 
    CAAGCAACAA AATTGCCAAA AGATACTGCT AAACAGATTG GAATTGGGAC ACCAAGTAAA 
    AGTGACAAAC CAACTATTTC TGCATCAGAG ACTGGTTTTG GAGACAAATT TAAACCAGCA 
    GTAGGAACTT GGGATTGTGA TACGTGTTTA GTGCAAAATA AACCGGAAGC AATAAAATGT 
    GTAGCTTGCG AAACACCGAA ACCTGGAACT GGTGTTAAGC GAGTCCTTAC ATTGCCCGTG 
    GCTTCAGAAA GTGCTATAAC CATGGCCGCT TCATCTTCCA GCTGCACTGT GACCACTGCT 
    ACCTTAGGAT TTGCAGATAA ATTCAAAAGG CCTGTGGGAT CTTGGGAATG TCCAGTATGC 
    TGTGTTTCTA ATAATGCAGA AGACAATAAA TGTGTGTCCT GTATGTCTGA GAAACCAGGA 
    AGTTCAGTAC CTACTTCAAG TAGCAGCACT GTTCCTGTCT CTCTGTCTTC TGGAGGCTGC 
    CTAGGATTGG ACAAGTTCAA GAAACCTGAA GGAAGCTGGG ACTGTGAAGT GTGCCTAGTG 
    CAGAATAAAG CAGATTTCAC CAAATGTGTA GCATGTGAAA GTGCAAAGCC AGGCACAAAA 
    TCTGAGTTTA AAGGCTTTGG CACATCTTCC TCAACTTCAG ATCCAGCAGC CCCAACCTTC 
    AAATTTGGTA TCTCGTCATC CTCTTCTGGG CCTTCTCAGA CTTTAACAAG CACTGAAAAT 
    TTTAAATTTG GAGATCCGGG AGGCTTCAAA ATAGGTGTGT CATCAGATTC TGGGTCTTTA 
    AATGCAATGA GTGAAGGCTT TAAATTTTCT AAATCAACAG GAAATTTTAA ATTTGGAGAT 
    TCATCTGATT CTAAACCTGA AGAAGTTAAA AAAGACAGTA AGAATGATAA TAATTTTAAA 
    TTTGGACTTT CTTCTGGTTT AAGCAATCCA GCTTCTTTAG CTTCATTTCA GTTTGGGGTG 
    TCTAGTCTCG GGCAGCAAGA AAAGAAAGAG GAACTGCCTA ACACTTCATC TGCAGGCTTT 
    AGCTTTGGTA CAGGTGTTAT TAACCCTACT CCTGCTGCTA CTAACACCGT AGTGACCTCT 
    GAGAACAAGA GCAGCTTCAG CTTTGGAACC ATGGAAACCA AGAGTGTCTC AGTGGATCCT 
    TTCACGTGTA AGACATCAGA AGCAAAAAAA GAAGAAATCC CTGCTACCAA AGGAGGGTTC 
    ACTTTTGGCA ATGTGGAACC TTCCCCTCTG CCATCTGCCT CATTGTTTGT TTTGGGAAGG 
    ACAGAAGAGA AACAGCAAGA GCCTGTCACC TCTACTTCTC TGGTGTTTGG GAACAAAGCT 
    GACAATGAAG AGCCAAAGTG TCAAACAGCG TTTTCCTTTG GCAACTCAGA GCAAACCAAA 
    GATGAGAGTT CTTCAAAGTC GACCTTTAGT TTCACTATAG CAAAACCATC TGAGAAGGAA 
    TCTGAACAGC CAACAAAAAC CACTTTTGCT TTTGGAGTTC AAACCAATAC TACAGCTGAT 
    CAAGGTGTAG CAAAGCCAGT TTTTAGTTTC TTGAACAACA GTTCCTCTAA TTCAAGTACA 
    CCAGCCACTT CATCTAGTGG CAGCATATTC GGTAGTTCTA CCTTTTCCTC CAGTGCGCCT 
    GTGACCGCCT TTGTGTTCGG ACAGGCCAGC AATCCTGTAA GCAGCTCTGC CTTCGGTAAC 
    TCTGCTGAAT CTAGTACATC TCAGTCTTTG CTGTTTTCTC AAGATAGCAA ACCAGCAACC 
    ACATCCAGCA CGGGCACCAC TGTTACCCCA TTTGTCTTTG GTCCAGGAGC CAGCAGTAAC 
    AATACTGCCA CCTCTGGCTT CAGCTTTGGA GCTACAACCA CATCTAGCTC TGCAGGATCC 
    TCCTTTGTAT TTGGTACTGG ACCTTCAGCA CCATCTGCCA GCCCAGCATT TGGTGCTAAT 
    CAGACCCCAA CATTTGGACA AAGTCAAGGT GCCAGCCAGC TGAATCCCCC ACGCTTTGGA 
    TCTATATCAT CTTCAGCAAC ATTATTTTCT GCTGGTTCTC AGCCTGCACC ACCTACTTTT 
    GGGACAGTGT CAAGCAGTAG CCAGCCTTCT GTGTTTGGAC AACAGCCTGG TCAGTCGGCA 
    TTTGGCTCTG GAACAGCTCC TAATTCCAGT TCAATTTTCC AGTTTGCCAG GAGCGCTACA 
    AATTTCAGCT TCACAAACAA TAATGCATCA GGAATATTCA CATTTGGTGC AAATCCTAGC 
    ACACCTGCAG CCTCAGCCCA GCCTTCTGGT TCAGGGGGCT TTCCATCAGC AGCATTTACA 
    CTGGGGTCAA ATGGGAAAAA TATGTTCTCT TCTTCTGGAA CTTCAGTTTC TGGTCGCAAG 
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    RefSeq XP_006909302.1
    CDS521..4930
    Translation

    Target ORF information:

    RefSeq Version XM_006909240.3
    Organism Pteropus alecto(black flying fox)
    Definition Pteropus alecto 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_006909240.3

    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 AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG CTCAAGATAT CACTGCAGTG 
    AACAGTACAA ACTGTAAGAA TAAGCTAGAA GAAGACTGTG AGTGCCCTTT TAGACCTGCA 
    AAAGTCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CACATCACCA 
    AAGGCAGATT CTCTTGCTGC TCAGCCTACT ACAAGCCCAG TAGTTTATAC AAGACCAGCA 
    ATAAGTAGCT TTTCTTCTAG TGGAATCGGA TTTGGGGAAA GTTTAAAAGC TGGATCATCG 
    TGGCAGTGTG ATAGTTGTCT ACTCCAGAAC AGAATTACAG ACAACAAGTG CATAGCCTGT 
    CAAGCAACAA AATTGCCAAA AGATACTGCT AAACAGATTG GAATTGGGAC ACCAAGTAAA 
    AGTGACAAAC CAACTATTTC TGCATCAGAG ACTGGTTTTG GAGACAAATT TAAACCAGCA 
    GTAGGAACTT GGGATTGTGA TACGTGTTTA GTGCAAAATA AACCGGAAGC AATAAAATGT 
    GTAGCTTGCG AAACACCGAA ACCTGGAACT GGTGTTAAGC GAGTCCTTAC ATTGCCCGTG 
    GCTTCAGAAA GTGCTATAAC CATGGCCGCT TCATCTTCCA GCTGCACTGT GACCACTGCT 
    ACCTTAGGAT TTGCAGATAA ATTCAAAAGG CCTGTGGGAT CTTGGGAATG TCCAGTATGC 
    TGTGTTTCTA ATAATGCAGA AGACAATAAA TGTGTGTCCT GTATGTCTGA GAAACCAGGA 
    AGTTCAGTAC CTACTTCAAG TAGCAGCACT GTTCCTGTCT CTCTGTCTTC TGGAGGCTGC 
    CTAGGATTGG ACAAGTTCAA GAAACCTGAA GGAAGCTGGG ACTGTGAAGT GTGCCTAGTG 
    CAGAATAAAG CAGATTTCAC CAAATGTGTA GCATGTGAAA GTGCAAAGCC AGGCACAAAA 
    TCTGAGTTTA AAGGCTTTGG CACATCTTCC TCAACTTCAG ATCCAGCAGC CCCAACCTTC 
    AAATTTGGTA TCTCGTCATC CTCTTCTGGG CCTTCTCAGA CTTTAACAAG CACTGAAAAT 
    TTTAAATTTG GAGATCCGGG AGGCTTCAAA ATAGGTGTGT CATCAGATTC TGGGTCTTTA 
    AATGCAATGA GTGAAGGCTT TAAATTTTCT AAATCAACAG GAAATTTTAA ATTTGGAGAT 
    TCATCTGATT CTAAACCTGA AGAAGTTAAA AAAGACAGTA AGAATGATAA TAATTTTAAA 
    TTTGGACTTT CTTCTGGTTT AAGCAATCCA GCTTCTTTAG CTTCATTTCA GTTTGGGGTG 
    TCTAGTCTCG GGCAGCAAGA AAAGAAAGAG GAACTGCCTA ACACTTCATC TGCAGGCTTT 
    AGCTTTGGTA CAGGTGTTAT TAACCCTACT CCTGCTGCTA CTAACACCGT AGTGACCTCT 
    GAGAACAAGA GCAGCTTCAG CTTTGGAACC ATGGAAACCA AGAGTGTCTC AGTGGATCCT 
    TTCACGTGTA AGACATCAGA AGCAAAAAAA GAAGAAATCC CTGCTACCAA AGGAGGGTTC 
    ACTTTTGGCA ATGTGGAACC TTCCCCTCTG CCATCTGCCT CATTGTTTGT TTTGGGAAGG 
    ACAGAAGAGA AACAGCAAGA GCCTGTCACC TCTACTTCTC TGGTGTTTGG GAACAAAGCT 
    GACAATGAAG AGCCAAAGTG TCAAACAGCG TTTTCCTTTG GCAACTCAGA GCAAACCAAA 
    GATGAGAGTT CTTCAAAGTC GACCTTTAGT TTCACTATAG CAAAACCATC TGAGAAGGAA 
    TCTGAACAGC CAACAAAAAC CACTTTTGCT TTTGGAGTTC AAACCAATAC TACAGCTGAT 
    CAAGGTGTAG CAAAGCCAGT TTTTAGTTTC TTGAACAACA GTTCCTCTAA TTCAAGTACA 
    CCAGCCACTT CATCTAGTGG CAGCATATTC GGTAGTTCTA CCTTTTCCTC CAGTGCGCCT 
    GTGACCGCCT TTGTGTTCGG ACAGGCCAGC AATCCTGTAA GCAGCTCTGC CTTCGGTAAC 
    TCTGCTGAAT CTAGTACATC TCAGTCTTTG CTGTTTTCTC AAGATAGCAA ACCAGCAACC 
    ACATCCAGCA CGGGCACCAC TGTTACCCCA TTTGTCTTTG GTCCAGGAGC CAGCAGTAAC 
    AATACTGCCA CCTCTGGCTT CAGCTTTGGA GCTACAACCA CATCTAGCTC TGCAGGATCC 
    TCCTTTGTAT TTGGTACTGG ACCTTCAGCA CCATCTGCCA GCCCAGCATT TGGTGCTAAT 
    CAGACCCCAA CATTTGGACA AAGTCAAGGT GCCAGCCAGC TGAATCCCCC ACGCTTTGGA 
    TCTATATCAT CTTCAGCAAC ATTATTTTCT GCTGGTTCTC AGCCTGCACC ACCTACTTTT 
    GGGACAGTGT CAAGCAGTAG CCAGCCTTCT GTGTTTGGAC AACAGCCTGG TCAGTCGGCA 
    TTTGGCTCTG GAACAGCTCC TAATTCCAGT TCAATTTTCC AGTTTGCCAG GAGCGCTACA 
    AATTTCAGCT TCACAAACAA TAATGCATCA GGAATATTCA CATTTGGTGC AAATCCTAGC 
    ACACCTGCAG CCTCAGCCCA GCCTTCTGGT TCAGGGGGCT TTCCATCAGC AGCATTTACA 
    CTGGGGTCAA ATGGGAAAAA TATGTTCTCT TCTTCTGGAA CTTCAGTTTC TGGTCGCAAG 
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    NUP153 ( XM_006909240.2 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006909302.1 Pteropus alecto nucleoporin 153kDa (NUP153), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPt11400
    Clone ID Related Accession (Same CDS sequence) XM_006909240.3 , XM_006909240.2
    Accession Version XM_006909240.2 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 2016-02-09
    Organism Pteropus alecto(black flying fox)
    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 (NW_006434369.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 10, 2016 this sequence version replaced XM_006909240.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus alecto Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG CTCAAGATAT CACTGCAGTG 
    AACAGTACAA ACTGTAAGAA TAAGCTAGAA GAAGACTGTG AGTGCCCTTT TAGACCTGCA 
    AAAGTCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CACATCACCA 
    AAGGCAGATT CTCTTGCTGC TCAGCCTACT ACAAGCCCAG TAGTTTATAC AAGACCAGCA 
    ATAAGTAGCT TTTCTTCTAG TGGAATCGGA TTTGGGGAAA GTTTAAAAGC TGGATCATCG 
    TGGCAGTGTG ATAGTTGTCT ACTCCAGAAC AGAATTACAG ACAACAAGTG CATAGCCTGT 
    CAAGCAACAA AATTGCCAAA AGATACTGCT AAACAGATTG GAATTGGGAC ACCAAGTAAA 
    AGTGACAAAC CAACTATTTC TGCATCAGAG ACTGGTTTTG GAGACAAATT TAAACCAGCA 
    GTAGGAACTT GGGATTGTGA TACGTGTTTA GTGCAAAATA AACCGGAAGC AATAAAATGT 
    GTAGCTTGCG AAACACCGAA ACCTGGAACT GGTGTTAAGC GAGTCCTTAC ATTGCCCGTG 
    GCTTCAGAAA GTGCTATAAC CATGGCCGCT TCATCTTCCA GCTGCACTGT GACCACTGCT 
    ACCTTAGGAT TTGCAGATAA ATTCAAAAGG CCTGTGGGAT CTTGGGAATG TCCAGTATGC 
    TGTGTTTCTA ATAATGCAGA AGACAATAAA TGTGTGTCCT GTATGTCTGA GAAACCAGGA 
    AGTTCAGTAC CTACTTCAAG TAGCAGCACT GTTCCTGTCT CTCTGTCTTC TGGAGGCTGC 
    CTAGGATTGG ACAAGTTCAA GAAACCTGAA GGAAGCTGGG ACTGTGAAGT GTGCCTAGTG 
    CAGAATAAAG CAGATTTCAC CAAATGTGTA GCATGTGAAA GTGCAAAGCC AGGCACAAAA 
    TCTGAGTTTA AAGGCTTTGG CACATCTTCC TCAACTTCAG ATCCAGCAGC CCCAACCTTC 
    AAATTTGGTA TCTCGTCATC CTCTTCTGGG CCTTCTCAGA CTTTAACAAG CACTGAAAAT 
    TTTAAATTTG GAGATCCGGG AGGCTTCAAA ATAGGTGTGT CATCAGATTC TGGGTCTTTA 
    AATGCAATGA GTGAAGGCTT TAAATTTTCT AAATCAACAG GAAATTTTAA ATTTGGAGAT 
    TCATCTGATT CTAAACCTGA AGAAGTTAAA AAAGACAGTA AGAATGATAA TAATTTTAAA 
    TTTGGACTTT CTTCTGGTTT AAGCAATCCA GCTTCTTTAG CTTCATTTCA GTTTGGGGTG 
    TCTAGTCTCG GGCAGCAAGA AAAGAAAGAG GAACTGCCTA ACACTTCATC TGCAGGCTTT 
    AGCTTTGGTA CAGGTGTTAT TAACCCTACT CCTGCTGCTA CTAACACCGT AGTGACCTCT 
    GAGAACAAGA GCAGCTTCAG CTTTGGAACC ATGGAAACCA AGAGTGTCTC AGTGGATCCT 
    TTCACGTGTA AGACATCAGA AGCAAAAAAA GAAGAAATCC CTGCTACCAA AGGAGGGTTC 
    ACTTTTGGCA ATGTGGAACC TTCCCCTCTG CCATCTGCCT CATTGTTTGT TTTGGGAAGG 
    ACAGAAGAGA AACAGCAAGA GCCTGTCACC TCTACTTCTC TGGTGTTTGG GAACAAAGCT 
    GACAATGAAG AGCCAAAGTG TCAAACAGCG TTTTCCTTTG GCAACTCAGA GCAAACCAAA 
    GATGAGAGTT CTTCAAAGTC GACCTTTAGT TTCACTATAG CAAAACCATC TGAGAAGGAA 
    TCTGAACAGC CAACAAAAAC CACTTTTGCT TTTGGAGTTC AAACCAATAC TACAGCTGAT 
    CAAGGTGTAG CAAAGCCAGT TTTTAGTTTC TTGAACAACA GTTCCTCTAA TTCAAGTACA 
    CCAGCCACTT CATCTAGTGG CAGCATATTC GGTAGTTCTA CCTTTTCCTC CAGTGCGCCT 
    GTGACCGCCT TTGTGTTCGG ACAGGCCAGC AATCCTGTAA GCAGCTCTGC CTTCGGTAAC 
    TCTGCTGAAT CTAGTACATC TCAGTCTTTG CTGTTTTCTC AAGATAGCAA ACCAGCAACC 
    ACATCCAGCA CGGGCACCAC TGTTACCCCA TTTGTCTTTG GTCCAGGAGC CAGCAGTAAC 
    AATACTGCCA CCTCTGGCTT CAGCTTTGGA GCTACAACCA CATCTAGCTC TGCAGGATCC 
    TCCTTTGTAT TTGGTACTGG ACCTTCAGCA CCATCTGCCA GCCCAGCATT TGGTGCTAAT 
    CAGACCCCAA CATTTGGACA AAGTCAAGGT GCCAGCCAGC TGAATCCCCC ACGCTTTGGA 
    TCTATATCAT CTTCAGCAAC ATTATTTTCT GCTGGTTCTC AGCCTGCACC ACCTACTTTT 
    GGGACAGTGT CAAGCAGTAG CCAGCCTTCT GTGTTTGGAC AACAGCCTGG TCAGTCGGCA 
    TTTGGCTCTG GAACAGCTCC TAATTCCAGT TCAATTTTCC AGTTTGCCAG GAGCGCTACA 
    AATTTCAGCT TCACAAACAA TAATGCATCA GGAATATTCA CATTTGGTGC AAATCCTAGC 
    ACACCTGCAG CCTCAGCCCA GCCTTCTGGT TCAGGGGGCT TTCCATCAGC AGCATTTACA 
    CTGGGGTCAA ATGGGAAAAA TATGTTCTCT TCTTCTGGAA CTTCAGTTTC TGGTCGCAAG 
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    RefSeq XP_006909302.1
    CDS512..4921
    Translation

    Target ORF information:

    RefSeq Version XM_006909240.2
    Organism Pteropus alecto(black flying fox)
    Definition Pteropus alecto 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_006909240.2

    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 AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG CTCAAGATAT CACTGCAGTG 
    AACAGTACAA ACTGTAAGAA TAAGCTAGAA GAAGACTGTG AGTGCCCTTT TAGACCTGCA 
    AAAGTCCTGA AAGAAGGAAG TGTTCTAGAT ATTCTGAAAA GCCCTGGTTT CACATCACCA 
    AAGGCAGATT CTCTTGCTGC TCAGCCTACT ACAAGCCCAG TAGTTTATAC AAGACCAGCA 
    ATAAGTAGCT TTTCTTCTAG TGGAATCGGA TTTGGGGAAA GTTTAAAAGC TGGATCATCG 
    TGGCAGTGTG ATAGTTGTCT ACTCCAGAAC AGAATTACAG ACAACAAGTG CATAGCCTGT 
    CAAGCAACAA AATTGCCAAA AGATACTGCT AAACAGATTG GAATTGGGAC ACCAAGTAAA 
    AGTGACAAAC CAACTATTTC TGCATCAGAG ACTGGTTTTG GAGACAAATT TAAACCAGCA 
    GTAGGAACTT GGGATTGTGA TACGTGTTTA GTGCAAAATA AACCGGAAGC AATAAAATGT 
    GTAGCTTGCG AAACACCGAA ACCTGGAACT GGTGTTAAGC GAGTCCTTAC ATTGCCCGTG 
    GCTTCAGAAA GTGCTATAAC CATGGCCGCT TCATCTTCCA GCTGCACTGT GACCACTGCT 
    ACCTTAGGAT TTGCAGATAA ATTCAAAAGG CCTGTGGGAT CTTGGGAATG TCCAGTATGC 
    TGTGTTTCTA ATAATGCAGA AGACAATAAA TGTGTGTCCT GTATGTCTGA GAAACCAGGA 
    AGTTCAGTAC CTACTTCAAG TAGCAGCACT GTTCCTGTCT CTCTGTCTTC TGGAGGCTGC 
    CTAGGATTGG ACAAGTTCAA GAAACCTGAA GGAAGCTGGG ACTGTGAAGT GTGCCTAGTG 
    CAGAATAAAG CAGATTTCAC CAAATGTGTA GCATGTGAAA GTGCAAAGCC AGGCACAAAA 
    TCTGAGTTTA AAGGCTTTGG CACATCTTCC TCAACTTCAG ATCCAGCAGC CCCAACCTTC 
    AAATTTGGTA TCTCGTCATC CTCTTCTGGG CCTTCTCAGA CTTTAACAAG CACTGAAAAT 
    TTTAAATTTG GAGATCCGGG AGGCTTCAAA ATAGGTGTGT CATCAGATTC TGGGTCTTTA 
    AATGCAATGA GTGAAGGCTT TAAATTTTCT AAATCAACAG GAAATTTTAA ATTTGGAGAT 
    TCATCTGATT CTAAACCTGA AGAAGTTAAA AAAGACAGTA AGAATGATAA TAATTTTAAA 
    TTTGGACTTT CTTCTGGTTT AAGCAATCCA GCTTCTTTAG CTTCATTTCA GTTTGGGGTG 
    TCTAGTCTCG GGCAGCAAGA AAAGAAAGAG GAACTGCCTA ACACTTCATC TGCAGGCTTT 
    AGCTTTGGTA CAGGTGTTAT TAACCCTACT CCTGCTGCTA CTAACACCGT AGTGACCTCT 
    GAGAACAAGA GCAGCTTCAG CTTTGGAACC ATGGAAACCA AGAGTGTCTC AGTGGATCCT 
    TTCACGTGTA AGACATCAGA AGCAAAAAAA GAAGAAATCC CTGCTACCAA AGGAGGGTTC 
    ACTTTTGGCA ATGTGGAACC TTCCCCTCTG CCATCTGCCT CATTGTTTGT TTTGGGAAGG 
    ACAGAAGAGA AACAGCAAGA GCCTGTCACC TCTACTTCTC TGGTGTTTGG GAACAAAGCT 
    GACAATGAAG AGCCAAAGTG TCAAACAGCG TTTTCCTTTG GCAACTCAGA GCAAACCAAA 
    GATGAGAGTT CTTCAAAGTC GACCTTTAGT TTCACTATAG CAAAACCATC TGAGAAGGAA 
    TCTGAACAGC CAACAAAAAC CACTTTTGCT TTTGGAGTTC AAACCAATAC TACAGCTGAT 
    CAAGGTGTAG CAAAGCCAGT TTTTAGTTTC TTGAACAACA GTTCCTCTAA TTCAAGTACA 
    CCAGCCACTT CATCTAGTGG CAGCATATTC GGTAGTTCTA CCTTTTCCTC CAGTGCGCCT 
    GTGACCGCCT TTGTGTTCGG ACAGGCCAGC AATCCTGTAA GCAGCTCTGC CTTCGGTAAC 
    TCTGCTGAAT CTAGTACATC TCAGTCTTTG CTGTTTTCTC AAGATAGCAA ACCAGCAACC 
    ACATCCAGCA CGGGCACCAC TGTTACCCCA TTTGTCTTTG GTCCAGGAGC CAGCAGTAAC 
    AATACTGCCA CCTCTGGCTT CAGCTTTGGA GCTACAACCA CATCTAGCTC TGCAGGATCC 
    TCCTTTGTAT TTGGTACTGG ACCTTCAGCA CCATCTGCCA GCCCAGCATT TGGTGCTAAT 
    CAGACCCCAA CATTTGGACA AAGTCAAGGT GCCAGCCAGC TGAATCCCCC ACGCTTTGGA 
    TCTATATCAT CTTCAGCAAC ATTATTTTCT GCTGGTTCTC AGCCTGCACC ACCTACTTTT 
    GGGACAGTGT CAAGCAGTAG CCAGCCTTCT GTGTTTGGAC AACAGCCTGG TCAGTCGGCA 
    TTTGGCTCTG GAACAGCTCC TAATTCCAGT TCAATTTTCC AGTTTGCCAG GAGCGCTACA 
    AATTTCAGCT TCACAAACAA TAATGCATCA GGAATATTCA CATTTGGTGC AAATCCTAGC 
    ACACCTGCAG CCTCAGCCCA GCCTTCTGGT TCAGGGGGCT TTCCATCAGC AGCATTTACA 
    CTGGGGTCAA ATGGGAAAAA TATGTTCTCT TCTTCTGGAA CTTCAGTTTC TGGTCGCAAG 
    ATAAAGACTG CTGTTAGACG CAGGAAATAA

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

    NUP153 ( XM_006909241.3 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006909303.1 Pteropus alecto nucleoporin 153 (NUP153), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OPt11401
    Clone ID Related Accession (Same CDS sequence) XM_006909241.3 , XM_006909241.2
    Accession Version XM_006909241.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2018-05-06
    Organism Pteropus alecto(black flying fox)
    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 (NW_006434369.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On May 7, 2018 this sequence version replaced XM_006909241.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGCCTCGG GAGCCGGAGG AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG GTTTCACATC ACCAAAGGCA 
    GATTCTCTTG CTGCTCAGCC TACTACAAGC CCAGTAGTTT ATACAAGACC AGCAATAAGT 
    AGCTTTTCTT CTAGTGGAAT CGGATTTGGG GAAAGTTTAA AAGCTGGATC ATCGTGGCAG 
    TGTGATAGTT GTCTACTCCA GAACAGAATT ACAGACAACA AGTGCATAGC CTGTCAAGCA 
    ACAAAATTGC CAAAAGATAC TGCTAAACAG ATTGGAATTG GGACACCAAG TAAAAGTGAC 
    AAACCAACTA TTTCTGCATC AGAGACTGGT TTTGGAGACA AATTTAAACC AGCAGTAGGA 
    ACTTGGGATT GTGATACGTG TTTAGTGCAA AATAAACCGG AAGCAATAAA ATGTGTAGCT 
    TGCGAAACAC CGAAACCTGG AACTGGTGTT AAGCGAGTCC TTACATTGCC CGTGGCTTCA 
    GAAAGTGCTA TAACCATGGC CGCTTCATCT TCCAGCTGCA CTGTGACCAC TGCTACCTTA 
    GGATTTGCAG ATAAATTCAA AAGGCCTGTG GGATCTTGGG AATGTCCAGT ATGCTGTGTT 
    TCTAATAATG CAGAAGACAA TAAATGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA 
    GTACCTACTT CAAGTAGCAG CACTGTTCCT GTCTCTCTGT CTTCTGGAGG CTGCCTAGGA 
    TTGGACAAGT TCAAGAAACC TGAAGGAAGC TGGGACTGTG AAGTGTGCCT AGTGCAGAAT 
    AAAGCAGATT TCACCAAATG TGTAGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGAG 
    TTTAAAGGCT TTGGCACATC TTCCTCAACT TCAGATCCAG CAGCCCCAAC CTTCAAATTT 
    GGTATCTCGT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGA AAATTTTAAA 
    TTTGGAGATC CGGGAGGCTT CAAAATAGGT GTGTCATCAG ATTCTGGGTC TTTAAATGCA 
    ATGAGTGAAG GCTTTAAATT TTCTAAATCA ACAGGAAATT TTAAATTTGG AGATTCATCT 
    GATTCTAAAC CTGAAGAAGT TAAAAAAGAC AGTAAGAATG ATAATAATTT TAAATTTGGA 
    CTTTCTTCTG GTTTAAGCAA TCCAGCTTCT TTAGCTTCAT TTCAGTTTGG GGTGTCTAGT 
    CTCGGGCAGC AAGAAAAGAA AGAGGAACTG CCTAACACTT CATCTGCAGG CTTTAGCTTT 
    GGTACAGGTG TTATTAACCC TACTCCTGCT GCTACTAACA CCGTAGTGAC CTCTGAGAAC 
    AAGAGCAGCT TCAGCTTTGG AACCATGGAA ACCAAGAGTG TCTCAGTGGA TCCTTTCACG 
    TGTAAGACAT CAGAAGCAAA AAAAGAAGAA ATCCCTGCTA CCAAAGGAGG GTTCACTTTT 
    GGCAATGTGG AACCTTCCCC TCTGCCATCT GCCTCATTGT TTGTTTTGGG AAGGACAGAA 
    GAGAAACAGC AAGAGCCTGT CACCTCTACT TCTCTGGTGT TTGGGAACAA AGCTGACAAT 
    GAAGAGCCAA AGTGTCAAAC AGCGTTTTCC TTTGGCAACT CAGAGCAAAC CAAAGATGAG 
    AGTTCTTCAA AGTCGACCTT TAGTTTCACT ATAGCAAAAC CATCTGAGAA GGAATCTGAA 
    CAGCCAACAA AAACCACTTT TGCTTTTGGA GTTCAAACCA ATACTACAGC TGATCAAGGT 
    GTAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAATTCAAG TACACCAGCC 
    ACTTCATCTA GTGGCAGCAT ATTCGGTAGT TCTACCTTTT CCTCCAGTGC GCCTGTGACC 
    GCCTTTGTGT TCGGACAGGC CAGCAATCCT GTAAGCAGCT CTGCCTTCGG TAACTCTGCT 
    GAATCTAGTA CATCTCAGTC TTTGCTGTTT TCTCAAGATA GCAAACCAGC AACCACATCC 
    AGCACGGGCA CCACTGTTAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAACAATACT 
    GCCACCTCTG GCTTCAGCTT TGGAGCTACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT 
    GTATTTGGTA CTGGACCTTC AGCACCATCT GCCAGCCCAG CATTTGGTGC TAATCAGACC 
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCTGAATC CCCCACGCTT TGGATCTATA 
    TCATCTTCAG CAACATTATT TTCTGCTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA 
    GTGTCAAGCA GTAGCCAGCC TTCTGTGTTT GGACAACAGC CTGGTCAGTC GGCATTTGGC 
    TCTGGAACAG CTCCTAATTC CAGTTCAATT TTCCAGTTTG CCAGGAGCGC TACAAATTTC 
    AGCTTCACAA ACAATAATGC ATCAGGAATA TTCACATTTG GTGCAAATCC TAGCACACCT 
    GCAGCCTCAG CCCAGCCTTC TGGTTCAGGG GGCTTTCCAT CAGCAGCATT TACACTGGGG 
    TCAAATGGGA AAAATATGTT CTCTTCTTCT GGAACTTCAG TTTCTGGTCG CAAGATAAAG 
    ACTGCTGTTA GACGCAGGAA ATAA

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

    RefSeq XP_006909303.1
    CDS521..4804
    Translation

    Target ORF information:

    RefSeq Version XM_006909241.3
    Organism Pteropus alecto(black flying fox)
    Definition Pteropus alecto 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_006909241.3

    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
    ATGGCCTCGG GAGCCGGAGG AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG GTTTCACATC ACCAAAGGCA 
    GATTCTCTTG CTGCTCAGCC TACTACAAGC CCAGTAGTTT ATACAAGACC AGCAATAAGT 
    AGCTTTTCTT CTAGTGGAAT CGGATTTGGG GAAAGTTTAA AAGCTGGATC ATCGTGGCAG 
    TGTGATAGTT GTCTACTCCA GAACAGAATT ACAGACAACA AGTGCATAGC CTGTCAAGCA 
    ACAAAATTGC CAAAAGATAC TGCTAAACAG ATTGGAATTG GGACACCAAG TAAAAGTGAC 
    AAACCAACTA TTTCTGCATC AGAGACTGGT TTTGGAGACA AATTTAAACC AGCAGTAGGA 
    ACTTGGGATT GTGATACGTG TTTAGTGCAA AATAAACCGG AAGCAATAAA ATGTGTAGCT 
    TGCGAAACAC CGAAACCTGG AACTGGTGTT AAGCGAGTCC TTACATTGCC CGTGGCTTCA 
    GAAAGTGCTA TAACCATGGC CGCTTCATCT TCCAGCTGCA CTGTGACCAC TGCTACCTTA 
    GGATTTGCAG ATAAATTCAA AAGGCCTGTG GGATCTTGGG AATGTCCAGT ATGCTGTGTT 
    TCTAATAATG CAGAAGACAA TAAATGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA 
    GTACCTACTT CAAGTAGCAG CACTGTTCCT GTCTCTCTGT CTTCTGGAGG CTGCCTAGGA 
    TTGGACAAGT TCAAGAAACC TGAAGGAAGC TGGGACTGTG AAGTGTGCCT AGTGCAGAAT 
    AAAGCAGATT TCACCAAATG TGTAGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGAG 
    TTTAAAGGCT TTGGCACATC TTCCTCAACT TCAGATCCAG CAGCCCCAAC CTTCAAATTT 
    GGTATCTCGT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGA AAATTTTAAA 
    TTTGGAGATC CGGGAGGCTT CAAAATAGGT GTGTCATCAG ATTCTGGGTC TTTAAATGCA 
    ATGAGTGAAG GCTTTAAATT TTCTAAATCA ACAGGAAATT TTAAATTTGG AGATTCATCT 
    GATTCTAAAC CTGAAGAAGT TAAAAAAGAC AGTAAGAATG ATAATAATTT TAAATTTGGA 
    CTTTCTTCTG GTTTAAGCAA TCCAGCTTCT TTAGCTTCAT TTCAGTTTGG GGTGTCTAGT 
    CTCGGGCAGC AAGAAAAGAA AGAGGAACTG CCTAACACTT CATCTGCAGG CTTTAGCTTT 
    GGTACAGGTG TTATTAACCC TACTCCTGCT GCTACTAACA CCGTAGTGAC CTCTGAGAAC 
    AAGAGCAGCT TCAGCTTTGG AACCATGGAA ACCAAGAGTG TCTCAGTGGA TCCTTTCACG 
    TGTAAGACAT CAGAAGCAAA AAAAGAAGAA ATCCCTGCTA CCAAAGGAGG GTTCACTTTT 
    GGCAATGTGG AACCTTCCCC TCTGCCATCT GCCTCATTGT TTGTTTTGGG AAGGACAGAA 
    GAGAAACAGC AAGAGCCTGT CACCTCTACT TCTCTGGTGT TTGGGAACAA AGCTGACAAT 
    GAAGAGCCAA AGTGTCAAAC AGCGTTTTCC TTTGGCAACT CAGAGCAAAC CAAAGATGAG 
    AGTTCTTCAA AGTCGACCTT TAGTTTCACT ATAGCAAAAC CATCTGAGAA GGAATCTGAA 
    CAGCCAACAA AAACCACTTT TGCTTTTGGA GTTCAAACCA ATACTACAGC TGATCAAGGT 
    GTAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAATTCAAG TACACCAGCC 
    ACTTCATCTA GTGGCAGCAT ATTCGGTAGT TCTACCTTTT CCTCCAGTGC GCCTGTGACC 
    GCCTTTGTGT TCGGACAGGC CAGCAATCCT GTAAGCAGCT CTGCCTTCGG TAACTCTGCT 
    GAATCTAGTA CATCTCAGTC TTTGCTGTTT TCTCAAGATA GCAAACCAGC AACCACATCC 
    AGCACGGGCA CCACTGTTAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAACAATACT 
    GCCACCTCTG GCTTCAGCTT TGGAGCTACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT 
    GTATTTGGTA CTGGACCTTC AGCACCATCT GCCAGCCCAG CATTTGGTGC TAATCAGACC 
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCTGAATC CCCCACGCTT TGGATCTATA 
    TCATCTTCAG CAACATTATT TTCTGCTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA 
    GTGTCAAGCA GTAGCCAGCC TTCTGTGTTT GGACAACAGC CTGGTCAGTC GGCATTTGGC 
    TCTGGAACAG CTCCTAATTC CAGTTCAATT TTCCAGTTTG CCAGGAGCGC TACAAATTTC 
    AGCTTCACAA ACAATAATGC ATCAGGAATA TTCACATTTG GTGCAAATCC TAGCACACCT 
    GCAGCCTCAG CCCAGCCTTC TGGTTCAGGG GGCTTTCCAT CAGCAGCATT TACACTGGGG 
    TCAAATGGGA AAAATATGTT CTCTTCTTCT GGAACTTCAG TTTCTGGTCG CAAGATAAAG 
    ACTGCTGTTA GACGCAGGAA ATAA

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

    NUP153 ( XM_006909241.2 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006909303.1 Pteropus alecto nucleoporin 153kDa (NUP153), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OPt11401
    Clone ID Related Accession (Same CDS sequence) XM_006909241.3 , XM_006909241.2
    Accession Version XM_006909241.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2016-02-09
    Organism Pteropus alecto(black flying fox)
    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 (NW_006434369.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 10, 2016 this sequence version replaced XM_006909241.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus alecto Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCCTCGG GAGCCGGAGG AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG GTTTCACATC ACCAAAGGCA 
    GATTCTCTTG CTGCTCAGCC TACTACAAGC CCAGTAGTTT ATACAAGACC AGCAATAAGT 
    AGCTTTTCTT CTAGTGGAAT CGGATTTGGG GAAAGTTTAA AAGCTGGATC ATCGTGGCAG 
    TGTGATAGTT GTCTACTCCA GAACAGAATT ACAGACAACA AGTGCATAGC CTGTCAAGCA 
    ACAAAATTGC CAAAAGATAC TGCTAAACAG ATTGGAATTG GGACACCAAG TAAAAGTGAC 
    AAACCAACTA TTTCTGCATC AGAGACTGGT TTTGGAGACA AATTTAAACC AGCAGTAGGA 
    ACTTGGGATT GTGATACGTG TTTAGTGCAA AATAAACCGG AAGCAATAAA ATGTGTAGCT 
    TGCGAAACAC CGAAACCTGG AACTGGTGTT AAGCGAGTCC TTACATTGCC CGTGGCTTCA 
    GAAAGTGCTA TAACCATGGC CGCTTCATCT TCCAGCTGCA CTGTGACCAC TGCTACCTTA 
    GGATTTGCAG ATAAATTCAA AAGGCCTGTG GGATCTTGGG AATGTCCAGT ATGCTGTGTT 
    TCTAATAATG CAGAAGACAA TAAATGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA 
    GTACCTACTT CAAGTAGCAG CACTGTTCCT GTCTCTCTGT CTTCTGGAGG CTGCCTAGGA 
    TTGGACAAGT TCAAGAAACC TGAAGGAAGC TGGGACTGTG AAGTGTGCCT AGTGCAGAAT 
    AAAGCAGATT TCACCAAATG TGTAGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGAG 
    TTTAAAGGCT TTGGCACATC TTCCTCAACT TCAGATCCAG CAGCCCCAAC CTTCAAATTT 
    GGTATCTCGT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGA AAATTTTAAA 
    TTTGGAGATC CGGGAGGCTT CAAAATAGGT GTGTCATCAG ATTCTGGGTC TTTAAATGCA 
    ATGAGTGAAG GCTTTAAATT TTCTAAATCA ACAGGAAATT TTAAATTTGG AGATTCATCT 
    GATTCTAAAC CTGAAGAAGT TAAAAAAGAC AGTAAGAATG ATAATAATTT TAAATTTGGA 
    CTTTCTTCTG GTTTAAGCAA TCCAGCTTCT TTAGCTTCAT TTCAGTTTGG GGTGTCTAGT 
    CTCGGGCAGC AAGAAAAGAA AGAGGAACTG CCTAACACTT CATCTGCAGG CTTTAGCTTT 
    GGTACAGGTG TTATTAACCC TACTCCTGCT GCTACTAACA CCGTAGTGAC CTCTGAGAAC 
    AAGAGCAGCT TCAGCTTTGG AACCATGGAA ACCAAGAGTG TCTCAGTGGA TCCTTTCACG 
    TGTAAGACAT CAGAAGCAAA AAAAGAAGAA ATCCCTGCTA CCAAAGGAGG GTTCACTTTT 
    GGCAATGTGG AACCTTCCCC TCTGCCATCT GCCTCATTGT TTGTTTTGGG AAGGACAGAA 
    GAGAAACAGC AAGAGCCTGT CACCTCTACT TCTCTGGTGT TTGGGAACAA AGCTGACAAT 
    GAAGAGCCAA AGTGTCAAAC AGCGTTTTCC TTTGGCAACT CAGAGCAAAC CAAAGATGAG 
    AGTTCTTCAA AGTCGACCTT TAGTTTCACT ATAGCAAAAC CATCTGAGAA GGAATCTGAA 
    CAGCCAACAA AAACCACTTT TGCTTTTGGA GTTCAAACCA ATACTACAGC TGATCAAGGT 
    GTAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAATTCAAG TACACCAGCC 
    ACTTCATCTA GTGGCAGCAT ATTCGGTAGT TCTACCTTTT CCTCCAGTGC GCCTGTGACC 
    GCCTTTGTGT TCGGACAGGC CAGCAATCCT GTAAGCAGCT CTGCCTTCGG TAACTCTGCT 
    GAATCTAGTA CATCTCAGTC TTTGCTGTTT TCTCAAGATA GCAAACCAGC AACCACATCC 
    AGCACGGGCA CCACTGTTAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAACAATACT 
    GCCACCTCTG GCTTCAGCTT TGGAGCTACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT 
    GTATTTGGTA CTGGACCTTC AGCACCATCT GCCAGCCCAG CATTTGGTGC TAATCAGACC 
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCTGAATC CCCCACGCTT TGGATCTATA 
    TCATCTTCAG CAACATTATT TTCTGCTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA 
    GTGTCAAGCA GTAGCCAGCC TTCTGTGTTT GGACAACAGC CTGGTCAGTC GGCATTTGGC 
    TCTGGAACAG CTCCTAATTC CAGTTCAATT TTCCAGTTTG CCAGGAGCGC TACAAATTTC 
    AGCTTCACAA ACAATAATGC ATCAGGAATA TTCACATTTG GTGCAAATCC TAGCACACCT 
    GCAGCCTCAG CCCAGCCTTC TGGTTCAGGG GGCTTTCCAT CAGCAGCATT TACACTGGGG 
    TCAAATGGGA AAAATATGTT CTCTTCTTCT GGAACTTCAG TTTCTGGTCG CAAGATAAAG 
    ACTGCTGTTA GACGCAGGAA ATAA

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

    RefSeq XP_006909303.1
    CDS512..4795
    Translation

    Target ORF information:

    RefSeq Version XM_006909241.2
    Organism Pteropus alecto(black flying fox)
    Definition Pteropus alecto 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_006909241.2

    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
    ATGGCCTCGG GAGCCGGAGG AATCGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
    TGCCACCAGG GGCCAATTAA GCCTTACCAG CAGGGGCGAC AAAAGCACCA GGGCATTCTT 
    AGCAGGGTTA CAGAATCCGT TAAGAATATT GTGCCAGGAT GGCTACAGAG ATACTTCAAC 
    AAGAATGAAG ATGTATGTAG CTGCTCAACA GACCCAAGAG AGGTACCACA GTGGCCAGAA 
    AATAGAGAAG ATGATCATCT GATATATTCT GATGAGGAGA GTGCAAATAT TCACGATGGG 
    AGAATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTGCT 
    TCCAATTATC CAGATGTGTT AACAAGGCCT TCTCTTCATC GGAGCCATCT GAATTTTTCC 
    ATGTTGGAAT CTCCTGCGTT ACACTGTCAG CCCTCCACAT CCTCAGCATT TCCAATTGGC 
    AGTTCCGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAGCA TGATGATGAT 
    AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTTCA 
    AAGAATACTT CAGTGCCACC TCTGTGGTCT CCAGAGGTTG AACGATCTCA TTCACTGTCA 
    CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTTAACT TATCTGCCTT TGGAACACTT 
    GCCCCTTCAA TTGGGAATTC TTCAACCCTT AAAACAAGTC AGCTTGGAGA TTCTCCTTTT 
    TATCCTGGAA AAACAACGTA CGGTGGGGCA GCAGCTGCTG TAAGACATCC TAAACTACAA 
    AATACACCAT ACCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAACT CAATGCACAA 
    TCCTATGGTG TGACTAGTTC AACAGCTCGG CGAATATTGC AATCTTTAGA GAAGATGTCA 
    AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTTT CTTCTCCACT GAATTCTCCT 
    CTTGATAGGA GTGGGATAGA TACCACCACA GATTATCGGG GCAAAAGGGA AAAGGTGGAC 
    TCTCCATATC CCCCTGTTCA GAGACTCTTG ACCCCAAAGC CGGTATCCAT AGCAGCAAAT 
    CGAACAGTTT ATTTTAAACC ATCTCTGACT CCATCTGGTG AATTAAGGAA GACTAATCAA 
    AGAATAGATA AAAAATACAG TACTGGATAT GAAAAAAATA TGACACCAGG ACAAAATAGA 
    GAACAAGAAA GTGGTTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
    TCTGGAGTAG GTAGTGGAGG TGGCAAGATA AGACGAGAGA GAACACGCTT TGTGGCAACT 
    AAACCTCCAG AGGAGAAGGA AATGGAAATA CCAGTATTAC CGAAAATCAC TCTACCCATC 
    AGCAGTTCTT CACTGCCTAC CTTCAGTTTT AGTTCCCCTG TGATCACAAC TTCTCCATCA 
    TCGATTAGTC CTGCACAGTC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAACACT 
    GGCAGTCCCA TATTTAGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
    CCTCCATCAT CTATTGGATT TACATTTAGT GTGCCAGTTG CAAAAACAGC AGAACTTTCT 
    GGTTCTAGTA GTATTTCAGA ACCAATTACA AGTAGTTCAG GTTTCACATC ACCAAAGGCA 
    GATTCTCTTG CTGCTCAGCC TACTACAAGC CCAGTAGTTT ATACAAGACC AGCAATAAGT 
    AGCTTTTCTT CTAGTGGAAT CGGATTTGGG GAAAGTTTAA AAGCTGGATC ATCGTGGCAG 
    TGTGATAGTT GTCTACTCCA GAACAGAATT ACAGACAACA AGTGCATAGC CTGTCAAGCA 
    ACAAAATTGC CAAAAGATAC TGCTAAACAG ATTGGAATTG GGACACCAAG TAAAAGTGAC 
    AAACCAACTA TTTCTGCATC AGAGACTGGT TTTGGAGACA AATTTAAACC AGCAGTAGGA 
    ACTTGGGATT GTGATACGTG TTTAGTGCAA AATAAACCGG AAGCAATAAA ATGTGTAGCT 
    TGCGAAACAC CGAAACCTGG AACTGGTGTT AAGCGAGTCC TTACATTGCC CGTGGCTTCA 
    GAAAGTGCTA TAACCATGGC CGCTTCATCT TCCAGCTGCA CTGTGACCAC TGCTACCTTA 
    GGATTTGCAG ATAAATTCAA AAGGCCTGTG GGATCTTGGG AATGTCCAGT ATGCTGTGTT 
    TCTAATAATG CAGAAGACAA TAAATGTGTG TCCTGTATGT CTGAGAAACC AGGAAGTTCA 
    GTACCTACTT CAAGTAGCAG CACTGTTCCT GTCTCTCTGT CTTCTGGAGG CTGCCTAGGA 
    TTGGACAAGT TCAAGAAACC TGAAGGAAGC TGGGACTGTG AAGTGTGCCT AGTGCAGAAT 
    AAAGCAGATT TCACCAAATG TGTAGCATGT GAAAGTGCAA AGCCAGGCAC AAAATCTGAG 
    TTTAAAGGCT TTGGCACATC TTCCTCAACT TCAGATCCAG CAGCCCCAAC CTTCAAATTT 
    GGTATCTCGT CATCCTCTTC TGGGCCTTCT CAGACTTTAA CAAGCACTGA AAATTTTAAA 
    TTTGGAGATC CGGGAGGCTT CAAAATAGGT GTGTCATCAG ATTCTGGGTC TTTAAATGCA 
    ATGAGTGAAG GCTTTAAATT TTCTAAATCA ACAGGAAATT TTAAATTTGG AGATTCATCT 
    GATTCTAAAC CTGAAGAAGT TAAAAAAGAC AGTAAGAATG ATAATAATTT TAAATTTGGA 
    CTTTCTTCTG GTTTAAGCAA TCCAGCTTCT TTAGCTTCAT TTCAGTTTGG GGTGTCTAGT 
    CTCGGGCAGC AAGAAAAGAA AGAGGAACTG CCTAACACTT CATCTGCAGG CTTTAGCTTT 
    GGTACAGGTG TTATTAACCC TACTCCTGCT GCTACTAACA CCGTAGTGAC CTCTGAGAAC 
    AAGAGCAGCT TCAGCTTTGG AACCATGGAA ACCAAGAGTG TCTCAGTGGA TCCTTTCACG 
    TGTAAGACAT CAGAAGCAAA AAAAGAAGAA ATCCCTGCTA CCAAAGGAGG GTTCACTTTT 
    GGCAATGTGG AACCTTCCCC TCTGCCATCT GCCTCATTGT TTGTTTTGGG AAGGACAGAA 
    GAGAAACAGC AAGAGCCTGT CACCTCTACT TCTCTGGTGT TTGGGAACAA AGCTGACAAT 
    GAAGAGCCAA AGTGTCAAAC AGCGTTTTCC TTTGGCAACT CAGAGCAAAC CAAAGATGAG 
    AGTTCTTCAA AGTCGACCTT TAGTTTCACT ATAGCAAAAC CATCTGAGAA GGAATCTGAA 
    CAGCCAACAA AAACCACTTT TGCTTTTGGA GTTCAAACCA ATACTACAGC TGATCAAGGT 
    GTAGCAAAGC CAGTTTTTAG TTTCTTGAAC AACAGTTCCT CTAATTCAAG TACACCAGCC 
    ACTTCATCTA GTGGCAGCAT ATTCGGTAGT TCTACCTTTT CCTCCAGTGC GCCTGTGACC 
    GCCTTTGTGT TCGGACAGGC CAGCAATCCT GTAAGCAGCT CTGCCTTCGG TAACTCTGCT 
    GAATCTAGTA CATCTCAGTC TTTGCTGTTT TCTCAAGATA GCAAACCAGC AACCACATCC 
    AGCACGGGCA CCACTGTTAC CCCATTTGTC TTTGGTCCAG GAGCCAGCAG TAACAATACT 
    GCCACCTCTG GCTTCAGCTT TGGAGCTACA ACCACATCTA GCTCTGCAGG ATCCTCCTTT 
    GTATTTGGTA CTGGACCTTC AGCACCATCT GCCAGCCCAG CATTTGGTGC TAATCAGACC 
    CCAACATTTG GACAAAGTCA AGGTGCCAGC CAGCTGAATC CCCCACGCTT TGGATCTATA 
    TCATCTTCAG CAACATTATT TTCTGCTGGT TCTCAGCCTG CACCACCTAC TTTTGGGACA 
    GTGTCAAGCA GTAGCCAGCC TTCTGTGTTT GGACAACAGC CTGGTCAGTC GGCATTTGGC 
    TCTGGAACAG CTCCTAATTC CAGTTCAATT TTCCAGTTTG CCAGGAGCGC TACAAATTTC 
    AGCTTCACAA ACAATAATGC ATCAGGAATA TTCACATTTG GTGCAAATCC TAGCACACCT 
    GCAGCCTCAG CCCAGCCTTC TGGTTCAGGG GGCTTTCCAT CAGCAGCATT TACACTGGGG 
    TCAAATGGGA AAAATATGTT CTCTTCTTCT GGAACTTCAG TTTCTGGTCG CAAGATAAAG 
    ACTGCTGTTA GACGCAGGAA ATAA

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

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