NUP160 cDNA ORF clone, Sus scrofa(pig)

  • Gene

  • Clones

  • gRNAs

The following NUP160 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NUP160 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
OSe244715 XM_021085052.1
Latest version!
Sus scrofa nucleoporin 160 (NUP160), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OSe04378 XM_003122817.4
Latest version!
Sus scrofa nucleoporin 160kDa (NUP160), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OSe244715
    Clone ID Related Accession (Same CDS sequence) XM_021085052.1
    Accession Version XM_021085052.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4437bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-12
    Organism Sus scrofa(pig)
    Product nuclear pore complex protein Nup160
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010444.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGCAAATCC TGCAAGCTCC CCCTGCCTCC TCTCATCTGG CTTCCTCCTT GCCCACCCTG 
    TCTCCGGCCA GCTCGGTGGA AGCCTCACAA CGGTGGGTCG GACAGGCCCT AGACCTTTCC
    GGGTTTCTTC ACCTGTCCGC ATCTGTGCTT GCTCCGCCCC CGGAAGTGAC GACAGCCGCC
    CGGCTGGGCT GGTGTCCCGT CAGGCCTCGC GGCGGCGGCG GCGGGAAGAT GGCGGCGGCG
    GGAGCCATGG AACGGAGCTT CGTAGAGCTC AGCGGAGCTG AGCGCGAAAG GCCAAGGCAC
    TTTCGGGAAT TCGCAGTTTG CGACATTGGA ACTGCAAATG CAGTGGCCGG AGCTGTGAAA
    TACAGTGAGA GCGCGGGAGG CTTCTACTAC GTGGAAAGTG GCAAGTTGTT CTCCGTCACC
    AGAAACAGGT TCATTCATTG GAAGACCTCT GGAGATACAC TGGAGCTGGT AGAAGAGTCA
    CTGGACGTAA ATCTGTTAAA TAATGCAGTT CGCCTCAAAT TCCAAAATTG CAGCCTCTTA
    CCCGGAGGGG TTCATGTCGC TGAGACTCAG AATCACGTGA TACTCTTGAT ATTAACCAAT
    CAAACAGTGC ACAGGTTACT TTTGCCACAC CCTTCCCGGA TGTATAGGAG TGAGTTGGTA
    ATTGAAAGTC AGATGCAGTC AGTATTCACC GACATCGGAA AATTTGATTT CAGGGATCCA
    TACAACTATC AGTTAATTCC AGCAGCACCT GGACTCTCTC CTAATTCCAC CACATCTGCA
    GCCTGGCTTA GCAATGATGG GGAGGCTCTG TTTGCTCTCC CGTCTGCTTC GGGGGGAATC
    TTTGTGCTTA AACTACCTCC TTATGACGTA CCTGGAATGG TGTCAGTTGT GGAGCTGAAA
    CAGAGTTCAG TAATGCAGCG GCTGCTTATA GGCTGGATGC CAACAGCTAT CAGAGGTGAT
    CAGGGGCCTT CAGATCGTCC CCTGAGTCTT GCTGTTCACT GTGTCGAGCA CGACGCCTTC
    ATCTTTGCTC TGTGTCAAGA TCATAAACTA CGAATGTGGT CTTATAAGGA CCAGATGTGC
    CTGATGGTAG CTGACATGCT GGAGTATGTC CCTGTGAATA AAGATCTTCG GCTCACTGCT
    GGGACTGGAC ACAAATTGCG ACTGGCTTAT TCCCCTTCCA TGGGCCTCTA CCTAGGGATA
    TACATGCATG CACCAAAGCG AGGACAGTTC TGCGTTTTCC AGTTGGTGAG CACTGAGAAC
    AGCCGCTATA GTCTAGATCA CATTTCCTCA CTTTTCACTT CTCAGGAGAC ACTGATTGAC
    TTTGCCTTAA CCTCTACGGA TATCTGGGCC CTGTGGCATG ATGCTGAGAA CCAAACAATT
    GTGAAATACA TCAACTTTGA ACATAATGTT GCAGGTCAGT GGAATCCAGT TTTTATACAG
    CCTCTGCCAG AGGAAGAAAT CATTATCAGA GATGATCAAG ACCCCAGAGA AATGTATTTG
    CGTAGTCTTT TTACACCAGG ACGATTCACA AATGCAGCTT TATGTAAAGC TTTACAGATT
    TTCTGTCGAG GAACTGAGAG GAATTTAGAT CTTTCCTGGA GTGAGCTAAA GAGAGAAGTT
    ACTTTAGCTG TTGAAAGTGA GCTCCAAGGA AGTGTAACAG AGTATGAATT CTCCCAGGAG
    GAGTTTCGAA ATTTACAACA GGAATTCTGG TGCAAGTTCT ATGCCTGTTG TCTTCAGTAC
    CAAGAAGCTC TTTCTCATCC TCTTGCCCTC CATTTAAATC CACACACAAA CATGGTGTGC
    CTGCTGAAAA AAGGGTACCT GTCTTTCCTT GTGCCTTCCT CCTTAGTGGA TCATTTGTAT
    CTCCTGCCTG ATGAGAACCT TTTGACAGAG GATGAGACAA CCATATCTGA TGATGTGGAT
    GTTGCTCGGG ATGTCATTTG TCTTATAAAA TGCCTTCGAC TGATTGGAGA GTCAGTAACT
    ATGGATATGT CAGTCATGAT GGAAATGAGT TGTTACAACC TACAGTCTCC AGAAAAGGCT
    GCAGAACAGA TTCTGGAAGA TTTGATCACT ATTGATGTAG ACAATGTGAT GGAGGATATT
    TGCAGTAAAC TGCAAGAGAT TCGGAACCCA ATCCATGCCA TTGGACTTGT TATACGGGAA
    ATGGATTATG AAACAGAAGT GGAAATGGAA AAGGGATTCA ATCCAGCTCA GCCTTTGAAT
    ATTCGAATGA ATCTTTCCCA GCTCTATGGT AGTAGCACAG CTGGGTATAT TGTGTGCAGA
    AATGTGTGTA AGATTGCCAG TACTCGCTTC CTCATCTGCC GAGATCTGTT GATCTTACAG
    CAGCTACTAA TGAGGCTGGG AGATGCAGTG ATTTTGGGAG CTGGTCAGCT CTTTCAAGCT
    CAGCAAGACC TACTACACCG AACAGCTCCC CTACTCTTAT CCTATTACCT CATTAAGTGG
    GGAAGTCAGT GTTTAGCAAC TGATGTTCCA GTTGACACAC TAGAGTCTAA TCTTCAGCAT
    TTATCAGTAC TGGAACTAAC TGACTCTGGG ACTTTAACAG CAAATAAGTT CGTATCTAGC
    CCTCAGACAA TTGTGGAATT ATTCTTCCAA GAAGTTGCAA GAAAACACAT TATATCTCAT
    CTCTTCTCTC AACCAAAGGC ACCTCTAAGC CAAACTGGAT TGAATTGGCC TGAGATGATT
    ACTGCAATTA CCAGTTATTT ATTGCAGCTT TTATGGCCTA GCAATCCTGG TTGTCTCTTT
    CTAGAATGTT TGATGGGAAA TTGTCAGTAT GTACAATTGC AGGATTATAT TCAGCTGCTA
    CATCCTTGGT GCCAAGTCAA TGTTGGTTCC TGTCGATTTA TGCTGGGACG GTGTTACCTG
    GTGACCGGAG AGGGACAGAA GGCTCTGGAA TGTTTCTGCC AGGCAGCATC TGAAGTGGGC
    AAAGAGGAAT TCTTAGATCG CTTGATCCGG TCAGAGGATG GGGAGATTGT GTCCACCCCC
    AGGCTGCAGT ATTATGATAA GGTTTTGCGT CTGCTAGATG TGGTTGGTTT GCCTGAACTG
    GTTATTCAGT TGGCTACGTC AGCAATAACT GAAGCAGGTG ATGACTGGAA AAGTCAGGCT
    ACTTTAAGGA CATGCATTTT CAAACATCAT TTGGATTTGG GTCACAATAG CCAAGCATAT
    GAAGCCTTAA CCCAAATTCC TGATTCTAGC AGGCAGTTAG ATTGTTTACG GCAGCTGGTG
    GTAGTTCTTT GTGAACGCTC ACAGCTTCAG GATCTTGTCG AGTTTCCCTA TGTGAATCTG
    CACAATGAGG TTGTGGGAAT AATTGAATCA CGTGCAAGAG CTGTGGACCT TATGACTCAC
    AATTACTATG AGCTTCTGTA CGCCTTTCAC ATCTATCGTC ACAATTACCG AAAGGCTGGC
    ACAGTCATGT TTGAGTACGG AATGCGTCTT GGCAGAGAAG TTCGAACTCT TCGGGGACTT
    GAGAAGCAAG GCAACTGTTA TCTGGCTGCT ATTAATTGTT TACGACTTAT TCGCCCAGAA
    TACGCATGGA TTGTTCAGCC AGCATCTGGT GCAGTGTATG ATCGCCCTGG AGCTTCCCCT
    AAGAGGAATC ATGATGGAGA ATGCACAGCT GCCCCAACAA ATAGACAAAT TGAAATCCTG
    GAACTAGAAG ATCTGGAGAA AGAGTGTTCC TTGGCTCGCA TTCGCCTCAC CCTGGCTCAG
    CATGATCCCT CAGCAGTCGC AGTGGCAGGG AGTTCGTCAG CAGAGGAGAT GGTCACTCTC
    TTGGTTCAGG CCGGCCTTTT TGACACTGCC ATATCACTCT GTCAAACCTT TAAGCTCCCC
    TTAACGCCAG TCTTTGAGGG ACTTGCTTTC AAATGCATCA AATTGCAGTT TGGAGGAGAA
    CCAGCACAAG CAGAAGCCTG GGCCTGGCTA GCAGCCAACC AGCTGTCATC AGTCATCACC
    ACTAAGGAGT CTAGTGCTAC AGATGAAGCA TGGCGACTCT TATCAACTTA CCTGGAAAGA
    TACAAAGTCC AGAATAATTT ATATCACCAC TGTGTCATTA ACAAGCTCTT GTCTCATGGA
    GTGCCTCTGC CTAATTGGCT TATAAACAGT TACAAGAAGG TTGATGCAGC TGAGTTGCTC
    CGTCTATACT TAAACTACGA CCTTTTAGAA GAAGCTGTGG ACTTGGTGTC TGAATATGTG
    GATGCTGTCT TGGGAAAAGG ACATCAGTAC TTTGGAATTG AGTTTCCACT GTCTGCAACA
    GCTCCAATGG TGTGGCTCCC ATATTCTTCT ATTGATCAAC TTCTCCAGGC TCTGGGAGAG
    AACAGCGCCA ACAGTCACAA CATTGCACTG TCCCAGAAAA TACTTGACAA ATTGGAGGAC
    TACCAGCAAA AAGTTGATAA GGCAACAAGG GATTTATTAC ATCGTCGGCT CTTGTGA

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

    RefSeq XP_020940711.1
    CDS1..4437
    Translation

    Target ORF information:

    RefSeq Version XM_021085052.1
    Organism Sus scrofa(pig)
    Definition Sus scrofa nucleoporin 160 (NUP160), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021085052.1

    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
    ATGCAAATCC TGCAAGCTCC CCCTGCCTCC TCTCATCTGG CTTCCTCCTT GCCCACCCTG 
    TCTCCGGCCA GCTCGGTGGA AGCCTCACAA CGGTGGGTCG GACAGGCCCT AGACCTTTCC
    GGGTTTCTTC ACCTGTCCGC ATCTGTGCTT GCTCCGCCCC CGGAAGTGAC GACAGCCGCC
    CGGCTGGGCT GGTGTCCCGT CAGGCCTCGC GGCGGCGGCG GCGGGAAGAT GGCGGCGGCG
    GGAGCCATGG AACGGAGCTT CGTAGAGCTC AGCGGAGCTG AGCGCGAAAG GCCAAGGCAC
    TTTCGGGAAT TCGCAGTTTG CGACATTGGA ACTGCAAATG CAGTGGCCGG AGCTGTGAAA
    TACAGTGAGA GCGCGGGAGG CTTCTACTAC GTGGAAAGTG GCAAGTTGTT CTCCGTCACC
    AGAAACAGGT TCATTCATTG GAAGACCTCT GGAGATACAC TGGAGCTGGT AGAAGAGTCA
    CTGGACGTAA ATCTGTTAAA TAATGCAGTT CGCCTCAAAT TCCAAAATTG CAGCCTCTTA
    CCCGGAGGGG TTCATGTCGC TGAGACTCAG AATCACGTGA TACTCTTGAT ATTAACCAAT
    CAAACAGTGC ACAGGTTACT TTTGCCACAC CCTTCCCGGA TGTATAGGAG TGAGTTGGTA
    ATTGAAAGTC AGATGCAGTC AGTATTCACC GACATCGGAA AATTTGATTT CAGGGATCCA
    TACAACTATC AGTTAATTCC AGCAGCACCT GGACTCTCTC CTAATTCCAC CACATCTGCA
    GCCTGGCTTA GCAATGATGG GGAGGCTCTG TTTGCTCTCC CGTCTGCTTC GGGGGGAATC
    TTTGTGCTTA AACTACCTCC TTATGACGTA CCTGGAATGG TGTCAGTTGT GGAGCTGAAA
    CAGAGTTCAG TAATGCAGCG GCTGCTTATA GGCTGGATGC CAACAGCTAT CAGAGGTGAT
    CAGGGGCCTT CAGATCGTCC CCTGAGTCTT GCTGTTCACT GTGTCGAGCA CGACGCCTTC
    ATCTTTGCTC TGTGTCAAGA TCATAAACTA CGAATGTGGT CTTATAAGGA CCAGATGTGC
    CTGATGGTAG CTGACATGCT GGAGTATGTC CCTGTGAATA AAGATCTTCG GCTCACTGCT
    GGGACTGGAC ACAAATTGCG ACTGGCTTAT TCCCCTTCCA TGGGCCTCTA CCTAGGGATA
    TACATGCATG CACCAAAGCG AGGACAGTTC TGCGTTTTCC AGTTGGTGAG CACTGAGAAC
    AGCCGCTATA GTCTAGATCA CATTTCCTCA CTTTTCACTT CTCAGGAGAC ACTGATTGAC
    TTTGCCTTAA CCTCTACGGA TATCTGGGCC CTGTGGCATG ATGCTGAGAA CCAAACAATT
    GTGAAATACA TCAACTTTGA ACATAATGTT GCAGGTCAGT GGAATCCAGT TTTTATACAG
    CCTCTGCCAG AGGAAGAAAT CATTATCAGA GATGATCAAG ACCCCAGAGA AATGTATTTG
    CGTAGTCTTT TTACACCAGG ACGATTCACA AATGCAGCTT TATGTAAAGC TTTACAGATT
    TTCTGTCGAG GAACTGAGAG GAATTTAGAT CTTTCCTGGA GTGAGCTAAA GAGAGAAGTT
    ACTTTAGCTG TTGAAAGTGA GCTCCAAGGA AGTGTAACAG AGTATGAATT CTCCCAGGAG
    GAGTTTCGAA ATTTACAACA GGAATTCTGG TGCAAGTTCT ATGCCTGTTG TCTTCAGTAC
    CAAGAAGCTC TTTCTCATCC TCTTGCCCTC CATTTAAATC CACACACAAA CATGGTGTGC
    CTGCTGAAAA AAGGGTACCT GTCTTTCCTT GTGCCTTCCT CCTTAGTGGA TCATTTGTAT
    CTCCTGCCTG ATGAGAACCT TTTGACAGAG GATGAGACAA CCATATCTGA TGATGTGGAT
    GTTGCTCGGG ATGTCATTTG TCTTATAAAA TGCCTTCGAC TGATTGGAGA GTCAGTAACT
    ATGGATATGT CAGTCATGAT GGAAATGAGT TGTTACAACC TACAGTCTCC AGAAAAGGCT
    GCAGAACAGA TTCTGGAAGA TTTGATCACT ATTGATGTAG ACAATGTGAT GGAGGATATT
    TGCAGTAAAC TGCAAGAGAT TCGGAACCCA ATCCATGCCA TTGGACTTGT TATACGGGAA
    ATGGATTATG AAACAGAAGT GGAAATGGAA AAGGGATTCA ATCCAGCTCA GCCTTTGAAT
    ATTCGAATGA ATCTTTCCCA GCTCTATGGT AGTAGCACAG CTGGGTATAT TGTGTGCAGA
    AATGTGTGTA AGATTGCCAG TACTCGCTTC CTCATCTGCC GAGATCTGTT GATCTTACAG
    CAGCTACTAA TGAGGCTGGG AGATGCAGTG ATTTTGGGAG CTGGTCAGCT CTTTCAAGCT
    CAGCAAGACC TACTACACCG AACAGCTCCC CTACTCTTAT CCTATTACCT CATTAAGTGG
    GGAAGTCAGT GTTTAGCAAC TGATGTTCCA GTTGACACAC TAGAGTCTAA TCTTCAGCAT
    TTATCAGTAC TGGAACTAAC TGACTCTGGG ACTTTAACAG CAAATAAGTT CGTATCTAGC
    CCTCAGACAA TTGTGGAATT ATTCTTCCAA GAAGTTGCAA GAAAACACAT TATATCTCAT
    CTCTTCTCTC AACCAAAGGC ACCTCTAAGC CAAACTGGAT TGAATTGGCC TGAGATGATT
    ACTGCAATTA CCAGTTATTT ATTGCAGCTT TTATGGCCTA GCAATCCTGG TTGTCTCTTT
    CTAGAATGTT TGATGGGAAA TTGTCAGTAT GTACAATTGC AGGATTATAT TCAGCTGCTA
    CATCCTTGGT GCCAAGTCAA TGTTGGTTCC TGTCGATTTA TGCTGGGACG GTGTTACCTG
    GTGACCGGAG AGGGACAGAA GGCTCTGGAA TGTTTCTGCC AGGCAGCATC TGAAGTGGGC
    AAAGAGGAAT TCTTAGATCG CTTGATCCGG TCAGAGGATG GGGAGATTGT GTCCACCCCC
    AGGCTGCAGT ATTATGATAA GGTTTTGCGT CTGCTAGATG TGGTTGGTTT GCCTGAACTG
    GTTATTCAGT TGGCTACGTC AGCAATAACT GAAGCAGGTG ATGACTGGAA AAGTCAGGCT
    ACTTTAAGGA CATGCATTTT CAAACATCAT TTGGATTTGG GTCACAATAG CCAAGCATAT
    GAAGCCTTAA CCCAAATTCC TGATTCTAGC AGGCAGTTAG ATTGTTTACG GCAGCTGGTG
    GTAGTTCTTT GTGAACGCTC ACAGCTTCAG GATCTTGTCG AGTTTCCCTA TGTGAATCTG
    CACAATGAGG TTGTGGGAAT AATTGAATCA CGTGCAAGAG CTGTGGACCT TATGACTCAC
    AATTACTATG AGCTTCTGTA CGCCTTTCAC ATCTATCGTC ACAATTACCG AAAGGCTGGC
    ACAGTCATGT TTGAGTACGG AATGCGTCTT GGCAGAGAAG TTCGAACTCT TCGGGGACTT
    GAGAAGCAAG GCAACTGTTA TCTGGCTGCT ATTAATTGTT TACGACTTAT TCGCCCAGAA
    TACGCATGGA TTGTTCAGCC AGCATCTGGT GCAGTGTATG ATCGCCCTGG AGCTTCCCCT
    AAGAGGAATC ATGATGGAGA ATGCACAGCT GCCCCAACAA ATAGACAAAT TGAAATCCTG
    GAACTAGAAG ATCTGGAGAA AGAGTGTTCC TTGGCTCGCA TTCGCCTCAC CCTGGCTCAG
    CATGATCCCT CAGCAGTCGC AGTGGCAGGG AGTTCGTCAG CAGAGGAGAT GGTCACTCTC
    TTGGTTCAGG CCGGCCTTTT TGACACTGCC ATATCACTCT GTCAAACCTT TAAGCTCCCC
    TTAACGCCAG TCTTTGAGGG ACTTGCTTTC AAATGCATCA AATTGCAGTT TGGAGGAGAA
    CCAGCACAAG CAGAAGCCTG GGCCTGGCTA GCAGCCAACC AGCTGTCATC AGTCATCACC
    ACTAAGGAGT CTAGTGCTAC AGATGAAGCA TGGCGACTCT TATCAACTTA CCTGGAAAGA
    TACAAAGTCC AGAATAATTT ATATCACCAC TGTGTCATTA ACAAGCTCTT GTCTCATGGA
    GTGCCTCTGC CTAATTGGCT TATAAACAGT TACAAGAAGG TTGATGCAGC TGAGTTGCTC
    CGTCTATACT TAAACTACGA CCTTTTAGAA GAAGCTGTGG ACTTGGTGTC TGAATATGTG
    GATGCTGTCT TGGGAAAAGG ACATCAGTAC TTTGGAATTG AGTTTCCACT GTCTGCAACA
    GCTCCAATGG TGTGGCTCCC ATATTCTTCT ATTGATCAAC TTCTCCAGGC TCTGGGAGAG
    AACAGCGCCA ACAGTCACAA CATTGCACTG TCCCAGAAAA TACTTGACAA ATTGGAGGAC
    TACCAGCAAA AAGTTGATAA GGCAACAAGG GATTTATTAC ATCGTCGGCT CTTGTGA

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

    CloneID OSe04378
    Clone ID Related Accession (Same CDS sequence) XM_003122817.4
    Accession Version XM_003122817.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-09-10
    Organism Sus scrofa(Pig)
    Product nuclear pore complex protein Nup160
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003609530.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 11, 2015 this sequence version replaced XM_003122817.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTTACAC AGATCCTGCA AGCTCCCCCT GCCTCCTCTC ATCTGGCTTC CTCCTTGCCC 
    ACCCTGTCTC CGGCCAGCTC GGTGGAAGCC TCACAACGGT GGGTCGGACA GGCCCTAGAC
    CTTTCCGGGT TTCTTCACCT GTCCGCATCT GTGCTTGCTC CGCCCCCGGA AGTGACGACA
    GCCGCCCGGC TGGGCTGGTG TCCCGTCAGG CCTCGCGGCG GCGGCGGCGG GAAGATGGCG
    GCGGCGGGAG CCATGGAACG GAGCTTCGTA GAGCTCAGCG GAGCTGAGCG CGAAAGGCCA
    AGGCACTTTC GGGAATTCGC AGTTTGCGAC ATTGGAACTG CAAATGCAGT GGCCGGAGCT
    GTGAAATACA GTGAGAGCGC GGGAGGCTTC TACTACGTGG AAAGTGGCAA GTTGTTCTCC
    GTCACCAGAA ACAGGTTCAT TCATTGGAAG ACCTCTGGAG ATACACTGGA GCTGGTAGAA
    GAGTCACTGG ACGTAAATCT GTTAAATAAT GCAGTTCGCC TCAAATTCCA AAATTGCAGC
    CTCTTACCCG GAGGGGTTCA TGTCGCTGAG ACTCAGAATC ACGTGATACT CTTGATATTA
    ACCAATCAAA CAGTGCACAG GTTACTTTTG CCACACCCTT CCCGGATGTA TAGGAGTGAG
    TTGGTAATTG AAAGTCAGAT GCAGTCAGTA TTCACCGACA TCGGAAAATT TGATTTCAGG
    GATCCATACA ACTATCAGTT AATTCCAGCA GCACCTGGAC TCTCTCCTAA TTCCACCACA
    TCTGCAGCCT GGCTTAGCAA TGATGGGGAG GCTCTGTTTG CTCTCCCGTC TGCTTCGGGG
    GGAATCTTTG TGCTTAAACT ACCTCCTTAT GACGTACCTG GAATGGTGTC AGTTGTGGAG
    CTGAAACAGA GTTCAGTAAT GCAGCGGCTG CTTATAGGCT GGATGCCAAC AGCTATCAGA
    GGTGATCAGG GGCCTTCAGA TCGTCCCCTG AGTCTTGCTG TTCACTGTGT CGAGCACGAC
    GCCTTCATCT TTGCTCTGTG TCAAGATCAT AAACTACGAA TGTGGTCTTA TAAGGACCAG
    ATGTGCCTGA TGGTAGCTGA CATGCTGGAG TATGTCCCTG TGAATAAAGA TCTTCGGCTC
    ACTGCTGGGA CTGGACACAA ATTGCGACTG GCTTATTCCC CTTCCATGGG CCTCTACCTA
    GGGATATACA TGCATGCACC AAAGCGAGGA CAGTTCTGCG TTTTCCAGTT GGTGAGCACT
    GAGAACAGCC GCTATAGTCT AGATCACATT TCCTCACTTT TCACTTCTCA GGAGACACTG
    ATTGACTTTG CCTTAACCTC TACGGATATC TGGGCCCTGT GGCATGATGC TGAGAACCAA
    ACAATTGTGA AATACATCAA CTTTGAACAT AATGTTGCAG GTCAGTGGAA TCCAGTTTTT
    ATACAGCCTC TGCCAGAGGA AGAAATCATT ATCAGAGATG ATCAAGACCC CAGAGAAATG
    TATTTGCGTA GTCTTTTTAC ACCAGGACGA TTCACAAATG CAGCTTTATG TAAAGCTTTA
    CAGATTTTCT GTCGAGGAAC TGAGAGGAAT TTAGATCTTT CCTGGAGTGA GCTAAAGAGA
    GAAGTTACTT TAGCTGTTGA AAGTGAGCTC CAAGGAAGTG TAACAGAGTA TGAATTCTCC
    CAGGAGGAGT TTCGAAATTT ACAACAGGAA TTCTGGTGCA AGTTCTATGC CTGTTGTCTT
    CAGTACCAAG AAGCTCTTTC TCATCCTCTT GCCCTCCATT TAAATCCACA CACAAACATG
    GTGTGCCTGC TGAAAAAAGG GTACCTGTCT TTCCTTGTGC CTTCCTCCTT AGTGGATCAT
    TTGTATCTCC TGCCTGATGA GAACCTTTTG ACAGAGGATG AGACAACCAT ATCTGATGAT
    GTGGATGTTG CTCGGGATGT CATTTGTCTT ATAAAATGCC TTCGACTGAT TGGAGAGTCA
    GTAACTATGG ATATGTCAGT CATGATGGAA ATGAGTTGTT ACAACCTACA GTCTCCAGAA
    AAGGCTGCAG AACAGATTCT GGAAGATTTG ATCACTATTG ATGTAGACAA TGTGATGGAG
    GATATTTGCA GTAAACTGCA AGAGATTCGG AACCCAATCC ATGCCATTGG ACTTGTTATA
    CGGGAAATGG ATTATGAAAC AGAAGTGGAA ATGGAAAAGG GATTCAATCC AGCTCAGCCT
    TTGAATATTC GAATGAATCT TTCCCAGCTC TATGGTAGTA GCACAGCTGG GTATATTGTG
    TGCAGAAATG TGTGTAAGAT TGCCAGTACT CGCTTCCTCA TCTGCCGAGA TCTGTTGATC
    TTACAGCAGC TACTAATGAG GCTGGGAGAT GCAGTGATTT TGGGAGCTGG TCAGCTCTTT
    CAAGCTCAGC AAGACCTACT ACACCGAACA GCTCCCCTAC TCTTATCCTA TTACCTCATT
    AAGTGGGGAA GTCAGTGTTT AGCAACTGAT GTTCCAGTTG ACACACTAGA GTCTAATCTT
    CAGCATTTAT CAGTACTGGA ACTAACTGAC TCTGGGACTT TAACAGCAAA TAAGTTCGTA
    TCTAGCCCTC AGACAATTGT GGAATTATTC TTCCAAGAAG TTGCAAGAAA ACACATTATA
    TCTCATCTCT TCTCTCAACC AAAGGCACCT CTAAGCCAAA CTGGATTGAA TTGGCCTGAG
    ATGATTACTG CAATTACCAG TTATTTATTG CAGCTTTTAT GGCCTAGCAA TCCTGGTTGT
    CTCTTTCTAG AATGTTTGAT GGGAAATTGT CAGTATGTAC AATTGCAGGA TTATATTCAG
    CTGCTACATC CTTGGTGCCA AGTCAATGTT GGTTCCTGTC GATTTATGCT GGGACGGTGT
    TACCTGGTGA CCGGAGAGGG ACAGAAGGCT CTGGAATGTT TCTGCCAGGC AGCATCTGAA
    GTGGGCAAAG AGGAATTCTT AGATCGCTTG ATCCGGTCAG AGGATGGGGA GATTGTGTCC
    ACCCCCAGGC TGCAGTATTA TGATAAGGTT TTGCGTCTGC TAGATGTGGT TGGTTTGCCT
    GAACTGGTTA TTCAGTTGGC TACGTCAGCA ATAACTGAAG CAGGTGATGA CTGGAAAAGT
    CAGGCTACTT TAAGGACATG CATTTTCAAA CATCATTTGG ATTTGGGTCA CAATAGCCAA
    GCATATGAAG CCTTAACCCA AATTCCTGAT TCTAGCAGGC AGTTAGATTG TTTACGGCAG
    CTGGTGGTAG TTCTTTGTGA ACGCTCACAG CTTCAGGATC TTGTCGAGTT TCCCTATGTG
    AATCTGCACA ATGAGGTTGT GGGAATAATT GAATCACGTG CAAGAGCTGT GGACCTTATG
    ACTCACAATT ACTATGAGCT TCTGTACGCC TTTCACATCT ATCGTCACAA TTACCGAAAG
    GCTGGCACAG TCATGTTTGA GTACGGAATG CGTCTTGGCA GAGAAGTTCG AACTCTTCGG
    GGACTTGAGA AGCAAGGCAA CTGTTATCTG GCTGCTATTA ATTGTTTACG ACTTATTCGC
    CCAGAATACG CATGGATTGT TCAGCCAGCA TCTGGTGCAG TGTATGATCG CCCTGGAGCT
    TCCCCTAAGA GGAATCATGA TGGAGAATGC ACAGCTGCCC CAACAAATAG ACAAATTGAA
    ATCCTGGAAC TAGAAGATCT GGAGAAAGAG TGTTCCTTGG CTCGCATTCG CCTCACCCTG
    GCTCAGCATG ATCCCTCAGC AGTCGCAGTG GCAGGGAGTT CGTCAGCAGA GGAGATGGTC
    ACTCTCTTGG TTCAGGCCGG CCTTTTTGAC ACTGCCATAT CACTCTGTCA AACCTTTAAG
    CTCCCCTTAA CGCCAGTCTT TGAGGGACTT GCTTTCAAAT GCATCAAATT GCAGTTTGGA
    GGAGAACCAG CACAAGCAGA AGCCTGGGCC TGGCTAGCAG CCAACCAGCT GTCATCAGTC
    ATCACCACTA AGGAGTCTAG TGCTACAGAT GAAGCATGGC GACTCTTATC AACTTACCTG
    GAAAGATACA AAGTCCAGAA TAATTTATAT CACCACTGTG TCATTAACAA GCTCTTGTCT
    CATGGAGTGC CTCTGCCTAA TTGGCTTATA AACAGTTACA AGAAGGTTGA TGCAGCTGAG
    TTGCTCCGTC TATACTTAAA CTACGACCTT TTAGAAGAAG CTGTGGACTT GGTGTCTGAA
    TATGTGGATG CTGTCTTGGG AAAAGGACAT CAGTACTTTG GAATTGAGTT TCCACTGTCT
    GCAACAGCTC CAATGGTGTG GCTCCCATAT TCTTCTATTG ATCAACTTCT CCAGGCTCTG
    GGAGAGAACA GCGCCAACAG TCACAACATT GCACTGTCCC AGAAAATACT TGACAAATTG
    GAGGACTACC AGCAAAAAGT TGATAAGGCA ACAAGGGATT TATTACATCG TCGGCTCTTG
    TGA

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

    RefSeq XP_003122865.3
    CDS1..4443
    Translation

    Target ORF information:

    RefSeq Version XM_003122817.4
    Organism Sus scrofa(Pig)
    Definition Sus scrofa nucleoporin 160kDa (NUP160), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003122817.4

    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
    4441
    ATGGTTACAC AGATCCTGCA AGCTCCCCCT GCCTCCTCTC ATCTGGCTTC CTCCTTGCCC 
    ACCCTGTCTC CGGCCAGCTC GGTGGAAGCC TCACAACGGT GGGTCGGACA GGCCCTAGAC
    CTTTCCGGGT TTCTTCACCT GTCCGCATCT GTGCTTGCTC CGCCCCCGGA AGTGACGACA
    GCCGCCCGGC TGGGCTGGTG TCCCGTCAGG CCTCGCGGCG GCGGCGGCGG GAAGATGGCG
    GCGGCGGGAG CCATGGAACG GAGCTTCGTA GAGCTCAGCG GAGCTGAGCG CGAAAGGCCA
    AGGCACTTTC GGGAATTCGC AGTTTGCGAC ATTGGAACTG CAAATGCAGT GGCCGGAGCT
    GTGAAATACA GTGAGAGCGC GGGAGGCTTC TACTACGTGG AAAGTGGCAA GTTGTTCTCC
    GTCACCAGAA ACAGGTTCAT TCATTGGAAG ACCTCTGGAG ATACACTGGA GCTGGTAGAA
    GAGTCACTGG ACGTAAATCT GTTAAATAAT GCAGTTCGCC TCAAATTCCA AAATTGCAGC
    CTCTTACCCG GAGGGGTTCA TGTCGCTGAG ACTCAGAATC ACGTGATACT CTTGATATTA
    ACCAATCAAA CAGTGCACAG GTTACTTTTG CCACACCCTT CCCGGATGTA TAGGAGTGAG
    TTGGTAATTG AAAGTCAGAT GCAGTCAGTA TTCACCGACA TCGGAAAATT TGATTTCAGG
    GATCCATACA ACTATCAGTT AATTCCAGCA GCACCTGGAC TCTCTCCTAA TTCCACCACA
    TCTGCAGCCT GGCTTAGCAA TGATGGGGAG GCTCTGTTTG CTCTCCCGTC TGCTTCGGGG
    GGAATCTTTG TGCTTAAACT ACCTCCTTAT GACGTACCTG GAATGGTGTC AGTTGTGGAG
    CTGAAACAGA GTTCAGTAAT GCAGCGGCTG CTTATAGGCT GGATGCCAAC AGCTATCAGA
    GGTGATCAGG GGCCTTCAGA TCGTCCCCTG AGTCTTGCTG TTCACTGTGT CGAGCACGAC
    GCCTTCATCT TTGCTCTGTG TCAAGATCAT AAACTACGAA TGTGGTCTTA TAAGGACCAG
    ATGTGCCTGA TGGTAGCTGA CATGCTGGAG TATGTCCCTG TGAATAAAGA TCTTCGGCTC
    ACTGCTGGGA CTGGACACAA ATTGCGACTG GCTTATTCCC CTTCCATGGG CCTCTACCTA
    GGGATATACA TGCATGCACC AAAGCGAGGA CAGTTCTGCG TTTTCCAGTT GGTGAGCACT
    GAGAACAGCC GCTATAGTCT AGATCACATT TCCTCACTTT TCACTTCTCA GGAGACACTG
    ATTGACTTTG CCTTAACCTC TACGGATATC TGGGCCCTGT GGCATGATGC TGAGAACCAA
    ACAATTGTGA AATACATCAA CTTTGAACAT AATGTTGCAG GTCAGTGGAA TCCAGTTTTT
    ATACAGCCTC TGCCAGAGGA AGAAATCATT ATCAGAGATG ATCAAGACCC CAGAGAAATG
    TATTTGCGTA GTCTTTTTAC ACCAGGACGA TTCACAAATG CAGCTTTATG TAAAGCTTTA
    CAGATTTTCT GTCGAGGAAC TGAGAGGAAT TTAGATCTTT CCTGGAGTGA GCTAAAGAGA
    GAAGTTACTT TAGCTGTTGA AAGTGAGCTC CAAGGAAGTG TAACAGAGTA TGAATTCTCC
    CAGGAGGAGT TTCGAAATTT ACAACAGGAA TTCTGGTGCA AGTTCTATGC CTGTTGTCTT
    CAGTACCAAG AAGCTCTTTC TCATCCTCTT GCCCTCCATT TAAATCCACA CACAAACATG
    GTGTGCCTGC TGAAAAAAGG GTACCTGTCT TTCCTTGTGC CTTCCTCCTT AGTGGATCAT
    TTGTATCTCC TGCCTGATGA GAACCTTTTG ACAGAGGATG AGACAACCAT ATCTGATGAT
    GTGGATGTTG CTCGGGATGT CATTTGTCTT ATAAAATGCC TTCGACTGAT TGGAGAGTCA
    GTAACTATGG ATATGTCAGT CATGATGGAA ATGAGTTGTT ACAACCTACA GTCTCCAGAA
    AAGGCTGCAG AACAGATTCT GGAAGATTTG ATCACTATTG ATGTAGACAA TGTGATGGAG
    GATATTTGCA GTAAACTGCA AGAGATTCGG AACCCAATCC ATGCCATTGG ACTTGTTATA
    CGGGAAATGG ATTATGAAAC AGAAGTGGAA ATGGAAAAGG GATTCAATCC AGCTCAGCCT
    TTGAATATTC GAATGAATCT TTCCCAGCTC TATGGTAGTA GCACAGCTGG GTATATTGTG
    TGCAGAAATG TGTGTAAGAT TGCCAGTACT CGCTTCCTCA TCTGCCGAGA TCTGTTGATC
    TTACAGCAGC TACTAATGAG GCTGGGAGAT GCAGTGATTT TGGGAGCTGG TCAGCTCTTT
    CAAGCTCAGC AAGACCTACT ACACCGAACA GCTCCCCTAC TCTTATCCTA TTACCTCATT
    AAGTGGGGAA GTCAGTGTTT AGCAACTGAT GTTCCAGTTG ACACACTAGA GTCTAATCTT
    CAGCATTTAT CAGTACTGGA ACTAACTGAC TCTGGGACTT TAACAGCAAA TAAGTTCGTA
    TCTAGCCCTC AGACAATTGT GGAATTATTC TTCCAAGAAG TTGCAAGAAA ACACATTATA
    TCTCATCTCT TCTCTCAACC AAAGGCACCT CTAAGCCAAA CTGGATTGAA TTGGCCTGAG
    ATGATTACTG CAATTACCAG TTATTTATTG CAGCTTTTAT GGCCTAGCAA TCCTGGTTGT
    CTCTTTCTAG AATGTTTGAT GGGAAATTGT CAGTATGTAC AATTGCAGGA TTATATTCAG
    CTGCTACATC CTTGGTGCCA AGTCAATGTT GGTTCCTGTC GATTTATGCT GGGACGGTGT
    TACCTGGTGA CCGGAGAGGG ACAGAAGGCT CTGGAATGTT TCTGCCAGGC AGCATCTGAA
    GTGGGCAAAG AGGAATTCTT AGATCGCTTG ATCCGGTCAG AGGATGGGGA GATTGTGTCC
    ACCCCCAGGC TGCAGTATTA TGATAAGGTT TTGCGTCTGC TAGATGTGGT TGGTTTGCCT
    GAACTGGTTA TTCAGTTGGC TACGTCAGCA ATAACTGAAG CAGGTGATGA CTGGAAAAGT
    CAGGCTACTT TAAGGACATG CATTTTCAAA CATCATTTGG ATTTGGGTCA CAATAGCCAA
    GCATATGAAG CCTTAACCCA AATTCCTGAT TCTAGCAGGC AGTTAGATTG TTTACGGCAG
    CTGGTGGTAG TTCTTTGTGA ACGCTCACAG CTTCAGGATC TTGTCGAGTT TCCCTATGTG
    AATCTGCACA ATGAGGTTGT GGGAATAATT GAATCACGTG CAAGAGCTGT GGACCTTATG
    ACTCACAATT ACTATGAGCT TCTGTACGCC TTTCACATCT ATCGTCACAA TTACCGAAAG
    GCTGGCACAG TCATGTTTGA GTACGGAATG CGTCTTGGCA GAGAAGTTCG AACTCTTCGG
    GGACTTGAGA AGCAAGGCAA CTGTTATCTG GCTGCTATTA ATTGTTTACG ACTTATTCGC
    CCAGAATACG CATGGATTGT TCAGCCAGCA TCTGGTGCAG TGTATGATCG CCCTGGAGCT
    TCCCCTAAGA GGAATCATGA TGGAGAATGC ACAGCTGCCC CAACAAATAG ACAAATTGAA
    ATCCTGGAAC TAGAAGATCT GGAGAAAGAG TGTTCCTTGG CTCGCATTCG CCTCACCCTG
    GCTCAGCATG ATCCCTCAGC AGTCGCAGTG GCAGGGAGTT CGTCAGCAGA GGAGATGGTC
    ACTCTCTTGG TTCAGGCCGG CCTTTTTGAC ACTGCCATAT CACTCTGTCA AACCTTTAAG
    CTCCCCTTAA CGCCAGTCTT TGAGGGACTT GCTTTCAAAT GCATCAAATT GCAGTTTGGA
    GGAGAACCAG CACAAGCAGA AGCCTGGGCC TGGCTAGCAG CCAACCAGCT GTCATCAGTC
    ATCACCACTA AGGAGTCTAG TGCTACAGAT GAAGCATGGC GACTCTTATC AACTTACCTG
    GAAAGATACA AAGTCCAGAA TAATTTATAT CACCACTGTG TCATTAACAA GCTCTTGTCT
    CATGGAGTGC CTCTGCCTAA TTGGCTTATA AACAGTTACA AGAAGGTTGA TGCAGCTGAG
    TTGCTCCGTC TATACTTAAA CTACGACCTT TTAGAAGAAG CTGTGGACTT GGTGTCTGAA
    TATGTGGATG CTGTCTTGGG AAAAGGACAT CAGTACTTTG GAATTGAGTT TCCACTGTCT
    GCAACAGCTC CAATGGTGTG GCTCCCATAT TCTTCTATTG ATCAACTTCT CCAGGCTCTG
    GGAGAGAACA GCGCCAACAG TCACAACATT GCACTGTCCC AGAAAATACT TGACAAATTG
    GAGGACTACC AGCAAAAAGT TGATAAGGCA ACAAGGGATT TATTACATCG TCGGCTCTTG
    TGA

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

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