nup160 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

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
OXa43975 XM_018093286.1
Latest version!
Xenopus tropicalis nuclear pore complex protein Nup160 (LOC105947166), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa56517 XM_031900496.1
Latest version!
Xenopus tropicalis nucleoporin 160 (nup160), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa56518 XM_031900497.1
Latest version!
Xenopus tropicalis nucleoporin 160 (nup160), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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 OXa43975
    Clone ID Related Accession (Same CDS sequence) XM_018093286.1
    Accession Version XM_018093286.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product LOW QUALITY PROTEIN: 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_030680.1) 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 :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##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
    ATGGTGCAGC GCGCTGGCGG CTCCACACGG GGAATCATGG CGGCCTCTGT GAATCTAGAG 
    AGAAGTTACA TGGAATTGAT TGGTGCCGAG CGGGAAACGT CAAGGAGGAA TTTCAGGGAT
    TTGAGTCTGC GCCCAGATGT TAGTCTTGTG ATTGGAGGCC CAAAATACAG TGATTGTGCC
    GGTGGTTATT GCTACAATGA AAGTGGCAGT CTCCTGTCGG CTACAAGGAA CAGGTTCATA
    CATTGGACTT CCTATGCTGA TACATTGGAG CTGGTGGAAC TATCCCTTGA TATTAACCTT
    TTGAATAATG CTGTCCGTCT CAAAATACTC AACTGCAGCA TTTTGCCTGG AGGGGTTCAT
    ATTTGTGAAA CACAAAACAA TATTATCGTC TTAATTTTAA CAAACCAAAC AGTTCACAGA
    TTGATTCTGC CACATCCCTC CCGCATGTAC AGAAGTGAAA TCATTTCAGA CAGCCACATT
    CAATCAATAT TTACTGACAT TGGGAAGACC AATTTCCACG ATCCCAACAA CACCTATGTG
    ATTCCAGCTA TTCCTGGACG AGCCCCCAAT TCTACTGCTT CCACGGCATG GCTAAGCAGC
    GATGGAGAGG CACTGTTTGC GCTCCCCTCT GTTTCAGGAG GAATTCTTGT AATTAAAATG
    CCTCCTCGTG ACATGGAAGG ACTTGTGACC ATTGCAGAAT TGAAACAAAG TTCTGTAATG
    CAGCGACTTC TCACAGGGTG GATGCCTTCA TCTATACGAG GTGACCCGGG TCCGGCGCAC
    CTTCCTGTAA GCCTTGCAGT TCATACACTT GATCATGATT CCTACCTCTT CGCTCTGTGT
    CAGGATCATA AACTCCGCAT GTGGTCATAC AAGGATCAAA TGTGCCTTAT GGTCGCCGAC
    ATGTTGGAAT ATGTGCCAGT TAGCAAAGAT ATCCGTCAAA CAGCTGGGAC AGGACACAAA
    CTGCGGCTTG CCTACTCAGA TACATTAGAA ATACTTTACC TTGGGGTATA TTTGCACACA
    CCCAGACAAG GACAGTTCTG TGTATTCCAG TTGGTGTGCA CGGAAAGCAA TCGCTACAGT
    TTGGAGCATA CTTCCTCAAT ATTCACTAAT CAGGAAACTC TCATCGACTT CACTTTTACT
    TTATCTTCTA TGAACATTTG GGCTTTGTGG CTGGACGATG ACAACCAAAC AGTCATGAAA
    CACATAAATT TTGAACGAAA CCAAGCAGGA CATTGGAACC CAGTTTTTGT AAATCCATTG
    CCAGATGATG ACTTAGCCAT TGGTGATGAA CAAGAACCCC AGGAAGCCTA CCTGGAGTGT
    TTGTTTGCAC CAGGACGATT CACTATTGCT GCTCTACAGA AAGCAATTCA GATCCTAAGG
    AAGGGCTCTG GAAGGGTTCT AGATCTCTCC TGGGAAGAAC TGAAAAAAGA GGTCACTTTA
    ACTGTTGAGA AAGAGATTCA GAATGCCGTG GTAGATTATG ACGTGTCACA GGAGGAATTC
    CGCCAAATAA ACATAGAGAA CTGGTGTAAA TTTTATACCT GTTGCCTGCA GTATCAAGAG
    ACTCTTTCAC GTCCCCTTGC CCTTGTGGTG CACCCAAACA CTAACATGGT GTGCCTTCTG
    AGAAAGGGCT TTCTATCTTT CTTGGCTCCT TGTTCTTCGG TTGAGCATCT CTACCTTGTA
    CCAGGAGAGC ACTTGCTAAC AGTGGATGAA AGTGTTATCT GTGATGATGT GGATGGCGCG
    AGTGACATTG TCAGCCTGAT ACAGTGCCTT CACATGATAG CAGATTATAT TACCGAAGAC
    ATGGCATATC AGATGGAGAG TGCGTGCTGC CACCCACAGT CACCAGAGAG AGTTGCAGAG
    CAGATTTTGG AAGATTTGAT AGCCAATGAC ATAGACAACA TCATGGAAAA TATTCAGAAT
    AAACTGCAGG ACATCAGGAA TCCAATACAA GCTATTAGTT TCTTGCTTCA AAATATGGAT
    TATGAAACCA ACATGGACAT GGAACAGTCG CAACATAATG TGAGACTGAA TCTTTCTACT
    CTTTATGGGA GTGTTACTGC TTCCAGTGTG GTATGTCAAG CCATTTACAA AATCTCTGCC
    ACAAGATTCT TAATATGTCG GGACTTGCTT ATTCTTCAGC ACCTCTTGCT GAGGCTAGGG
    GACATGGCAC TGGTTGGAGC AGGGCAGCTT CTTCATTCTC AGCAGGAACT TATCCCTCGC
    GCCGCTCAAC TGCTTTTGTC CTATTACATG ATCCGCTGGG GGAGCCAGTG TTTGGCCTGT
    GCTGTCCCAG TAGATTTATT AGAGTCCAAC CTGCAGCACC TCTCAGTTTT GGAGCTTTCT
    GATTCTCAAG TAGAGAAGCG CAGATACACC AGTGGAATCC AGACCATTGT GGAATTGTTT
    TTTGAAGATG TAGGAAGAAA ACATTTCCCT CAAGTTTTTG CCCACCTTTT CATTCAATCT
    GGTTCAAGTC AGGTGCACAG ATCTTTAAAC TGGGCCGATC TTATACATCG CATTACCAGC
    TACCTCCTAC AACTTCTATG GCCCAGTAAC CCTAACTTCC AGTTTGCAGA ATGCCTGATG
    AGAAACTGCC AATACACACA GCTCCAGGAA TATGTCCGGC TGCTTTTACC ATGGTGCCAA
    GTTAATGTTG GTTCCTGCCA TTTCATGTTG GCCCAGTGTT ACTTGGTTGC TGGAGAAGGA
    CACAAGGCTT TAGATTGTTT CAGTCAAGCA GCCTCCGAAG TGGAGAGGGA AGACTTTTTG
    GAAAAATTAA TCAGAGTTGA GGAGGGGGAG TCTGTGTCAC CTCGCCTCCA ATATTATAAC
    AGAGTGTTGC GTCTGCTGGA AGATGTAGGT TTGCCGGAGC TGGTGATTCA GTTGGCTACT
    ATTGCAATAA GTGAAGCCAG TGATGACTGG AGGAGTCAGG CAGCATTAAG GACTCGAATT
    TTCAAACATC ACTTAGATAT GGGACACAAC AGCCAAGCAT ATGACGCTTT AACTCAAATC
    CCAGATACTA GCAGGCAACT TGACTGTTTA CGGCAGCTGG TGGTGGTTCT GTGTGAGCGC
    TCCCAGCTGC AGGACCTTGT AGAGTTTCCC TATGTAAATC TACATAATGA GGTTGTAGGT
    ATCATTGAAT CCCGTGCCCG TGCTGTTGAT CTGATGACCC ACAACTACTA TGAACTCCTA
    TATGCGTTCC ATATATACCG ACACAACTAC CGAAAAGCTG GCACGGTGAT GTTTGAATAT
    GGGATGCGAC TTGGCAGGGA AGTCCGTACC TTACGGGGTC TCCAAAAACA AGTGAACTCT
    TATCTGGCAT GCCTGAACTG CTTGCGCCTT ATCCGTCCAG AATACGCTTG GATAGTGCAG
    CCGGTATCGG GAGCTGTGTA TGAACGCCCA GGAGCATCCC CCAAGAGGAA CTATGATGGA
    GAATCATCTG CTGTTCCAAG CAGTAGTCAG ATTGAAATCT TGGAGCTGCG AGATTTAGAA
    AAGGAATACG TTCTTGCGCA GACGCGGCTG ACTCTGGCAA AGCATAATCC CAGTACAGCA
    GCGATCGCAG GGAGTTCCGC TGCTGAAGAA ATGGTGGCTC TTCTTGTACA GGCCGGCCTG
    TTTGACACAG CAATATCCCT GTGCCAGACG TTCAAACTTN NAATCTTCGA GGGTCTTGCT
    TGCAAATGCA TCAGGTTGCA GCAGGGCGGG GAGGCAGCTC AGGCTGAGGC ATGGGAATGG
    CTGGCAGCCA ATCAACTGGC GACTGTTATT ACTACCAAGG AGTCCAGTGC TACAGATCAA
    GCATGGCGGT TAATGATCTC CTATCTGGAT AAATACGAGT CAAAGAACAC AATGTATCAT
    CACTGTATCT TAAATAAACT GCTGTCTCAC GGAGTCCCTC TGCCCAACTG GTTAATAAAC
    CGTTACAAGG CTATGGATGC AGCAGAACTG CTCCGGCTTT ACCTCAAGTA TGACCTGCTG
    GAAGAGGCTG CAGAGCTGGT GTTAGAATAT GTAGACGCAC TTCTAGGCAA AGGCCACCAG
    TATTTTGGAA TACAGGTAAG TGCCTCTGCA ACGTCTCAGT TGGTCTGGTT CCCTTATTCA
    GCTATTGACC ATCTCCGACT GGCTCTGGGC GAGAATGAAA ATAACCAACA CAATCAGGCC
    ATTCTGGGCA AACTCCAGAG GAAAATGGAT GAATATTTCC AGAAGCTGAA GAAAGCCACC
    GACGACTACA AAAAATTAGT GCAGAAGCCG GTACGGGCAT AA

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

    RefSeq XP_017948775.1
    CDS12..4253
    Translation

    Target ORF information:

    RefSeq Version XM_018093286.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis nuclear pore complex protein Nup160 (LOC105947166), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018093286.1

    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
    ATGGTGCAGC GCGCTGGCGG CTCCACACGG GGAATCATGG CGGCCTCTGT GAATCTAGAG 
    AGAAGTTACA TGGAATTGAT TGGTGCCGAG CGGGAAACGT CAAGGAGGAA TTTCAGGGAT
    TTGAGTCTGC GCCCAGATGT TAGTCTTGTG ATTGGAGGCC CAAAATACAG TGATTGTGCC
    GGTGGTTATT GCTACAATGA AAGTGGCAGT CTCCTGTCGG CTACAAGGAA CAGGTTCATA
    CATTGGACTT CCTATGCTGA TACATTGGAG CTGGTGGAAC TATCCCTTGA TATTAACCTT
    TTGAATAATG CTGTCCGTCT CAAAATACTC AACTGCAGCA TTTTGCCTGG AGGGGTTCAT
    ATTTGTGAAA CACAAAACAA TATTATCGTC TTAATTTTAA CAAACCAAAC AGTTCACAGA
    TTGATTCTGC CACATCCCTC CCGCATGTAC AGAAGTGAAA TCATTTCAGA CAGCCACATT
    CAATCAATAT TTACTGACAT TGGGAAGACC AATTTCCACG ATCCCAACAA CACCTATGTG
    ATTCCAGCTA TTCCTGGACG AGCCCCCAAT TCTACTGCTT CCACGGCATG GCTAAGCAGC
    GATGGAGAGG CACTGTTTGC GCTCCCCTCT GTTTCAGGAG GAATTCTTGT AATTAAAATG
    CCTCCTCGTG ACATGGAAGG ACTTGTGACC ATTGCAGAAT TGAAACAAAG TTCTGTAATG
    CAGCGACTTC TCACAGGGTG GATGCCTTCA TCTATACGAG GTGACCCGGG TCCGGCGCAC
    CTTCCTGTAA GCCTTGCAGT TCATACACTT GATCATGATT CCTACCTCTT CGCTCTGTGT
    CAGGATCATA AACTCCGCAT GTGGTCATAC AAGGATCAAA TGTGCCTTAT GGTCGCCGAC
    ATGTTGGAAT ATGTGCCAGT TAGCAAAGAT ATCCGTCAAA CAGCTGGGAC AGGACACAAA
    CTGCGGCTTG CCTACTCAGA TACATTAGAA ATACTTTACC TTGGGGTATA TTTGCACACA
    CCCAGACAAG GACAGTTCTG TGTATTCCAG TTGGTGTGCA CGGAAAGCAA TCGCTACAGT
    TTGGAGCATA CTTCCTCAAT ATTCACTAAT CAGGAAACTC TCATCGACTT CACTTTTACT
    TTATCTTCTA TGAACATTTG GGCTTTGTGG CTGGACGATG ACAACCAAAC AGTCATGAAA
    CACATAAATT TTGAACGAAA CCAAGCAGGA CATTGGAACC CAGTTTTTGT AAATCCATTG
    CCAGATGATG ACTTAGCCAT TGGTGATGAA CAAGAACCCC AGGAAGCCTA CCTGGAGTGT
    TTGTTTGCAC CAGGACGATT CACTATTGCT GCTCTACAGA AAGCAATTCA GATCCTAAGG
    AAGGGCTCTG GAAGGGTTCT AGATCTCTCC TGGGAAGAAC TGAAAAAAGA GGTCACTTTA
    ACTGTTGAGA AAGAGATTCA GAATGCCGTG GTAGATTATG ACGTGTCACA GGAGGAATTC
    CGCCAAATAA ACATAGAGAA CTGGTGTAAA TTTTATACCT GTTGCCTGCA GTATCAAGAG
    ACTCTTTCAC GTCCCCTTGC CCTTGTGGTG CACCCAAACA CTAACATGGT GTGCCTTCTG
    AGAAAGGGCT TTCTATCTTT CTTGGCTCCT TGTTCTTCGG TTGAGCATCT CTACCTTGTA
    CCAGGAGAGC ACTTGCTAAC AGTGGATGAA AGTGTTATCT GTGATGATGT GGATGGCGCG
    AGTGACATTG TCAGCCTGAT ACAGTGCCTT CACATGATAG CAGATTATAT TACCGAAGAC
    ATGGCATATC AGATGGAGAG TGCGTGCTGC CACCCACAGT CACCAGAGAG AGTTGCAGAG
    CAGATTTTGG AAGATTTGAT AGCCAATGAC ATAGACAACA TCATGGAAAA TATTCAGAAT
    AAACTGCAGG ACATCAGGAA TCCAATACAA GCTATTAGTT TCTTGCTTCA AAATATGGAT
    TATGAAACCA ACATGGACAT GGAACAGTCG CAACATAATG TGAGACTGAA TCTTTCTACT
    CTTTATGGGA GTGTTACTGC TTCCAGTGTG GTATGTCAAG CCATTTACAA AATCTCTGCC
    ACAAGATTCT TAATATGTCG GGACTTGCTT ATTCTTCAGC ACCTCTTGCT GAGGCTAGGG
    GACATGGCAC TGGTTGGAGC AGGGCAGCTT CTTCATTCTC AGCAGGAACT TATCCCTCGC
    GCCGCTCAAC TGCTTTTGTC CTATTACATG ATCCGCTGGG GGAGCCAGTG TTTGGCCTGT
    GCTGTCCCAG TAGATTTATT AGAGTCCAAC CTGCAGCACC TCTCAGTTTT GGAGCTTTCT
    GATTCTCAAG TAGAGAAGCG CAGATACACC AGTGGAATCC AGACCATTGT GGAATTGTTT
    TTTGAAGATG TAGGAAGAAA ACATTTCCCT CAAGTTTTTG CCCACCTTTT CATTCAATCT
    GGTTCAAGTC AGGTGCACAG ATCTTTAAAC TGGGCCGATC TTATACATCG CATTACCAGC
    TACCTCCTAC AACTTCTATG GCCCAGTAAC CCTAACTTCC AGTTTGCAGA ATGCCTGATG
    AGAAACTGCC AATACACACA GCTCCAGGAA TATGTCCGGC TGCTTTTACC ATGGTGCCAA
    GTTAATGTTG GTTCCTGCCA TTTCATGTTG GCCCAGTGTT ACTTGGTTGC TGGAGAAGGA
    CACAAGGCTT TAGATTGTTT CAGTCAAGCA GCCTCCGAAG TGGAGAGGGA AGACTTTTTG
    GAAAAATTAA TCAGAGTTGA GGAGGGGGAG TCTGTGTCAC CTCGCCTCCA ATATTATAAC
    AGAGTGTTGC GTCTGCTGGA AGATGTAGGT TTGCCGGAGC TGGTGATTCA GTTGGCTACT
    ATTGCAATAA GTGAAGCCAG TGATGACTGG AGGAGTCAGG CAGCATTAAG GACTCGAATT
    TTCAAACATC ACTTAGATAT GGGACACAAC AGCCAAGCAT ATGACGCTTT AACTCAAATC
    CCAGATACTA GCAGGCAACT TGACTGTTTA CGGCAGCTGG TGGTGGTTCT GTGTGAGCGC
    TCCCAGCTGC AGGACCTTGT AGAGTTTCCC TATGTAAATC TACATAATGA GGTTGTAGGT
    ATCATTGAAT CCCGTGCCCG TGCTGTTGAT CTGATGACCC ACAACTACTA TGAACTCCTA
    TATGCGTTCC ATATATACCG ACACAACTAC CGAAAAGCTG GCACGGTGAT GTTTGAATAT
    GGGATGCGAC TTGGCAGGGA AGTCCGTACC TTACGGGGTC TCCAAAAACA AGTGAACTCT
    TATCTGGCAT GCCTGAACTG CTTGCGCCTT ATCCGTCCAG AATACGCTTG GATAGTGCAG
    CCGGTATCGG GAGCTGTGTA TGAACGCCCA GGAGCATCCC CCAAGAGGAA CTATGATGGA
    GAATCATCTG CTGTTCCAAG CAGTAGTCAG ATTGAAATCT TGGAGCTGCG AGATTTAGAA
    AAGGAATACG TTCTTGCGCA GACGCGGCTG ACTCTGGCAA AGCATAATCC CAGTACAGCA
    GCGATCGCAG GGAGTTCCGC TGCTGAAGAA ATGGTGGCTC TTCTTGTACA GGCCGGCCTG
    TTTGACACAG CAATATCCCT GTGCCAGACG TTCAAACTTN NAATCTTCGA GGGTCTTGCT
    TGCAAATGCA TCAGGTTGCA GCAGGGCGGG GAGGCAGCTC AGGCTGAGGC ATGGGAATGG
    CTGGCAGCCA ATCAACTGGC GACTGTTATT ACTACCAAGG AGTCCAGTGC TACAGATCAA
    GCATGGCGGT TAATGATCTC CTATCTGGAT AAATACGAGT CAAAGAACAC AATGTATCAT
    CACTGTATCT TAAATAAACT GCTGTCTCAC GGAGTCCCTC TGCCCAACTG GTTAATAAAC
    CGTTACAAGG CTATGGATGC AGCAGAACTG CTCCGGCTTT ACCTCAAGTA TGACCTGCTG
    GAAGAGGCTG CAGAGCTGGT GTTAGAATAT GTAGACGCAC TTCTAGGCAA AGGCCACCAG
    TATTTTGGAA TACAGGTAAG TGCCTCTGCA ACGTCTCAGT TGGTCTGGTT CCCTTATTCA
    GCTATTGACC ATCTCCGACT GGCTCTGGGC GAGAATGAAA ATAACCAACA CAATCAGGCC
    ATTCTGGGCA AACTCCAGAG GAAAATGGAT GAATATTTCC AGAAGCTGAA GAAAGCCACC
    GACGACTACA AAAAATTAGT GCAGAAGCCG GTACGGGCAT AA

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

    CloneID OXa56517
    Clone ID Related Accession (Same CDS sequence) XM_031900496.1
    Accession Version XM_031900496.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4320bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product nuclear pore complex protein Nup160 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGCCGCGG CCGAAAGTCA CATGACATCT TTTCAAGCAG AAGATTGGGC GGGAAGTAAT 
    ATTCTTCCCA TGGTGCAGCG CGCTGGCGGC TCCACACGGG GAATCATGGC GGCCTCTGTG
    AATCTAGAGA GAAGTTACAT GGAATTGATT GGTGCCGAGC GGGAAACGTC AAGGAGGAAT
    TTCAGGGATT TGAGTCTGCG CCCAGATGTT AGTCTTGTGA TTGGAGGCCC AAAATACAGT
    GATTGTGCCG GTGGTTATTG CTACAATGAA AGTGGCAGTC TCCTGTCGGC TACAAGGAAC
    AGGTTCATAC ATTGGACTTC CTATGCTGAT ACATTGGAGC TGGTGGAACT ATCCCTTGAT
    ATTAACCTTT TGAATAATGC TGTCCGTCTC AAAATACTCA ACTGCAGCAT TTTGCCTGGA
    GGGGTTCATA TTTGTGAAAC ACAAAACAAT ATTATCGTCT TAATTTTAAC AAACCAAACA
    GTTCACAGAT TGATTCTGCC ACATCCCTCC CGCATGTACA GAAGTGAAAT CATTTCAGAC
    AGCCACATTC AATCAATATT TACTGACATT GGGAAGACCA ATTTCCACGA TCCCAACAAC
    ACCTATGTGA TTCCAGCTAT TCCTGGACGA GCCCCCAATT CTACTGCTTC CACGGCATGG
    CTAAGCAGCG ATGGAGAGGC ACTGTTTGCG CTCCCCTCTG TTTCAGGAGG AATTCTTGTA
    ATTAAAATGC CTCCTCGTGA CATGGAAGGA CTTGTGACCA TTGCAGAATT GAAACAAAGT
    TCTGTAATGC AGCGACTTCT CACAGGGTGG ATGCCTTCAT CTATACGAGG TGACCCGGGT
    CCGGCGCACC TTCCTGTAAG CCTTGCAGTT CATACACTTG ATCATGATTC CTACCTCTTC
    GCTCTGTGTC AGGATCATAA ACTCCGCATG TGGTCATACA AGGATCAAAT GTGCCTTATG
    GTCGCCGACA TGTTGGAATA TGTGCCAGTT AGCAAAGATA TCCGTCAAAC AGCTGGGACA
    GGACACAAAC TGCGGCTTGC CTACTCAGAT ACATTAGAAA TACTTTACCT TGGGGTATAT
    TTGCACACAC CCAGACAAGG ACAGTTCTGT GTATTCCAGT TGGTGTGCAC GGAAAGCAAT
    CGCTACAGTT TGGAGCATAC TTCCTCAATA TTCACTAATC AGGAAACTCT CATCGACTTC
    ACTTTTACTT TATCTTCTAT GAACATTTGG GCTTTGTGGC TGGACGATGA CAACCAAACA
    GTCATGAAAC ACATAAATTT TGAACGAAAC CAAGCAGGAC ATTGGAACCC AGTTTTTGTA
    AATCCATTGC CAGATGATGA CTTAGCCATT GGTGATGAAC AAGAACCCCA GGAAGCCTAC
    CTGGAGTGTT TGTTTGCACC AGGACGATTC ACTATTGCTG CTCTACAGAA AGCAATTCAG
    ATCCTAAGGA AGGGCTCTGG AAGGGTTCTA GATCTCTCCT GGGAAGAACT GAAAAAAGAG
    GTCACTTTAA CTGTTGAGAA AGAGATTCAG AATGCCGTGG TAGATTATGA CGTGTCACAG
    GAGGAATTCC GCCAAATAAA CATAGAGAAC TGGTGTAAAT TTTATACCTG TTGCCTGCAG
    TATCAAGAGA CTCTTTCACG TCCCCTTGCC CTTGTGGTGC ACCCAAACAC TAACATGGTG
    TGCCTTCTGA GAAAGGGCTT TCTATCTTTC TTGGCTCCTT GTTCTTCGGT TGAGCATCTC
    TACCTTGTAC CAGGAGAGCA CTTGCTAACA GTGGATGAAA GTGTTATCTG TGATGATGTG
    GATGGCGCGA GTGACATTGT CAGCCTGATA CAGTGCCTTC ACATGATAGC AGATTATATT
    ACCGAAGACA TGGCATATCA GATGGAGAGT GCGTGCTGCC ACCCACAGTC ACCAGAGAGA
    GTTGCAGAGC AGATTTTGGA AGATTTGATA GCCAATGACA TAGACAACAT CATGGAAAAT
    ATTCAGAATA AACTGCAGGA CATCAGGAAT CCAATACAAG CTATTAGTTT CTTGCTTCAA
    AATATGGATT ATGAAACCAA CATGGACATG GAACAGTCGC AACATAATGT GAGACTGAAT
    CTTTCTACTC TTTATGGGAG TGTTACTGCT TCCAGTGTGG TATGTCAAGC CATTTACAAA
    ATCTCTGCCA CAAGATTCTT AATATGTCGG GACTTGCTTA TTCTTCAGCA CCTCTTGCTG
    AGGCTAGGGG ACATGGCACT GGTTGGAGCA GGGCAGCTTC TTCATTCTCA GCAGGAACTT
    ATCCCTCGCG CCGCTCAACT GCTTTTGTCC TATTACATGA TCCGCTGGGG GAGCCAGTGT
    TTGGCCTGTG CTGTCCCAGT AGATTTATTA GAGTCCAACC TGCAGCACCT CTCAGTTTTG
    GAGCTTTCTG ATTCTCAAGT AGAGAAGCGC AGATACACCA GTGGAATCCA GACCATTGTG
    GAATTGTTTT TTGAAGATGT AGGAAGAAAA CATTTCCCTC AAGTTTTTGC CCACCTTTTC
    ATTCAATCTG GTTCAAGTCA GGTGCACAGA TCTTTAAACT GGGCCGATCT TATACATCGC
    ATTACCAGCT ACCTCCTACA ACTTCTATGG CCCAGTAACC CTAACTTCCA GTTTGCAGAA
    TGCCTGATGA GAAACTGCCA ATACACACAG CTCCAGGAAT ATGTCCGGCT GCTTTTACCA
    TGGTGCCAAG TTAATGTTGG TTCCTGCCAT TTCATGTTGG CCCAGTGTTA CTTGGTTGCT
    GGAGAAGGAC ACAAGGCTTT AGATTGTTTC AGTCAAGCAG CCTCCGAAGT GGAGAGGGAA
    GACTTTTTGG AAAAATTAAT CAGAGTTGAG GAGGGGGAGT CTGTGTCACC TCGCCTCCAA
    TATTATAACA GAGTGTTGCG TCTGCTGGAA GATGTAGGTT TGCCGGAGCT GGTGATTCAG
    TTGGCTACTA TTGCAATAAG TGAAGCCAGT GATGACTGGA GGAGTCAGGC AGCATTAAGG
    ACTCGAATTT TCAAACATCA CTTAGATATG GGACACAACA GCCAAGCATA TGACGCTTTA
    ACTCAAATCC CAGATACTAG CAGGCAACTT GACTGTTTAC GGCAGCTGGT GGTGGTTCTG
    TGTGAGCGCT CCCAGCTGCA GGACCTTGTA GAGTTTCCCT ATGTAAATCT ACATAATGAG
    GTTGTAGGTA TCATTGAATC CCGTGCCCGT GCTGTTGATC TGATGACCCA CAACTACTAT
    GAACTCCTAT ATGCGTTCCA TATATACCGA CACAACTACC GAAAAGCTGG CACGGTGATG
    TTTGAATATG GGATGCGACT TGGCAGGGAA GTCCGTACCT TACGGGGTCT CCAAAAACAA
    GTGAACTCTT ATCTGGCATG CCTGAACTGC TTGCGCCTTA TCCGTCCAGA ATACGCTTGG
    ATAGTGCAGC CGGTATCGGG AGCTGTGTAT GAACGCCCAG GAGCATCCCC CAAGAGGAAC
    TATGATGGAG AATCATCTGC TGTTCCAAGC AGTAGTCAGA TTGAAATCTT GGAGCTGCGA
    GATTTAGAAA AGGAATACGT TCTTGCGCAG ACGCGGCTGA CTCTGGCAAA GCATAATCCC
    AGTACAGCAG CGATCGCAGG GAGTTCCGCT GCTGAAGAAA TGGTGGCTCT TCTTGTACAG
    GCCGGCCTGT TTGACACAGC AATATCCCTG TGCCAGACGT TCAAACTTGG CCTGACATCA
    ATCTTCGAGG GTCTTGCTTG CAAATGCATC AGGTTGCAGC AGGGCGGGGA GGCAGCTCAG
    GCTGAGGCAT GGGAATGGCT GGCAGCCAAT CAACTGGCGA CTGTTATTAC TACCAAGGAG
    TCCAGTGCTA CAGATGAAGC ATGGCGGTTA ATGATCTCCT ATCTGGATAA ATACGAGTCA
    AAGAACACAC TGTATCATCA CTGTATCATA AATAAACTGC TGTCTCACGG AGTCCCTCTG
    CCCAACTGGT TAATAAACCG TTACAAGGCT ATGGATGCAG CAGAACTGCT CCGGCTTTAC
    CTCAAGTATG ACCTGCTGGA AGAGGCTGCA GAGCTGGTGT TAGAATATGT AGACGCACTT
    CTAGGCAAAG GCCACCAGTA TTTTGGAATA CAGGCTCCTC TCTCTGCAAC GTCTCAGTTG
    GTCTGGTTCC CTTATTCAGC TATTGACCAT CTCCGACTGG CTCTGGGCGA GAATGAAAAT
    AACCAACACA ATCAGGCCAT TCTGGGCAAA CTCCAGAGGA AAATGGATGA ATATTTCCAG
    AAGCTGAAGA AAGCCACCGA TGACTACAAA AAAATAGTGC AGAAGCCGGT ACGGGCGTAA

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

    RefSeq XP_031756356.1
    CDS16..4335
    Translation

    Target ORF information:

    RefSeq Version XM_031900496.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis nucleoporin 160 (nup160), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031900496.1

    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
    ATGGCCGCGG CCGAAAGTCA CATGACATCT TTTCAAGCAG AAGATTGGGC GGGAAGTAAT 
    ATTCTTCCCA TGGTGCAGCG CGCTGGCGGC TCCACACGGG GAATCATGGC GGCCTCTGTG
    AATCTAGAGA GAAGTTACAT GGAATTGATT GGTGCCGAGC GGGAAACGTC AAGGAGGAAT
    TTCAGGGATT TGAGTCTGCG CCCAGATGTT AGTCTTGTGA TTGGAGGCCC AAAATACAGT
    GATTGTGCCG GTGGTTATTG CTACAATGAA AGTGGCAGTC TCCTGTCGGC TACAAGGAAC
    AGGTTCATAC ATTGGACTTC CTATGCTGAT ACATTGGAGC TGGTGGAACT ATCCCTTGAT
    ATTAACCTTT TGAATAATGC TGTCCGTCTC AAAATACTCA ACTGCAGCAT TTTGCCTGGA
    GGGGTTCATA TTTGTGAAAC ACAAAACAAT ATTATCGTCT TAATTTTAAC AAACCAAACA
    GTTCACAGAT TGATTCTGCC ACATCCCTCC CGCATGTACA GAAGTGAAAT CATTTCAGAC
    AGCCACATTC AATCAATATT TACTGACATT GGGAAGACCA ATTTCCACGA TCCCAACAAC
    ACCTATGTGA TTCCAGCTAT TCCTGGACGA GCCCCCAATT CTACTGCTTC CACGGCATGG
    CTAAGCAGCG ATGGAGAGGC ACTGTTTGCG CTCCCCTCTG TTTCAGGAGG AATTCTTGTA
    ATTAAAATGC CTCCTCGTGA CATGGAAGGA CTTGTGACCA TTGCAGAATT GAAACAAAGT
    TCTGTAATGC AGCGACTTCT CACAGGGTGG ATGCCTTCAT CTATACGAGG TGACCCGGGT
    CCGGCGCACC TTCCTGTAAG CCTTGCAGTT CATACACTTG ATCATGATTC CTACCTCTTC
    GCTCTGTGTC AGGATCATAA ACTCCGCATG TGGTCATACA AGGATCAAAT GTGCCTTATG
    GTCGCCGACA TGTTGGAATA TGTGCCAGTT AGCAAAGATA TCCGTCAAAC AGCTGGGACA
    GGACACAAAC TGCGGCTTGC CTACTCAGAT ACATTAGAAA TACTTTACCT TGGGGTATAT
    TTGCACACAC CCAGACAAGG ACAGTTCTGT GTATTCCAGT TGGTGTGCAC GGAAAGCAAT
    CGCTACAGTT TGGAGCATAC TTCCTCAATA TTCACTAATC AGGAAACTCT CATCGACTTC
    ACTTTTACTT TATCTTCTAT GAACATTTGG GCTTTGTGGC TGGACGATGA CAACCAAACA
    GTCATGAAAC ACATAAATTT TGAACGAAAC CAAGCAGGAC ATTGGAACCC AGTTTTTGTA
    AATCCATTGC CAGATGATGA CTTAGCCATT GGTGATGAAC AAGAACCCCA GGAAGCCTAC
    CTGGAGTGTT TGTTTGCACC AGGACGATTC ACTATTGCTG CTCTACAGAA AGCAATTCAG
    ATCCTAAGGA AGGGCTCTGG AAGGGTTCTA GATCTCTCCT GGGAAGAACT GAAAAAAGAG
    GTCACTTTAA CTGTTGAGAA AGAGATTCAG AATGCCGTGG TAGATTATGA CGTGTCACAG
    GAGGAATTCC GCCAAATAAA CATAGAGAAC TGGTGTAAAT TTTATACCTG TTGCCTGCAG
    TATCAAGAGA CTCTTTCACG TCCCCTTGCC CTTGTGGTGC ACCCAAACAC TAACATGGTG
    TGCCTTCTGA GAAAGGGCTT TCTATCTTTC TTGGCTCCTT GTTCTTCGGT TGAGCATCTC
    TACCTTGTAC CAGGAGAGCA CTTGCTAACA GTGGATGAAA GTGTTATCTG TGATGATGTG
    GATGGCGCGA GTGACATTGT CAGCCTGATA CAGTGCCTTC ACATGATAGC AGATTATATT
    ACCGAAGACA TGGCATATCA GATGGAGAGT GCGTGCTGCC ACCCACAGTC ACCAGAGAGA
    GTTGCAGAGC AGATTTTGGA AGATTTGATA GCCAATGACA TAGACAACAT CATGGAAAAT
    ATTCAGAATA AACTGCAGGA CATCAGGAAT CCAATACAAG CTATTAGTTT CTTGCTTCAA
    AATATGGATT ATGAAACCAA CATGGACATG GAACAGTCGC AACATAATGT GAGACTGAAT
    CTTTCTACTC TTTATGGGAG TGTTACTGCT TCCAGTGTGG TATGTCAAGC CATTTACAAA
    ATCTCTGCCA CAAGATTCTT AATATGTCGG GACTTGCTTA TTCTTCAGCA CCTCTTGCTG
    AGGCTAGGGG ACATGGCACT GGTTGGAGCA GGGCAGCTTC TTCATTCTCA GCAGGAACTT
    ATCCCTCGCG CCGCTCAACT GCTTTTGTCC TATTACATGA TCCGCTGGGG GAGCCAGTGT
    TTGGCCTGTG CTGTCCCAGT AGATTTATTA GAGTCCAACC TGCAGCACCT CTCAGTTTTG
    GAGCTTTCTG ATTCTCAAGT AGAGAAGCGC AGATACACCA GTGGAATCCA GACCATTGTG
    GAATTGTTTT TTGAAGATGT AGGAAGAAAA CATTTCCCTC AAGTTTTTGC CCACCTTTTC
    ATTCAATCTG GTTCAAGTCA GGTGCACAGA TCTTTAAACT GGGCCGATCT TATACATCGC
    ATTACCAGCT ACCTCCTACA ACTTCTATGG CCCAGTAACC CTAACTTCCA GTTTGCAGAA
    TGCCTGATGA GAAACTGCCA ATACACACAG CTCCAGGAAT ATGTCCGGCT GCTTTTACCA
    TGGTGCCAAG TTAATGTTGG TTCCTGCCAT TTCATGTTGG CCCAGTGTTA CTTGGTTGCT
    GGAGAAGGAC ACAAGGCTTT AGATTGTTTC AGTCAAGCAG CCTCCGAAGT GGAGAGGGAA
    GACTTTTTGG AAAAATTAAT CAGAGTTGAG GAGGGGGAGT CTGTGTCACC TCGCCTCCAA
    TATTATAACA GAGTGTTGCG TCTGCTGGAA GATGTAGGTT TGCCGGAGCT GGTGATTCAG
    TTGGCTACTA TTGCAATAAG TGAAGCCAGT GATGACTGGA GGAGTCAGGC AGCATTAAGG
    ACTCGAATTT TCAAACATCA CTTAGATATG GGACACAACA GCCAAGCATA TGACGCTTTA
    ACTCAAATCC CAGATACTAG CAGGCAACTT GACTGTTTAC GGCAGCTGGT GGTGGTTCTG
    TGTGAGCGCT CCCAGCTGCA GGACCTTGTA GAGTTTCCCT ATGTAAATCT ACATAATGAG
    GTTGTAGGTA TCATTGAATC CCGTGCCCGT GCTGTTGATC TGATGACCCA CAACTACTAT
    GAACTCCTAT ATGCGTTCCA TATATACCGA CACAACTACC GAAAAGCTGG CACGGTGATG
    TTTGAATATG GGATGCGACT TGGCAGGGAA GTCCGTACCT TACGGGGTCT CCAAAAACAA
    GTGAACTCTT ATCTGGCATG CCTGAACTGC TTGCGCCTTA TCCGTCCAGA ATACGCTTGG
    ATAGTGCAGC CGGTATCGGG AGCTGTGTAT GAACGCCCAG GAGCATCCCC CAAGAGGAAC
    TATGATGGAG AATCATCTGC TGTTCCAAGC AGTAGTCAGA TTGAAATCTT GGAGCTGCGA
    GATTTAGAAA AGGAATACGT TCTTGCGCAG ACGCGGCTGA CTCTGGCAAA GCATAATCCC
    AGTACAGCAG CGATCGCAGG GAGTTCCGCT GCTGAAGAAA TGGTGGCTCT TCTTGTACAG
    GCCGGCCTGT TTGACACAGC AATATCCCTG TGCCAGACGT TCAAACTTGG CCTGACATCA
    ATCTTCGAGG GTCTTGCTTG CAAATGCATC AGGTTGCAGC AGGGCGGGGA GGCAGCTCAG
    GCTGAGGCAT GGGAATGGCT GGCAGCCAAT CAACTGGCGA CTGTTATTAC TACCAAGGAG
    TCCAGTGCTA CAGATGAAGC ATGGCGGTTA ATGATCTCCT ATCTGGATAA ATACGAGTCA
    AAGAACACAC TGTATCATCA CTGTATCATA AATAAACTGC TGTCTCACGG AGTCCCTCTG
    CCCAACTGGT TAATAAACCG TTACAAGGCT ATGGATGCAG CAGAACTGCT CCGGCTTTAC
    CTCAAGTATG ACCTGCTGGA AGAGGCTGCA GAGCTGGTGT TAGAATATGT AGACGCACTT
    CTAGGCAAAG GCCACCAGTA TTTTGGAATA CAGGCTCCTC TCTCTGCAAC GTCTCAGTTG
    GTCTGGTTCC CTTATTCAGC TATTGACCAT CTCCGACTGG CTCTGGGCGA GAATGAAAAT
    AACCAACACA ATCAGGCCAT TCTGGGCAAA CTCCAGAGGA AAATGGATGA ATATTTCCAG
    AAGCTGAAGA AAGCCACCGA TGACTACAAA AAAATAGTGC AGAAGCCGGT ACGGGCGTAA

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

    CloneID OXa56518
    Clone ID Related Accession (Same CDS sequence) XM_031900497.1
    Accession Version XM_031900497.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4047bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product nuclear pore complex protein Nup160 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGCCGCGG CCGAAAGTCA CATGACATCT TTTCAAGCAG AAGATTGGGC GGGAAGTAAT 
    ATTCTTCCCA TGGTGCAGCG CGCTGGCGGC TCCACACGGG GAATCATGGC GGCCTCTGTG
    AATCTAGAGA GAAGTTACAT GGAATTGATT GGTGCCGAGC GGGAAACGTC AAGGAGGAAT
    TTCAGGGATT TGAGTCTGCG CCCAGATGTT AGTCTTGTGA TTGGAGGCCC AAAATACAGT
    GATTGTGCCG GTGGTTATTG CTACAATGAA AGTGGCAGTC TCCTGTCGGC TACAAGGAAC
    AGGTTCATAC ATTGGACTTC CTATGCTGAT ACATTGGAGC TGGTGGAACT ATCCCTTGAT
    ATTAACCTTT TGAATAATGC TGTCCGTCTC AAAATACTCA ACTGCAGCAT TTTGCCTGGA
    GGGGTTCATA TTTGTGAAAC ACAAAACAAT ATTATCGTCT TAATTTTAAC AAACCAAACA
    GTTCACAGAT TGATTCTGCC ACATCCCTCC CGCATGTACA GAAGTGAAAT CATTTCAGAC
    AGCCACATTC AATCAATATT TACTGACATT GGGAAGACCA ATTTCCACGA TCCCAACAAC
    ACCTATGTGA TTCCAGCTAT TCCTGGACGA GCCCCCAATT CTACTGCTTC CACGGCATGG
    CTAAGCAGCG ATGGAGAGGC ACTGTTTGCG CTCCCCTCTG TTTCAGGAGG AATTCTTGTA
    ATTAAAATGC CTCCTCGTGA CATGGAAGGA CTTGTGACCA TTGCAGAATT GAAACAAAGT
    TCTGTAATGC AGCGACTTCT CACAGGGTGG ATGCCTTCAT CTATACGAGG TGACCCGGGT
    CCGGCGCACC TTCCTGTAAG CCTTGCAGTT CATACACTTG ATCATGATTC CTACCTCTTC
    GCTCTGTGTC AGGATCATAA ACTCCGCATG TGGTCATACA AGGATCAAAT GTGCCTTATG
    GTCGCCGACA TGTTGGAATA TGTGCCAGTT AGCAAAGATA TCCGTCAAAC AGCTGGGACA
    GGACACAAAC TGCGGCTTGC CTACTCAGAT ACATTAGAAA TACTTTACCT TGGGGTATAT
    TTGCACACAC CCAGACAAGG ACAGTTCTGT GTATTCCAGT TGGTGTGCAC GGAAAGCAAT
    CGCTACAGTT TGGAGCATAC TTCCTCAATA TTCACTAATC AGGAAACTCT CATCGACTTC
    ACTTTTACTT TATCTTCTAT GAACATTTGG GCTTTGTGGC TGGACGATGA CAACCAAACA
    GTCATGAAAC ACATAAATTT TGAACGAAAC CAAGCAGGAC ATTGGAACCC AGTTTTTGTA
    AATCCATTGC CAGATGATGA CTTAGCCATT GGTGATGAAC AAGAACCCCA GGAAGCCTAC
    CTGGAGTGTT TGTTTGCACC AGGACGATTC ACTATTGCTG CTCTACAGAA AGCAATTCAG
    ATCCTAAGGA AGGGCTCTGG AAGGGTTCTA GATCTCTCCT GGGAAGAACT GAAAAAAGAG
    GTCACTTTAA CTGTTGAGAA AGAGATTCAG AATGCCGTGG TAGATTATGA CGTGTCACAG
    GAGGAATTCC GCCAAATAAA CATAGAGAAC TGGTGTAAAT TTTATACCTG TTGCCTGCAG
    TATCAAGAGA CTCTTTCACG TCCCCTTGCC CTTGTGGTGC ACCCAAACAC TAACATGGTG
    TGCCTTCTGA GAAAGGGCTT TCTATCTTTC TTGGCTCCTT GTTCTTCGGT TGAGCATCTC
    TACCTTGTAC CAGGAGAGCA CTTGCTAACA GTGGATGAAA GTGTTATCTG TGATGATGTG
    GATGGCGCGA GTGACATTGT CAGCCTGATA CAGTGCCTTC ACATGATAGC AGATTATATT
    ACCGAAGACA TGGCATATCA GATGGAGAGT GCGTGCTGCC ACCCACAGTC ACCAGAGAGA
    GTTGCAGAGC AGATTTTGGA AGATTTGATA GCCAATGACA TAGACAACAT CATGGAAAAT
    ATTCAGAATA AACTGCAGGA CATCAGGAAT CCAATACAAG CTATTAGTTT CTTGCTTCAA
    AATATGGATT ATGAAACCAA CATGGACATG GAACAGTCGC AACATAATGT GAGACTGAAT
    CTTTCTACTC TTTATGGGAG TGTTACTGCT TCCAGTGTGG TATGTCAAGC CATTTACAAA
    ATCTCTGCCA CAAGATTCTT AATATGTCGG GACTTGCTTA TTCTTCAGCA CCTCTTGCTG
    AGGCTAGGGG ACATGGCACT GGTTGGAGCA GGGCAGCTTC TTCATTCTCA GCAGGAACTT
    ATCCCTCGCG CCGCTCAACT GCTTTTGTCC TATTACATGA TCCGCTGGGG GAGCCAGTGT
    TTGGCCTGTG CTGTCCCAGT AGATTTATTA GAGTCCAACC TGCAGCACCT CTCAGTTTTG
    GAGCTTTCTG ATTCTCAAGT AGAGAAGCGC AGATACACCA GTGGAATCCA GACCATTGTG
    GAATTGTTTT TTGAAGATGT AGGAAGAAAA CATTTCCCTC AAGTTTTTGC CCACCTTTTC
    ATTCAATCTG GTTCAAGTCA GGTGCACAGA TCTTTAAACT GGGCCGATCT TATACATCGC
    ATTACCAGCT ACCTCCTACA ACTTCTATGG CCCAGTAACC CTAACTTCCA GTTTGCAGAA
    TGCCTGATGA GAAACTGCCA ATACACACAG CTCCAGGAAT ATGTCCGGCT GCTTTTACCA
    TGGTGCCAAG TTAATGTTGG TTCCTGCCAT TTCATGTTGG CCCAGTGTTA CTTGGTTGCT
    GGAGAAGGAC ACAAGGCTTT AGATTGTTTC AGTCAAGCAG CCTCCGAAGT GGAGAGGGAA
    GACTTTTTGG AAAAATTAAT CAGAGTTGAG GAGGGGGAGT CTGTGTCACC TCGCCTCCAA
    TATTATAACA GAGTGTTGCG TCTGCTGGAA GATGTAGGTT TGCCGGAGCT GGTGATTCAG
    TTGGCTACTA TTGCAATAAG TGAAGCCAGT GATGACTGGA GGAGTCAGGC AGCATTAAGG
    ACTCGAATTT TCAAACATCA CTTAGATATG GGACACAACA GCCAAGCATA TGACGCTTTA
    ACTCAAATCC CAGATACTAG CAGGCAACTT GACTGTTTAC GGCAGCTGGT GGTGGTTCTG
    TGTGAGCGCT CCCAGCTGCA GGACCTTGTA GAGTTTCCCT ATGTAAATCT ACATAATGAG
    GTTGTAGGTA TCATTGAATC CCGTGCCCGT GCTGTTGATC TGATGACCCA CAACTACTAT
    GAACTCCTAT ATGCGTTCCA TATATACCGA CACAACTACC GAAAAGCTGG CACGGTGATG
    TTTGAATATG GGATGCGACT TGGCAGGGAA GTCCGTACCT TACGGGGTCT CCAAAAACAA
    GTGAACTCTT ATCTGGCATG CCTGAACTGC TTGCGCCTTA TCCGTCCAGA ATACGCTTGG
    ATAGTGCAGC CGGTATCGGG AGCTGTGTAT GAACGCCCAG GAGCATCCCC CAAGAGGAAC
    TATGATGGAG AATCATCTGC TGTTCCAAGC AGTAGTCAGA TTGAAATCTT GGAGCTGCGA
    GATTTAGAAA AGGAATACGT TCTTGCGCAG ACGCGGCTGA CTCTGGCAAA GCATAATCCC
    AGTACAGCAG CGATCGCAGG GAGTTCCGCT GCTGAAGAAA TGGTGGCTCT TCTTGTACAG
    GCCGGCCTGT TTGACACAGC AATATCCCTG TGCCAGACGT TCAAACTTGG CCTGACATCA
    ATCTTCGAGG GTCTTGCTTG CAAATGCATC AGGTTGCAGC AGGGCGGGGA GGCAGCTCAG
    GCTGAGGCAT GGGAATGGCT GGCAGCCAAT CAACTGGCGA CTGTTATTAC TACCAAGGAG
    TCCAGTGCTA CAGATGAAGC ATGGCGGTTA ATGATCTCCT ATCTGGATAA ATACGAGTCA
    AAGAACACAC TGTATCATCA CTGTATCATA AATAAACTGC TGTCTCACGG AGTCCCTCTG
    CCCAACTGGT TAATAAACCG TTACAAGGCG TGTCCAATTT CAGGCTATGG ATGCAGCAGA
    ACTGCTCCGG CTTTACCTCA AGTATGA

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

    RefSeq XP_031756357.1
    CDS16..4062
    Translation

    Target ORF information:

    RefSeq Version XM_031900497.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis nucleoporin 160 (nup160), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031900497.1

    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
    ATGGCCGCGG CCGAAAGTCA CATGACATCT TTTCAAGCAG AAGATTGGGC GGGAAGTAAT 
    ATTCTTCCCA TGGTGCAGCG CGCTGGCGGC TCCACACGGG GAATCATGGC GGCCTCTGTG
    AATCTAGAGA GAAGTTACAT GGAATTGATT GGTGCCGAGC GGGAAACGTC AAGGAGGAAT
    TTCAGGGATT TGAGTCTGCG CCCAGATGTT AGTCTTGTGA TTGGAGGCCC AAAATACAGT
    GATTGTGCCG GTGGTTATTG CTACAATGAA AGTGGCAGTC TCCTGTCGGC TACAAGGAAC
    AGGTTCATAC ATTGGACTTC CTATGCTGAT ACATTGGAGC TGGTGGAACT ATCCCTTGAT
    ATTAACCTTT TGAATAATGC TGTCCGTCTC AAAATACTCA ACTGCAGCAT TTTGCCTGGA
    GGGGTTCATA TTTGTGAAAC ACAAAACAAT ATTATCGTCT TAATTTTAAC AAACCAAACA
    GTTCACAGAT TGATTCTGCC ACATCCCTCC CGCATGTACA GAAGTGAAAT CATTTCAGAC
    AGCCACATTC AATCAATATT TACTGACATT GGGAAGACCA ATTTCCACGA TCCCAACAAC
    ACCTATGTGA TTCCAGCTAT TCCTGGACGA GCCCCCAATT CTACTGCTTC CACGGCATGG
    CTAAGCAGCG ATGGAGAGGC ACTGTTTGCG CTCCCCTCTG TTTCAGGAGG AATTCTTGTA
    ATTAAAATGC CTCCTCGTGA CATGGAAGGA CTTGTGACCA TTGCAGAATT GAAACAAAGT
    TCTGTAATGC AGCGACTTCT CACAGGGTGG ATGCCTTCAT CTATACGAGG TGACCCGGGT
    CCGGCGCACC TTCCTGTAAG CCTTGCAGTT CATACACTTG ATCATGATTC CTACCTCTTC
    GCTCTGTGTC AGGATCATAA ACTCCGCATG TGGTCATACA AGGATCAAAT GTGCCTTATG
    GTCGCCGACA TGTTGGAATA TGTGCCAGTT AGCAAAGATA TCCGTCAAAC AGCTGGGACA
    GGACACAAAC TGCGGCTTGC CTACTCAGAT ACATTAGAAA TACTTTACCT TGGGGTATAT
    TTGCACACAC CCAGACAAGG ACAGTTCTGT GTATTCCAGT TGGTGTGCAC GGAAAGCAAT
    CGCTACAGTT TGGAGCATAC TTCCTCAATA TTCACTAATC AGGAAACTCT CATCGACTTC
    ACTTTTACTT TATCTTCTAT GAACATTTGG GCTTTGTGGC TGGACGATGA CAACCAAACA
    GTCATGAAAC ACATAAATTT TGAACGAAAC CAAGCAGGAC ATTGGAACCC AGTTTTTGTA
    AATCCATTGC CAGATGATGA CTTAGCCATT GGTGATGAAC AAGAACCCCA GGAAGCCTAC
    CTGGAGTGTT TGTTTGCACC AGGACGATTC ACTATTGCTG CTCTACAGAA AGCAATTCAG
    ATCCTAAGGA AGGGCTCTGG AAGGGTTCTA GATCTCTCCT GGGAAGAACT GAAAAAAGAG
    GTCACTTTAA CTGTTGAGAA AGAGATTCAG AATGCCGTGG TAGATTATGA CGTGTCACAG
    GAGGAATTCC GCCAAATAAA CATAGAGAAC TGGTGTAAAT TTTATACCTG TTGCCTGCAG
    TATCAAGAGA CTCTTTCACG TCCCCTTGCC CTTGTGGTGC ACCCAAACAC TAACATGGTG
    TGCCTTCTGA GAAAGGGCTT TCTATCTTTC TTGGCTCCTT GTTCTTCGGT TGAGCATCTC
    TACCTTGTAC CAGGAGAGCA CTTGCTAACA GTGGATGAAA GTGTTATCTG TGATGATGTG
    GATGGCGCGA GTGACATTGT CAGCCTGATA CAGTGCCTTC ACATGATAGC AGATTATATT
    ACCGAAGACA TGGCATATCA GATGGAGAGT GCGTGCTGCC ACCCACAGTC ACCAGAGAGA
    GTTGCAGAGC AGATTTTGGA AGATTTGATA GCCAATGACA TAGACAACAT CATGGAAAAT
    ATTCAGAATA AACTGCAGGA CATCAGGAAT CCAATACAAG CTATTAGTTT CTTGCTTCAA
    AATATGGATT ATGAAACCAA CATGGACATG GAACAGTCGC AACATAATGT GAGACTGAAT
    CTTTCTACTC TTTATGGGAG TGTTACTGCT TCCAGTGTGG TATGTCAAGC CATTTACAAA
    ATCTCTGCCA CAAGATTCTT AATATGTCGG GACTTGCTTA TTCTTCAGCA CCTCTTGCTG
    AGGCTAGGGG ACATGGCACT GGTTGGAGCA GGGCAGCTTC TTCATTCTCA GCAGGAACTT
    ATCCCTCGCG CCGCTCAACT GCTTTTGTCC TATTACATGA TCCGCTGGGG GAGCCAGTGT
    TTGGCCTGTG CTGTCCCAGT AGATTTATTA GAGTCCAACC TGCAGCACCT CTCAGTTTTG
    GAGCTTTCTG ATTCTCAAGT AGAGAAGCGC AGATACACCA GTGGAATCCA GACCATTGTG
    GAATTGTTTT TTGAAGATGT AGGAAGAAAA CATTTCCCTC AAGTTTTTGC CCACCTTTTC
    ATTCAATCTG GTTCAAGTCA GGTGCACAGA TCTTTAAACT GGGCCGATCT TATACATCGC
    ATTACCAGCT ACCTCCTACA ACTTCTATGG CCCAGTAACC CTAACTTCCA GTTTGCAGAA
    TGCCTGATGA GAAACTGCCA ATACACACAG CTCCAGGAAT ATGTCCGGCT GCTTTTACCA
    TGGTGCCAAG TTAATGTTGG TTCCTGCCAT TTCATGTTGG CCCAGTGTTA CTTGGTTGCT
    GGAGAAGGAC ACAAGGCTTT AGATTGTTTC AGTCAAGCAG CCTCCGAAGT GGAGAGGGAA
    GACTTTTTGG AAAAATTAAT CAGAGTTGAG GAGGGGGAGT CTGTGTCACC TCGCCTCCAA
    TATTATAACA GAGTGTTGCG TCTGCTGGAA GATGTAGGTT TGCCGGAGCT GGTGATTCAG
    TTGGCTACTA TTGCAATAAG TGAAGCCAGT GATGACTGGA GGAGTCAGGC AGCATTAAGG
    ACTCGAATTT TCAAACATCA CTTAGATATG GGACACAACA GCCAAGCATA TGACGCTTTA
    ACTCAAATCC CAGATACTAG CAGGCAACTT GACTGTTTAC GGCAGCTGGT GGTGGTTCTG
    TGTGAGCGCT CCCAGCTGCA GGACCTTGTA GAGTTTCCCT ATGTAAATCT ACATAATGAG
    GTTGTAGGTA TCATTGAATC CCGTGCCCGT GCTGTTGATC TGATGACCCA CAACTACTAT
    GAACTCCTAT ATGCGTTCCA TATATACCGA CACAACTACC GAAAAGCTGG CACGGTGATG
    TTTGAATATG GGATGCGACT TGGCAGGGAA GTCCGTACCT TACGGGGTCT CCAAAAACAA
    GTGAACTCTT ATCTGGCATG CCTGAACTGC TTGCGCCTTA TCCGTCCAGA ATACGCTTGG
    ATAGTGCAGC CGGTATCGGG AGCTGTGTAT GAACGCCCAG GAGCATCCCC CAAGAGGAAC
    TATGATGGAG AATCATCTGC TGTTCCAAGC AGTAGTCAGA TTGAAATCTT GGAGCTGCGA
    GATTTAGAAA AGGAATACGT TCTTGCGCAG ACGCGGCTGA CTCTGGCAAA GCATAATCCC
    AGTACAGCAG CGATCGCAGG GAGTTCCGCT GCTGAAGAAA TGGTGGCTCT TCTTGTACAG
    GCCGGCCTGT TTGACACAGC AATATCCCTG TGCCAGACGT TCAAACTTGG CCTGACATCA
    ATCTTCGAGG GTCTTGCTTG CAAATGCATC AGGTTGCAGC AGGGCGGGGA GGCAGCTCAG
    GCTGAGGCAT GGGAATGGCT GGCAGCCAAT CAACTGGCGA CTGTTATTAC TACCAAGGAG
    TCCAGTGCTA CAGATGAAGC ATGGCGGTTA ATGATCTCCT ATCTGGATAA ATACGAGTCA
    AAGAACACAC TGTATCATCA CTGTATCATA AATAAACTGC TGTCTCACGG AGTCCCTCTG
    CCCAACTGGT TAATAAACCG TTACAAGGCG TGTCCAATTT CAGGCTATGG ATGCAGCAGA
    ACTGCTCCGG CTTTACCTCA AGTATGA

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