Nup210 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Nup210 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Nup210 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
OMv02323 XM_021164124.1
Latest version!
Mus caroli nucleoporin 210 (Nup210), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv74099 XM_029478233.1
Latest version!
Mus caroli nucleoporin 210 (Nup210), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMv02323
    Clone ID Related Accession (Same CDS sequence) XM_021164124.1
    Accession Version XM_021164124.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5397bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear pore membrane glycoprotein 210
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 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
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCGCGGG CCTCACTAGT GCAGCCGGCG CTCTGGGCGC TGCTGTTGCT GCAGGTAGTG 
    GGCCCCGCCG CGGCCGCCAA GCTTAACATT CCCAAGGTGC TGCTGCCCTT CACGCGGGCC
    ACGCGCGTGA ACTTCACTCT GGAAGCTTCT GAGGGCTGCT ACCGCTGGTC ATCCACCCGG
    CCAGAGGTAG CCAGCATAGA GCCATTGGGC TCCAGTGAAC AGCAGTGCTC CCAGAAGGCA
    GTGGTGCAGG CCCGCTTGAC CCAGCCAGCC CGCCTGACCA GCATCATCTT TGCAGAAGAC
    ATCACTACAG GGCAGGTGCT GCGNTGTGAT GCCATCGTTG ATCTCATCCA TGGCATTCAG
    ATCGTCTCTA CCACCCGTGA GCTCTATCTT GAGGACTCTC CGCTAGAGCT GAAGATCCAG
    GCTCTGGACT CAGAAGGGAA TACCTTCAGC ACCTTGGCAG GACTGGTCTT TGANTGGACA
    ATTGTGAAGG ATACCGAGGC CAATGGATTC TCAGACTCCC ACAATGCACT CCGCTCCCTT
    GGCTGCTTTT CCTCAGGGCA GGTGGATCCT GATGTGGCAT CATGTGCAGC AGGAGAACTC
    TCAATGCCTT CTGATCAATA TGAGCTGCAG CTCCAGAACA GCATCCCAGA TCCTCAGGGA
    GACCCTGCCC GTCCTGTGGC CATCCTGACA CAGGACACAT CAAGAGTCAC TGCCATGCAG
    ATGGGACAGA GCAACCTGGT CCTGGGCCAC AGGAGTATCC GTATGCAAGG AGCTTCTAGG
    CTCCCCAACA GCACCATCTA TGTGGTTGAA GCCGGATACC TAGGTTTCAC AGTCCACCCT
    GGTGACAGAT GGGTGCTTGA GACTGGACAT CTGTATGCAA TTACCATCGA AGTATTTGAT
    AGATCCAGCA ACAAGGTCTA CCCATCTGAN AACATCCGAA TTGAAGCTGT GCTTCCTGCT
    GAGTTTTTTG AAGTTCTGTC GTCTTCCCAG AATGGATCTT ATCATCACAT CAGGGCTATC
    CAGAGTGGCC AGACGGCCAT CAGTGCAACC CTCACCTCTG TGGTGGACCA GGACGGAGGG
    GTCCATGTGC TTCAGGTACC TGTGTGGAAC CAGCAAGAAG TAGACATTCA TATCCCCATC
    ACACTCTATC CCAGCATCCT GACATTTCCA TGGCAACCAA AGACAGGAGC CTATCAGTAT
    ACCATAAAGG CCCATGGAGG CAGTGGGAAC TTCAGCTGGT CTTCGTCAAG CTCCATGGTT
    GCCACAGTCA CCGTCAAGGG GGTCATGACC ACAAGTGGTG ACACTGGCCT CAGTGTGATC
    CGGGCTCATG ATGTTCAGAA TCCTCTCCAT TTTGGCGAGA TGAAGGTGTA TGTGATTGAG
    CCCAGCAGCA TGGAGTTTGC CCCGTGCCAG GTGGAGGCTC GAGTGGGTCA CACCCTGGAG
    CTGCCCCTGA CAATCAGTGG CTTCATGCCC GGTGGGGGCA GTGAGGTGGT CACCCTGAGC
    GACTGCTCCC ATTTCGACCT GGTGGTGGAG GTGGAGAACC AGGGTGTGTT CCAGCCATTG
    CCAGGGAGAC TGCCGCCAGG ACCTGAGCAC TGCAGTGGGG TCAAAGTGAA AGCCGATGCC
    CAGGGGTCTA CCACCCTCCT CGTGAGCTAC ACACACGGCC ATGTACACTT GGATGCAAAG
    ATCACTCTTG CTGCCTACCT GCCCCTCAAG GCTGTGGATC CCTCTTCTGT TGCTGTGGTG
    ACCCTGGGCT CCTCAAAGGA AATGCTATTT GAAGGAGGCC CCAGGCCATG GGTCCTGGAA
    CCTTCCAAAT TCTTTCGGAA TGTCACTTCT GAAGACACAG GCAGCATCAG CCTGTCTCTC
    TTGGGTCCTC CAGCCTCCCG GAATTACCAG CAGCACCGGG TCCTCATGAT CTGCCAGGCC
    TTGGGTGAGC AGGTCATTGC TTTGTCCGTG GGGAATCGGC CCAGCCTCTC TAACCCCTTC
    CCTGCTGTGG AGCCCACTGT GGTGAAGTCA ATCTGTGCTC CACCATCCAG GCTCACTCTC
    ATGCCTGTCT ATGCCCTCCC GCAGCTGGAC CTATCCTGTC CATTGCTGCA GCAGAATAAG
    CAGGTGGTTC CAGTATCCAG TCACCGTAAT CCCCTGTTAG ACCTGGGTGC CTACGACCAA
    CAGGGCCGGC GATTCGATAA CTTCAGCTCT CTGAGCATCC AGTGGGAGTC CTCCCGGCCA
    TTGCTGGCCA GCATTGAGCT TGACCAGCCC ATGCAGCTGG TATCCCAGGA TGATGGGAAT
    GGCCAAAAGA AACTACATGG TTTGCAGACA GTCTCGGTTC ACGAGGCATC AGGAACCACA
    GCCATCTCTG CCACAGCGAC TGGCTACCAG CAGTCCCACC TGAGTGCAGC CAGAGTGAAG
    CAAGCGCATG ACCCTCTAGT GCCTGTGTCA GCCTCCATCG AGCTTATTCT CGTAGAGGAT
    GTGAGGGTCA GTCCGGAAGA AATGACCGTC TATAACCATC CTGGTGTCCA GGTGGAACTC
    CACATCACAG AAGGCTCTGG ATACTTCTTC CTCAACACAA GTACCCAGGA CATCATCAAG
    GTGGCCTACC AGGACACCCG GGGCGTAGCT CTGGTGCACC CTCTGCTCCC AGGCTCATCG
    ACTGTCATGG TCCATGACTT GTGCCTGGCC TTCCCAGCCC CCGCAAAGGC CATCATTCAC
    GTCTCTGACA TCCAGGAGCT CTATGTTCGA GTGGTGGACA AGGTGGAGAT CGGGAAGGCC
    GTCAAAGCCT ATGTCCGTGT GTTGGACTTC TACAAGAAGC CTTTCCTGGC CAAGTACTTC
    ACCTTTATGG ACCTGAAGCT TCGAGCAGCC TCCCAGATAA TCACGCTGGT GACTCTGGAT
    GAAGCTCTAG ACAACTACAC AGCCACATTC CTCGTGCATG GTGTGGCCAT TGGCCAGACT
    AGCCTGTCTG CAAGCGTGAC GGACAAATCT GGGCAGAGAG TCAGCTCTAC CCCACAACAA
    ATCGAGGTCT TCCCCCCATT CAGATTGATA CCCAGGAAGG TGACACTGAT CATTGGAGCC
    ATGATGCAGA TCACCTCTGA GGGGGGCCCC CAGCCTCAGT CCAACATCCT CTTCTCCATC
    AACAATGAGA GTGTGGCAGC AGTGAGCAGC TCTGGGCTGG TGCGTGGGCT CATGGTCGGC
    AATGGCTCTG TGCTGGGAGT CGTGCAGGCA GTGGATGCAG AGACTGGCAA GGTCATCATC
    GTCTCCCAGG ATCTTGTCGA AGTGGAGGTG CTACAGCTCC AGGCAGTGAG GATCCGTGCT
    CCGATCACAC GAATGAGAAC CGGGACCCAG ATGCCTGTCT TTGTCACCGG AATCACCAGC
    AACCAGAGCC CTTTCTCCTT TGGCAATGCT GTGCCAGGCC TGACCTTCCA CTGGTCTGTC
    ACCAAAAGGG ATGTCCTGGA CCTTCGAGGG CGGCACCATG AGGTATCTAT CCGGCTCCCA
    CCTCAGTATA ATTTTGCCAT GAATGTGTAT GGCCGAGTGA AAGGTCGGAC TGGACTTCGG
    GTTGTAGTCA AAGCTCTGGA CCCCACAGCT GGGCAGCTGC ATGGTCTCGG CAAGGAGCTC
    TCAGATGAGA TCCAAATTCA GGTATTTGAA AAACTGCGGC TGCTGAACCC TGAAATAGAA
    GCAGAACAAA TACTAATGTC ACCCAACTCA TTTATAAAGC TGCAGACAAA CAGGGATGGT
    GCAGCCATTC TGAGCTACCG TGTCCTTGAT GGGCCTGAGA AGGCTCCCAT TGTTCACACT
    GATGAGAAAG GGTTTCTGGT GTCGGGCTCT GGAATTGGAG TGTCCACCCT GGAAGTGATT
    GCACAGGAGC CTTTCGGCAC CAACCAGACT ATCCTTGTCG CTGTAAAGGT CTCTCCTGTT
    TCATACCTGA GGATCTCCAT GAGCCCAGTC CTGCACACTC AGCACAAGGA GGTGCTGACA
    GCTCTGCCTC TGGGGATGAC TGTGACCTTC ATTGTCCACT TCCACGACAG CTCTGGAGAC
    ATCTTCCATG CTCATAATTC AGTCCTCAAT TTTGCCACTA ACAGAGATGA CTTCGTGCAG
    ATCGGCAAGG GTGCCACCAA CAACACCTGC ATCATCCGCA CAGTCAGTGT GGGCTTGACG
    CTGCTCCATG TGTGGGATGT GGAGCACCTC GGCCTCTCCG ACTTCGTGCC ACTACCTGTC
    CTACAGGCCA TCACCCCAGA GTTGTCTGGA GCCGTGGTGG TGGGTGACAT CCTCTGTCTG
    GCTAGTGTTC TCACTAGCCT GGGAGGTAAG AGGGAAGTGA CTGGTTCATG GCTGTCTAGC
    ACAGGGATGG TGCTATACCT NAATGTGGGA TATACCTGGA TATGGGATGA TCATTCAGGA
    ATAGTGGTCG GCACCCCTCA GAAGATTGTG GCCCGTCGCC TCCACTCTGC CCAGACCAGT
    ATCCAGGAAG CCACAGCCTC CAAAGTGACT GTCAGCGTGG GAGACAGGAG CTCTAACCTA
    CTTGGTGAGT GCTCCCCTGC CCAGCGAGAG GCCATTGAAG CCTTGCACCC TGAGTCCCTC
    ATCAGCTGCC AACTCCAGTT CAAGCAAGAT GTCTTTGACT TCCCTGCTTG TGATGTCTTC
    ACCGTGGAAC CAGGATTTGA TGCTGCTCTG GGCCAGTACC TCTGCTCGGT TACTATGCAC
    AGGCTGACAG ATAAGCAACT GAAGCACTTG AACATGAAGA AGACATCACT GGCAGTCACC
    GCCTCCATCC CCAGCAGCTA TACCTCTGTA GAGAAGGTGG GAGCTGAGGT CCCCTTCAGT
    CCAGGGCTCT ATGCCAACCA GGCAGAAATC CTTTTGAGCA ACCACTATAC CAGCGCCGAG
    GTCAAAGTCT TTGGTGCTGT GGAGATTCTG GAAAACTTGG AGGTGAAATC CGGATCCCCG
    GCAGTGCTAG CCTTCGTGAA AGAGAAGTCA TTTGGGCTGC CCAGCTTCAT CACGTACACA
    GTTGGTATCT TGGATCCCAC AGCTGGCAGC CAGGGCCCTC TGTCCACTGC CCTGACCTTC
    TCCAGCCCTG CCACTAACCA GGCCATCACC ATTCCAGTCA CTGTGGCCTT TGTGTTGGAT
    CGTCGTGGGC CTGGTCCCTA TGGAGCCAGC CTCCTGTCAC ACTTCCTGGA CTCCTATCAA
    GTCATGTTCT TCACCTTTTT TGCTCTGCTG GCTGGGACAG CAGTCACCAT TATAGCCTAC
    CATACAGTCT GTGCACCCCG GGAACTTNCT TCACCCCTGG CCCTCACGCC CCGTGCCAGC
    CCTCAGCACA GCCCCCACTA TCTTGCCTCA TCTCCGGCTG CTTTCAACAC ACTGCCTTCT
    GGTCGCAAAG CCAGCCCTCC CTCAGGGCTC TGGAGCCCAG CCTATGCCTC TCACTAG

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

    RefSeq XP_021019783.1
    CDS1..5397
    Translation

    Target ORF information:

    RefSeq Version XM_021164124.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nucleoporin 210 (Nup210), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021164124.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCGCGGG CCTCACTAGT GCAGCCGGCG CTCTGGGCGC TGCTGTTGCT GCAGGTAGTG 
    GGCCCCGCCG CGGCCGCCAA GCTTAACATT CCCAAGGTGC TGCTGCCCTT CACGCGGGCC
    ACGCGCGTGA ACTTCACTCT GGAAGCTTCT GAGGGCTGCT ACCGCTGGTC ATCCACCCGG
    CCAGAGGTAG CCAGCATAGA GCCATTGGGC TCCAGTGAAC AGCAGTGCTC CCAGAAGGCA
    GTGGTGCAGG CCCGCTTGAC CCAGCCAGCC CGCCTGACCA GCATCATCTT TGCAGAAGAC
    ATCACTACAG GGCAGGTGCT GCGNTGTGAT GCCATCGTTG ATCTCATCCA TGGCATTCAG
    ATCGTCTCTA CCACCCGTGA GCTCTATCTT GAGGACTCTC CGCTAGAGCT GAAGATCCAG
    GCTCTGGACT CAGAAGGGAA TACCTTCAGC ACCTTGGCAG GACTGGTCTT TGANTGGACA
    ATTGTGAAGG ATACCGAGGC CAATGGATTC TCAGACTCCC ACAATGCACT CCGCTCCCTT
    GGCTGCTTTT CCTCAGGGCA GGTGGATCCT GATGTGGCAT CATGTGCAGC AGGAGAACTC
    TCAATGCCTT CTGATCAATA TGAGCTGCAG CTCCAGAACA GCATCCCAGA TCCTCAGGGA
    GACCCTGCCC GTCCTGTGGC CATCCTGACA CAGGACACAT CAAGAGTCAC TGCCATGCAG
    ATGGGACAGA GCAACCTGGT CCTGGGCCAC AGGAGTATCC GTATGCAAGG AGCTTCTAGG
    CTCCCCAACA GCACCATCTA TGTGGTTGAA GCCGGATACC TAGGTTTCAC AGTCCACCCT
    GGTGACAGAT GGGTGCTTGA GACTGGACAT CTGTATGCAA TTACCATCGA AGTATTTGAT
    AGATCCAGCA ACAAGGTCTA CCCATCTGAN AACATCCGAA TTGAAGCTGT GCTTCCTGCT
    GAGTTTTTTG AAGTTCTGTC GTCTTCCCAG AATGGATCTT ATCATCACAT CAGGGCTATC
    CAGAGTGGCC AGACGGCCAT CAGTGCAACC CTCACCTCTG TGGTGGACCA GGACGGAGGG
    GTCCATGTGC TTCAGGTACC TGTGTGGAAC CAGCAAGAAG TAGACATTCA TATCCCCATC
    ACACTCTATC CCAGCATCCT GACATTTCCA TGGCAACCAA AGACAGGAGC CTATCAGTAT
    ACCATAAAGG CCCATGGAGG CAGTGGGAAC TTCAGCTGGT CTTCGTCAAG CTCCATGGTT
    GCCACAGTCA CCGTCAAGGG GGTCATGACC ACAAGTGGTG ACACTGGCCT CAGTGTGATC
    CGGGCTCATG ATGTTCAGAA TCCTCTCCAT TTTGGCGAGA TGAAGGTGTA TGTGATTGAG
    CCCAGCAGCA TGGAGTTTGC CCCGTGCCAG GTGGAGGCTC GAGTGGGTCA CACCCTGGAG
    CTGCCCCTGA CAATCAGTGG CTTCATGCCC GGTGGGGGCA GTGAGGTGGT CACCCTGAGC
    GACTGCTCCC ATTTCGACCT GGTGGTGGAG GTGGAGAACC AGGGTGTGTT CCAGCCATTG
    CCAGGGAGAC TGCCGCCAGG ACCTGAGCAC TGCAGTGGGG TCAAAGTGAA AGCCGATGCC
    CAGGGGTCTA CCACCCTCCT CGTGAGCTAC ACACACGGCC ATGTACACTT GGATGCAAAG
    ATCACTCTTG CTGCCTACCT GCCCCTCAAG GCTGTGGATC CCTCTTCTGT TGCTGTGGTG
    ACCCTGGGCT CCTCAAAGGA AATGCTATTT GAAGGAGGCC CCAGGCCATG GGTCCTGGAA
    CCTTCCAAAT TCTTTCGGAA TGTCACTTCT GAAGACACAG GCAGCATCAG CCTGTCTCTC
    TTGGGTCCTC CAGCCTCCCG GAATTACCAG CAGCACCGGG TCCTCATGAT CTGCCAGGCC
    TTGGGTGAGC AGGTCATTGC TTTGTCCGTG GGGAATCGGC CCAGCCTCTC TAACCCCTTC
    CCTGCTGTGG AGCCCACTGT GGTGAAGTCA ATCTGTGCTC CACCATCCAG GCTCACTCTC
    ATGCCTGTCT ATGCCCTCCC GCAGCTGGAC CTATCCTGTC CATTGCTGCA GCAGAATAAG
    CAGGTGGTTC CAGTATCCAG TCACCGTAAT CCCCTGTTAG ACCTGGGTGC CTACGACCAA
    CAGGGCCGGC GATTCGATAA CTTCAGCTCT CTGAGCATCC AGTGGGAGTC CTCCCGGCCA
    TTGCTGGCCA GCATTGAGCT TGACCAGCCC ATGCAGCTGG TATCCCAGGA TGATGGGAAT
    GGCCAAAAGA AACTACATGG TTTGCAGACA GTCTCGGTTC ACGAGGCATC AGGAACCACA
    GCCATCTCTG CCACAGCGAC TGGCTACCAG CAGTCCCACC TGAGTGCAGC CAGAGTGAAG
    CAAGCGCATG ACCCTCTAGT GCCTGTGTCA GCCTCCATCG AGCTTATTCT CGTAGAGGAT
    GTGAGGGTCA GTCCGGAAGA AATGACCGTC TATAACCATC CTGGTGTCCA GGTGGAACTC
    CACATCACAG AAGGCTCTGG ATACTTCTTC CTCAACACAA GTACCCAGGA CATCATCAAG
    GTGGCCTACC AGGACACCCG GGGCGTAGCT CTGGTGCACC CTCTGCTCCC AGGCTCATCG
    ACTGTCATGG TCCATGACTT GTGCCTGGCC TTCCCAGCCC CCGCAAAGGC CATCATTCAC
    GTCTCTGACA TCCAGGAGCT CTATGTTCGA GTGGTGGACA AGGTGGAGAT CGGGAAGGCC
    GTCAAAGCCT ATGTCCGTGT GTTGGACTTC TACAAGAAGC CTTTCCTGGC CAAGTACTTC
    ACCTTTATGG ACCTGAAGCT TCGAGCAGCC TCCCAGATAA TCACGCTGGT GACTCTGGAT
    GAAGCTCTAG ACAACTACAC AGCCACATTC CTCGTGCATG GTGTGGCCAT TGGCCAGACT
    AGCCTGTCTG CAAGCGTGAC GGACAAATCT GGGCAGAGAG TCAGCTCTAC CCCACAACAA
    ATCGAGGTCT TCCCCCCATT CAGATTGATA CCCAGGAAGG TGACACTGAT CATTGGAGCC
    ATGATGCAGA TCACCTCTGA GGGGGGCCCC CAGCCTCAGT CCAACATCCT CTTCTCCATC
    AACAATGAGA GTGTGGCAGC AGTGAGCAGC TCTGGGCTGG TGCGTGGGCT CATGGTCGGC
    AATGGCTCTG TGCTGGGAGT CGTGCAGGCA GTGGATGCAG AGACTGGCAA GGTCATCATC
    GTCTCCCAGG ATCTTGTCGA AGTGGAGGTG CTACAGCTCC AGGCAGTGAG GATCCGTGCT
    CCGATCACAC GAATGAGAAC CGGGACCCAG ATGCCTGTCT TTGTCACCGG AATCACCAGC
    AACCAGAGCC CTTTCTCCTT TGGCAATGCT GTGCCAGGCC TGACCTTCCA CTGGTCTGTC
    ACCAAAAGGG ATGTCCTGGA CCTTCGAGGG CGGCACCATG AGGTATCTAT CCGGCTCCCA
    CCTCAGTATA ATTTTGCCAT GAATGTGTAT GGCCGAGTGA AAGGTCGGAC TGGACTTCGG
    GTTGTAGTCA AAGCTCTGGA CCCCACAGCT GGGCAGCTGC ATGGTCTCGG CAAGGAGCTC
    TCAGATGAGA TCCAAATTCA GGTATTTGAA AAACTGCGGC TGCTGAACCC TGAAATAGAA
    GCAGAACAAA TACTAATGTC ACCCAACTCA TTTATAAAGC TGCAGACAAA CAGGGATGGT
    GCAGCCATTC TGAGCTACCG TGTCCTTGAT GGGCCTGAGA AGGCTCCCAT TGTTCACACT
    GATGAGAAAG GGTTTCTGGT GTCGGGCTCT GGAATTGGAG TGTCCACCCT GGAAGTGATT
    GCACAGGAGC CTTTCGGCAC CAACCAGACT ATCCTTGTCG CTGTAAAGGT CTCTCCTGTT
    TCATACCTGA GGATCTCCAT GAGCCCAGTC CTGCACACTC AGCACAAGGA GGTGCTGACA
    GCTCTGCCTC TGGGGATGAC TGTGACCTTC ATTGTCCACT TCCACGACAG CTCTGGAGAC
    ATCTTCCATG CTCATAATTC AGTCCTCAAT TTTGCCACTA ACAGAGATGA CTTCGTGCAG
    ATCGGCAAGG GTGCCACCAA CAACACCTGC ATCATCCGCA CAGTCAGTGT GGGCTTGACG
    CTGCTCCATG TGTGGGATGT GGAGCACCTC GGCCTCTCCG ACTTCGTGCC ACTACCTGTC
    CTACAGGCCA TCACCCCAGA GTTGTCTGGA GCCGTGGTGG TGGGTGACAT CCTCTGTCTG
    GCTAGTGTTC TCACTAGCCT GGGAGGTAAG AGGGAAGTGA CTGGTTCATG GCTGTCTAGC
    ACAGGGATGG TGCTATACCT NAATGTGGGA TATACCTGGA TATGGGATGA TCATTCAGGA
    ATAGTGGTCG GCACCCCTCA GAAGATTGTG GCCCGTCGCC TCCACTCTGC CCAGACCAGT
    ATCCAGGAAG CCACAGCCTC CAAAGTGACT GTCAGCGTGG GAGACAGGAG CTCTAACCTA
    CTTGGTGAGT GCTCCCCTGC CCAGCGAGAG GCCATTGAAG CCTTGCACCC TGAGTCCCTC
    ATCAGCTGCC AACTCCAGTT CAAGCAAGAT GTCTTTGACT TCCCTGCTTG TGATGTCTTC
    ACCGTGGAAC CAGGATTTGA TGCTGCTCTG GGCCAGTACC TCTGCTCGGT TACTATGCAC
    AGGCTGACAG ATAAGCAACT GAAGCACTTG AACATGAAGA AGACATCACT GGCAGTCACC
    GCCTCCATCC CCAGCAGCTA TACCTCTGTA GAGAAGGTGG GAGCTGAGGT CCCCTTCAGT
    CCAGGGCTCT ATGCCAACCA GGCAGAAATC CTTTTGAGCA ACCACTATAC CAGCGCCGAG
    GTCAAAGTCT TTGGTGCTGT GGAGATTCTG GAAAACTTGG AGGTGAAATC CGGATCCCCG
    GCAGTGCTAG CCTTCGTGAA AGAGAAGTCA TTTGGGCTGC CCAGCTTCAT CACGTACACA
    GTTGGTATCT TGGATCCCAC AGCTGGCAGC CAGGGCCCTC TGTCCACTGC CCTGACCTTC
    TCCAGCCCTG CCACTAACCA GGCCATCACC ATTCCAGTCA CTGTGGCCTT TGTGTTGGAT
    CGTCGTGGGC CTGGTCCCTA TGGAGCCAGC CTCCTGTCAC ACTTCCTGGA CTCCTATCAA
    GTCATGTTCT TCACCTTTTT TGCTCTGCTG GCTGGGACAG CAGTCACCAT TATAGCCTAC
    CATACAGTCT GTGCACCCCG GGAACTTNCT TCACCCCTGG CCCTCACGCC CCGTGCCAGC
    CCTCAGCACA GCCCCCACTA TCTTGCCTCA TCTCCGGCTG CTTTCAACAC ACTGCCTTCT
    GGTCGCAAAG CCAGCCCTCC CTCAGGGCTC TGGAGCCCAG CCTATGCCTC TCACTAG

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

    CloneID OMv74099
    Clone ID Related Accession (Same CDS sequence) XM_029478233.1
    Accession Version XM_029478233.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5313bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nuclear pore membrane glycoprotein 210
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCGCGGG CCTCACTAGT GCAGCCGGCG CTCTGGGCGC TGCTGTTGCT GCAGGTAGTG 
    GGCCCCGCCG CGGCCGCCAA GCTTAACATT CCCAAGGTGC TGCTGCCCTT CACGCGGGCC
    ACGCGCGTGA ACTTCACTCT GGAAGCTTCT GAGGGCTGCT ACCGCTGGTC ATCCACCCGG
    CCAGAGGTAG CCAGCATAGA GCCATTGGGC TCCAGTGAAC AGCAGTGCTC CCAGAAGGCA
    GTGGTGCAGG CCCGCTTGAC CCAGCCAGCC CGCCTGACCA GCATCATCTT TGCAGAAGAC
    ATCACTACAG GGCAGGTGCT GCGNTGTGAT GCCATCGTTG ATCTCATCCA TGGCATTCAG
    ATCGTCTCTA CCACCCGTGA GCTCTATCTT GAGGACTCTC CGCTAGAGCT GAAGATCCAG
    GCTCTGGACT CAGAAGGGAA TACCTTCAGC ACCTTGGCAG GACTGGTCTT TGANTGGACA
    ATTGTGAAGG ATACCGAGGC CAATGGATTC TCAGACTCCC ACAATGCACT CCGCTCCCTT
    GGCTGCTTTT CCTCAGGGCA GGTGGATCCT GATGTGGCAT CATGTGCAGC AGGAGAACTC
    TCAATGCCTT CTGATCAATA TGAGCTGCAG CTCCAGAACA GCATCCCAGA TCCTCAGGGA
    GACCCTGCCC GTCCTGTGGC CATCCTGACA CAGGACACAT CAAGAGTCAC TGCCATGCAG
    ATGGGACAGA GCAACCTGGT CCTGGGCCAC AGGAGTATCC GTATGCAAGG AGCTTCTAGG
    CTCCCCAACA GCACCATCTA TGTGGTTGAA GCCGGATACC TAGGTTTCAC AGTCCACCCT
    GGTGACAGAT GGGTGCTTGA GACTGGACAT CTGTATGCAA TTACCATCGA AGTATTTGAT
    AGATCCAGCA ACAAGGTCTA CCCATCTGAN AACATCCGAA TTGAAGCTGT GCTTCCTGCT
    GAGTTTTTTG AAGTTCTGTC GTCTTCCCAG AATGGATCTT ATCATCACAT CAGGGCTATC
    CAGAGTGGCC AGACGGCCAT CAGTGCAACC CTCACCTCTG TGGTGGACCA GGACGGAGGG
    GTCCATGTGC TTCAGGTACC TGTGTGGAAC CAGCAAGAAG TAGACATTCA TATCCCCATC
    ACACTCTATC CCAGCATCCT GACATTTCCA TGGCAACCAA AGACAGGAGC CTATCAGTAT
    ACCATAAAGG CCCATGGAGG CAGTGGGAAC TTCAGCTGGT CTTCGTCAAG CTCCATGGTT
    GCCACAGTCA CCGTCAAGGG GGTCATGACC ACAAGTGGTG ACACTGGCCT CAGTGTGATC
    CGGGCTCATG ATGTTCAGAA TCCTCTCCAT TTTGGCGAGA TGAAGGTGTA TGTGATTGAG
    CCCAGCAGCA TGGAGTTTGC CCCGTGCCAG GTGGAGGCTC GAGTGGGTCA CACCCTGGAG
    CTGCCCCTGA CAATCAGTGG CTTCATGCCC GGTGGGGGCA GTGAGGTGGT CACCCTGAGC
    GACTGCTCCC ATTTCGACCT GGTGGTGGAG GTGGAGAACC AGGGTGTGTT CCAGCCATTG
    CCAGGGAGAC TGCCGCCAGG ACCTGAGCAC TGCAGTGGGG TCAAAGTGAA AGCCGATGCC
    CAGGGGTCTA CCACCCTCCT CGTGAGCTAC ACACACGGCC ATGTACACTT GGATGCAAAG
    ATCACTCTTG CTGCCTACCT GCCCCTCAAG GCTGTGGATC CCTCTTCTGT TGCTGTGGTG
    ACCCTGGGCT CCTCAAAGGA AATGCTATTT GAAGGAGGCC CCAGGCCATG GGTCCTGGAA
    CCTTCCAAAT TCTTTCGGAA TGTCACTTCT GAAGACACAG GCAGCATCAG CCTGTCTCTC
    TTGGGTCCTC CAGCCTCCCG GAATTACCAG CAGCACCGGG TCCTCATGAT CTGCCAGGCC
    TTGGGTGAGC AGGTCATTGC TTTGTCCGTG GGGAATCGGC CCAGCCTCTC TAACCCCTTC
    CCTGCTGTGG AGCCCACTGT GGTGAAGTCA ATCTGTGCTC CACCATCCAG GCTCACTCTC
    ATGCCTGTCT ATGCCCTCCC GCAGCTGGAC CTATCCTGTC CATTGCTGCA GCAGAATAAG
    CAGGTGGTTC CAGTATCCAG TCACCGTAAT CCCCTGTTAG ACCTGGGTGC CTACGACCAA
    CAGGGCCGGC GATTCGATAA CTTCAGCTCT CTGAGCATCC AGTGGGAGTC CTCCCGGCCA
    TTGCTGGCCA GCATTGAGCT TGACCAGCCC ATGCAGCTGG TATCCCAGGA TGATGGGAAT
    GGCCAAAAGA AACTACATGG TTTGCAGACA GTCTCGGTTC ACGAGGCATC AGGAACCACA
    GCCATCTCTG CCACAGCGAC TGGCTACCAG CAGTCCCACC TGAGTGCAGC CAGAGTGAAG
    CAAGCGCATG ACCCTCTAGT GCCTGTGTCA GCCTCCATCG AGCTTATTCT CGTAGAGGAT
    GTGAGGGTCA GTCCGGAAGA AATGACCGTC TATAACCATC CTGGTGTCCA GGTGGAACTC
    CACATCACAG AAGGCTCTGG ATACTTCTTC CTCAACACAA GTACCCAGGA CATCATCAAG
    GTGGCCTACC AGGACACCCG GGGCGTAGCT CTGGTGCACC CTCTGCTCCC AGGCTCATCG
    ACTGTCATGG TCCATGACTT GTGCCTGGCC TTCCCAGCCC CCGCAAAGGC CATCATTCAC
    GTCTCTGACA TCCAGGAGCT CTATGTTCGA GTGGTGGACA AGGTGGAGAT CGGGAAGGCC
    GTCAAAGCCT ATGTCCGTGT GTTGGACTTC TACAAGAAGC CTTTCCTGGC CAAGTACTTC
    ACCTTTATGG ACCTGAAGCT TCGAGCAGCC TCCCAGATAA TCACGCTGGT GACTCTGGAT
    GAAGCTCTAG ACAACTACAC AGCCACATTC CTCGTGCATG GTGTGGCCAT TGGCCAGACT
    AGCCTGTCTG CAAGCGTGAC GGACAAATCT GGGCAGAGAG TCAGCTCTAC CCCACAACAA
    ATCGAGGTCT TCCCCCCATT CAGATTGATA CCCAGGAAGG TGACACTGAT CATTGGAGCC
    ATGATGCAGA TCACCTCTGA GGGGGGCCCC CAGCCTCAGT CCAACATCCT CTTCTCCATC
    AACAATGAGA GTGTGGCAGC AGTGAGCAGC TCTGGGCTGG TGCGTGGGCT CATGGTCGGC
    AATGGCTCTG TGCTGGGAGT CGTGCAGGCA GTGGATGCAG AGACTGGCAA GGTCATCATC
    GTCTCCCAGG ATCTTGTCGA AGTGGAGGTG CTACAGCTCC AGGCAGTGAG GATCCGTGCT
    CCGATCACAC GAATGAGAAC CGGGACCCAG ATGCCTGTCT TTGTCACCGG AATCACCAGC
    AACCAGAGCC CTTTCTCCTT TGGCAATGCT GTGCCAGGCC TGACCTTCCA CTGGTCTGTC
    ACCAAAAGGG ATGTCCTGGA CCTTCGAGGG CGGCACCATG AGGTATCTAT CCGGCTCCCA
    CCTCAGTATA ATTTTGCCAT GAATGTGTAT GGCCGAGTGA AAGGTCGGAC TGGACTTCGG
    GTTGTAGTCA AAGCTCTGGA CCCCACAGCT GGGCAGCTGC ATGGTCTCGG CAAGGAGCTC
    TCAGATGAGA TCCAAATTCA GGTATTTGAA AAACTGCGGC TGCTGAACCC TGAAATAGAA
    GCAGAACAAA TACTAATGTC ACCCAACTCA TTTATAAAGC TGCAGACAAA CAGGGATGGT
    GCAGCCATTC TGAGCTACCG TGTCCTTGAT GGGCCTGAGA AGGCTCCCAT TGTTCACACT
    GATGAGAAAG GGTTTCTGGT GTCGGGCTCT GGAATTGGAG TGTCCACCCT GGAAGTGATT
    GCACAGGAGC CTTTCGGCAC CAACCAGACT ATCCTTGTCG CTGTAAAGGT CTCTCCTGTT
    TCATACCTGA GGATCTCCAT GAGCCCAGTC CTGCACACTC AGCACAAGGA GGTGCTGACA
    GCTCTGCCTC TGGGGATGAC TGTGACCTTC ATTGTCCACT TCCACGACAG CTCTGGAGAC
    ATCTTCCATG CTCATAATTC AGTCCTCAAT TTTGCCACTA ACAGAGATGA CTTCGTGCAG
    ATCGGCAAGG GTGCCACCAA CAACACCTGC ATCATCCGCA CAGTCAGTGT GGGCTTGACG
    CTGCTCCATG TGTGGGATGT GGAGCACCTC GGCCTCTCCG ACTTCGTGCC ACTACCTGTC
    CTACAGGCCA TCACCCCAGA GTTGTCTGGA GCCGTGGTGG TGGGTGACAT CCTCTGTCTG
    GCTAGTGTTC TCACTAGCCT GGGAGGTAAG AGGGAAATAG TGGTCGGCAC CCCTCAGAAG
    ATTGTGGCCC GTCGCCTCCA CTCTGCCCAG ACCAGTATCC AGGAAGCCAC AGCCTCCAAA
    GTGACTGTCA GCGTGGGAGA CAGGAGCTCT AACCTACTTG GTGAGTGCTC CCCTGCCCAG
    CGAGAGGCCA TTGAAGCCTT GCACCCTGAG TCCCTCATCA GCTGCCAACT CCAGTTCAAG
    CAAGATGTCT TTGACTTCCC TGCTTGTGAT GTCTTCACCG TGGAACCAGG ATTTGATGCT
    GCTCTGGGCC AGTACCTCTG CTCGGTTACT ATGCACAGGC TGACAGATAA GCAACTGAAG
    CACTTGAACA TGAAGAAGAC ATCACTGGCA GTCACCGCCT CCATCCCCAG CAGCTATACC
    TCTGTAGAGA AGGTGGGAGC TGAGGTCCCC TTCAGTCCAG GGCTCTATGC CAACCAGGCA
    GAAATCCTTT TGAGCAACCA CTATACCAGC GCCGAGGTCA AAGTCTTTGG TGCTGTGGAG
    ATTCTGGAAA ACTTGGAGGT GAAATCCGGA TCCCCGGCAG TGCTAGCCTT CGTGAAAGAG
    AAGTCATTTG GGCTGCCCAG CTTCATCACG TACACAGTTG GTATCTTGGA TCCCACAGCT
    GGCAGCCAGG GCCCTCTGTC CACTGCCCTG ACCTTCTCCA GCCCTGCCAC TAACCAGGCC
    ATCACCATTC CAGTCACTGT GGCCTTTGTG TTGGATCGTC GTGGGCCTGG TCCCTATGGA
    GCCAGCCTCC TGTCACACTT CCTGGACTCC TATCAAGTCA TGTTCTTCAC CTTTTTTGCT
    CTGCTGGCTG GGACAGCAGT CACCATTATA GCCTACCATA CAGTCTGTGC ACCCCGGGAA
    CTTNCTTCAC CCCTGGCCCT CACGCCCCGT GCCAGCCCTC AGCACAGCCC CCACTATCTT
    GCCTCATCTC CGGCTGCTTT CAACACACTG CCTTCTGGTC GCAAAGCCAG CCCTCCCTCA
    GGGCTCTGGA GCCCAGCCTA TGCCTCTCAC TAG

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

    RefSeq XP_029334093.1
    CDS258..5570
    Translation

    Target ORF information:

    RefSeq Version XM_029478233.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nucleoporin 210 (Nup210), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029478233.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCGCGGG CCTCACTAGT GCAGCCGGCG CTCTGGGCGC TGCTGTTGCT GCAGGTAGTG 
    GGCCCCGCCG CGGCCGCCAA GCTTAACATT CCCAAGGTGC TGCTGCCCTT CACGCGGGCC
    ACGCGCGTGA ACTTCACTCT GGAAGCTTCT GAGGGCTGCT ACCGCTGGTC ATCCACCCGG
    CCAGAGGTAG CCAGCATAGA GCCATTGGGC TCCAGTGAAC AGCAGTGCTC CCAGAAGGCA
    GTGGTGCAGG CCCGCTTGAC CCAGCCAGCC CGCCTGACCA GCATCATCTT TGCAGAAGAC
    ATCACTACAG GGCAGGTGCT GCGNTGTGAT GCCATCGTTG ATCTCATCCA TGGCATTCAG
    ATCGTCTCTA CCACCCGTGA GCTCTATCTT GAGGACTCTC CGCTAGAGCT GAAGATCCAG
    GCTCTGGACT CAGAAGGGAA TACCTTCAGC ACCTTGGCAG GACTGGTCTT TGANTGGACA
    ATTGTGAAGG ATACCGAGGC CAATGGATTC TCAGACTCCC ACAATGCACT CCGCTCCCTT
    GGCTGCTTTT CCTCAGGGCA GGTGGATCCT GATGTGGCAT CATGTGCAGC AGGAGAACTC
    TCAATGCCTT CTGATCAATA TGAGCTGCAG CTCCAGAACA GCATCCCAGA TCCTCAGGGA
    GACCCTGCCC GTCCTGTGGC CATCCTGACA CAGGACACAT CAAGAGTCAC TGCCATGCAG
    ATGGGACAGA GCAACCTGGT CCTGGGCCAC AGGAGTATCC GTATGCAAGG AGCTTCTAGG
    CTCCCCAACA GCACCATCTA TGTGGTTGAA GCCGGATACC TAGGTTTCAC AGTCCACCCT
    GGTGACAGAT GGGTGCTTGA GACTGGACAT CTGTATGCAA TTACCATCGA AGTATTTGAT
    AGATCCAGCA ACAAGGTCTA CCCATCTGAN AACATCCGAA TTGAAGCTGT GCTTCCTGCT
    GAGTTTTTTG AAGTTCTGTC GTCTTCCCAG AATGGATCTT ATCATCACAT CAGGGCTATC
    CAGAGTGGCC AGACGGCCAT CAGTGCAACC CTCACCTCTG TGGTGGACCA GGACGGAGGG
    GTCCATGTGC TTCAGGTACC TGTGTGGAAC CAGCAAGAAG TAGACATTCA TATCCCCATC
    ACACTCTATC CCAGCATCCT GACATTTCCA TGGCAACCAA AGACAGGAGC CTATCAGTAT
    ACCATAAAGG CCCATGGAGG CAGTGGGAAC TTCAGCTGGT CTTCGTCAAG CTCCATGGTT
    GCCACAGTCA CCGTCAAGGG GGTCATGACC ACAAGTGGTG ACACTGGCCT CAGTGTGATC
    CGGGCTCATG ATGTTCAGAA TCCTCTCCAT TTTGGCGAGA TGAAGGTGTA TGTGATTGAG
    CCCAGCAGCA TGGAGTTTGC CCCGTGCCAG GTGGAGGCTC GAGTGGGTCA CACCCTGGAG
    CTGCCCCTGA CAATCAGTGG CTTCATGCCC GGTGGGGGCA GTGAGGTGGT CACCCTGAGC
    GACTGCTCCC ATTTCGACCT GGTGGTGGAG GTGGAGAACC AGGGTGTGTT CCAGCCATTG
    CCAGGGAGAC TGCCGCCAGG ACCTGAGCAC TGCAGTGGGG TCAAAGTGAA AGCCGATGCC
    CAGGGGTCTA CCACCCTCCT CGTGAGCTAC ACACACGGCC ATGTACACTT GGATGCAAAG
    ATCACTCTTG CTGCCTACCT GCCCCTCAAG GCTGTGGATC CCTCTTCTGT TGCTGTGGTG
    ACCCTGGGCT CCTCAAAGGA AATGCTATTT GAAGGAGGCC CCAGGCCATG GGTCCTGGAA
    CCTTCCAAAT TCTTTCGGAA TGTCACTTCT GAAGACACAG GCAGCATCAG CCTGTCTCTC
    TTGGGTCCTC CAGCCTCCCG GAATTACCAG CAGCACCGGG TCCTCATGAT CTGCCAGGCC
    TTGGGTGAGC AGGTCATTGC TTTGTCCGTG GGGAATCGGC CCAGCCTCTC TAACCCCTTC
    CCTGCTGTGG AGCCCACTGT GGTGAAGTCA ATCTGTGCTC CACCATCCAG GCTCACTCTC
    ATGCCTGTCT ATGCCCTCCC GCAGCTGGAC CTATCCTGTC CATTGCTGCA GCAGAATAAG
    CAGGTGGTTC CAGTATCCAG TCACCGTAAT CCCCTGTTAG ACCTGGGTGC CTACGACCAA
    CAGGGCCGGC GATTCGATAA CTTCAGCTCT CTGAGCATCC AGTGGGAGTC CTCCCGGCCA
    TTGCTGGCCA GCATTGAGCT TGACCAGCCC ATGCAGCTGG TATCCCAGGA TGATGGGAAT
    GGCCAAAAGA AACTACATGG TTTGCAGACA GTCTCGGTTC ACGAGGCATC AGGAACCACA
    GCCATCTCTG CCACAGCGAC TGGCTACCAG CAGTCCCACC TGAGTGCAGC CAGAGTGAAG
    CAAGCGCATG ACCCTCTAGT GCCTGTGTCA GCCTCCATCG AGCTTATTCT CGTAGAGGAT
    GTGAGGGTCA GTCCGGAAGA AATGACCGTC TATAACCATC CTGGTGTCCA GGTGGAACTC
    CACATCACAG AAGGCTCTGG ATACTTCTTC CTCAACACAA GTACCCAGGA CATCATCAAG
    GTGGCCTACC AGGACACCCG GGGCGTAGCT CTGGTGCACC CTCTGCTCCC AGGCTCATCG
    ACTGTCATGG TCCATGACTT GTGCCTGGCC TTCCCAGCCC CCGCAAAGGC CATCATTCAC
    GTCTCTGACA TCCAGGAGCT CTATGTTCGA GTGGTGGACA AGGTGGAGAT CGGGAAGGCC
    GTCAAAGCCT ATGTCCGTGT GTTGGACTTC TACAAGAAGC CTTTCCTGGC CAAGTACTTC
    ACCTTTATGG ACCTGAAGCT TCGAGCAGCC TCCCAGATAA TCACGCTGGT GACTCTGGAT
    GAAGCTCTAG ACAACTACAC AGCCACATTC CTCGTGCATG GTGTGGCCAT TGGCCAGACT
    AGCCTGTCTG CAAGCGTGAC GGACAAATCT GGGCAGAGAG TCAGCTCTAC CCCACAACAA
    ATCGAGGTCT TCCCCCCATT CAGATTGATA CCCAGGAAGG TGACACTGAT CATTGGAGCC
    ATGATGCAGA TCACCTCTGA GGGGGGCCCC CAGCCTCAGT CCAACATCCT CTTCTCCATC
    AACAATGAGA GTGTGGCAGC AGTGAGCAGC TCTGGGCTGG TGCGTGGGCT CATGGTCGGC
    AATGGCTCTG TGCTGGGAGT CGTGCAGGCA GTGGATGCAG AGACTGGCAA GGTCATCATC
    GTCTCCCAGG ATCTTGTCGA AGTGGAGGTG CTACAGCTCC AGGCAGTGAG GATCCGTGCT
    CCGATCACAC GAATGAGAAC CGGGACCCAG ATGCCTGTCT TTGTCACCGG AATCACCAGC
    AACCAGAGCC CTTTCTCCTT TGGCAATGCT GTGCCAGGCC TGACCTTCCA CTGGTCTGTC
    ACCAAAAGGG ATGTCCTGGA CCTTCGAGGG CGGCACCATG AGGTATCTAT CCGGCTCCCA
    CCTCAGTATA ATTTTGCCAT GAATGTGTAT GGCCGAGTGA AAGGTCGGAC TGGACTTCGG
    GTTGTAGTCA AAGCTCTGGA CCCCACAGCT GGGCAGCTGC ATGGTCTCGG CAAGGAGCTC
    TCAGATGAGA TCCAAATTCA GGTATTTGAA AAACTGCGGC TGCTGAACCC TGAAATAGAA
    GCAGAACAAA TACTAATGTC ACCCAACTCA TTTATAAAGC TGCAGACAAA CAGGGATGGT
    GCAGCCATTC TGAGCTACCG TGTCCTTGAT GGGCCTGAGA AGGCTCCCAT TGTTCACACT
    GATGAGAAAG GGTTTCTGGT GTCGGGCTCT GGAATTGGAG TGTCCACCCT GGAAGTGATT
    GCACAGGAGC CTTTCGGCAC CAACCAGACT ATCCTTGTCG CTGTAAAGGT CTCTCCTGTT
    TCATACCTGA GGATCTCCAT GAGCCCAGTC CTGCACACTC AGCACAAGGA GGTGCTGACA
    GCTCTGCCTC TGGGGATGAC TGTGACCTTC ATTGTCCACT TCCACGACAG CTCTGGAGAC
    ATCTTCCATG CTCATAATTC AGTCCTCAAT TTTGCCACTA ACAGAGATGA CTTCGTGCAG
    ATCGGCAAGG GTGCCACCAA CAACACCTGC ATCATCCGCA CAGTCAGTGT GGGCTTGACG
    CTGCTCCATG TGTGGGATGT GGAGCACCTC GGCCTCTCCG ACTTCGTGCC ACTACCTGTC
    CTACAGGCCA TCACCCCAGA GTTGTCTGGA GCCGTGGTGG TGGGTGACAT CCTCTGTCTG
    GCTAGTGTTC TCACTAGCCT GGGAGGTAAG AGGGAAATAG TGGTCGGCAC CCCTCAGAAG
    ATTGTGGCCC GTCGCCTCCA CTCTGCCCAG ACCAGTATCC AGGAAGCCAC AGCCTCCAAA
    GTGACTGTCA GCGTGGGAGA CAGGAGCTCT AACCTACTTG GTGAGTGCTC CCCTGCCCAG
    CGAGAGGCCA TTGAAGCCTT GCACCCTGAG TCCCTCATCA GCTGCCAACT CCAGTTCAAG
    CAAGATGTCT TTGACTTCCC TGCTTGTGAT GTCTTCACCG TGGAACCAGG ATTTGATGCT
    GCTCTGGGCC AGTACCTCTG CTCGGTTACT ATGCACAGGC TGACAGATAA GCAACTGAAG
    CACTTGAACA TGAAGAAGAC ATCACTGGCA GTCACCGCCT CCATCCCCAG CAGCTATACC
    TCTGTAGAGA AGGTGGGAGC TGAGGTCCCC TTCAGTCCAG GGCTCTATGC CAACCAGGCA
    GAAATCCTTT TGAGCAACCA CTATACCAGC GCCGAGGTCA AAGTCTTTGG TGCTGTGGAG
    ATTCTGGAAA ACTTGGAGGT GAAATCCGGA TCCCCGGCAG TGCTAGCCTT CGTGAAAGAG
    AAGTCATTTG GGCTGCCCAG CTTCATCACG TACACAGTTG GTATCTTGGA TCCCACAGCT
    GGCAGCCAGG GCCCTCTGTC CACTGCCCTG ACCTTCTCCA GCCCTGCCAC TAACCAGGCC
    ATCACCATTC CAGTCACTGT GGCCTTTGTG TTGGATCGTC GTGGGCCTGG TCCCTATGGA
    GCCAGCCTCC TGTCACACTT CCTGGACTCC TATCAAGTCA TGTTCTTCAC CTTTTTTGCT
    CTGCTGGCTG GGACAGCAGT CACCATTATA GCCTACCATA CAGTCTGTGC ACCCCGGGAA
    CTTNCTTCAC CCCTGGCCCT CACGCCCCGT GCCAGCCCTC AGCACAGCCC CCACTATCTT
    GCCTCATCTC CGGCTGCTTT CAACACACTG CCTTCTGGTC GCAAAGCCAG CCCTCCCTCA
    GGGCTCTGGA GCCCAGCCTA TGCCTCTCAC TAG

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