NYNRIN cDNA ORF clone, Sus scrofa(Pig)

  • Gene

  • Clones

  • gRNAs

The following NYNRIN gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NYNRIN 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
OSe38286 XM_013978169.1
Latest version!
Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OSe38286 XM_013978170.1
Latest version!
Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OSe223100 XM_005666233.3
Latest version!
Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OSe38285 XM_013978167.1
Latest version!
Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OSe38285 XM_005666233.2
Latest version!
Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OSe38285 XM_013978168.1
Latest version!
Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
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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 OSe38286
    Clone ID Related Accession (Same CDS sequence) XM_013978169.1 , XM_013978170.1
    Accession Version XM_013978169.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3084bp)
    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 protein NYNRIN isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003610692.1) 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 :: 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##

    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
    ATGGTAAAGC TGGCAGAAGA GACAGATGGC ATCATTGTCA CCAATGAGCA GCTTCATGTC 
    CTGATGAATA ATTCTAAGAA ACTGATGGTC AAAGATCGCC TGCTGCCCTT CACCTTTGCG
    GGGAATCTCT TCATGGTGCC TGACGACCCC CTGGGCCGTG ATGGCCCCAC CCTGGATGAG
    TTTCTGAAGA AGCCAAACAG GTTGGACACT GACATTGGCA ACTTCCTGAA GGTGTGGAAG
    ACCCTTCCTC CCAGCTCGGC CAGCCTCTCT GAGCCAGTGG ATGAGGCTGA CCCTTGGCCC
    CCAGAGAGTC TGCAGAGTGT GAAAGAAGTC AGGGAGGAGA AGGAGGAGAG GCAGGACGAG
    GAGCAGAGAG AGGAGCAAGA GACGCAGAAG CTGGCCGAGG AGGAGGTGGA GGAGGAGGAG
    GAAAAGGAGG AAGATGACGA TCAGGACTCT TTGCTGGTGT CTGTGTTCAG GGCTGAGTGT
    CCTTCCCTCT CAGAGGAAAT ACTCCGGTGC CTCAGCCTCC ACGACCCTAT GGACGAGGCC
    CTTGACATTG ATCTCCTGCC AGTGGTGGCT TCTCCCTCCC TGGACATCCC TTGGGACGGG
    AAGGCCCCCT GCCAGCAGGT TCTGGCCCAC CTGGCCCAGC TGACCATCCC TAGCAACTTC
    ACCGCACTCT CCTTCTTTGT GGGGTTCATG GACTCCCACC GGGACGTCAT CCCCGACTAT
    GAAGCCCTCG TGGGCCCCCT GCACAGCCTC CTCAAGCAGA AGCCGGACTG GCAGTGGGCC
    CTGGAGCACG AGAAGGCTTT CCTGGCCCTG AAGCGAGCCC TGGTGTCTGC CCTCTGCCTG
    TCGGCCCCCA ACTCCCAGCT GCCCTTCCGC CTGGAGGTGA CAGTGAGCCA AGTGGCCCTG
    ATGGCCGTAG TGTACCAAGA GCACTCAGGA AGAAAGCACC CTGTAGCCTA TACCTCGAAA
    CCCCTCCTCC CAGACGAGGA GAGCGCGGGC CCCCAGTCGG GGGGAGACAG CCCCTACGCC
    GTGGCCTGGG CCCTCAAGTA TTTTTCCCGC TGCATTGGAG ACACCCCAGT GGTCCTGGGC
    CTTTCCTACG CCTCCCGGAC CACTGCGGAC CCTGAGGCGT GGGACGGCCG CCGGCTCGCC
    AAGGCGTGGT TGATCCGGTG GTCCCTCCTG GTGCAGGACA AGGGCAAGAG GGCACTGGAA
    CTGGCCCTTC TCCAGGGTCT GCTGGGGGAA AACCGGCTGC TGACTCCCGC GGCCTCCATG
    CCTCGTTTTT TCCAGGTTCT GCCTCCTTTT TCCGACCTGT CCACTTTTGT CTGCATCCAC
    ATGTCGGGCT ACTGCTTTTA CCGAGAGGAC GAGTGGTGTG CTGGCTTTGG TCTCTATGTC
    CTGTCTCCCA CCAGCCCCCC GGTCTCCCTT TCCTTCTCTT GCTCCCCTTA CACACCCACC
    TACGCCCACC TGGCGGCCGT GGCCTGTGGC CTGGAGCGCT TTGGCCGGTC CCACCTGCCT
    GTGGTTTTCC TCACGCACTG CAACTGGATC TTCAGCCTCC TCTGGGAGCT CCTGCCGCTG
    TGGAGGGCAC GGGGCTTCCT CTCCTCCGAT GGGGCTCCGC TGCCTCATCC AGGCCTGCTC
    TCCTACATCA TAGCCCTGGT CTCCGGCCTC TCATCCCTTC CGTTTATCTA CCGAACCTCC
    TACCGGGGTT CCCTGTTTGC TGTGACGGTG GACACTCTGG CCAAGCAGGG TGCCCAGGGG
    AGCGGCCAGT GGTGGCATTT GCCAAACGAT GTGCCGGTCC CTGTGGTGAC TCGCCGCACC
    GCAGGCAAGA AGCCCGACTT GCTGGCGTTA CAGCGGAGCG ACAGCACCCT GGCCGACATC
    ATTGCCAAGC TGCAGGCCGG GCAGAAATTA CCTAACTCCT CACCGTTCAG TTCTGCCTTT
    AACTCCCTCA GCCTCGACAG GGAAAGCGGG CTGCTTATGT TCAAGGGAGA CAAGAAGCCC
    AGGGTCTGGG TGGTCCCGAG GCAGCTCCGG AGGGATCTGA TTTTCGCGGT ACACGACCTC
    CCCATGGGGG GCCACCAGAG GCCGGAGGAG ACCTTCAAGA AGCTGCGGCT GCTGGGGTGG
    TGGCCGGGGA TGCAGGAGCA CGTGAGAGAA TACTGCAGGA GCTGCCTGTA CTGCATCCCC
    CGGAATCTCA CAGGCAGTGA GTTGAAGGTC ATTGAGTCCC TGTGGCCCCT CAGGTCCACG
    GCCCCCTGGT CAAACCTGCA GATCGAGGTG GTGGGCCCGG TCACCGTCAG CGAGGAGGGC
    CACAAGCACG TGTTGATCGT GGCCGACCCC AACACCAGGT GGGTGGAGGC CTTCCCGCTG
    AAGCCCTACA CGCACATGGC TGTGGCCCAG GTGCTGCTTC AGCACGTGTT CGCCAGGTGG
    GGCGTTCCTG TGAGGCTGGA GGCTGCCCAG GGCCCCCACT TTGCCCGCCA TGTCCTGGTG
    AGCTGTGGGC TAGCTCTGGG GGCCCAGGTG GCATCCCCGA GTAGGGACTT GCAGTTCCCC
    TGCCTGACAA GCTCCGGGGC CTACTGGGAA TTCAAGAGGG CCCTCAAGGA ATTCATCTTC
    CTGCACGGCA AGAAGTGGGC AGCGTCCCTG CCCCTGTTGC ACCTGGCCTT CAGGGCCTCC
    TCTGGCCTGG CCACGCCGTT CCAGATCCTG ACCGGGGGCG AGGAGAGGCT GACCGAGCCC
    CTGTGGTGGG AGATGAGCAG CGCAAACATT GAGGGGCTCA AGATGGATGT CTTCTTGCTA
    CAGCTGATGG GGGAGCTGCT GGAGCTCCAC TGGCGGGTGG CTGAGAAGGC AAGCGAAAAG
    GCTGAGAATA GGCGTTTCAA GAGGGAGAGC CAGGAGAAGG AGTGGAACGT GGGTGACCAG
    GTCCTCTTGC TGTCCCTCCC CAGGAATGGC AGCAGTGCCA AATGGGTCGG TCCCTTCTAT
    ATTGGGGACC GGCTGAGCCT GTCCCTCTAC AGGGTCTGGG GCTTCCCTAC CCCGGAGAAG
    CTCGGGTGCA TCTATCCTAG CAGTCTGATG AAGACCTTTG CCAAGAGCGG CACCCCCCTG
    TCCTTCAAGG TCTTGGAGCA GTGA

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

    RefSeq XP_013833623.1
    CDS1138..4221
    Translation

    Target ORF information:

    RefSeq Version XM_013978169.1
    Organism Sus scrofa(Pig)
    Definition Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013978169.1

    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
    ATGGTAAAGC TGGCAGAAGA GACAGATGGC ATCATTGTCA CCAATGAGCA GCTTCATGTC 
    CTGATGAATA ATTCTAAGAA ACTGATGGTC AAAGATCGCC TGCTGCCCTT CACCTTTGCG
    GGGAATCTCT TCATGGTGCC TGACGACCCC CTGGGCCGTG ATGGCCCCAC CCTGGATGAG
    TTTCTGAAGA AGCCAAACAG GTTGGACACT GACATTGGCA ACTTCCTGAA GGTGTGGAAG
    ACCCTTCCTC CCAGCTCGGC CAGCCTCTCT GAGCCAGTGG ATGAGGCTGA CCCTTGGCCC
    CCAGAGAGTC TGCAGAGTGT GAAAGAAGTC AGGGAGGAGA AGGAGGAGAG GCAGGACGAG
    GAGCAGAGAG AGGAGCAAGA GACGCAGAAG CTGGCCGAGG AGGAGGTGGA GGAGGAGGAG
    GAAAAGGAGG AAGATGACGA TCAGGACTCT TTGCTGGTGT CTGTGTTCAG GGCTGAGTGT
    CCTTCCCTCT CAGAGGAAAT ACTCCGGTGC CTCAGCCTCC ACGACCCTAT GGACGAGGCC
    CTTGACATTG ATCTCCTGCC AGTGGTGGCT TCTCCCTCCC TGGACATCCC TTGGGACGGG
    AAGGCCCCCT GCCAGCAGGT TCTGGCCCAC CTGGCCCAGC TGACCATCCC TAGCAACTTC
    ACCGCACTCT CCTTCTTTGT GGGGTTCATG GACTCCCACC GGGACGTCAT CCCCGACTAT
    GAAGCCCTCG TGGGCCCCCT GCACAGCCTC CTCAAGCAGA AGCCGGACTG GCAGTGGGCC
    CTGGAGCACG AGAAGGCTTT CCTGGCCCTG AAGCGAGCCC TGGTGTCTGC CCTCTGCCTG
    TCGGCCCCCA ACTCCCAGCT GCCCTTCCGC CTGGAGGTGA CAGTGAGCCA AGTGGCCCTG
    ATGGCCGTAG TGTACCAAGA GCACTCAGGA AGAAAGCACC CTGTAGCCTA TACCTCGAAA
    CCCCTCCTCC CAGACGAGGA GAGCGCGGGC CCCCAGTCGG GGGGAGACAG CCCCTACGCC
    GTGGCCTGGG CCCTCAAGTA TTTTTCCCGC TGCATTGGAG ACACCCCAGT GGTCCTGGGC
    CTTTCCTACG CCTCCCGGAC CACTGCGGAC CCTGAGGCGT GGGACGGCCG CCGGCTCGCC
    AAGGCGTGGT TGATCCGGTG GTCCCTCCTG GTGCAGGACA AGGGCAAGAG GGCACTGGAA
    CTGGCCCTTC TCCAGGGTCT GCTGGGGGAA AACCGGCTGC TGACTCCCGC GGCCTCCATG
    CCTCGTTTTT TCCAGGTTCT GCCTCCTTTT TCCGACCTGT CCACTTTTGT CTGCATCCAC
    ATGTCGGGCT ACTGCTTTTA CCGAGAGGAC GAGTGGTGTG CTGGCTTTGG TCTCTATGTC
    CTGTCTCCCA CCAGCCCCCC GGTCTCCCTT TCCTTCTCTT GCTCCCCTTA CACACCCACC
    TACGCCCACC TGGCGGCCGT GGCCTGTGGC CTGGAGCGCT TTGGCCGGTC CCACCTGCCT
    GTGGTTTTCC TCACGCACTG CAACTGGATC TTCAGCCTCC TCTGGGAGCT CCTGCCGCTG
    TGGAGGGCAC GGGGCTTCCT CTCCTCCGAT GGGGCTCCGC TGCCTCATCC AGGCCTGCTC
    TCCTACATCA TAGCCCTGGT CTCCGGCCTC TCATCCCTTC CGTTTATCTA CCGAACCTCC
    TACCGGGGTT CCCTGTTTGC TGTGACGGTG GACACTCTGG CCAAGCAGGG TGCCCAGGGG
    AGCGGCCAGT GGTGGCATTT GCCAAACGAT GTGCCGGTCC CTGTGGTGAC TCGCCGCACC
    GCAGGCAAGA AGCCCGACTT GCTGGCGTTA CAGCGGAGCG ACAGCACCCT GGCCGACATC
    ATTGCCAAGC TGCAGGCCGG GCAGAAATTA CCTAACTCCT CACCGTTCAG TTCTGCCTTT
    AACTCCCTCA GCCTCGACAG GGAAAGCGGG CTGCTTATGT TCAAGGGAGA CAAGAAGCCC
    AGGGTCTGGG TGGTCCCGAG GCAGCTCCGG AGGGATCTGA TTTTCGCGGT ACACGACCTC
    CCCATGGGGG GCCACCAGAG GCCGGAGGAG ACCTTCAAGA AGCTGCGGCT GCTGGGGTGG
    TGGCCGGGGA TGCAGGAGCA CGTGAGAGAA TACTGCAGGA GCTGCCTGTA CTGCATCCCC
    CGGAATCTCA CAGGCAGTGA GTTGAAGGTC ATTGAGTCCC TGTGGCCCCT CAGGTCCACG
    GCCCCCTGGT CAAACCTGCA GATCGAGGTG GTGGGCCCGG TCACCGTCAG CGAGGAGGGC
    CACAAGCACG TGTTGATCGT GGCCGACCCC AACACCAGGT GGGTGGAGGC CTTCCCGCTG
    AAGCCCTACA CGCACATGGC TGTGGCCCAG GTGCTGCTTC AGCACGTGTT CGCCAGGTGG
    GGCGTTCCTG TGAGGCTGGA GGCTGCCCAG GGCCCCCACT TTGCCCGCCA TGTCCTGGTG
    AGCTGTGGGC TAGCTCTGGG GGCCCAGGTG GCATCCCCGA GTAGGGACTT GCAGTTCCCC
    TGCCTGACAA GCTCCGGGGC CTACTGGGAA TTCAAGAGGG CCCTCAAGGA ATTCATCTTC
    CTGCACGGCA AGAAGTGGGC AGCGTCCCTG CCCCTGTTGC ACCTGGCCTT CAGGGCCTCC
    TCTGGCCTGG CCACGCCGTT CCAGATCCTG ACCGGGGGCG AGGAGAGGCT GACCGAGCCC
    CTGTGGTGGG AGATGAGCAG CGCAAACATT GAGGGGCTCA AGATGGATGT CTTCTTGCTA
    CAGCTGATGG GGGAGCTGCT GGAGCTCCAC TGGCGGGTGG CTGAGAAGGC AAGCGAAAAG
    GCTGAGAATA GGCGTTTCAA GAGGGAGAGC CAGGAGAAGG AGTGGAACGT GGGTGACCAG
    GTCCTCTTGC TGTCCCTCCC CAGGAATGGC AGCAGTGCCA AATGGGTCGG TCCCTTCTAT
    ATTGGGGACC GGCTGAGCCT GTCCCTCTAC AGGGTCTGGG GCTTCCCTAC CCCGGAGAAG
    CTCGGGTGCA TCTATCCTAG CAGTCTGATG AAGACCTTTG CCAAGAGCGG CACCCCCCTG
    TCCTTCAAGG TCTTGGAGCA GTGA

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

    CloneID OSe38286
    Clone ID Related Accession (Same CDS sequence) XM_013978169.1 , XM_013978170.1
    Accession Version XM_013978170.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3084bp)
    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 protein NYNRIN isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003610692.1) 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 :: 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##

    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
    ATGGTAAAGC TGGCAGAAGA GACAGATGGC ATCATTGTCA CCAATGAGCA GCTTCATGTC 
    CTGATGAATA ATTCTAAGAA ACTGATGGTC AAAGATCGCC TGCTGCCCTT CACCTTTGCG
    GGGAATCTCT TCATGGTGCC TGACGACCCC CTGGGCCGTG ATGGCCCCAC CCTGGATGAG
    TTTCTGAAGA AGCCAAACAG GTTGGACACT GACATTGGCA ACTTCCTGAA GGTGTGGAAG
    ACCCTTCCTC CCAGCTCGGC CAGCCTCTCT GAGCCAGTGG ATGAGGCTGA CCCTTGGCCC
    CCAGAGAGTC TGCAGAGTGT GAAAGAAGTC AGGGAGGAGA AGGAGGAGAG GCAGGACGAG
    GAGCAGAGAG AGGAGCAAGA GACGCAGAAG CTGGCCGAGG AGGAGGTGGA GGAGGAGGAG
    GAAAAGGAGG AAGATGACGA TCAGGACTCT TTGCTGGTGT CTGTGTTCAG GGCTGAGTGT
    CCTTCCCTCT CAGAGGAAAT ACTCCGGTGC CTCAGCCTCC ACGACCCTAT GGACGAGGCC
    CTTGACATTG ATCTCCTGCC AGTGGTGGCT TCTCCCTCCC TGGACATCCC TTGGGACGGG
    AAGGCCCCCT GCCAGCAGGT TCTGGCCCAC CTGGCCCAGC TGACCATCCC TAGCAACTTC
    ACCGCACTCT CCTTCTTTGT GGGGTTCATG GACTCCCACC GGGACGTCAT CCCCGACTAT
    GAAGCCCTCG TGGGCCCCCT GCACAGCCTC CTCAAGCAGA AGCCGGACTG GCAGTGGGCC
    CTGGAGCACG AGAAGGCTTT CCTGGCCCTG AAGCGAGCCC TGGTGTCTGC CCTCTGCCTG
    TCGGCCCCCA ACTCCCAGCT GCCCTTCCGC CTGGAGGTGA CAGTGAGCCA AGTGGCCCTG
    ATGGCCGTAG TGTACCAAGA GCACTCAGGA AGAAAGCACC CTGTAGCCTA TACCTCGAAA
    CCCCTCCTCC CAGACGAGGA GAGCGCGGGC CCCCAGTCGG GGGGAGACAG CCCCTACGCC
    GTGGCCTGGG CCCTCAAGTA TTTTTCCCGC TGCATTGGAG ACACCCCAGT GGTCCTGGGC
    CTTTCCTACG CCTCCCGGAC CACTGCGGAC CCTGAGGCGT GGGACGGCCG CCGGCTCGCC
    AAGGCGTGGT TGATCCGGTG GTCCCTCCTG GTGCAGGACA AGGGCAAGAG GGCACTGGAA
    CTGGCCCTTC TCCAGGGTCT GCTGGGGGAA AACCGGCTGC TGACTCCCGC GGCCTCCATG
    CCTCGTTTTT TCCAGGTTCT GCCTCCTTTT TCCGACCTGT CCACTTTTGT CTGCATCCAC
    ATGTCGGGCT ACTGCTTTTA CCGAGAGGAC GAGTGGTGTG CTGGCTTTGG TCTCTATGTC
    CTGTCTCCCA CCAGCCCCCC GGTCTCCCTT TCCTTCTCTT GCTCCCCTTA CACACCCACC
    TACGCCCACC TGGCGGCCGT GGCCTGTGGC CTGGAGCGCT TTGGCCGGTC CCACCTGCCT
    GTGGTTTTCC TCACGCACTG CAACTGGATC TTCAGCCTCC TCTGGGAGCT CCTGCCGCTG
    TGGAGGGCAC GGGGCTTCCT CTCCTCCGAT GGGGCTCCGC TGCCTCATCC AGGCCTGCTC
    TCCTACATCA TAGCCCTGGT CTCCGGCCTC TCATCCCTTC CGTTTATCTA CCGAACCTCC
    TACCGGGGTT CCCTGTTTGC TGTGACGGTG GACACTCTGG CCAAGCAGGG TGCCCAGGGG
    AGCGGCCAGT GGTGGCATTT GCCAAACGAT GTGCCGGTCC CTGTGGTGAC TCGCCGCACC
    GCAGGCAAGA AGCCCGACTT GCTGGCGTTA CAGCGGAGCG ACAGCACCCT GGCCGACATC
    ATTGCCAAGC TGCAGGCCGG GCAGAAATTA CCTAACTCCT CACCGTTCAG TTCTGCCTTT
    AACTCCCTCA GCCTCGACAG GGAAAGCGGG CTGCTTATGT TCAAGGGAGA CAAGAAGCCC
    AGGGTCTGGG TGGTCCCGAG GCAGCTCCGG AGGGATCTGA TTTTCGCGGT ACACGACCTC
    CCCATGGGGG GCCACCAGAG GCCGGAGGAG ACCTTCAAGA AGCTGCGGCT GCTGGGGTGG
    TGGCCGGGGA TGCAGGAGCA CGTGAGAGAA TACTGCAGGA GCTGCCTGTA CTGCATCCCC
    CGGAATCTCA CAGGCAGTGA GTTGAAGGTC ATTGAGTCCC TGTGGCCCCT CAGGTCCACG
    GCCCCCTGGT CAAACCTGCA GATCGAGGTG GTGGGCCCGG TCACCGTCAG CGAGGAGGGC
    CACAAGCACG TGTTGATCGT GGCCGACCCC AACACCAGGT GGGTGGAGGC CTTCCCGCTG
    AAGCCCTACA CGCACATGGC TGTGGCCCAG GTGCTGCTTC AGCACGTGTT CGCCAGGTGG
    GGCGTTCCTG TGAGGCTGGA GGCTGCCCAG GGCCCCCACT TTGCCCGCCA TGTCCTGGTG
    AGCTGTGGGC TAGCTCTGGG GGCCCAGGTG GCATCCCCGA GTAGGGACTT GCAGTTCCCC
    TGCCTGACAA GCTCCGGGGC CTACTGGGAA TTCAAGAGGG CCCTCAAGGA ATTCATCTTC
    CTGCACGGCA AGAAGTGGGC AGCGTCCCTG CCCCTGTTGC ACCTGGCCTT CAGGGCCTCC
    TCTGGCCTGG CCACGCCGTT CCAGATCCTG ACCGGGGGCG AGGAGAGGCT GACCGAGCCC
    CTGTGGTGGG AGATGAGCAG CGCAAACATT GAGGGGCTCA AGATGGATGT CTTCTTGCTA
    CAGCTGATGG GGGAGCTGCT GGAGCTCCAC TGGCGGGTGG CTGAGAAGGC AAGCGAAAAG
    GCTGAGAATA GGCGTTTCAA GAGGGAGAGC CAGGAGAAGG AGTGGAACGT GGGTGACCAG
    GTCCTCTTGC TGTCCCTCCC CAGGAATGGC AGCAGTGCCA AATGGGTCGG TCCCTTCTAT
    ATTGGGGACC GGCTGAGCCT GTCCCTCTAC AGGGTCTGGG GCTTCCCTAC CCCGGAGAAG
    CTCGGGTGCA TCTATCCTAG CAGTCTGATG AAGACCTTTG CCAAGAGCGG CACCCCCCTG
    TCCTTCAAGG TCTTGGAGCA GTGA

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

    RefSeq XP_013833624.1
    CDS807..3890
    Translation

    Target ORF information:

    RefSeq Version XM_013978170.1
    Organism Sus scrofa(Pig)
    Definition Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013978170.1

    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
    ATGGTAAAGC TGGCAGAAGA GACAGATGGC ATCATTGTCA CCAATGAGCA GCTTCATGTC 
    CTGATGAATA ATTCTAAGAA ACTGATGGTC AAAGATCGCC TGCTGCCCTT CACCTTTGCG
    GGGAATCTCT TCATGGTGCC TGACGACCCC CTGGGCCGTG ATGGCCCCAC CCTGGATGAG
    TTTCTGAAGA AGCCAAACAG GTTGGACACT GACATTGGCA ACTTCCTGAA GGTGTGGAAG
    ACCCTTCCTC CCAGCTCGGC CAGCCTCTCT GAGCCAGTGG ATGAGGCTGA CCCTTGGCCC
    CCAGAGAGTC TGCAGAGTGT GAAAGAAGTC AGGGAGGAGA AGGAGGAGAG GCAGGACGAG
    GAGCAGAGAG AGGAGCAAGA GACGCAGAAG CTGGCCGAGG AGGAGGTGGA GGAGGAGGAG
    GAAAAGGAGG AAGATGACGA TCAGGACTCT TTGCTGGTGT CTGTGTTCAG GGCTGAGTGT
    CCTTCCCTCT CAGAGGAAAT ACTCCGGTGC CTCAGCCTCC ACGACCCTAT GGACGAGGCC
    CTTGACATTG ATCTCCTGCC AGTGGTGGCT TCTCCCTCCC TGGACATCCC TTGGGACGGG
    AAGGCCCCCT GCCAGCAGGT TCTGGCCCAC CTGGCCCAGC TGACCATCCC TAGCAACTTC
    ACCGCACTCT CCTTCTTTGT GGGGTTCATG GACTCCCACC GGGACGTCAT CCCCGACTAT
    GAAGCCCTCG TGGGCCCCCT GCACAGCCTC CTCAAGCAGA AGCCGGACTG GCAGTGGGCC
    CTGGAGCACG AGAAGGCTTT CCTGGCCCTG AAGCGAGCCC TGGTGTCTGC CCTCTGCCTG
    TCGGCCCCCA ACTCCCAGCT GCCCTTCCGC CTGGAGGTGA CAGTGAGCCA AGTGGCCCTG
    ATGGCCGTAG TGTACCAAGA GCACTCAGGA AGAAAGCACC CTGTAGCCTA TACCTCGAAA
    CCCCTCCTCC CAGACGAGGA GAGCGCGGGC CCCCAGTCGG GGGGAGACAG CCCCTACGCC
    GTGGCCTGGG CCCTCAAGTA TTTTTCCCGC TGCATTGGAG ACACCCCAGT GGTCCTGGGC
    CTTTCCTACG CCTCCCGGAC CACTGCGGAC CCTGAGGCGT GGGACGGCCG CCGGCTCGCC
    AAGGCGTGGT TGATCCGGTG GTCCCTCCTG GTGCAGGACA AGGGCAAGAG GGCACTGGAA
    CTGGCCCTTC TCCAGGGTCT GCTGGGGGAA AACCGGCTGC TGACTCCCGC GGCCTCCATG
    CCTCGTTTTT TCCAGGTTCT GCCTCCTTTT TCCGACCTGT CCACTTTTGT CTGCATCCAC
    ATGTCGGGCT ACTGCTTTTA CCGAGAGGAC GAGTGGTGTG CTGGCTTTGG TCTCTATGTC
    CTGTCTCCCA CCAGCCCCCC GGTCTCCCTT TCCTTCTCTT GCTCCCCTTA CACACCCACC
    TACGCCCACC TGGCGGCCGT GGCCTGTGGC CTGGAGCGCT TTGGCCGGTC CCACCTGCCT
    GTGGTTTTCC TCACGCACTG CAACTGGATC TTCAGCCTCC TCTGGGAGCT CCTGCCGCTG
    TGGAGGGCAC GGGGCTTCCT CTCCTCCGAT GGGGCTCCGC TGCCTCATCC AGGCCTGCTC
    TCCTACATCA TAGCCCTGGT CTCCGGCCTC TCATCCCTTC CGTTTATCTA CCGAACCTCC
    TACCGGGGTT CCCTGTTTGC TGTGACGGTG GACACTCTGG CCAAGCAGGG TGCCCAGGGG
    AGCGGCCAGT GGTGGCATTT GCCAAACGAT GTGCCGGTCC CTGTGGTGAC TCGCCGCACC
    GCAGGCAAGA AGCCCGACTT GCTGGCGTTA CAGCGGAGCG ACAGCACCCT GGCCGACATC
    ATTGCCAAGC TGCAGGCCGG GCAGAAATTA CCTAACTCCT CACCGTTCAG TTCTGCCTTT
    AACTCCCTCA GCCTCGACAG GGAAAGCGGG CTGCTTATGT TCAAGGGAGA CAAGAAGCCC
    AGGGTCTGGG TGGTCCCGAG GCAGCTCCGG AGGGATCTGA TTTTCGCGGT ACACGACCTC
    CCCATGGGGG GCCACCAGAG GCCGGAGGAG ACCTTCAAGA AGCTGCGGCT GCTGGGGTGG
    TGGCCGGGGA TGCAGGAGCA CGTGAGAGAA TACTGCAGGA GCTGCCTGTA CTGCATCCCC
    CGGAATCTCA CAGGCAGTGA GTTGAAGGTC ATTGAGTCCC TGTGGCCCCT CAGGTCCACG
    GCCCCCTGGT CAAACCTGCA GATCGAGGTG GTGGGCCCGG TCACCGTCAG CGAGGAGGGC
    CACAAGCACG TGTTGATCGT GGCCGACCCC AACACCAGGT GGGTGGAGGC CTTCCCGCTG
    AAGCCCTACA CGCACATGGC TGTGGCCCAG GTGCTGCTTC AGCACGTGTT CGCCAGGTGG
    GGCGTTCCTG TGAGGCTGGA GGCTGCCCAG GGCCCCCACT TTGCCCGCCA TGTCCTGGTG
    AGCTGTGGGC TAGCTCTGGG GGCCCAGGTG GCATCCCCGA GTAGGGACTT GCAGTTCCCC
    TGCCTGACAA GCTCCGGGGC CTACTGGGAA TTCAAGAGGG CCCTCAAGGA ATTCATCTTC
    CTGCACGGCA AGAAGTGGGC AGCGTCCCTG CCCCTGTTGC ACCTGGCCTT CAGGGCCTCC
    TCTGGCCTGG CCACGCCGTT CCAGATCCTG ACCGGGGGCG AGGAGAGGCT GACCGAGCCC
    CTGTGGTGGG AGATGAGCAG CGCAAACATT GAGGGGCTCA AGATGGATGT CTTCTTGCTA
    CAGCTGATGG GGGAGCTGCT GGAGCTCCAC TGGCGGGTGG CTGAGAAGGC AAGCGAAAAG
    GCTGAGAATA GGCGTTTCAA GAGGGAGAGC CAGGAGAAGG AGTGGAACGT GGGTGACCAG
    GTCCTCTTGC TGTCCCTCCC CAGGAATGGC AGCAGTGCCA AATGGGTCGG TCCCTTCTAT
    ATTGGGGACC GGCTGAGCCT GTCCCTCTAC AGGGTCTGGG GCTTCCCTAC CCCGGAGAAG
    CTCGGGTGCA TCTATCCTAG CAGTCTGATG AAGACCTTTG CCAAGAGCGG CACCCCCCTG
    TCCTTCAAGG TCTTGGAGCA GTGA

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

    CloneID OSe223100
    Clone ID Related Accession (Same CDS sequence) XM_005666233.3
    Accession Version XM_005666233.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5754bp)
    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 LOW QUALITY PROTEIN: protein NYNRIN
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010449.5) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 13, 2017 this sequence version replaced XM_005666233.2. ##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## 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGCTCCTGT CCGGGGGCGA CCCTCCGGCG CAGGAATGGT TCATGGTGCA GACCAAGTCG 
    AAGCCCCGGG TGCAGCGGCA GAGGCTGCAA GTGCAGCGCA TCTTCAGGGT CAAGCTGAAC
    GCTTTCCAGA GCCGCCCGGA CACCCCCTAC TTCTGGCTGC AGCTCGAAGG GCCCAGGGAG
    AACATGGGCA AAGCCAAGGA GTATCTGAAG GGCCTGTGCA GCCCGGAGCT GTGGAAGGAG
    GTTCGCTACC CGGCAGCCCT GCACTGCGCC TTCCTCGGGG CCCAGGGCCT CTTCCTGGAC
    TGCCTGTGCT GGAGCACCCT GGCCTACCTG GTGCCTGGCC CCCCGGGCTC CCTGATGGTG
    GGCGGGCTGA CCGAGTCTTT CATCATGACC CAGAACTGGC TGGAGGAGCT GGTGGGGCGG
    CTGCGCTGGG GCCCTGCCCC TCTGCTCACT CCCCGTGGCA TCTGGGAGGC CGAGGTGACC
    CGGGCCTTTG GGGCCCTGGT CTGGATCCGT GGTGACCAGT ATGCGGGGGA CCTGCTGCAG
    CTGCCCCCAG CGGTCCAGGA ACTGCTGCTG AGCCTGGTGC GGGATGCTGC TGGCAAGGAG
    GACATCATCC AGTGGCTCGG CCGCATTGGC TCCTCGGATT CCCGCTCTGA CCCTGAGCAG
    CTCCTGATCT GCCCGACCCC CCAGCAGAAG GAAGGCCCAG CCATGGTGTC TGTTGGAGAT
    GGTACTGGGC CCTTTCTGGA GATGGGGAGT CCAGAAAATT CAAAGAAATT AACCAGCCTG
    GGAGCCATGG GGGCCCTAAC CTCGGGCCTC CCACCGGAAC ACCCAGCCGA GGCAGGAAAC
    CAGCTGGTAC GGGCCAGTTC CAACAACCAA GGTGGTATGG ACAGTGCTCA TGAGGCCGGA
    CCAGTACAAG CCAGCAGCAG CCAGGACCCT GTGGACCACA CACAAGCCTT GTCGCAGCAA
    AGGCAGGTCC GGAGGGGGGA AGACAAGCTC CCCCTCCAGC CTCCGGTGTC AGCCCTGGGT
    GTGTGCTCTC CCTGGAAAGC CTGGACTCCG GGGCCAGCCT TTGGGCCCCT GTGGCCGGGG
    GCTATTGCTG CAACCTTCTG GAGGATCAAT GAACTGCATT CTCTCCACCT GGCGTGGCTC
    CTGTCCCAGG CCTGCTTCAG TTTCCCCTTC TGGCAGAGGC CGCTGGGCCC CATTCAGTTC
    AAGCTGCCAG GGCAGAACCC TTTGCCCTTA AATCTGGAAT GGAAACAGAA GGAGCTGGTT
    CCCTTGCCCA GTGTGGAAGG TCCAGACTGT AGACCGGATG GGGGCCCCGG GGGAGAGACA
    GCCCTGCAGA ACTGTCCAAG ACCAGAGACT CCTAACAACG TCATGAGTTT ATTGGTGGTC
    TCAGGAGGCT CAGGGGTGAA GGACAAGGCT AACCCAGCAC TTCCACAGAT AGGGCCACCT
    TTGACCTCTG CACCCCAGCT CCAAGCTAGA AGTGAACCAG GTGATCAAGG AAGTATGCAG
    TGGGATAATA AGAGGCCAGA AGAGGGGCCC TTTCCAGTGA TGCCCACAGG GCAAGGGGTG
    CCCACTGCTC AGGGGAGGCC AAAGGCTCAA GGGGGGCTGG CAGCTCCAGT AGGACCTGAC
    CCTAAAACAG TGCCTGAAAC TTGCAAAGTG CCCATGGCTG CAGCAATGCC CACAGCTCAG
    ACCCCACCTG CCAATCCGGC GCTGCCTGCA CCCCCCAAAG TGCCTGCAAC CCAGATGATG
    CCGGCGGTCC ATGAAGAACC TGCAGCCCCT AAAGTGCCTT TGGCTCCCAT GAAGCCAGCA
    GCTCAAGTGC TGCCCACAGC TCAAAAGGCA GTTGTGGGTA GACTGGCACC AGCAGCTCAA
    ATGGTACCTG CAGCGCCAAA AACTCCCACA GTTCAGAAAA GGCCTGCGGC AAAAACATCA
    CCTGCAGGTC CCCAAACACC AAGAGCCCAG ACTGGACCTG TAGCTAAACC AGGGTCTACA
    GCTCCCAAAA CCCCCACAGC CCCCAAAGCC CCTGCAGCTC CCAAAGCACC TGCAGCTCCT
    AAGACTTCCA GAGCTCCGAA AACGCCTACA GCTCAGAAGG CACCCACAGA TCCAGGGCCA
    ACCCTGGATG TAGCCAAACT CCTAAGTGAG GGCCAGCCTT CTTCAAAGGG CAGGGCTTCC
    TTTCTGAAGA GCCAGGGGGA ACCCGGAAGG CAGGGGCCCC CATCCAGTGG CACCTTAGCT
    CCCAGTAGTA AGGGCCAACC TCAGGTAGAG GGGTTCCTGG GAGCTTGGGA GGGAGCCCCG
    AGGCAGCCAC CTCGCCACCC CCAGGCAAAC AGCACAGTGA CTAGCTTCCA GAGGTACCAC
    GAGGCCCTGA ACACACCCTT CGAGCTGAAC CTTTCAGGAG AACCCGGGAA CCAGGGGTTG
    CGACGAGTGG TCATTGACGG TAGCAGCGTA GCCATGGTGC ATGGCCTCCA GCACTTCTTC
    TCCTGCCGGG GCATTGCCAT GGCTGTGCAG TATTTCTGGA ACCGGGGACA CCGAGAAGTC
    ACTGTGTTTG TTCCCACCTG GCAGCTGAAG AAGAACCGGA GGGTGAGAGA GAGCCACTTT
    CTGACAAAGC TCCACTCCCT CAAGATGCTT TCAATCACAC CTTCCCAGCT CGAGAACGGC
    AAGAAGATCA CCACCTACGA TTATAGGTTC ATGGTAAAGC TGGCAGAAGA GACAGATGGC
    GTCATTGTCA CCAATGAGCA GCTTCATGTC CTGATGAATA ATTCTAAGAA ACTGATGGTC
    AAAGATCGCC TGCTGCCCTT CACCTTTGCG GGGAATCTCT TCATGGTGCC TGACGACCCC
    CTGGGCCGTG ATGGCCCCAC CCTGGATGAG TTTCTGAAGA AGCCAAACAG GTTGGACACT
    GACATTGGCA ACTTCCTGAA GGTGTGGAAG ACCCTTCCTC CCAGCTCGGC CAGCCTCTCT
    GAGCCAGTGG ATGAGGCTGA CCCTTGGCCC CCAGAGAGTC TGCAGAGTGT GAAAGAAGTC
    AGGGAGGAGA AGGAGGAGAG GCAGGACGAG GAGCAGAGAG AGGAGCAAGA GACGCAGAAG
    CTGGCCGAGG AGGAGGAGGA GGAGGAGGAG GAAAAGGAGG AGGATGACGA TCAGGACTCT
    TTGCTGGTGT CTGTGTTCAG GGCTGAGTGT CCTTCCCTCT CAGAGGAAAT ACTCCGGTGC
    CTCAGCCTCC ACGACCCTAT GGACGAGGCC CTTGACATTG ATCTCCTGCC AGTGGTGGCT
    TCTCCCTCCC TGGACATCCC TTGGGACGGG AAGGCCCCCT GCCAGCAGGT TCTGGCCCAC
    CTGGCCCAGC TGACCATCCC TAGCAACTTC ACCGCACTCT CCTTCTTTGT GGGGTTCATG
    GACTCCCACC GGGACGTCAT CCCCGACTAT GAAGCCCTCG TGGGCCCCCT GCACAGCCTC
    CTCAAGCAGA AGCCGGACTG GCAGTGGGCC CTGGAGCACG AGAAGGCTTT CCTGGCCCTG
    AAGCGAGCCC TGGTGTCTGC CCTCTGCCTG TCGGCCCCCA ACTCCCAGCT GCCCTTCCGC
    CTGGAGGTGA CAGTGAGCCA AGTGGCCCTG ATGGCCGTAG TGTACCAAGA GCACTCAGGA
    AGAAAGCACC CTGTAGCCTA TACCTCGAAA CCCCTCCTCC CAGACGAGGA GAGCGCGGGC
    CCCCAGTCGG GGGGAGACAG CCCCTACGCC GTGGCCTGGG CCCTCAAGTA TTTTTCCCGC
    TGCATTGGAG ACACCCCAGT GGTCCTGGGC CTTTCCTACG CCTCCCGGAC CACTGCGGAC
    CCTGAGGCGT GGGACGGCCG CCGGCTCGCC AAGGCGTGGT TGATCCGGTG GTCCCTCCTG
    GTGCAGGACA AGGGCAAGAG GGCACTGGAA CTGGCCCTTC TCCAGGGTCT GCTGGGGGAA
    AACCGGCTGC TGACTCCCGC GGCCTCCATG CCTCGTTTTT TCCAGGTTCT GCCTCCTTTT
    TCCGACCTGT CCACTTTTGT CTGCATCCAC ATGTCGGGCT ACTGCTTTTA CCGAGAGGAC
    GAGTGGTGTG CTGGCTTTGG TCTCTATGTC CTGTCTCCCA CCAGCCCCCC GGTCTCCCTT
    TCCTTCTCTT GCTCCCCTTA CACACCCACC TACGCCCACC TGGCGGCCGT GGCCTGTGGC
    CTGGAGCGCT TTGGCCGGTC CCACCTGCCT GTGGTTTTCC TCACGCACTG CAACTGGATC
    TTCAGCCTCC TCTGGGAGCT CCTGCCGCTG TGGAGGGCAC GGGGCTTCCT CTCCTCCGAT
    GGGGCTCCGC TGCCTCATCC AGGCCTGCTC TCCTACATCA TAGCCCTGGT CTCCGGCCTC
    TCATCCCTTC CGTTTATCTA CCGAACCTCC TACCGGGGTT CCCTGTTTGC TGTGACGGTG
    GACACTCTGG CCAAGCAGGG TGCCCAGGGG AGCGGCCAGT GGTGGCATTT GCCAAACGAT
    GTGCCGGTCC CTGTGGTGAC TCGCCGCACC GCAGGCAAGA AGCCCGACTT GCTGGCGTTA
    CAGCGGAGCG ACAGCACCCT GGCCGACATC ATTGCCAAGC TGCAGGCCGG GCAGAAATTA
    CCTAACTCCT CACCGTTCAG TTCTGCCTTT AACTCCCTCA GCCTCGACAG GGAAAGCGGG
    CTGCTTATGT TCAAGGGAGA CAAGAAGCCC AGGGTCTGGG TGGTCCCGAG GCAGCTCCGG
    AGGGATCTGA TTTTCGCGGT ACACGACCTC CCCATGGGGG GCCACCAGAG GCCGGAGGAG
    ACCTTCAAGA AGCTGCGGCT GCTGGGGTGG TGGCCGGGGA TGCAGGAGCA CGTGAGAGAA
    TACTGCAGGA GCTGCCTGTA CTGCATCCCC CGGAATCTCA CAGGCAGTGA GTTGAAGGTC
    ATTGAGTCCC TGTGGCCCCT CAGGTCCACG GCCCCCTGGT CAAACCTGCA GATCGAGGTG
    GTGGGCCCGG TCACCGTCAG CGAGGAGGGC CACAAGCACG TGTTGATCGT GGCTGACCCC
    AACACCAGGT GGGTGGAGGC CTTCCCGCTG AAGCCCTACA CGCACATGGC TGTGGCCCAG
    GTGCTGCTTC AGCACGTGTT CGCCAGGTGG GGCGTTCCTG TGAGGCTGGA GGCTGCCCAG
    GGCCCCCACT TTGCCCGCCA TGTCCTGGTG AGCTGTGGGC TAGCTCTGGG GGCCCAGGTG
    GCATCCCCGA GTAGGGACTT GCAGTTCCCC TGCCTGACAA GCTCCGGGGC CTACTGGGAA
    TTCAAGAGGG CCCTCAAGGA ATTCATCTTC CTGCACGGCA AGAAGTGGGC AGCGTCCCTG
    CCCCTGTTGC ACCTGGCCTT CAGGGCCTCC TCTGGCCTGG CCACGCCGTT CCAGATCCTG
    ACCGGGGGCG AGGAGAGGCT GACCGAGCCC CTGTGGTGGG AGATGAGCAG CGCAAACATT
    GAGGGGCTCA AGATGGATGT CTTCTTGCTA CAGCTGATGG GGGAGCTGCT GGAGCTCCAC
    TGGCGGGTGG CTGAGAAGGC AAGCGAAAAG GCTGAGAATA GGCGTTTCAA GAGGGAGAGC
    CAGGAGAAGG AGTGGAACGT GGGTGACCAG GTCCTCTTGC TGTCCCTCCC CAGGAATGGC
    AGCAGTGCCA AATGGGTCGG TCCCTTCTAT ATTGGGGACC GGCTGAGCCT GTCCCTCTAC
    AGGGTCTGGG GCTTCCCTAC CCCGGAGAAG CTCGGGTGCA TCTATCCTAG CAGTCTGATG
    AAGACCTTTG CCAAGAGCGG CACCCCCCTG TCCTTCAAGG TCTTGGAGCA GTGA

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

    RefSeq XP_005666290.3
    CDS100..5853
    Translation

    Target ORF information:

    RefSeq Version XM_005666233.3
    Organism Sus scrofa(pig)
    Definition Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005666233.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGCTCCTGT CCGGGGGCGA CCCTCCGGCG CAGGAATGGT TCATGGTGCA GACCAAGTCG 
    AAGCCCCGGG TGCAGCGGCA GAGGCTGCAA GTGCAGCGCA TCTTCAGGGT CAAGCTGAAC
    GCTTTCCAGA GCCGCCCGGA CACCCCCTAC TTCTGGCTGC AGCTCGAAGG GCCCAGGGAG
    AACATGGGCA AAGCCAAGGA GTATCTGAAG GGCCTGTGCA GCCCGGAGCT GTGGAAGGAG
    GTTCGCTACC CGGCAGCCCT GCACTGCGCC TTCCTCGGGG CCCAGGGCCT CTTCCTGGAC
    TGCCTGTGCT GGAGCACCCT GGCCTACCTG GTGCCTGGCC CCCCGGGCTC CCTGATGGTG
    GGCGGGCTGA CCGAGTCTTT CATCATGACC CAGAACTGGC TGGAGGAGCT GGTGGGGCGG
    CTGCGCTGGG GCCCTGCCCC TCTGCTCACT CCCCGTGGCA TCTGGGAGGC CGAGGTGACC
    CGGGCCTTTG GGGCCCTGGT CTGGATCCGT GGTGACCAGT ATGCGGGGGA CCTGCTGCAG
    CTGCCCCCAG CGGTCCAGGA ACTGCTGCTG AGCCTGGTGC GGGATGCTGC TGGCAAGGAG
    GACATCATCC AGTGGCTCGG CCGCATTGGC TCCTCGGATT CCCGCTCTGA CCCTGAGCAG
    CTCCTGATCT GCCCGACCCC CCAGCAGAAG GAAGGCCCAG CCATGGTGTC TGTTGGAGAT
    GGTACTGGGC CCTTTCTGGA GATGGGGAGT CCAGAAAATT CAAAGAAATT AACCAGCCTG
    GGAGCCATGG GGGCCCTAAC CTCGGGCCTC CCACCGGAAC ACCCAGCCGA GGCAGGAAAC
    CAGCTGGTAC GGGCCAGTTC CAACAACCAA GGTGGTATGG ACAGTGCTCA TGAGGCCGGA
    CCAGTACAAG CCAGCAGCAG CCAGGACCCT GTGGACCACA CACAAGCCTT GTCGCAGCAA
    AGGCAGGTCC GGAGGGGGGA AGACAAGCTC CCCCTCCAGC CTCCGGTGTC AGCCCTGGGT
    GTGTGCTCTC CCTGGAAAGC CTGGACTCCG GGGCCAGCCT TTGGGCCCCT GTGGCCGGGG
    GCTATTGCTG CAACCTTCTG GAGGATCAAT GAACTGCATT CTCTCCACCT GGCGTGGCTC
    CTGTCCCAGG CCTGCTTCAG TTTCCCCTTC TGGCAGAGGC CGCTGGGCCC CATTCAGTTC
    AAGCTGCCAG GGCAGAACCC TTTGCCCTTA AATCTGGAAT GGAAACAGAA GGAGCTGGTT
    CCCTTGCCCA GTGTGGAAGG TCCAGACTGT AGACCGGATG GGGGCCCCGG GGGAGAGACA
    GCCCTGCAGA ACTGTCCAAG ACCAGAGACT CCTAACAACG TCATGAGTTT ATTGGTGGTC
    TCAGGAGGCT CAGGGGTGAA GGACAAGGCT AACCCAGCAC TTCCACAGAT AGGGCCACCT
    TTGACCTCTG CACCCCAGCT CCAAGCTAGA AGTGAACCAG GTGATCAAGG AAGTATGCAG
    TGGGATAATA AGAGGCCAGA AGAGGGGCCC TTTCCAGTGA TGCCCACAGG GCAAGGGGTG
    CCCACTGCTC AGGGGAGGCC AAAGGCTCAA GGGGGGCTGG CAGCTCCAGT AGGACCTGAC
    CCTAAAACAG TGCCTGAAAC TTGCAAAGTG CCCATGGCTG CAGCAATGCC CACAGCTCAG
    ACCCCACCTG CCAATCCGGC GCTGCCTGCA CCCCCCAAAG TGCCTGCAAC CCAGATGATG
    CCGGCGGTCC ATGAAGAACC TGCAGCCCCT AAAGTGCCTT TGGCTCCCAT GAAGCCAGCA
    GCTCAAGTGC TGCCCACAGC TCAAAAGGCA GTTGTGGGTA GACTGGCACC AGCAGCTCAA
    ATGGTACCTG CAGCGCCAAA AACTCCCACA GTTCAGAAAA GGCCTGCGGC AAAAACATCA
    CCTGCAGGTC CCCAAACACC AAGAGCCCAG ACTGGACCTG TAGCTAAACC AGGGTCTACA
    GCTCCCAAAA CCCCCACAGC CCCCAAAGCC CCTGCAGCTC CCAAAGCACC TGCAGCTCCT
    AAGACTTCCA GAGCTCCGAA AACGCCTACA GCTCAGAAGG CACCCACAGA TCCAGGGCCA
    ACCCTGGATG TAGCCAAACT CCTAAGTGAG GGCCAGCCTT CTTCAAAGGG CAGGGCTTCC
    TTTCTGAAGA GCCAGGGGGA ACCCGGAAGG CAGGGGCCCC CATCCAGTGG CACCTTAGCT
    CCCAGTAGTA AGGGCCAACC TCAGGTAGAG GGGTTCCTGG GAGCTTGGGA GGGAGCCCCG
    AGGCAGCCAC CTCGCCACCC CCAGGCAAAC AGCACAGTGA CTAGCTTCCA GAGGTACCAC
    GAGGCCCTGA ACACACCCTT CGAGCTGAAC CTTTCAGGAG AACCCGGGAA CCAGGGGTTG
    CGACGAGTGG TCATTGACGG TAGCAGCGTA GCCATGGTGC ATGGCCTCCA GCACTTCTTC
    TCCTGCCGGG GCATTGCCAT GGCTGTGCAG TATTTCTGGA ACCGGGGACA CCGAGAAGTC
    ACTGTGTTTG TTCCCACCTG GCAGCTGAAG AAGAACCGGA GGGTGAGAGA GAGCCACTTT
    CTGACAAAGC TCCACTCCCT CAAGATGCTT TCAATCACAC CTTCCCAGCT CGAGAACGGC
    AAGAAGATCA CCACCTACGA TTATAGGTTC ATGGTAAAGC TGGCAGAAGA GACAGATGGC
    GTCATTGTCA CCAATGAGCA GCTTCATGTC CTGATGAATA ATTCTAAGAA ACTGATGGTC
    AAAGATCGCC TGCTGCCCTT CACCTTTGCG GGGAATCTCT TCATGGTGCC TGACGACCCC
    CTGGGCCGTG ATGGCCCCAC CCTGGATGAG TTTCTGAAGA AGCCAAACAG GTTGGACACT
    GACATTGGCA ACTTCCTGAA GGTGTGGAAG ACCCTTCCTC CCAGCTCGGC CAGCCTCTCT
    GAGCCAGTGG ATGAGGCTGA CCCTTGGCCC CCAGAGAGTC TGCAGAGTGT GAAAGAAGTC
    AGGGAGGAGA AGGAGGAGAG GCAGGACGAG GAGCAGAGAG AGGAGCAAGA GACGCAGAAG
    CTGGCCGAGG AGGAGGAGGA GGAGGAGGAG GAAAAGGAGG AGGATGACGA TCAGGACTCT
    TTGCTGGTGT CTGTGTTCAG GGCTGAGTGT CCTTCCCTCT CAGAGGAAAT ACTCCGGTGC
    CTCAGCCTCC ACGACCCTAT GGACGAGGCC CTTGACATTG ATCTCCTGCC AGTGGTGGCT
    TCTCCCTCCC TGGACATCCC TTGGGACGGG AAGGCCCCCT GCCAGCAGGT TCTGGCCCAC
    CTGGCCCAGC TGACCATCCC TAGCAACTTC ACCGCACTCT CCTTCTTTGT GGGGTTCATG
    GACTCCCACC GGGACGTCAT CCCCGACTAT GAAGCCCTCG TGGGCCCCCT GCACAGCCTC
    CTCAAGCAGA AGCCGGACTG GCAGTGGGCC CTGGAGCACG AGAAGGCTTT CCTGGCCCTG
    AAGCGAGCCC TGGTGTCTGC CCTCTGCCTG TCGGCCCCCA ACTCCCAGCT GCCCTTCCGC
    CTGGAGGTGA CAGTGAGCCA AGTGGCCCTG ATGGCCGTAG TGTACCAAGA GCACTCAGGA
    AGAAAGCACC CTGTAGCCTA TACCTCGAAA CCCCTCCTCC CAGACGAGGA GAGCGCGGGC
    CCCCAGTCGG GGGGAGACAG CCCCTACGCC GTGGCCTGGG CCCTCAAGTA TTTTTCCCGC
    TGCATTGGAG ACACCCCAGT GGTCCTGGGC CTTTCCTACG CCTCCCGGAC CACTGCGGAC
    CCTGAGGCGT GGGACGGCCG CCGGCTCGCC AAGGCGTGGT TGATCCGGTG GTCCCTCCTG
    GTGCAGGACA AGGGCAAGAG GGCACTGGAA CTGGCCCTTC TCCAGGGTCT GCTGGGGGAA
    AACCGGCTGC TGACTCCCGC GGCCTCCATG CCTCGTTTTT TCCAGGTTCT GCCTCCTTTT
    TCCGACCTGT CCACTTTTGT CTGCATCCAC ATGTCGGGCT ACTGCTTTTA CCGAGAGGAC
    GAGTGGTGTG CTGGCTTTGG TCTCTATGTC CTGTCTCCCA CCAGCCCCCC GGTCTCCCTT
    TCCTTCTCTT GCTCCCCTTA CACACCCACC TACGCCCACC TGGCGGCCGT GGCCTGTGGC
    CTGGAGCGCT TTGGCCGGTC CCACCTGCCT GTGGTTTTCC TCACGCACTG CAACTGGATC
    TTCAGCCTCC TCTGGGAGCT CCTGCCGCTG TGGAGGGCAC GGGGCTTCCT CTCCTCCGAT
    GGGGCTCCGC TGCCTCATCC AGGCCTGCTC TCCTACATCA TAGCCCTGGT CTCCGGCCTC
    TCATCCCTTC CGTTTATCTA CCGAACCTCC TACCGGGGTT CCCTGTTTGC TGTGACGGTG
    GACACTCTGG CCAAGCAGGG TGCCCAGGGG AGCGGCCAGT GGTGGCATTT GCCAAACGAT
    GTGCCGGTCC CTGTGGTGAC TCGCCGCACC GCAGGCAAGA AGCCCGACTT GCTGGCGTTA
    CAGCGGAGCG ACAGCACCCT GGCCGACATC ATTGCCAAGC TGCAGGCCGG GCAGAAATTA
    CCTAACTCCT CACCGTTCAG TTCTGCCTTT AACTCCCTCA GCCTCGACAG GGAAAGCGGG
    CTGCTTATGT TCAAGGGAGA CAAGAAGCCC AGGGTCTGGG TGGTCCCGAG GCAGCTCCGG
    AGGGATCTGA TTTTCGCGGT ACACGACCTC CCCATGGGGG GCCACCAGAG GCCGGAGGAG
    ACCTTCAAGA AGCTGCGGCT GCTGGGGTGG TGGCCGGGGA TGCAGGAGCA CGTGAGAGAA
    TACTGCAGGA GCTGCCTGTA CTGCATCCCC CGGAATCTCA CAGGCAGTGA GTTGAAGGTC
    ATTGAGTCCC TGTGGCCCCT CAGGTCCACG GCCCCCTGGT CAAACCTGCA GATCGAGGTG
    GTGGGCCCGG TCACCGTCAG CGAGGAGGGC CACAAGCACG TGTTGATCGT GGCTGACCCC
    AACACCAGGT GGGTGGAGGC CTTCCCGCTG AAGCCCTACA CGCACATGGC TGTGGCCCAG
    GTGCTGCTTC AGCACGTGTT CGCCAGGTGG GGCGTTCCTG TGAGGCTGGA GGCTGCCCAG
    GGCCCCCACT TTGCCCGCCA TGTCCTGGTG AGCTGTGGGC TAGCTCTGGG GGCCCAGGTG
    GCATCCCCGA GTAGGGACTT GCAGTTCCCC TGCCTGACAA GCTCCGGGGC CTACTGGGAA
    TTCAAGAGGG CCCTCAAGGA ATTCATCTTC CTGCACGGCA AGAAGTGGGC AGCGTCCCTG
    CCCCTGTTGC ACCTGGCCTT CAGGGCCTCC TCTGGCCTGG CCACGCCGTT CCAGATCCTG
    ACCGGGGGCG AGGAGAGGCT GACCGAGCCC CTGTGGTGGG AGATGAGCAG CGCAAACATT
    GAGGGGCTCA AGATGGATGT CTTCTTGCTA CAGCTGATGG GGGAGCTGCT GGAGCTCCAC
    TGGCGGGTGG CTGAGAAGGC AAGCGAAAAG GCTGAGAATA GGCGTTTCAA GAGGGAGAGC
    CAGGAGAAGG AGTGGAACGT GGGTGACCAG GTCCTCTTGC TGTCCCTCCC CAGGAATGGC
    AGCAGTGCCA AATGGGTCGG TCCCTTCTAT ATTGGGGACC GGCTGAGCCT GTCCCTCTAC
    AGGGTCTGGG GCTTCCCTAC CCCGGAGAAG CTCGGGTGCA TCTATCCTAG CAGTCTGATG
    AAGACCTTTG CCAAGAGCGG CACCCCCCTG TCCTTCAAGG TCTTGGAGCA GTGA

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

    CloneID OSe38285
    Clone ID Related Accession (Same CDS sequence) XM_013978167.1 , XM_013978168.1 , XM_005666233.2
    Accession Version XM_013978167.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4878bp)
    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 protein NYNRIN isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003610692.1) 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 :: 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##

    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
    ATGGACAGTG CTCATGAGGC CGGACCAGTA CAAGCCAGCA GCAGCCAGGA CCCTGTGGAC 
    CACACACAAG CCTTGTCGCA GCAAAGGCAG GTCCGGAGGG GGGAAGACAA GCTCCCCCTC
    CAGCCTCCGG TGTCAGCCCT GGGTGTGTGC TCTCCCTGGA AAGCCTGGAC TCCGGGGCCA
    GCCTTTGGGC CCCTGTGGCC GGGGGCTATT GCTGCAACCT TCTGGAGGAT CAATGAACTG
    CATTCTCTCC ACCTGGCGTG GCTCCTGTCC CAGGCCTGCT TCAGTTTCCC CTTCTGGCAG
    AGGCCGCTGG GCCCCATTCA GTTCAAGCTG CCAGGGCAGA ACCCTTTGCC CTTAAATCTG
    GAATGGAAAC AGAAGGAGCT GGTTCCCTTG CCCAGTGTGG AAGGTCCAGA CTGTAGACCG
    GATGGGGGCC CCGGGGGAGA GACAGCCCTG CAGAACTGTC CAAGACCAGA GACTCCTAAC
    AACGTCATGA GTTTATTGGT GGTCTCAGGA GGCTCAGGGG TGAAGGACAA GGCTAACCCA
    GCACTTCCAC AGATAGGGCC ACCTTTGACC TCTGCACCCC AGCTCCAAGC TAGAAGTGAA
    CCAGGTGATC AAGGAAGTAT GCAGTGGGAT AATAAGAGGC CAGAAGAGGG GCCCTTTCCA
    GTGATGCCCA CAGGGCAAGG GGTGCCCACT GCTCAGGGGA GGCCAAAGGC TCAAGGGGGG
    CTGGCAGCTC CAGTAGGACC TGACCCTAAA ACAGTGCCTG AAACTTGCAA AGTGCCCATG
    GCTGCAGCAA TGCCCACAGC TCAGACCCCA CCTGCCAATC CGGCGCTGCC TGCACCCCCC
    AAAGTGCCTG CAACCCAGAT GATGCCGGTG GTCCATGAAG AACCTGCAGC CCCTAAAGTG
    CCTTTGGCTC CCATGAAGCC AGCAGCTCAA GTGCTGCCCA CAGCTCAAAA GGCAGTTGTG
    GGTAGACTGG CACCAGCAGC TCAAATGGTA CCTGCAGCGC CAAAAACTTC CACAGTTCAG
    AAAAGGCCTG CGGCAAAAAC ATCACCTGCA GGTCCCCAAA CACCAAGAGC CCAGACTGGA
    CCTGTAGCTA AACCAGGGTC TACAGCTCCC AAAACCCCCA CAGCCCCCAA AGCCCCTGCA
    ACTCCCAAAG CACCTGCAGC TCCTAAGACT TCCAGAGCTC CGAAAACGCC TACAGCTCAG
    AAGGCACCCA CAGATCCAGG GCCAACCCTG GATGTAGCCA AACTCCTAAG TGAGGGCCAG
    CCTTCTTCAA AGGGCAGGGC TTCCTTTCTG AAGAGCCAGG GGGAACCCGG AAGGCAGGGG
    CCCCCATCCA GTGGCACCTT AGCTCCCAGT AGTAAGGGCC AACCTCAGGT AGAGGGGTTC
    CTGGGAGCTT GGGAGGGAGC CCCGAGGCAG CCACCTCGCC ACCCCCAGGC AAACAGCACA
    GTGACTAGCT TCCAGAGGTA CCACGAGGCC CTGAACACAC CCTTCGAGCT GAACCTTTCA
    GGAGAACCCG GGAACCAGGG GTTGCGACGA GTGGTCATTG ACGGTAGCAG CGTAGCCATG
    GTGCATGGCC TCCAGCACTT CTTCTCCTGC CGGGGCATTG CCATGGCTGT GCAGTATTTC
    TGGAACCGGG GACACCGAGA AGTCACTGTG TTTGTTCCCA CCTGGCAGCT GAAGAAGAAC
    CGGAGGGTGA GAGAGAGCCA CTTTCTGACA AAGCTCCACT CCCTCAAGAT GCTTTCAATC
    ACACCTTCCC AGCTCGAGAA CGGCAAGAAG ATCACCACCT ACGATTATAG GTTCATGGTA
    AAGCTGGCAG AAGAGACAGA TGGCATCATT GTCACCAATG AGCAGCTTCA TGTCCTGATG
    AATAATTCTA AGAAACTGAT GGTCAAAGAT CGCCTGCTGC CCTTCACCTT TGCGGGGAAT
    CTCTTCATGG TGCCTGACGA CCCCCTGGGC CGTGATGGCC CCACCCTGGA TGAGTTTCTG
    AAGAAGCCAA ACAGGTTGGA CACTGACATT GGCAACTTCC TGAAGGTGTG GAAGACCCTT
    CCTCCCAGCT CGGCCAGCCT CTCTGAGCCA GTGGATGAGG CTGACCCTTG GCCCCCAGAG
    AGTCTGCAGA GTGTGAAAGA AGTCAGGGAG GAGAAGGAGG AGAGGCAGGA CGAGGAGCAG
    AGAGAGGAGC AAGAGACGCA GAAGCTGGCC GAGGAGGAGG TGGAGGAGGA GGAGGAAAAG
    GAGGAAGATG ACGATCAGGA CTCTTTGCTG GTGTCTGTGT TCAGGGCTGA GTGTCCTTCC
    CTCTCAGAGG AAATACTCCG GTGCCTCAGC CTCCACGACC CTATGGACGA GGCCCTTGAC
    ATTGATCTCC TGCCAGTGGT GGCTTCTCCC TCCCTGGACA TCCCTTGGGA CGGGAAGGCC
    CCCTGCCAGC AGGTTCTGGC CCACCTGGCC CAGCTGACCA TCCCTAGCAA CTTCACCGCA
    CTCTCCTTCT TTGTGGGGTT CATGGACTCC CACCGGGACG TCATCCCCGA CTATGAAGCC
    CTCGTGGGCC CCCTGCACAG CCTCCTCAAG CAGAAGCCGG ACTGGCAGTG GGCCCTGGAG
    CACGAGAAGG CTTTCCTGGC CCTGAAGCGA GCCCTGGTGT CTGCCCTCTG CCTGTCGGCC
    CCCAACTCCC AGCTGCCCTT CCGCCTGGAG GTGACAGTGA GCCAAGTGGC CCTGATGGCC
    GTAGTGTACC AAGAGCACTC AGGAAGAAAG CACCCTGTAG CCTATACCTC GAAACCCCTC
    CTCCCAGACG AGGAGAGCGC GGGCCCCCAG TCGGGGGGAG ACAGCCCCTA CGCCGTGGCC
    TGGGCCCTCA AGTATTTTTC CCGCTGCATT GGAGACACCC CAGTGGTCCT GGGCCTTTCC
    TACGCCTCCC GGACCACTGC GGACCCTGAG GCGTGGGACG GCCGCCGGCT CGCCAAGGCG
    TGGTTGATCC GGTGGTCCCT CCTGGTGCAG GACAAGGGCA AGAGGGCACT GGAACTGGCC
    CTTCTCCAGG GTCTGCTGGG GGAAAACCGG CTGCTGACTC CCGCGGCCTC CATGCCTCGT
    TTTTTCCAGG TTCTGCCTCC TTTTTCCGAC CTGTCCACTT TTGTCTGCAT CCACATGTCG
    GGCTACTGCT TTTACCGAGA GGACGAGTGG TGTGCTGGCT TTGGTCTCTA TGTCCTGTCT
    CCCACCAGCC CCCCGGTCTC CCTTTCCTTC TCTTGCTCCC CTTACACACC CACCTACGCC
    CACCTGGCGG CCGTGGCCTG TGGCCTGGAG CGCTTTGGCC GGTCCCACCT GCCTGTGGTT
    TTCCTCACGC ACTGCAACTG GATCTTCAGC CTCCTCTGGG AGCTCCTGCC GCTGTGGAGG
    GCACGGGGCT TCCTCTCCTC CGATGGGGCT CCGCTGCCTC ATCCAGGCCT GCTCTCCTAC
    ATCATAGCCC TGGTCTCCGG CCTCTCATCC CTTCCGTTTA TCTACCGAAC CTCCTACCGG
    GGTTCCCTGT TTGCTGTGAC GGTGGACACT CTGGCCAAGC AGGGTGCCCA GGGGAGCGGC
    CAGTGGTGGC ATTTGCCAAA CGATGTGCCG GTCCCTGTGG TGACTCGCCG CACCGCAGGC
    AAGAAGCCCG ACTTGCTGGC GTTACAGCGG AGCGACAGCA CCCTGGCCGA CATCATTGCC
    AAGCTGCAGG CCGGGCAGAA ATTACCTAAC TCCTCACCGT TCAGTTCTGC CTTTAACTCC
    CTCAGCCTCG ACAGGGAAAG CGGGCTGCTT ATGTTCAAGG GAGACAAGAA GCCCAGGGTC
    TGGGTGGTCC CGAGGCAGCT CCGGAGGGAT CTGATTTTCG CGGTACACGA CCTCCCCATG
    GGGGGCCACC AGAGGCCGGA GGAGACCTTC AAGAAGCTGC GGCTGCTGGG GTGGTGGCCG
    GGGATGCAGG AGCACGTGAG AGAATACTGC AGGAGCTGCC TGTACTGCAT CCCCCGGAAT
    CTCACAGGCA GTGAGTTGAA GGTCATTGAG TCCCTGTGGC CCCTCAGGTC CACGGCCCCC
    TGGTCAAACC TGCAGATCGA GGTGGTGGGC CCGGTCACCG TCAGCGAGGA GGGCCACAAG
    CACGTGTTGA TCGTGGCCGA CCCCAACACC AGGTGGGTGG AGGCCTTCCC GCTGAAGCCC
    TACACGCACA TGGCTGTGGC CCAGGTGCTG CTTCAGCACG TGTTCGCCAG GTGGGGCGTT
    CCTGTGAGGC TGGAGGCTGC CCAGGGCCCC CACTTTGCCC GCCATGTCCT GGTGAGCTGT
    GGGCTAGCTC TGGGGGCCCA GGTGGCATCC CCGAGTAGGG ACTTGCAGTT CCCCTGCCTG
    ACAAGCTCCG GGGCCTACTG GGAATTCAAG AGGGCCCTCA AGGAATTCAT CTTCCTGCAC
    GGCAAGAAGT GGGCAGCGTC CCTGCCCCTG TTGCACCTGG CCTTCAGGGC CTCCTCTGGC
    CTGGCCACGC CGTTCCAGAT CCTGACCGGG GGCGAGGAGA GGCTGACCGA GCCCCTGTGG
    TGGGAGATGA GCAGCGCAAA CATTGAGGGG CTCAAGATGG ATGTCTTCTT GCTACAGCTG
    ATGGGGGAGC TGCTGGAGCT CCACTGGCGG GTGGCTGAGA AGGCAAGCGA AAAGGCTGAG
    AATAGGCGTT TCAAGAGGGA GAGCCAGGAG AAGGAGTGGA ACGTGGGTGA CCAGGTCCTC
    TTGCTGTCCC TCCCCAGGAA TGGCAGCAGT GCCAAATGGG TCGGTCCCTT CTATATTGGG
    GACCGGCTGA GCCTGTCCCT CTACAGGGTC TGGGGCTTCC CTACCCCGGA GAAGCTCGGG
    TGCATCTATC CTAGCAGTCT GATGAAGACC TTTGCCAAGA GCGGCACCCC CCTGTCCTTC
    AAGGTCTTGG AGCAGTGA

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

    RefSeq XP_013833621.1
    CDS886..5763
    Translation

    Target ORF information:

    RefSeq Version XM_013978167.1
    Organism Sus scrofa(Pig)
    Definition Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013978167.1

    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
    ATGGACAGTG CTCATGAGGC CGGACCAGTA CAAGCCAGCA GCAGCCAGGA CCCTGTGGAC 
    CACACACAAG CCTTGTCGCA GCAAAGGCAG GTCCGGAGGG GGGAAGACAA GCTCCCCCTC
    CAGCCTCCGG TGTCAGCCCT GGGTGTGTGC TCTCCCTGGA AAGCCTGGAC TCCGGGGCCA
    GCCTTTGGGC CCCTGTGGCC GGGGGCTATT GCTGCAACCT TCTGGAGGAT CAATGAACTG
    CATTCTCTCC ACCTGGCGTG GCTCCTGTCC CAGGCCTGCT TCAGTTTCCC CTTCTGGCAG
    AGGCCGCTGG GCCCCATTCA GTTCAAGCTG CCAGGGCAGA ACCCTTTGCC CTTAAATCTG
    GAATGGAAAC AGAAGGAGCT GGTTCCCTTG CCCAGTGTGG AAGGTCCAGA CTGTAGACCG
    GATGGGGGCC CCGGGGGAGA GACAGCCCTG CAGAACTGTC CAAGACCAGA GACTCCTAAC
    AACGTCATGA GTTTATTGGT GGTCTCAGGA GGCTCAGGGG TGAAGGACAA GGCTAACCCA
    GCACTTCCAC AGATAGGGCC ACCTTTGACC TCTGCACCCC AGCTCCAAGC TAGAAGTGAA
    CCAGGTGATC AAGGAAGTAT GCAGTGGGAT AATAAGAGGC CAGAAGAGGG GCCCTTTCCA
    GTGATGCCCA CAGGGCAAGG GGTGCCCACT GCTCAGGGGA GGCCAAAGGC TCAAGGGGGG
    CTGGCAGCTC CAGTAGGACC TGACCCTAAA ACAGTGCCTG AAACTTGCAA AGTGCCCATG
    GCTGCAGCAA TGCCCACAGC TCAGACCCCA CCTGCCAATC CGGCGCTGCC TGCACCCCCC
    AAAGTGCCTG CAACCCAGAT GATGCCGGTG GTCCATGAAG AACCTGCAGC CCCTAAAGTG
    CCTTTGGCTC CCATGAAGCC AGCAGCTCAA GTGCTGCCCA CAGCTCAAAA GGCAGTTGTG
    GGTAGACTGG CACCAGCAGC TCAAATGGTA CCTGCAGCGC CAAAAACTTC CACAGTTCAG
    AAAAGGCCTG CGGCAAAAAC ATCACCTGCA GGTCCCCAAA CACCAAGAGC CCAGACTGGA
    CCTGTAGCTA AACCAGGGTC TACAGCTCCC AAAACCCCCA CAGCCCCCAA AGCCCCTGCA
    ACTCCCAAAG CACCTGCAGC TCCTAAGACT TCCAGAGCTC CGAAAACGCC TACAGCTCAG
    AAGGCACCCA CAGATCCAGG GCCAACCCTG GATGTAGCCA AACTCCTAAG TGAGGGCCAG
    CCTTCTTCAA AGGGCAGGGC TTCCTTTCTG AAGAGCCAGG GGGAACCCGG AAGGCAGGGG
    CCCCCATCCA GTGGCACCTT AGCTCCCAGT AGTAAGGGCC AACCTCAGGT AGAGGGGTTC
    CTGGGAGCTT GGGAGGGAGC CCCGAGGCAG CCACCTCGCC ACCCCCAGGC AAACAGCACA
    GTGACTAGCT TCCAGAGGTA CCACGAGGCC CTGAACACAC CCTTCGAGCT GAACCTTTCA
    GGAGAACCCG GGAACCAGGG GTTGCGACGA GTGGTCATTG ACGGTAGCAG CGTAGCCATG
    GTGCATGGCC TCCAGCACTT CTTCTCCTGC CGGGGCATTG CCATGGCTGT GCAGTATTTC
    TGGAACCGGG GACACCGAGA AGTCACTGTG TTTGTTCCCA CCTGGCAGCT GAAGAAGAAC
    CGGAGGGTGA GAGAGAGCCA CTTTCTGACA AAGCTCCACT CCCTCAAGAT GCTTTCAATC
    ACACCTTCCC AGCTCGAGAA CGGCAAGAAG ATCACCACCT ACGATTATAG GTTCATGGTA
    AAGCTGGCAG AAGAGACAGA TGGCATCATT GTCACCAATG AGCAGCTTCA TGTCCTGATG
    AATAATTCTA AGAAACTGAT GGTCAAAGAT CGCCTGCTGC CCTTCACCTT TGCGGGGAAT
    CTCTTCATGG TGCCTGACGA CCCCCTGGGC CGTGATGGCC CCACCCTGGA TGAGTTTCTG
    AAGAAGCCAA ACAGGTTGGA CACTGACATT GGCAACTTCC TGAAGGTGTG GAAGACCCTT
    CCTCCCAGCT CGGCCAGCCT CTCTGAGCCA GTGGATGAGG CTGACCCTTG GCCCCCAGAG
    AGTCTGCAGA GTGTGAAAGA AGTCAGGGAG GAGAAGGAGG AGAGGCAGGA CGAGGAGCAG
    AGAGAGGAGC AAGAGACGCA GAAGCTGGCC GAGGAGGAGG TGGAGGAGGA GGAGGAAAAG
    GAGGAAGATG ACGATCAGGA CTCTTTGCTG GTGTCTGTGT TCAGGGCTGA GTGTCCTTCC
    CTCTCAGAGG AAATACTCCG GTGCCTCAGC CTCCACGACC CTATGGACGA GGCCCTTGAC
    ATTGATCTCC TGCCAGTGGT GGCTTCTCCC TCCCTGGACA TCCCTTGGGA CGGGAAGGCC
    CCCTGCCAGC AGGTTCTGGC CCACCTGGCC CAGCTGACCA TCCCTAGCAA CTTCACCGCA
    CTCTCCTTCT TTGTGGGGTT CATGGACTCC CACCGGGACG TCATCCCCGA CTATGAAGCC
    CTCGTGGGCC CCCTGCACAG CCTCCTCAAG CAGAAGCCGG ACTGGCAGTG GGCCCTGGAG
    CACGAGAAGG CTTTCCTGGC CCTGAAGCGA GCCCTGGTGT CTGCCCTCTG CCTGTCGGCC
    CCCAACTCCC AGCTGCCCTT CCGCCTGGAG GTGACAGTGA GCCAAGTGGC CCTGATGGCC
    GTAGTGTACC AAGAGCACTC AGGAAGAAAG CACCCTGTAG CCTATACCTC GAAACCCCTC
    CTCCCAGACG AGGAGAGCGC GGGCCCCCAG TCGGGGGGAG ACAGCCCCTA CGCCGTGGCC
    TGGGCCCTCA AGTATTTTTC CCGCTGCATT GGAGACACCC CAGTGGTCCT GGGCCTTTCC
    TACGCCTCCC GGACCACTGC GGACCCTGAG GCGTGGGACG GCCGCCGGCT CGCCAAGGCG
    TGGTTGATCC GGTGGTCCCT CCTGGTGCAG GACAAGGGCA AGAGGGCACT GGAACTGGCC
    CTTCTCCAGG GTCTGCTGGG GGAAAACCGG CTGCTGACTC CCGCGGCCTC CATGCCTCGT
    TTTTTCCAGG TTCTGCCTCC TTTTTCCGAC CTGTCCACTT TTGTCTGCAT CCACATGTCG
    GGCTACTGCT TTTACCGAGA GGACGAGTGG TGTGCTGGCT TTGGTCTCTA TGTCCTGTCT
    CCCACCAGCC CCCCGGTCTC CCTTTCCTTC TCTTGCTCCC CTTACACACC CACCTACGCC
    CACCTGGCGG CCGTGGCCTG TGGCCTGGAG CGCTTTGGCC GGTCCCACCT GCCTGTGGTT
    TTCCTCACGC ACTGCAACTG GATCTTCAGC CTCCTCTGGG AGCTCCTGCC GCTGTGGAGG
    GCACGGGGCT TCCTCTCCTC CGATGGGGCT CCGCTGCCTC ATCCAGGCCT GCTCTCCTAC
    ATCATAGCCC TGGTCTCCGG CCTCTCATCC CTTCCGTTTA TCTACCGAAC CTCCTACCGG
    GGTTCCCTGT TTGCTGTGAC GGTGGACACT CTGGCCAAGC AGGGTGCCCA GGGGAGCGGC
    CAGTGGTGGC ATTTGCCAAA CGATGTGCCG GTCCCTGTGG TGACTCGCCG CACCGCAGGC
    AAGAAGCCCG ACTTGCTGGC GTTACAGCGG AGCGACAGCA CCCTGGCCGA CATCATTGCC
    AAGCTGCAGG CCGGGCAGAA ATTACCTAAC TCCTCACCGT TCAGTTCTGC CTTTAACTCC
    CTCAGCCTCG ACAGGGAAAG CGGGCTGCTT ATGTTCAAGG GAGACAAGAA GCCCAGGGTC
    TGGGTGGTCC CGAGGCAGCT CCGGAGGGAT CTGATTTTCG CGGTACACGA CCTCCCCATG
    GGGGGCCACC AGAGGCCGGA GGAGACCTTC AAGAAGCTGC GGCTGCTGGG GTGGTGGCCG
    GGGATGCAGG AGCACGTGAG AGAATACTGC AGGAGCTGCC TGTACTGCAT CCCCCGGAAT
    CTCACAGGCA GTGAGTTGAA GGTCATTGAG TCCCTGTGGC CCCTCAGGTC CACGGCCCCC
    TGGTCAAACC TGCAGATCGA GGTGGTGGGC CCGGTCACCG TCAGCGAGGA GGGCCACAAG
    CACGTGTTGA TCGTGGCCGA CCCCAACACC AGGTGGGTGG AGGCCTTCCC GCTGAAGCCC
    TACACGCACA TGGCTGTGGC CCAGGTGCTG CTTCAGCACG TGTTCGCCAG GTGGGGCGTT
    CCTGTGAGGC TGGAGGCTGC CCAGGGCCCC CACTTTGCCC GCCATGTCCT GGTGAGCTGT
    GGGCTAGCTC TGGGGGCCCA GGTGGCATCC CCGAGTAGGG ACTTGCAGTT CCCCTGCCTG
    ACAAGCTCCG GGGCCTACTG GGAATTCAAG AGGGCCCTCA AGGAATTCAT CTTCCTGCAC
    GGCAAGAAGT GGGCAGCGTC CCTGCCCCTG TTGCACCTGG CCTTCAGGGC CTCCTCTGGC
    CTGGCCACGC CGTTCCAGAT CCTGACCGGG GGCGAGGAGA GGCTGACCGA GCCCCTGTGG
    TGGGAGATGA GCAGCGCAAA CATTGAGGGG CTCAAGATGG ATGTCTTCTT GCTACAGCTG
    ATGGGGGAGC TGCTGGAGCT CCACTGGCGG GTGGCTGAGA AGGCAAGCGA AAAGGCTGAG
    AATAGGCGTT TCAAGAGGGA GAGCCAGGAG AAGGAGTGGA ACGTGGGTGA CCAGGTCCTC
    TTGCTGTCCC TCCCCAGGAA TGGCAGCAGT GCCAAATGGG TCGGTCCCTT CTATATTGGG
    GACCGGCTGA GCCTGTCCCT CTACAGGGTC TGGGGCTTCC CTACCCCGGA GAAGCTCGGG
    TGCATCTATC CTAGCAGTCT GATGAAGACC TTTGCCAAGA GCGGCACCCC CCTGTCCTTC
    AAGGTCTTGG AGCAGTGA

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

    CloneID OSe38285
    Clone ID Related Accession (Same CDS sequence) XM_013978167.1 , XM_013978168.1 , XM_005666233.2
    Accession Version XM_013978168.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4878bp)
    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 protein NYNRIN isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003610692.1) 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 :: 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##

    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
    ATGGACAGTG CTCATGAGGC CGGACCAGTA CAAGCCAGCA GCAGCCAGGA CCCTGTGGAC 
    CACACACAAG CCTTGTCGCA GCAAAGGCAG GTCCGGAGGG GGGAAGACAA GCTCCCCCTC
    CAGCCTCCGG TGTCAGCCCT GGGTGTGTGC TCTCCCTGGA AAGCCTGGAC TCCGGGGCCA
    GCCTTTGGGC CCCTGTGGCC GGGGGCTATT GCTGCAACCT TCTGGAGGAT CAATGAACTG
    CATTCTCTCC ACCTGGCGTG GCTCCTGTCC CAGGCCTGCT TCAGTTTCCC CTTCTGGCAG
    AGGCCGCTGG GCCCCATTCA GTTCAAGCTG CCAGGGCAGA ACCCTTTGCC CTTAAATCTG
    GAATGGAAAC AGAAGGAGCT GGTTCCCTTG CCCAGTGTGG AAGGTCCAGA CTGTAGACCG
    GATGGGGGCC CCGGGGGAGA GACAGCCCTG CAGAACTGTC CAAGACCAGA GACTCCTAAC
    AACGTCATGA GTTTATTGGT GGTCTCAGGA GGCTCAGGGG TGAAGGACAA GGCTAACCCA
    GCACTTCCAC AGATAGGGCC ACCTTTGACC TCTGCACCCC AGCTCCAAGC TAGAAGTGAA
    CCAGGTGATC AAGGAAGTAT GCAGTGGGAT AATAAGAGGC CAGAAGAGGG GCCCTTTCCA
    GTGATGCCCA CAGGGCAAGG GGTGCCCACT GCTCAGGGGA GGCCAAAGGC TCAAGGGGGG
    CTGGCAGCTC CAGTAGGACC TGACCCTAAA ACAGTGCCTG AAACTTGCAA AGTGCCCATG
    GCTGCAGCAA TGCCCACAGC TCAGACCCCA CCTGCCAATC CGGCGCTGCC TGCACCCCCC
    AAAGTGCCTG CAACCCAGAT GATGCCGGTG GTCCATGAAG AACCTGCAGC CCCTAAAGTG
    CCTTTGGCTC CCATGAAGCC AGCAGCTCAA GTGCTGCCCA CAGCTCAAAA GGCAGTTGTG
    GGTAGACTGG CACCAGCAGC TCAAATGGTA CCTGCAGCGC CAAAAACTTC CACAGTTCAG
    AAAAGGCCTG CGGCAAAAAC ATCACCTGCA GGTCCCCAAA CACCAAGAGC CCAGACTGGA
    CCTGTAGCTA AACCAGGGTC TACAGCTCCC AAAACCCCCA CAGCCCCCAA AGCCCCTGCA
    ACTCCCAAAG CACCTGCAGC TCCTAAGACT TCCAGAGCTC CGAAAACGCC TACAGCTCAG
    AAGGCACCCA CAGATCCAGG GCCAACCCTG GATGTAGCCA AACTCCTAAG TGAGGGCCAG
    CCTTCTTCAA AGGGCAGGGC TTCCTTTCTG AAGAGCCAGG GGGAACCCGG AAGGCAGGGG
    CCCCCATCCA GTGGCACCTT AGCTCCCAGT AGTAAGGGCC AACCTCAGGT AGAGGGGTTC
    CTGGGAGCTT GGGAGGGAGC CCCGAGGCAG CCACCTCGCC ACCCCCAGGC AAACAGCACA
    GTGACTAGCT TCCAGAGGTA CCACGAGGCC CTGAACACAC CCTTCGAGCT GAACCTTTCA
    GGAGAACCCG GGAACCAGGG GTTGCGACGA GTGGTCATTG ACGGTAGCAG CGTAGCCATG
    GTGCATGGCC TCCAGCACTT CTTCTCCTGC CGGGGCATTG CCATGGCTGT GCAGTATTTC
    TGGAACCGGG GACACCGAGA AGTCACTGTG TTTGTTCCCA CCTGGCAGCT GAAGAAGAAC
    CGGAGGGTGA GAGAGAGCCA CTTTCTGACA AAGCTCCACT CCCTCAAGAT GCTTTCAATC
    ACACCTTCCC AGCTCGAGAA CGGCAAGAAG ATCACCACCT ACGATTATAG GTTCATGGTA
    AAGCTGGCAG AAGAGACAGA TGGCATCATT GTCACCAATG AGCAGCTTCA TGTCCTGATG
    AATAATTCTA AGAAACTGAT GGTCAAAGAT CGCCTGCTGC CCTTCACCTT TGCGGGGAAT
    CTCTTCATGG TGCCTGACGA CCCCCTGGGC CGTGATGGCC CCACCCTGGA TGAGTTTCTG
    AAGAAGCCAA ACAGGTTGGA CACTGACATT GGCAACTTCC TGAAGGTGTG GAAGACCCTT
    CCTCCCAGCT CGGCCAGCCT CTCTGAGCCA GTGGATGAGG CTGACCCTTG GCCCCCAGAG
    AGTCTGCAGA GTGTGAAAGA AGTCAGGGAG GAGAAGGAGG AGAGGCAGGA CGAGGAGCAG
    AGAGAGGAGC AAGAGACGCA GAAGCTGGCC GAGGAGGAGG TGGAGGAGGA GGAGGAAAAG
    GAGGAAGATG ACGATCAGGA CTCTTTGCTG GTGTCTGTGT TCAGGGCTGA GTGTCCTTCC
    CTCTCAGAGG AAATACTCCG GTGCCTCAGC CTCCACGACC CTATGGACGA GGCCCTTGAC
    ATTGATCTCC TGCCAGTGGT GGCTTCTCCC TCCCTGGACA TCCCTTGGGA CGGGAAGGCC
    CCCTGCCAGC AGGTTCTGGC CCACCTGGCC CAGCTGACCA TCCCTAGCAA CTTCACCGCA
    CTCTCCTTCT TTGTGGGGTT CATGGACTCC CACCGGGACG TCATCCCCGA CTATGAAGCC
    CTCGTGGGCC CCCTGCACAG CCTCCTCAAG CAGAAGCCGG ACTGGCAGTG GGCCCTGGAG
    CACGAGAAGG CTTTCCTGGC CCTGAAGCGA GCCCTGGTGT CTGCCCTCTG CCTGTCGGCC
    CCCAACTCCC AGCTGCCCTT CCGCCTGGAG GTGACAGTGA GCCAAGTGGC CCTGATGGCC
    GTAGTGTACC AAGAGCACTC AGGAAGAAAG CACCCTGTAG CCTATACCTC GAAACCCCTC
    CTCCCAGACG AGGAGAGCGC GGGCCCCCAG TCGGGGGGAG ACAGCCCCTA CGCCGTGGCC
    TGGGCCCTCA AGTATTTTTC CCGCTGCATT GGAGACACCC CAGTGGTCCT GGGCCTTTCC
    TACGCCTCCC GGACCACTGC GGACCCTGAG GCGTGGGACG GCCGCCGGCT CGCCAAGGCG
    TGGTTGATCC GGTGGTCCCT CCTGGTGCAG GACAAGGGCA AGAGGGCACT GGAACTGGCC
    CTTCTCCAGG GTCTGCTGGG GGAAAACCGG CTGCTGACTC CCGCGGCCTC CATGCCTCGT
    TTTTTCCAGG TTCTGCCTCC TTTTTCCGAC CTGTCCACTT TTGTCTGCAT CCACATGTCG
    GGCTACTGCT TTTACCGAGA GGACGAGTGG TGTGCTGGCT TTGGTCTCTA TGTCCTGTCT
    CCCACCAGCC CCCCGGTCTC CCTTTCCTTC TCTTGCTCCC CTTACACACC CACCTACGCC
    CACCTGGCGG CCGTGGCCTG TGGCCTGGAG CGCTTTGGCC GGTCCCACCT GCCTGTGGTT
    TTCCTCACGC ACTGCAACTG GATCTTCAGC CTCCTCTGGG AGCTCCTGCC GCTGTGGAGG
    GCACGGGGCT TCCTCTCCTC CGATGGGGCT CCGCTGCCTC ATCCAGGCCT GCTCTCCTAC
    ATCATAGCCC TGGTCTCCGG CCTCTCATCC CTTCCGTTTA TCTACCGAAC CTCCTACCGG
    GGTTCCCTGT TTGCTGTGAC GGTGGACACT CTGGCCAAGC AGGGTGCCCA GGGGAGCGGC
    CAGTGGTGGC ATTTGCCAAA CGATGTGCCG GTCCCTGTGG TGACTCGCCG CACCGCAGGC
    AAGAAGCCCG ACTTGCTGGC GTTACAGCGG AGCGACAGCA CCCTGGCCGA CATCATTGCC
    AAGCTGCAGG CCGGGCAGAA ATTACCTAAC TCCTCACCGT TCAGTTCTGC CTTTAACTCC
    CTCAGCCTCG ACAGGGAAAG CGGGCTGCTT ATGTTCAAGG GAGACAAGAA GCCCAGGGTC
    TGGGTGGTCC CGAGGCAGCT CCGGAGGGAT CTGATTTTCG CGGTACACGA CCTCCCCATG
    GGGGGCCACC AGAGGCCGGA GGAGACCTTC AAGAAGCTGC GGCTGCTGGG GTGGTGGCCG
    GGGATGCAGG AGCACGTGAG AGAATACTGC AGGAGCTGCC TGTACTGCAT CCCCCGGAAT
    CTCACAGGCA GTGAGTTGAA GGTCATTGAG TCCCTGTGGC CCCTCAGGTC CACGGCCCCC
    TGGTCAAACC TGCAGATCGA GGTGGTGGGC CCGGTCACCG TCAGCGAGGA GGGCCACAAG
    CACGTGTTGA TCGTGGCCGA CCCCAACACC AGGTGGGTGG AGGCCTTCCC GCTGAAGCCC
    TACACGCACA TGGCTGTGGC CCAGGTGCTG CTTCAGCACG TGTTCGCCAG GTGGGGCGTT
    CCTGTGAGGC TGGAGGCTGC CCAGGGCCCC CACTTTGCCC GCCATGTCCT GGTGAGCTGT
    GGGCTAGCTC TGGGGGCCCA GGTGGCATCC CCGAGTAGGG ACTTGCAGTT CCCCTGCCTG
    ACAAGCTCCG GGGCCTACTG GGAATTCAAG AGGGCCCTCA AGGAATTCAT CTTCCTGCAC
    GGCAAGAAGT GGGCAGCGTC CCTGCCCCTG TTGCACCTGG CCTTCAGGGC CTCCTCTGGC
    CTGGCCACGC CGTTCCAGAT CCTGACCGGG GGCGAGGAGA GGCTGACCGA GCCCCTGTGG
    TGGGAGATGA GCAGCGCAAA CATTGAGGGG CTCAAGATGG ATGTCTTCTT GCTACAGCTG
    ATGGGGGAGC TGCTGGAGCT CCACTGGCGG GTGGCTGAGA AGGCAAGCGA AAAGGCTGAG
    AATAGGCGTT TCAAGAGGGA GAGCCAGGAG AAGGAGTGGA ACGTGGGTGA CCAGGTCCTC
    TTGCTGTCCC TCCCCAGGAA TGGCAGCAGT GCCAAATGGG TCGGTCCCTT CTATATTGGG
    GACCGGCTGA GCCTGTCCCT CTACAGGGTC TGGGGCTTCC CTACCCCGGA GAAGCTCGGG
    TGCATCTATC CTAGCAGTCT GATGAAGACC TTTGCCAAGA GCGGCACCCC CCTGTCCTTC
    AAGGTCTTGG AGCAGTGA

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

    RefSeq XP_013833622.1
    CDS768..5645
    Translation

    Target ORF information:

    RefSeq Version XM_013978168.1
    Organism Sus scrofa(Pig)
    Definition Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013978168.1

    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
    ATGGACAGTG CTCATGAGGC CGGACCAGTA CAAGCCAGCA GCAGCCAGGA CCCTGTGGAC 
    CACACACAAG CCTTGTCGCA GCAAAGGCAG GTCCGGAGGG GGGAAGACAA GCTCCCCCTC
    CAGCCTCCGG TGTCAGCCCT GGGTGTGTGC TCTCCCTGGA AAGCCTGGAC TCCGGGGCCA
    GCCTTTGGGC CCCTGTGGCC GGGGGCTATT GCTGCAACCT TCTGGAGGAT CAATGAACTG
    CATTCTCTCC ACCTGGCGTG GCTCCTGTCC CAGGCCTGCT TCAGTTTCCC CTTCTGGCAG
    AGGCCGCTGG GCCCCATTCA GTTCAAGCTG CCAGGGCAGA ACCCTTTGCC CTTAAATCTG
    GAATGGAAAC AGAAGGAGCT GGTTCCCTTG CCCAGTGTGG AAGGTCCAGA CTGTAGACCG
    GATGGGGGCC CCGGGGGAGA GACAGCCCTG CAGAACTGTC CAAGACCAGA GACTCCTAAC
    AACGTCATGA GTTTATTGGT GGTCTCAGGA GGCTCAGGGG TGAAGGACAA GGCTAACCCA
    GCACTTCCAC AGATAGGGCC ACCTTTGACC TCTGCACCCC AGCTCCAAGC TAGAAGTGAA
    CCAGGTGATC AAGGAAGTAT GCAGTGGGAT AATAAGAGGC CAGAAGAGGG GCCCTTTCCA
    GTGATGCCCA CAGGGCAAGG GGTGCCCACT GCTCAGGGGA GGCCAAAGGC TCAAGGGGGG
    CTGGCAGCTC CAGTAGGACC TGACCCTAAA ACAGTGCCTG AAACTTGCAA AGTGCCCATG
    GCTGCAGCAA TGCCCACAGC TCAGACCCCA CCTGCCAATC CGGCGCTGCC TGCACCCCCC
    AAAGTGCCTG CAACCCAGAT GATGCCGGTG GTCCATGAAG AACCTGCAGC CCCTAAAGTG
    CCTTTGGCTC CCATGAAGCC AGCAGCTCAA GTGCTGCCCA CAGCTCAAAA GGCAGTTGTG
    GGTAGACTGG CACCAGCAGC TCAAATGGTA CCTGCAGCGC CAAAAACTTC CACAGTTCAG
    AAAAGGCCTG CGGCAAAAAC ATCACCTGCA GGTCCCCAAA CACCAAGAGC CCAGACTGGA
    CCTGTAGCTA AACCAGGGTC TACAGCTCCC AAAACCCCCA CAGCCCCCAA AGCCCCTGCA
    ACTCCCAAAG CACCTGCAGC TCCTAAGACT TCCAGAGCTC CGAAAACGCC TACAGCTCAG
    AAGGCACCCA CAGATCCAGG GCCAACCCTG GATGTAGCCA AACTCCTAAG TGAGGGCCAG
    CCTTCTTCAA AGGGCAGGGC TTCCTTTCTG AAGAGCCAGG GGGAACCCGG AAGGCAGGGG
    CCCCCATCCA GTGGCACCTT AGCTCCCAGT AGTAAGGGCC AACCTCAGGT AGAGGGGTTC
    CTGGGAGCTT GGGAGGGAGC CCCGAGGCAG CCACCTCGCC ACCCCCAGGC AAACAGCACA
    GTGACTAGCT TCCAGAGGTA CCACGAGGCC CTGAACACAC CCTTCGAGCT GAACCTTTCA
    GGAGAACCCG GGAACCAGGG GTTGCGACGA GTGGTCATTG ACGGTAGCAG CGTAGCCATG
    GTGCATGGCC TCCAGCACTT CTTCTCCTGC CGGGGCATTG CCATGGCTGT GCAGTATTTC
    TGGAACCGGG GACACCGAGA AGTCACTGTG TTTGTTCCCA CCTGGCAGCT GAAGAAGAAC
    CGGAGGGTGA GAGAGAGCCA CTTTCTGACA AAGCTCCACT CCCTCAAGAT GCTTTCAATC
    ACACCTTCCC AGCTCGAGAA CGGCAAGAAG ATCACCACCT ACGATTATAG GTTCATGGTA
    AAGCTGGCAG AAGAGACAGA TGGCATCATT GTCACCAATG AGCAGCTTCA TGTCCTGATG
    AATAATTCTA AGAAACTGAT GGTCAAAGAT CGCCTGCTGC CCTTCACCTT TGCGGGGAAT
    CTCTTCATGG TGCCTGACGA CCCCCTGGGC CGTGATGGCC CCACCCTGGA TGAGTTTCTG
    AAGAAGCCAA ACAGGTTGGA CACTGACATT GGCAACTTCC TGAAGGTGTG GAAGACCCTT
    CCTCCCAGCT CGGCCAGCCT CTCTGAGCCA GTGGATGAGG CTGACCCTTG GCCCCCAGAG
    AGTCTGCAGA GTGTGAAAGA AGTCAGGGAG GAGAAGGAGG AGAGGCAGGA CGAGGAGCAG
    AGAGAGGAGC AAGAGACGCA GAAGCTGGCC GAGGAGGAGG TGGAGGAGGA GGAGGAAAAG
    GAGGAAGATG ACGATCAGGA CTCTTTGCTG GTGTCTGTGT TCAGGGCTGA GTGTCCTTCC
    CTCTCAGAGG AAATACTCCG GTGCCTCAGC CTCCACGACC CTATGGACGA GGCCCTTGAC
    ATTGATCTCC TGCCAGTGGT GGCTTCTCCC TCCCTGGACA TCCCTTGGGA CGGGAAGGCC
    CCCTGCCAGC AGGTTCTGGC CCACCTGGCC CAGCTGACCA TCCCTAGCAA CTTCACCGCA
    CTCTCCTTCT TTGTGGGGTT CATGGACTCC CACCGGGACG TCATCCCCGA CTATGAAGCC
    CTCGTGGGCC CCCTGCACAG CCTCCTCAAG CAGAAGCCGG ACTGGCAGTG GGCCCTGGAG
    CACGAGAAGG CTTTCCTGGC CCTGAAGCGA GCCCTGGTGT CTGCCCTCTG CCTGTCGGCC
    CCCAACTCCC AGCTGCCCTT CCGCCTGGAG GTGACAGTGA GCCAAGTGGC CCTGATGGCC
    GTAGTGTACC AAGAGCACTC AGGAAGAAAG CACCCTGTAG CCTATACCTC GAAACCCCTC
    CTCCCAGACG AGGAGAGCGC GGGCCCCCAG TCGGGGGGAG ACAGCCCCTA CGCCGTGGCC
    TGGGCCCTCA AGTATTTTTC CCGCTGCATT GGAGACACCC CAGTGGTCCT GGGCCTTTCC
    TACGCCTCCC GGACCACTGC GGACCCTGAG GCGTGGGACG GCCGCCGGCT CGCCAAGGCG
    TGGTTGATCC GGTGGTCCCT CCTGGTGCAG GACAAGGGCA AGAGGGCACT GGAACTGGCC
    CTTCTCCAGG GTCTGCTGGG GGAAAACCGG CTGCTGACTC CCGCGGCCTC CATGCCTCGT
    TTTTTCCAGG TTCTGCCTCC TTTTTCCGAC CTGTCCACTT TTGTCTGCAT CCACATGTCG
    GGCTACTGCT TTTACCGAGA GGACGAGTGG TGTGCTGGCT TTGGTCTCTA TGTCCTGTCT
    CCCACCAGCC CCCCGGTCTC CCTTTCCTTC TCTTGCTCCC CTTACACACC CACCTACGCC
    CACCTGGCGG CCGTGGCCTG TGGCCTGGAG CGCTTTGGCC GGTCCCACCT GCCTGTGGTT
    TTCCTCACGC ACTGCAACTG GATCTTCAGC CTCCTCTGGG AGCTCCTGCC GCTGTGGAGG
    GCACGGGGCT TCCTCTCCTC CGATGGGGCT CCGCTGCCTC ATCCAGGCCT GCTCTCCTAC
    ATCATAGCCC TGGTCTCCGG CCTCTCATCC CTTCCGTTTA TCTACCGAAC CTCCTACCGG
    GGTTCCCTGT TTGCTGTGAC GGTGGACACT CTGGCCAAGC AGGGTGCCCA GGGGAGCGGC
    CAGTGGTGGC ATTTGCCAAA CGATGTGCCG GTCCCTGTGG TGACTCGCCG CACCGCAGGC
    AAGAAGCCCG ACTTGCTGGC GTTACAGCGG AGCGACAGCA CCCTGGCCGA CATCATTGCC
    AAGCTGCAGG CCGGGCAGAA ATTACCTAAC TCCTCACCGT TCAGTTCTGC CTTTAACTCC
    CTCAGCCTCG ACAGGGAAAG CGGGCTGCTT ATGTTCAAGG GAGACAAGAA GCCCAGGGTC
    TGGGTGGTCC CGAGGCAGCT CCGGAGGGAT CTGATTTTCG CGGTACACGA CCTCCCCATG
    GGGGGCCACC AGAGGCCGGA GGAGACCTTC AAGAAGCTGC GGCTGCTGGG GTGGTGGCCG
    GGGATGCAGG AGCACGTGAG AGAATACTGC AGGAGCTGCC TGTACTGCAT CCCCCGGAAT
    CTCACAGGCA GTGAGTTGAA GGTCATTGAG TCCCTGTGGC CCCTCAGGTC CACGGCCCCC
    TGGTCAAACC TGCAGATCGA GGTGGTGGGC CCGGTCACCG TCAGCGAGGA GGGCCACAAG
    CACGTGTTGA TCGTGGCCGA CCCCAACACC AGGTGGGTGG AGGCCTTCCC GCTGAAGCCC
    TACACGCACA TGGCTGTGGC CCAGGTGCTG CTTCAGCACG TGTTCGCCAG GTGGGGCGTT
    CCTGTGAGGC TGGAGGCTGC CCAGGGCCCC CACTTTGCCC GCCATGTCCT GGTGAGCTGT
    GGGCTAGCTC TGGGGGCCCA GGTGGCATCC CCGAGTAGGG ACTTGCAGTT CCCCTGCCTG
    ACAAGCTCCG GGGCCTACTG GGAATTCAAG AGGGCCCTCA AGGAATTCAT CTTCCTGCAC
    GGCAAGAAGT GGGCAGCGTC CCTGCCCCTG TTGCACCTGG CCTTCAGGGC CTCCTCTGGC
    CTGGCCACGC CGTTCCAGAT CCTGACCGGG GGCGAGGAGA GGCTGACCGA GCCCCTGTGG
    TGGGAGATGA GCAGCGCAAA CATTGAGGGG CTCAAGATGG ATGTCTTCTT GCTACAGCTG
    ATGGGGGAGC TGCTGGAGCT CCACTGGCGG GTGGCTGAGA AGGCAAGCGA AAAGGCTGAG
    AATAGGCGTT TCAAGAGGGA GAGCCAGGAG AAGGAGTGGA ACGTGGGTGA CCAGGTCCTC
    TTGCTGTCCC TCCCCAGGAA TGGCAGCAGT GCCAAATGGG TCGGTCCCTT CTATATTGGG
    GACCGGCTGA GCCTGTCCCT CTACAGGGTC TGGGGCTTCC CTACCCCGGA GAAGCTCGGG
    TGCATCTATC CTAGCAGTCT GATGAAGACC TTTGCCAAGA GCGGCACCCC CCTGTCCTTC
    AAGGTCTTGG AGCAGTGA

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

    CloneID OSe38285
    Clone ID Related Accession (Same CDS sequence) XM_013978167.1 , XM_013978168.1 , XM_005666233.2
    Accession Version XM_005666233.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4878bp)
    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 protein NYNRIN isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003610692.1) 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_005666233.1. ##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##

    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
    ATGGACAGTG CTCATGAGGC CGGACCAGTA CAAGCCAGCA GCAGCCAGGA CCCTGTGGAC 
    CACACACAAG CCTTGTCGCA GCAAAGGCAG GTCCGGAGGG GGGAAGACAA GCTCCCCCTC
    CAGCCTCCGG TGTCAGCCCT GGGTGTGTGC TCTCCCTGGA AAGCCTGGAC TCCGGGGCCA
    GCCTTTGGGC CCCTGTGGCC GGGGGCTATT GCTGCAACCT TCTGGAGGAT CAATGAACTG
    CATTCTCTCC ACCTGGCGTG GCTCCTGTCC CAGGCCTGCT TCAGTTTCCC CTTCTGGCAG
    AGGCCGCTGG GCCCCATTCA GTTCAAGCTG CCAGGGCAGA ACCCTTTGCC CTTAAATCTG
    GAATGGAAAC AGAAGGAGCT GGTTCCCTTG CCCAGTGTGG AAGGTCCAGA CTGTAGACCG
    GATGGGGGCC CCGGGGGAGA GACAGCCCTG CAGAACTGTC CAAGACCAGA GACTCCTAAC
    AACGTCATGA GTTTATTGGT GGTCTCAGGA GGCTCAGGGG TGAAGGACAA GGCTAACCCA
    GCACTTCCAC AGATAGGGCC ACCTTTGACC TCTGCACCCC AGCTCCAAGC TAGAAGTGAA
    CCAGGTGATC AAGGAAGTAT GCAGTGGGAT AATAAGAGGC CAGAAGAGGG GCCCTTTCCA
    GTGATGCCCA CAGGGCAAGG GGTGCCCACT GCTCAGGGGA GGCCAAAGGC TCAAGGGGGG
    CTGGCAGCTC CAGTAGGACC TGACCCTAAA ACAGTGCCTG AAACTTGCAA AGTGCCCATG
    GCTGCAGCAA TGCCCACAGC TCAGACCCCA CCTGCCAATC CGGCGCTGCC TGCACCCCCC
    AAAGTGCCTG CAACCCAGAT GATGCCGGTG GTCCATGAAG AACCTGCAGC CCCTAAAGTG
    CCTTTGGCTC CCATGAAGCC AGCAGCTCAA GTGCTGCCCA CAGCTCAAAA GGCAGTTGTG
    GGTAGACTGG CACCAGCAGC TCAAATGGTA CCTGCAGCGC CAAAAACTTC CACAGTTCAG
    AAAAGGCCTG CGGCAAAAAC ATCACCTGCA GGTCCCCAAA CACCAAGAGC CCAGACTGGA
    CCTGTAGCTA AACCAGGGTC TACAGCTCCC AAAACCCCCA CAGCCCCCAA AGCCCCTGCA
    ACTCCCAAAG CACCTGCAGC TCCTAAGACT TCCAGAGCTC CGAAAACGCC TACAGCTCAG
    AAGGCACCCA CAGATCCAGG GCCAACCCTG GATGTAGCCA AACTCCTAAG TGAGGGCCAG
    CCTTCTTCAA AGGGCAGGGC TTCCTTTCTG AAGAGCCAGG GGGAACCCGG AAGGCAGGGG
    CCCCCATCCA GTGGCACCTT AGCTCCCAGT AGTAAGGGCC AACCTCAGGT AGAGGGGTTC
    CTGGGAGCTT GGGAGGGAGC CCCGAGGCAG CCACCTCGCC ACCCCCAGGC AAACAGCACA
    GTGACTAGCT TCCAGAGGTA CCACGAGGCC CTGAACACAC CCTTCGAGCT GAACCTTTCA
    GGAGAACCCG GGAACCAGGG GTTGCGACGA GTGGTCATTG ACGGTAGCAG CGTAGCCATG
    GTGCATGGCC TCCAGCACTT CTTCTCCTGC CGGGGCATTG CCATGGCTGT GCAGTATTTC
    TGGAACCGGG GACACCGAGA AGTCACTGTG TTTGTTCCCA CCTGGCAGCT GAAGAAGAAC
    CGGAGGGTGA GAGAGAGCCA CTTTCTGACA AAGCTCCACT CCCTCAAGAT GCTTTCAATC
    ACACCTTCCC AGCTCGAGAA CGGCAAGAAG ATCACCACCT ACGATTATAG GTTCATGGTA
    AAGCTGGCAG AAGAGACAGA TGGCATCATT GTCACCAATG AGCAGCTTCA TGTCCTGATG
    AATAATTCTA AGAAACTGAT GGTCAAAGAT CGCCTGCTGC CCTTCACCTT TGCGGGGAAT
    CTCTTCATGG TGCCTGACGA CCCCCTGGGC CGTGATGGCC CCACCCTGGA TGAGTTTCTG
    AAGAAGCCAA ACAGGTTGGA CACTGACATT GGCAACTTCC TGAAGGTGTG GAAGACCCTT
    CCTCCCAGCT CGGCCAGCCT CTCTGAGCCA GTGGATGAGG CTGACCCTTG GCCCCCAGAG
    AGTCTGCAGA GTGTGAAAGA AGTCAGGGAG GAGAAGGAGG AGAGGCAGGA CGAGGAGCAG
    AGAGAGGAGC AAGAGACGCA GAAGCTGGCC GAGGAGGAGG TGGAGGAGGA GGAGGAAAAG
    GAGGAAGATG ACGATCAGGA CTCTTTGCTG GTGTCTGTGT TCAGGGCTGA GTGTCCTTCC
    CTCTCAGAGG AAATACTCCG GTGCCTCAGC CTCCACGACC CTATGGACGA GGCCCTTGAC
    ATTGATCTCC TGCCAGTGGT GGCTTCTCCC TCCCTGGACA TCCCTTGGGA CGGGAAGGCC
    CCCTGCCAGC AGGTTCTGGC CCACCTGGCC CAGCTGACCA TCCCTAGCAA CTTCACCGCA
    CTCTCCTTCT TTGTGGGGTT CATGGACTCC CACCGGGACG TCATCCCCGA CTATGAAGCC
    CTCGTGGGCC CCCTGCACAG CCTCCTCAAG CAGAAGCCGG ACTGGCAGTG GGCCCTGGAG
    CACGAGAAGG CTTTCCTGGC CCTGAAGCGA GCCCTGGTGT CTGCCCTCTG CCTGTCGGCC
    CCCAACTCCC AGCTGCCCTT CCGCCTGGAG GTGACAGTGA GCCAAGTGGC CCTGATGGCC
    GTAGTGTACC AAGAGCACTC AGGAAGAAAG CACCCTGTAG CCTATACCTC GAAACCCCTC
    CTCCCAGACG AGGAGAGCGC GGGCCCCCAG TCGGGGGGAG ACAGCCCCTA CGCCGTGGCC
    TGGGCCCTCA AGTATTTTTC CCGCTGCATT GGAGACACCC CAGTGGTCCT GGGCCTTTCC
    TACGCCTCCC GGACCACTGC GGACCCTGAG GCGTGGGACG GCCGCCGGCT CGCCAAGGCG
    TGGTTGATCC GGTGGTCCCT CCTGGTGCAG GACAAGGGCA AGAGGGCACT GGAACTGGCC
    CTTCTCCAGG GTCTGCTGGG GGAAAACCGG CTGCTGACTC CCGCGGCCTC CATGCCTCGT
    TTTTTCCAGG TTCTGCCTCC TTTTTCCGAC CTGTCCACTT TTGTCTGCAT CCACATGTCG
    GGCTACTGCT TTTACCGAGA GGACGAGTGG TGTGCTGGCT TTGGTCTCTA TGTCCTGTCT
    CCCACCAGCC CCCCGGTCTC CCTTTCCTTC TCTTGCTCCC CTTACACACC CACCTACGCC
    CACCTGGCGG CCGTGGCCTG TGGCCTGGAG CGCTTTGGCC GGTCCCACCT GCCTGTGGTT
    TTCCTCACGC ACTGCAACTG GATCTTCAGC CTCCTCTGGG AGCTCCTGCC GCTGTGGAGG
    GCACGGGGCT TCCTCTCCTC CGATGGGGCT CCGCTGCCTC ATCCAGGCCT GCTCTCCTAC
    ATCATAGCCC TGGTCTCCGG CCTCTCATCC CTTCCGTTTA TCTACCGAAC CTCCTACCGG
    GGTTCCCTGT TTGCTGTGAC GGTGGACACT CTGGCCAAGC AGGGTGCCCA GGGGAGCGGC
    CAGTGGTGGC ATTTGCCAAA CGATGTGCCG GTCCCTGTGG TGACTCGCCG CACCGCAGGC
    AAGAAGCCCG ACTTGCTGGC GTTACAGCGG AGCGACAGCA CCCTGGCCGA CATCATTGCC
    AAGCTGCAGG CCGGGCAGAA ATTACCTAAC TCCTCACCGT TCAGTTCTGC CTTTAACTCC
    CTCAGCCTCG ACAGGGAAAG CGGGCTGCTT ATGTTCAAGG GAGACAAGAA GCCCAGGGTC
    TGGGTGGTCC CGAGGCAGCT CCGGAGGGAT CTGATTTTCG CGGTACACGA CCTCCCCATG
    GGGGGCCACC AGAGGCCGGA GGAGACCTTC AAGAAGCTGC GGCTGCTGGG GTGGTGGCCG
    GGGATGCAGG AGCACGTGAG AGAATACTGC AGGAGCTGCC TGTACTGCAT CCCCCGGAAT
    CTCACAGGCA GTGAGTTGAA GGTCATTGAG TCCCTGTGGC CCCTCAGGTC CACGGCCCCC
    TGGTCAAACC TGCAGATCGA GGTGGTGGGC CCGGTCACCG TCAGCGAGGA GGGCCACAAG
    CACGTGTTGA TCGTGGCCGA CCCCAACACC AGGTGGGTGG AGGCCTTCCC GCTGAAGCCC
    TACACGCACA TGGCTGTGGC CCAGGTGCTG CTTCAGCACG TGTTCGCCAG GTGGGGCGTT
    CCTGTGAGGC TGGAGGCTGC CCAGGGCCCC CACTTTGCCC GCCATGTCCT GGTGAGCTGT
    GGGCTAGCTC TGGGGGCCCA GGTGGCATCC CCGAGTAGGG ACTTGCAGTT CCCCTGCCTG
    ACAAGCTCCG GGGCCTACTG GGAATTCAAG AGGGCCCTCA AGGAATTCAT CTTCCTGCAC
    GGCAAGAAGT GGGCAGCGTC CCTGCCCCTG TTGCACCTGG CCTTCAGGGC CTCCTCTGGC
    CTGGCCACGC CGTTCCAGAT CCTGACCGGG GGCGAGGAGA GGCTGACCGA GCCCCTGTGG
    TGGGAGATGA GCAGCGCAAA CATTGAGGGG CTCAAGATGG ATGTCTTCTT GCTACAGCTG
    ATGGGGGAGC TGCTGGAGCT CCACTGGCGG GTGGCTGAGA AGGCAAGCGA AAAGGCTGAG
    AATAGGCGTT TCAAGAGGGA GAGCCAGGAG AAGGAGTGGA ACGTGGGTGA CCAGGTCCTC
    TTGCTGTCCC TCCCCAGGAA TGGCAGCAGT GCCAAATGGG TCGGTCCCTT CTATATTGGG
    GACCGGCTGA GCCTGTCCCT CTACAGGGTC TGGGGCTTCC CTACCCCGGA GAAGCTCGGG
    TGCATCTATC CTAGCAGTCT GATGAAGACC TTTGCCAAGA GCGGCACCCC CCTGTCCTTC
    AAGGTCTTGG AGCAGTGA

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

    RefSeq XP_005666290.2
    CDS1065..5942
    Translation

    Target ORF information:

    RefSeq Version XM_005666233.2
    Organism Sus scrofa(Pig)
    Definition Sus scrofa NYN domain and retroviral integrase containing (NYNRIN), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005666233.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGACAGTG CTCATGAGGC CGGACCAGTA CAAGCCAGCA GCAGCCAGGA CCCTGTGGAC 
    CACACACAAG CCTTGTCGCA GCAAAGGCAG GTCCGGAGGG GGGAAGACAA GCTCCCCCTC
    CAGCCTCCGG TGTCAGCCCT GGGTGTGTGC TCTCCCTGGA AAGCCTGGAC TCCGGGGCCA
    GCCTTTGGGC CCCTGTGGCC GGGGGCTATT GCTGCAACCT TCTGGAGGAT CAATGAACTG
    CATTCTCTCC ACCTGGCGTG GCTCCTGTCC CAGGCCTGCT TCAGTTTCCC CTTCTGGCAG
    AGGCCGCTGG GCCCCATTCA GTTCAAGCTG CCAGGGCAGA ACCCTTTGCC CTTAAATCTG
    GAATGGAAAC AGAAGGAGCT GGTTCCCTTG CCCAGTGTGG AAGGTCCAGA CTGTAGACCG
    GATGGGGGCC CCGGGGGAGA GACAGCCCTG CAGAACTGTC CAAGACCAGA GACTCCTAAC
    AACGTCATGA GTTTATTGGT GGTCTCAGGA GGCTCAGGGG TGAAGGACAA GGCTAACCCA
    GCACTTCCAC AGATAGGGCC ACCTTTGACC TCTGCACCCC AGCTCCAAGC TAGAAGTGAA
    CCAGGTGATC AAGGAAGTAT GCAGTGGGAT AATAAGAGGC CAGAAGAGGG GCCCTTTCCA
    GTGATGCCCA CAGGGCAAGG GGTGCCCACT GCTCAGGGGA GGCCAAAGGC TCAAGGGGGG
    CTGGCAGCTC CAGTAGGACC TGACCCTAAA ACAGTGCCTG AAACTTGCAA AGTGCCCATG
    GCTGCAGCAA TGCCCACAGC TCAGACCCCA CCTGCCAATC CGGCGCTGCC TGCACCCCCC
    AAAGTGCCTG CAACCCAGAT GATGCCGGTG GTCCATGAAG AACCTGCAGC CCCTAAAGTG
    CCTTTGGCTC CCATGAAGCC AGCAGCTCAA GTGCTGCCCA CAGCTCAAAA GGCAGTTGTG
    GGTAGACTGG CACCAGCAGC TCAAATGGTA CCTGCAGCGC CAAAAACTTC CACAGTTCAG
    AAAAGGCCTG CGGCAAAAAC ATCACCTGCA GGTCCCCAAA CACCAAGAGC CCAGACTGGA
    CCTGTAGCTA AACCAGGGTC TACAGCTCCC AAAACCCCCA CAGCCCCCAA AGCCCCTGCA
    ACTCCCAAAG CACCTGCAGC TCCTAAGACT TCCAGAGCTC CGAAAACGCC TACAGCTCAG
    AAGGCACCCA CAGATCCAGG GCCAACCCTG GATGTAGCCA AACTCCTAAG TGAGGGCCAG
    CCTTCTTCAA AGGGCAGGGC TTCCTTTCTG AAGAGCCAGG GGGAACCCGG AAGGCAGGGG
    CCCCCATCCA GTGGCACCTT AGCTCCCAGT AGTAAGGGCC AACCTCAGGT AGAGGGGTTC
    CTGGGAGCTT GGGAGGGAGC CCCGAGGCAG CCACCTCGCC ACCCCCAGGC AAACAGCACA
    GTGACTAGCT TCCAGAGGTA CCACGAGGCC CTGAACACAC CCTTCGAGCT GAACCTTTCA
    GGAGAACCCG GGAACCAGGG GTTGCGACGA GTGGTCATTG ACGGTAGCAG CGTAGCCATG
    GTGCATGGCC TCCAGCACTT CTTCTCCTGC CGGGGCATTG CCATGGCTGT GCAGTATTTC
    TGGAACCGGG GACACCGAGA AGTCACTGTG TTTGTTCCCA CCTGGCAGCT GAAGAAGAAC
    CGGAGGGTGA GAGAGAGCCA CTTTCTGACA AAGCTCCACT CCCTCAAGAT GCTTTCAATC
    ACACCTTCCC AGCTCGAGAA CGGCAAGAAG ATCACCACCT ACGATTATAG GTTCATGGTA
    AAGCTGGCAG AAGAGACAGA TGGCATCATT GTCACCAATG AGCAGCTTCA TGTCCTGATG
    AATAATTCTA AGAAACTGAT GGTCAAAGAT CGCCTGCTGC CCTTCACCTT TGCGGGGAAT
    CTCTTCATGG TGCCTGACGA CCCCCTGGGC CGTGATGGCC CCACCCTGGA TGAGTTTCTG
    AAGAAGCCAA ACAGGTTGGA CACTGACATT GGCAACTTCC TGAAGGTGTG GAAGACCCTT
    CCTCCCAGCT CGGCCAGCCT CTCTGAGCCA GTGGATGAGG CTGACCCTTG GCCCCCAGAG
    AGTCTGCAGA GTGTGAAAGA AGTCAGGGAG GAGAAGGAGG AGAGGCAGGA CGAGGAGCAG
    AGAGAGGAGC AAGAGACGCA GAAGCTGGCC GAGGAGGAGG TGGAGGAGGA GGAGGAAAAG
    GAGGAAGATG ACGATCAGGA CTCTTTGCTG GTGTCTGTGT TCAGGGCTGA GTGTCCTTCC
    CTCTCAGAGG AAATACTCCG GTGCCTCAGC CTCCACGACC CTATGGACGA GGCCCTTGAC
    ATTGATCTCC TGCCAGTGGT GGCTTCTCCC TCCCTGGACA TCCCTTGGGA CGGGAAGGCC
    CCCTGCCAGC AGGTTCTGGC CCACCTGGCC CAGCTGACCA TCCCTAGCAA CTTCACCGCA
    CTCTCCTTCT TTGTGGGGTT CATGGACTCC CACCGGGACG TCATCCCCGA CTATGAAGCC
    CTCGTGGGCC CCCTGCACAG CCTCCTCAAG CAGAAGCCGG ACTGGCAGTG GGCCCTGGAG
    CACGAGAAGG CTTTCCTGGC CCTGAAGCGA GCCCTGGTGT CTGCCCTCTG CCTGTCGGCC
    CCCAACTCCC AGCTGCCCTT CCGCCTGGAG GTGACAGTGA GCCAAGTGGC CCTGATGGCC
    GTAGTGTACC AAGAGCACTC AGGAAGAAAG CACCCTGTAG CCTATACCTC GAAACCCCTC
    CTCCCAGACG AGGAGAGCGC GGGCCCCCAG TCGGGGGGAG ACAGCCCCTA CGCCGTGGCC
    TGGGCCCTCA AGTATTTTTC CCGCTGCATT GGAGACACCC CAGTGGTCCT GGGCCTTTCC
    TACGCCTCCC GGACCACTGC GGACCCTGAG GCGTGGGACG GCCGCCGGCT CGCCAAGGCG
    TGGTTGATCC GGTGGTCCCT CCTGGTGCAG GACAAGGGCA AGAGGGCACT GGAACTGGCC
    CTTCTCCAGG GTCTGCTGGG GGAAAACCGG CTGCTGACTC CCGCGGCCTC CATGCCTCGT
    TTTTTCCAGG TTCTGCCTCC TTTTTCCGAC CTGTCCACTT TTGTCTGCAT CCACATGTCG
    GGCTACTGCT TTTACCGAGA GGACGAGTGG TGTGCTGGCT TTGGTCTCTA TGTCCTGTCT
    CCCACCAGCC CCCCGGTCTC CCTTTCCTTC TCTTGCTCCC CTTACACACC CACCTACGCC
    CACCTGGCGG CCGTGGCCTG TGGCCTGGAG CGCTTTGGCC GGTCCCACCT GCCTGTGGTT
    TTCCTCACGC ACTGCAACTG GATCTTCAGC CTCCTCTGGG AGCTCCTGCC GCTGTGGAGG
    GCACGGGGCT TCCTCTCCTC CGATGGGGCT CCGCTGCCTC ATCCAGGCCT GCTCTCCTAC
    ATCATAGCCC TGGTCTCCGG CCTCTCATCC CTTCCGTTTA TCTACCGAAC CTCCTACCGG
    GGTTCCCTGT TTGCTGTGAC GGTGGACACT CTGGCCAAGC AGGGTGCCCA GGGGAGCGGC
    CAGTGGTGGC ATTTGCCAAA CGATGTGCCG GTCCCTGTGG TGACTCGCCG CACCGCAGGC
    AAGAAGCCCG ACTTGCTGGC GTTACAGCGG AGCGACAGCA CCCTGGCCGA CATCATTGCC
    AAGCTGCAGG CCGGGCAGAA ATTACCTAAC TCCTCACCGT TCAGTTCTGC CTTTAACTCC
    CTCAGCCTCG ACAGGGAAAG CGGGCTGCTT ATGTTCAAGG GAGACAAGAA GCCCAGGGTC
    TGGGTGGTCC CGAGGCAGCT CCGGAGGGAT CTGATTTTCG CGGTACACGA CCTCCCCATG
    GGGGGCCACC AGAGGCCGGA GGAGACCTTC AAGAAGCTGC GGCTGCTGGG GTGGTGGCCG
    GGGATGCAGG AGCACGTGAG AGAATACTGC AGGAGCTGCC TGTACTGCAT CCCCCGGAAT
    CTCACAGGCA GTGAGTTGAA GGTCATTGAG TCCCTGTGGC CCCTCAGGTC CACGGCCCCC
    TGGTCAAACC TGCAGATCGA GGTGGTGGGC CCGGTCACCG TCAGCGAGGA GGGCCACAAG
    CACGTGTTGA TCGTGGCCGA CCCCAACACC AGGTGGGTGG AGGCCTTCCC GCTGAAGCCC
    TACACGCACA TGGCTGTGGC CCAGGTGCTG CTTCAGCACG TGTTCGCCAG GTGGGGCGTT
    CCTGTGAGGC TGGAGGCTGC CCAGGGCCCC CACTTTGCCC GCCATGTCCT GGTGAGCTGT
    GGGCTAGCTC TGGGGGCCCA GGTGGCATCC CCGAGTAGGG ACTTGCAGTT CCCCTGCCTG
    ACAAGCTCCG GGGCCTACTG GGAATTCAAG AGGGCCCTCA AGGAATTCAT CTTCCTGCAC
    GGCAAGAAGT GGGCAGCGTC CCTGCCCCTG TTGCACCTGG CCTTCAGGGC CTCCTCTGGC
    CTGGCCACGC CGTTCCAGAT CCTGACCGGG GGCGAGGAGA GGCTGACCGA GCCCCTGTGG
    TGGGAGATGA GCAGCGCAAA CATTGAGGGG CTCAAGATGG ATGTCTTCTT GCTACAGCTG
    ATGGGGGAGC TGCTGGAGCT CCACTGGCGG GTGGCTGAGA AGGCAAGCGA AAAGGCTGAG
    AATAGGCGTT TCAAGAGGGA GAGCCAGGAG AAGGAGTGGA ACGTGGGTGA CCAGGTCCTC
    TTGCTGTCCC TCCCCAGGAA TGGCAGCAGT GCCAAATGGG TCGGTCCCTT CTATATTGGG
    GACCGGCTGA GCCTGTCCCT CTACAGGGTC TGGGGCTTCC CTACCCCGGA GAAGCTCGGG
    TGCATCTATC CTAGCAGTCT GATGAAGACC TTTGCCAAGA GCGGCACCCC CCTGTCCTTC
    AAGGTCTTGG AGCAGTGA

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

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