Wdr72 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Wdr72 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Wdr72 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
OMv09348 XM_021173138.1
Latest version!
Mus caroli WD repeat domain 72 (Wdr72), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMv76339 XM_029482129.1
Latest version!
Mus caroli WD repeat domain 72 (Wdr72), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMv76340 XM_029482130.1
Latest version!
Mus caroli WD repeat domain 72 (Wdr72), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMv76341 XM_029482131.1
Latest version!
Mus caroli WD repeat domain 72 (Wdr72), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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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 OMv09348
    Clone ID Related Accession (Same CDS sequence) XM_021173138.1
    Accession Version XM_021173138.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3345bp)
    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 WD repeat-containing protein 72 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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##

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGGTG GGCTCAGATG GGAGCGACGC TCAGAACATT CAGTGGGCTT
    TCCAAATGCG CGTGCCCTGC CGACGGAGGT GTCCTGAAGG GAACTGTCTA CCCTCACTTA
    CTCTGCTCCA CTTCTGTGGA GGAAAATAAG AGCCTGCATT TCGTCATGGG CTACATGAAT
    GAACGGAAAG AGCCATTTTA CAAGGTGCTT TTCTCAGGTG AAGTCTCGGG GAGAATAACA
    TTGTGGCATA TCCCAGATGT CCCCATATCT AAGTTTGACG GTTCCCCTAG AGAAATACCA
    ATAACTACCA CCTGGACTCT TCAGGATAAC TTCGATAAGC ATCAAATGGT GTCACAGAGC
    ATCACAGACC ATTTCTCTGG GTCCAGAGAT GAGGTGGGAA TGACAGCTAC CATCACCTCA
    TCAGAGTACA TTCCAAATCT TGATAAGCTC ATCTGTGGCT GTGAGGATGG GACCATTTTC
    ATCACTAAGG CCTTGAATGC TGCCAAAGCT GGACTTCTAG AAGGGGATTC TTTACTGAAA
    GATTCCCCGT GCCACACCCT TCTCAGAGGC CATCACCAGA GTGTGACTTC ATTACTTTAC
    CCTCACAGTC TTGCTTCAAA GTTAGACCAA AGTTGGATGG TGTCTGGGGA CCGAGGCTCC
    TATGTGATCC TCTGGGATAT TTTTACCGAG GAAATTCTGC ACACGTTCTT TTTGGAAGCT
    GGTCCAGTAA CAAGACTATT GATGTCACCA GAGACCTTGA AGCGAAGTGA TGGTCAGATC
    CTCTGCTGTG TGTGTGGTGA CCATTCCGTG ACTCTCCTTC ACCTGGAAGG GAGACGGTGC
    CTCTTGCGTG CTCGGAAGCA CCTTTTCCCT GTGAGGATGA TCAGATGGCA TCCAGTCGAG
    AACTTTCTCA TTGTTGGTTG TACAGATGAC TCTGTCTACA TCTGGGAAAT TGAAACAGGC
    ACTTTGGAAA GGCACGAGAC AGGAGAAAGA GCAAGGATTA TTCTCAACTG TGGTGACGAT
    ACTCAGCTCA TCAGATCTGA GCCTACACTG TCAGTGGCCT CTGAGACACA TAAGCACAAA
    AGTGTAGAGC AGAAGACATC CAACTCCCAC CAGCCTGGGC CAGTACCCTG CCCCAGTGTG
    CAGCTGGAGT CTTCATGTAA GGTTGCTGAT GCTTCATCGG TCCCAAGACC TTTCAATGTC
    TTGCCTGTGA AAACAAAATG GAGTCACATT GGCTTCCATG TTCTCCTGTT TGATCTGGAA
    AATCTTGTTG AACTACTGCT GCCCACTCCC CTAAGTGATG TTGACCCTTC TGGCTCATTC
    TATGGAGGTG ACATCTTGAG GAGAGCCAAG AGCACAGTAG AGAAGAAGAC CCTGACAATA
    AGAAGAAACA AAGCATCGTG TAGCTCTCTC CAGACAGAGG CACAAGCCAA GCCCAGTGAG
    GACACCCTGG TCCTTGGGGA CAGCACCAGT AAGTTCTCAG AGGAGAACAA TGGTATTAAA
    AGACAGAAGA AAATGAAGAG CTCCAAAAAG GCACATCCTA AGCCACCCAG GAAAGTCGAT
    GCCAGCCTCA CAATAGACAT GGCGAAATTG TTTCTGTCTT GTATTTTGCC ATGGGGAGTG
    GATAAAGATT TAGACAGCCT CTGCACCAGG CATCTCAGCA TCTTAAAGCT GCAGGGCCCC
    GTGTCTTTGG GACTTGCCTC GAATGAAGAC CTCTTTTCCC TGATGCTGCC TGGGTGGGAT
    GCATGCAGTA CTGAAATGAA GGAGTACTCA GGGGTAAATC TGTGCTCCAG AAAAGTTTTG
    GACTTGTCAA ATAAATACAC AGCCACTCTT CTGCACCAGA CTGGAATTCC CCGAGGCCTG
    GAAAGTCACT GTGACTCTGT GCAGCAATCA GATGCTATTG TGTATTTACT GAGCAGACTC
    TTTTTAGTTA ATAAGTTAGT TAACATGCCT TTGGATTTGG CCTGTGAAAT CGACAGACCC
    TTCAAAATGG AGACTGTACA CAGCAAGGCA AGATTCCCTG GAAGTGACAT TTTGAATATA
    TCAAGCTTCT ATGGTCACCT AAAAAATGGT CGAAATGAGT GTCACACACC TGAGGCTGAC
    CTCTCGCTTT TGAAGCTTAT CTCGTGCTGG AGAGACCAGT CTGTACAGGT AACTGAAGCA
    ATACAAGCTG TCCTCTTGGC TGAAGTCCAA CAGCATATGA AGAGTCTGAG AAATACACCA
    GTCAGTAGTC AACCAGATCC CGTGGCAGAG CATAGCATCT GTGAGAGGAT GCAGATCTCA
    GCCAAGATGG AGCGAGCTGA AGAATTAGAG CTGCAGTGTG TGGGGAAGTC TTCACCTCTG
    AAAACTTCAG TCAGTCCGGT CAAGCATGGC AACGACTTGA ACTCGGCAAA CTTCCAAGAT
    ACAGAGGACA TTCTTGACAG ATGTGTCTTG GAAGAGTCGG AGAGTGCAGG TCAGCCAAGG
    CATCGTCCAT GGATAGCGAA GGTGTGCTCC TGCAGGATGT GCTAG

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

    RefSeq XP_021028797.1
    CDS393..3737
    Translation

    Target ORF information:

    RefSeq Version XM_021173138.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli WD repeat domain 72 (Wdr72), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021173138.1

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGGTG GGCTCAGATG GGAGCGACGC TCAGAACATT CAGTGGGCTT
    TCCAAATGCG CGTGCCCTGC CGACGGAGGT GTCCTGAAGG GAACTGTCTA CCCTCACTTA
    CTCTGCTCCA CTTCTGTGGA GGAAAATAAG AGCCTGCATT TCGTCATGGG CTACATGAAT
    GAACGGAAAG AGCCATTTTA CAAGGTGCTT TTCTCAGGTG AAGTCTCGGG GAGAATAACA
    TTGTGGCATA TCCCAGATGT CCCCATATCT AAGTTTGACG GTTCCCCTAG AGAAATACCA
    ATAACTACCA CCTGGACTCT TCAGGATAAC TTCGATAAGC ATCAAATGGT GTCACAGAGC
    ATCACAGACC ATTTCTCTGG GTCCAGAGAT GAGGTGGGAA TGACAGCTAC CATCACCTCA
    TCAGAGTACA TTCCAAATCT TGATAAGCTC ATCTGTGGCT GTGAGGATGG GACCATTTTC
    ATCACTAAGG CCTTGAATGC TGCCAAAGCT GGACTTCTAG AAGGGGATTC TTTACTGAAA
    GATTCCCCGT GCCACACCCT TCTCAGAGGC CATCACCAGA GTGTGACTTC ATTACTTTAC
    CCTCACAGTC TTGCTTCAAA GTTAGACCAA AGTTGGATGG TGTCTGGGGA CCGAGGCTCC
    TATGTGATCC TCTGGGATAT TTTTACCGAG GAAATTCTGC ACACGTTCTT TTTGGAAGCT
    GGTCCAGTAA CAAGACTATT GATGTCACCA GAGACCTTGA AGCGAAGTGA TGGTCAGATC
    CTCTGCTGTG TGTGTGGTGA CCATTCCGTG ACTCTCCTTC ACCTGGAAGG GAGACGGTGC
    CTCTTGCGTG CTCGGAAGCA CCTTTTCCCT GTGAGGATGA TCAGATGGCA TCCAGTCGAG
    AACTTTCTCA TTGTTGGTTG TACAGATGAC TCTGTCTACA TCTGGGAAAT TGAAACAGGC
    ACTTTGGAAA GGCACGAGAC AGGAGAAAGA GCAAGGATTA TTCTCAACTG TGGTGACGAT
    ACTCAGCTCA TCAGATCTGA GCCTACACTG TCAGTGGCCT CTGAGACACA TAAGCACAAA
    AGTGTAGAGC AGAAGACATC CAACTCCCAC CAGCCTGGGC CAGTACCCTG CCCCAGTGTG
    CAGCTGGAGT CTTCATGTAA GGTTGCTGAT GCTTCATCGG TCCCAAGACC TTTCAATGTC
    TTGCCTGTGA AAACAAAATG GAGTCACATT GGCTTCCATG TTCTCCTGTT TGATCTGGAA
    AATCTTGTTG AACTACTGCT GCCCACTCCC CTAAGTGATG TTGACCCTTC TGGCTCATTC
    TATGGAGGTG ACATCTTGAG GAGAGCCAAG AGCACAGTAG AGAAGAAGAC CCTGACAATA
    AGAAGAAACA AAGCATCGTG TAGCTCTCTC CAGACAGAGG CACAAGCCAA GCCCAGTGAG
    GACACCCTGG TCCTTGGGGA CAGCACCAGT AAGTTCTCAG AGGAGAACAA TGGTATTAAA
    AGACAGAAGA AAATGAAGAG CTCCAAAAAG GCACATCCTA AGCCACCCAG GAAAGTCGAT
    GCCAGCCTCA CAATAGACAT GGCGAAATTG TTTCTGTCTT GTATTTTGCC ATGGGGAGTG
    GATAAAGATT TAGACAGCCT CTGCACCAGG CATCTCAGCA TCTTAAAGCT GCAGGGCCCC
    GTGTCTTTGG GACTTGCCTC GAATGAAGAC CTCTTTTCCC TGATGCTGCC TGGGTGGGAT
    GCATGCAGTA CTGAAATGAA GGAGTACTCA GGGGTAAATC TGTGCTCCAG AAAAGTTTTG
    GACTTGTCAA ATAAATACAC AGCCACTCTT CTGCACCAGA CTGGAATTCC CCGAGGCCTG
    GAAAGTCACT GTGACTCTGT GCAGCAATCA GATGCTATTG TGTATTTACT GAGCAGACTC
    TTTTTAGTTA ATAAGTTAGT TAACATGCCT TTGGATTTGG CCTGTGAAAT CGACAGACCC
    TTCAAAATGG AGACTGTACA CAGCAAGGCA AGATTCCCTG GAAGTGACAT TTTGAATATA
    TCAAGCTTCT ATGGTCACCT AAAAAATGGT CGAAATGAGT GTCACACACC TGAGGCTGAC
    CTCTCGCTTT TGAAGCTTAT CTCGTGCTGG AGAGACCAGT CTGTACAGGT AACTGAAGCA
    ATACAAGCTG TCCTCTTGGC TGAAGTCCAA CAGCATATGA AGAGTCTGAG AAATACACCA
    GTCAGTAGTC AACCAGATCC CGTGGCAGAG CATAGCATCT GTGAGAGGAT GCAGATCTCA
    GCCAAGATGG AGCGAGCTGA AGAATTAGAG CTGCAGTGTG TGGGGAAGTC TTCACCTCTG
    AAAACTTCAG TCAGTCCGGT CAAGCATGGC AACGACTTGA ACTCGGCAAA CTTCCAAGAT
    ACAGAGGACA TTCTTGACAG ATGTGTCTTG GAAGAGTCGG AGAGTGCAGG TCAGCCAAGG
    CATCGTCCAT GGATAGCGAA GGTGTGCTCC TGCAGGATGT GCTAG

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

    CloneID OMv76339
    Clone ID Related Accession (Same CDS sequence) XM_029482129.1
    Accession Version XM_029482129.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
    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 WD repeat-containing protein 72 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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 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##

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGGTG GGCTCAGATG GGAGCGACGC TCAGAACATT CAGTGGGCTT
    TCCAAATGCG CGTGCCCTGC CGACGGAGGT GTCCTGAAGG GAACTGTCTA CCCTCACTTA
    CTCTGCTCCA CTTCTGTGGA GGAAAATAAG AGCCTGCATT TCGTCATGGG CTACATGAAT
    GAACGGAAAG AGCCATTTTA CAAGGTGCTT TTCTCAGGTG AAGTCTCGGG GAGAATAACA
    TTGTGGCATA TCCCAGATGT CCCCATATCT AAGTTTGACG GTTCCCCTAG AGAAATACCA
    ATAACTACCA CCTGGACTCT TCAGGATAAC TTCGATAAGC ATCAAATGGT GTCACAGAGC
    ATCACAGACC ATTTCTCTGG GTCCAGAGAT GAGGTGGGAA TGACAGCTAC CATCACCTCA
    TCAGAGTACA TTCCAAATCT TGATAAGCTC ATCTGTGGCT GTGAGGATGG GACCATTTTC
    ATCACTAAGG CCTTGAATGC TGCCAAAGCT GGACTTCTAG AAGGGGATTC TTTACTGAAA
    GATTCCCCGT GCCACACCCT TCTCAGAGGC CATCACCAGA GTGTGACTTC ATTACTTTAC
    CCTCACAGTC TTGCTTCAAA GTTAGACCAA AGTTGGATGG TGTCTGGGGA CCGAGGCTCC
    TATGTGATCC TCTGGGATAT TTTTACCGAG GAAATTCTGC ACACGTTCTT TTTGGAAGCT
    GGTCCAGTAA CAAGACTATT GATGTCACCA GAGACCTTGA AGCGAAGTGA TGGTCAGATC
    CTCTGCTGTG TGTGTGGTGA CCATTCCGTG ACTCTCCTTC ACCTGGAAGG GAGACGGTGC
    CTCTTGCGTG CTCGGAAGCA CCTTTTCCCT GTGAGGATGA TCAGATGGCA TCCAGTCGAG
    AACTTTCTCA TTGTTGGTTG TACAGATGAC TCTGTCTACA TCTGGGAAAT TGAAACAGGC
    ACTTTGGAAA GGCACGAGAC AGGAGAAAGA GCAAGGATTA TTCTCAACTG TGGTGACGAT
    ACTCAGCTCA TCAGATCTGA GCCTACACTG TCAGTGGCCT CTGAGACACA TAAGCACAAA
    AGTGTAGAGC AGAAGACATC CAACTCCCAC CAGCCTGGGC CAGTACCCTG CCCCAGTGTG
    CAGCTGGAGT CTTCATGTAA GGTTGCTGAT GCTTCATCGG TCCCAAGACC TTTCAATGTC
    TTGCCTGTGA AAACAAAATG GAGTCACATT GGCTTCCATG TTCTCCTGTT TGATCTGGAA
    AATCTTGTTG AACTACTGCT GCCCACTCCC CTAAGTGATG TTGACCCTTC TGGCTCATTC
    TATGGAGGTG ACATCTTGAG GAGAGCCAAG AGCACAGTAG AGAAGAAGAC CCTGACAATA
    AGAAGAAACA AAGCATCGTG TAGCTCTCTC CAGACAGAGG CACAAGCCAA GCCCAGTGAG
    GACACCCTGG TCCTTGGGGA CAGCACCAGT AAGTTCTCAG AGGAGAACAA TGGTATTAAA
    AGACAGAAGA AAATGAAGAG CTCCAAAAAG GCACATCCTA AGCCACCCAG GAAAGTCGAT
    GCCAGCCTCA CAATAGACAT GGCGAAATTG TTTCTGTCTT GTATTTTGCC ATGGGGAGTG
    GATAAAGATT TAGACAGCCT CTGCACCAGG CATCTCAGCA TCTTAAAGCT GCAGGGCCCC
    GTGTCTTTGG GACTTGCCTC GAATGAAGAC CTCTTTTCCC TGATGCTGCC TGGGTGGGAT
    GCATGCAGTA CTGAAATGAA GGAGTACTCA GGGGTAAATC TGTGCTCCAG AAAAGTTTTG
    GACTTGTCAA ATAAATACAC AGCCACTCTT CTGCACCAGA CTGGAATTCC CCGAGGCCTG
    GAAAGTCACT GTGACTCTGT GCAGCAATCA GATGCTATTG TGTATTTACT GAGCAGACTC
    TTTTTAGTTA ATAAGTTAGT TAACATGCCT TTGGATTTGG CCTGTGAAAT CGACAGACCC
    TTCAAAATGG AGACTGTACA CAGCAAGGCA AGATTCCCTG GAAGTGACAT TTTGAATATA
    TCAAGCTTCT ATGGTCACCT AAAAAATGGT CGAAATGAGT GTCACACACC TGAGGCTGAC
    CTCTCGCTTT TGAAGCTTAT CTCGTGCTGG AGAGACCAGT CTGTACAGGT AACTGAAGCA
    ATACAAGCTG TCCTCTTGGC TGAAGTCCAA CAGCATATGA AGAGTCTGAG AAATACACCA
    GTCAGTAGTC AACCAGATCC CGTGGCAGAG CATAGCATCT GTGAGAGGAT GCAGATCTCA
    GCCAAGATGG AGCGAGCTGA AGAATTAGAG CTGCAGTGTG TGGGGAAGTC TTCACCTCTG
    AAAACTTCAG TCAGTCCGGT CAAGCATGGC AACGACTTGA ACTCGGCAAA CTTCCAAGAT
    ACAGAGGACA TTCTTGACAG ATGTGTCTTG GAAGAGTCGG AGAGTGCAGG AATTTGGTGG
    CACCGAGGGA CCGTTTGGAA CTGTGAAATT ATGACAATCC ATTCTTCAGT GCCCAAAGAT
    AAACTTCAGA GTCGGAAGTC ACACCAAGCA TAG

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

    RefSeq XP_029337989.1
    CDS364..3756
    Translation

    Target ORF information:

    RefSeq Version XM_029482129.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli WD repeat domain 72 (Wdr72), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029482129.1

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGGTG GGCTCAGATG GGAGCGACGC TCAGAACATT CAGTGGGCTT
    TCCAAATGCG CGTGCCCTGC CGACGGAGGT GTCCTGAAGG GAACTGTCTA CCCTCACTTA
    CTCTGCTCCA CTTCTGTGGA GGAAAATAAG AGCCTGCATT TCGTCATGGG CTACATGAAT
    GAACGGAAAG AGCCATTTTA CAAGGTGCTT TTCTCAGGTG AAGTCTCGGG GAGAATAACA
    TTGTGGCATA TCCCAGATGT CCCCATATCT AAGTTTGACG GTTCCCCTAG AGAAATACCA
    ATAACTACCA CCTGGACTCT TCAGGATAAC TTCGATAAGC ATCAAATGGT GTCACAGAGC
    ATCACAGACC ATTTCTCTGG GTCCAGAGAT GAGGTGGGAA TGACAGCTAC CATCACCTCA
    TCAGAGTACA TTCCAAATCT TGATAAGCTC ATCTGTGGCT GTGAGGATGG GACCATTTTC
    ATCACTAAGG CCTTGAATGC TGCCAAAGCT GGACTTCTAG AAGGGGATTC TTTACTGAAA
    GATTCCCCGT GCCACACCCT TCTCAGAGGC CATCACCAGA GTGTGACTTC ATTACTTTAC
    CCTCACAGTC TTGCTTCAAA GTTAGACCAA AGTTGGATGG TGTCTGGGGA CCGAGGCTCC
    TATGTGATCC TCTGGGATAT TTTTACCGAG GAAATTCTGC ACACGTTCTT TTTGGAAGCT
    GGTCCAGTAA CAAGACTATT GATGTCACCA GAGACCTTGA AGCGAAGTGA TGGTCAGATC
    CTCTGCTGTG TGTGTGGTGA CCATTCCGTG ACTCTCCTTC ACCTGGAAGG GAGACGGTGC
    CTCTTGCGTG CTCGGAAGCA CCTTTTCCCT GTGAGGATGA TCAGATGGCA TCCAGTCGAG
    AACTTTCTCA TTGTTGGTTG TACAGATGAC TCTGTCTACA TCTGGGAAAT TGAAACAGGC
    ACTTTGGAAA GGCACGAGAC AGGAGAAAGA GCAAGGATTA TTCTCAACTG TGGTGACGAT
    ACTCAGCTCA TCAGATCTGA GCCTACACTG TCAGTGGCCT CTGAGACACA TAAGCACAAA
    AGTGTAGAGC AGAAGACATC CAACTCCCAC CAGCCTGGGC CAGTACCCTG CCCCAGTGTG
    CAGCTGGAGT CTTCATGTAA GGTTGCTGAT GCTTCATCGG TCCCAAGACC TTTCAATGTC
    TTGCCTGTGA AAACAAAATG GAGTCACATT GGCTTCCATG TTCTCCTGTT TGATCTGGAA
    AATCTTGTTG AACTACTGCT GCCCACTCCC CTAAGTGATG TTGACCCTTC TGGCTCATTC
    TATGGAGGTG ACATCTTGAG GAGAGCCAAG AGCACAGTAG AGAAGAAGAC CCTGACAATA
    AGAAGAAACA AAGCATCGTG TAGCTCTCTC CAGACAGAGG CACAAGCCAA GCCCAGTGAG
    GACACCCTGG TCCTTGGGGA CAGCACCAGT AAGTTCTCAG AGGAGAACAA TGGTATTAAA
    AGACAGAAGA AAATGAAGAG CTCCAAAAAG GCACATCCTA AGCCACCCAG GAAAGTCGAT
    GCCAGCCTCA CAATAGACAT GGCGAAATTG TTTCTGTCTT GTATTTTGCC ATGGGGAGTG
    GATAAAGATT TAGACAGCCT CTGCACCAGG CATCTCAGCA TCTTAAAGCT GCAGGGCCCC
    GTGTCTTTGG GACTTGCCTC GAATGAAGAC CTCTTTTCCC TGATGCTGCC TGGGTGGGAT
    GCATGCAGTA CTGAAATGAA GGAGTACTCA GGGGTAAATC TGTGCTCCAG AAAAGTTTTG
    GACTTGTCAA ATAAATACAC AGCCACTCTT CTGCACCAGA CTGGAATTCC CCGAGGCCTG
    GAAAGTCACT GTGACTCTGT GCAGCAATCA GATGCTATTG TGTATTTACT GAGCAGACTC
    TTTTTAGTTA ATAAGTTAGT TAACATGCCT TTGGATTTGG CCTGTGAAAT CGACAGACCC
    TTCAAAATGG AGACTGTACA CAGCAAGGCA AGATTCCCTG GAAGTGACAT TTTGAATATA
    TCAAGCTTCT ATGGTCACCT AAAAAATGGT CGAAATGAGT GTCACACACC TGAGGCTGAC
    CTCTCGCTTT TGAAGCTTAT CTCGTGCTGG AGAGACCAGT CTGTACAGGT AACTGAAGCA
    ATACAAGCTG TCCTCTTGGC TGAAGTCCAA CAGCATATGA AGAGTCTGAG AAATACACCA
    GTCAGTAGTC AACCAGATCC CGTGGCAGAG CATAGCATCT GTGAGAGGAT GCAGATCTCA
    GCCAAGATGG AGCGAGCTGA AGAATTAGAG CTGCAGTGTG TGGGGAAGTC TTCACCTCTG
    AAAACTTCAG TCAGTCCGGT CAAGCATGGC AACGACTTGA ACTCGGCAAA CTTCCAAGAT
    ACAGAGGACA TTCTTGACAG ATGTGTCTTG GAAGAGTCGG AGAGTGCAGG AATTTGGTGG
    CACCGAGGGA CCGTTTGGAA CTGTGAAATT ATGACAATCC ATTCTTCAGT GCCCAAAGAT
    AAACTTCAGA GTCGGAAGTC ACACCAAGCA TAG

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

    CloneID OMv76340
    Clone ID Related Accession (Same CDS sequence) XM_029482130.1
    Accession Version XM_029482130.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
    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 WD repeat-containing protein 72 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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 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##

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGTGG GCTTTCCAAA TGCGCGTGCC CTGCCGACGG AGGTGTCCTG
    AAGGGAACTG TCTACCCTCA CTTACTCTGC TCCACTTCTG TGGAGGAAAA TAAGAGCCTG
    CATTTCGTCA TGGGCTACAT GAATGAACGG AAAGAGCCAT TTTACAAGGT GCTTTTCTCA
    GGTGAAGTCT CGGGGAGAAT AACATTGTGG CATATCCCAG ATGTCCCCAT ATCTAAGTTT
    GACGGTTCCC CTAGAGAAAT ACCAATAACT ACCACCTGGA CTCTTCAGGA TAACTTCGAT
    AAGCATCAAA TGGTGTCACA GAGCATCACA GACCATTTCT CTGGGTCCAG AGATGAGGTG
    GGAATGACAG CTACCATCAC CTCATCAGAG TACATTCCAA ATCTTGATAA GCTCATCTGT
    GGCTGTGAGG ATGGGACCAT TTTCATCACT AAGGCCTTGA ATGCTGCCAA AGCTGGACTT
    CTAGAAGGGG ATTCTTTACT GAAAGATTCC CCGTGCCACA CCCTTCTCAG AGGCCATCAC
    CAGAGTGTGA CTTCATTACT TTACCCTCAC AGTCTTGCTT CAAAGTTAGA CCAAAGTTGG
    ATGGTGTCTG GGGACCGAGG CTCCTATGTG ATCCTCTGGG ATATTTTTAC CGAGGAAATT
    CTGCACACGT TCTTTTTGGA AGCTGGTCCA GTAACAAGAC TATTGATGTC ACCAGAGACC
    TTGAAGCGAA GTGATGGTCA GATCCTCTGC TGTGTGTGTG GTGACCATTC CGTGACTCTC
    CTTCACCTGG AAGGGAGACG GTGCCTCTTG CGTGCTCGGA AGCACCTTTT CCCTGTGAGG
    ATGATCAGAT GGCATCCAGT CGAGAACTTT CTCATTGTTG GTTGTACAGA TGACTCTGTC
    TACATCTGGG AAATTGAAAC AGGCACTTTG GAAAGGCACG AGACAGGAGA AAGAGCAAGG
    ATTATTCTCA ACTGTGGTGA CGATACTCAG CTCATCAGAT CTGAGCCTAC ACTGTCAGTG
    GCCTCTGAGA CACATAAGCA CAAAAGTGTA GAGCAGAAGA CATCCAACTC CCACCAGCCT
    GGGCCAGTAC CCTGCCCCAG TGTGCAGCTG GAGTCTTCAT GTAAGGTTGC TGATGCTTCA
    TCGGTCCCAA GACCTTTCAA TGTCTTGCCT GTGAAAACAA AATGGAGTCA CATTGGCTTC
    CATGTTCTCC TGTTTGATCT GGAAAATCTT GTTGAACTAC TGCTGCCCAC TCCCCTAAGT
    GATGTTGACC CTTCTGGCTC ATTCTATGGA GGTGACATCT TGAGGAGAGC CAAGAGCACA
    GTAGAGAAGA AGACCCTGAC AATAAGAAGA AACAAAGCAT CGTGTAGCTC TCTCCAGACA
    GAGGCACAAG CCAAGCCCAG TGAGGACACC CTGGTCCTTG GGGACAGCAC CAGTAAGTTC
    TCAGAGGAGA ACAATGGTAT TAAAAGACAG AAGAAAATGA AGAGCTCCAA AAAGGCACAT
    CCTAAGCCAC CCAGGAAAGT CGATGCCAGC CTCACAATAG ACATGGCGAA ATTGTTTCTG
    TCTTGTATTT TGCCATGGGG AGTGGATAAA GATTTAGACA GCCTCTGCAC CAGGCATCTC
    AGCATCTTAA AGCTGCAGGG CCCCGTGTCT TTGGGACTTG CCTCGAATGA AGACCTCTTT
    TCCCTGATGC TGCCTGGGTG GGATGCATGC AGTACTGAAA TGAAGGAGTA CTCAGGGGTA
    AATCTGTGCT CCAGAAAAGT TTTGGACTTG TCAAATAAAT ACACAGCCAC TCTTCTGCAC
    CAGACTGGAA TTCCCCGAGG CCTGGAAAGT CACTGTGACT CTGTGCAGCA ATCAGATGCT
    ATTGTGTATT TACTGAGCAG ACTCTTTTTA GTTAATAAGT TAGTTAACAT GCCTTTGGAT
    TTGGCCTGTG AAATCGACAG ACCCTTCAAA ATGGAGACTG TACACAGCAA GGCAAGATTC
    CCTGGAAGTG ACATTTTGAA TATATCAAGC TTCTATGGTC ACCTAAAAAA TGGTCGAAAT
    GAGTGTCACA CACCTGAGGC TGACCTCTCG CTTTTGAAGC TTATCTCGTG CTGGAGAGAC
    CAGTCTGTAC AGGTAACTGA AGCAATACAA GCTGTCCTCT TGGCTGAAGT CCAACAGCAT
    ATGAAGAGTC TGAGAAATAC ACCAGTCAGT AGTCAACCAG ATCCCGTGGC AGAGCATAGC
    ATCTGTGAGA GGATGCAGAT CTCAGCCAAG ATGGAGCGAG CTGAAGAATT AGAGCTGCAG
    TGTGTGGGGA AGTCTTCACC TCTGAAAACT TCAGTCAGTC CGGTCAAGCA TGGCAACGAC
    TTGAACTCGG CAAACTTCCA AGATACAGAG GACATTCTTG ACAGATGTGT CTTGGAAGAG
    TCGGAGAGTG CAGGAATTTG GTGGCACCGA GGGACCGTTT GGAACTGTGA AATTATGACA
    ATCCATTCTT CAGTGCCCAA AGATAAACTT CAGAGTCGGA AGTCACACCA AGCATAG

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

    RefSeq XP_029337990.1
    CDS364..3720
    Translation

    Target ORF information:

    RefSeq Version XM_029482130.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli WD repeat domain 72 (Wdr72), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029482130.1

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGTGG GCTTTCCAAA TGCGCGTGCC CTGCCGACGG AGGTGTCCTG
    AAGGGAACTG TCTACCCTCA CTTACTCTGC TCCACTTCTG TGGAGGAAAA TAAGAGCCTG
    CATTTCGTCA TGGGCTACAT GAATGAACGG AAAGAGCCAT TTTACAAGGT GCTTTTCTCA
    GGTGAAGTCT CGGGGAGAAT AACATTGTGG CATATCCCAG ATGTCCCCAT ATCTAAGTTT
    GACGGTTCCC CTAGAGAAAT ACCAATAACT ACCACCTGGA CTCTTCAGGA TAACTTCGAT
    AAGCATCAAA TGGTGTCACA GAGCATCACA GACCATTTCT CTGGGTCCAG AGATGAGGTG
    GGAATGACAG CTACCATCAC CTCATCAGAG TACATTCCAA ATCTTGATAA GCTCATCTGT
    GGCTGTGAGG ATGGGACCAT TTTCATCACT AAGGCCTTGA ATGCTGCCAA AGCTGGACTT
    CTAGAAGGGG ATTCTTTACT GAAAGATTCC CCGTGCCACA CCCTTCTCAG AGGCCATCAC
    CAGAGTGTGA CTTCATTACT TTACCCTCAC AGTCTTGCTT CAAAGTTAGA CCAAAGTTGG
    ATGGTGTCTG GGGACCGAGG CTCCTATGTG ATCCTCTGGG ATATTTTTAC CGAGGAAATT
    CTGCACACGT TCTTTTTGGA AGCTGGTCCA GTAACAAGAC TATTGATGTC ACCAGAGACC
    TTGAAGCGAA GTGATGGTCA GATCCTCTGC TGTGTGTGTG GTGACCATTC CGTGACTCTC
    CTTCACCTGG AAGGGAGACG GTGCCTCTTG CGTGCTCGGA AGCACCTTTT CCCTGTGAGG
    ATGATCAGAT GGCATCCAGT CGAGAACTTT CTCATTGTTG GTTGTACAGA TGACTCTGTC
    TACATCTGGG AAATTGAAAC AGGCACTTTG GAAAGGCACG AGACAGGAGA AAGAGCAAGG
    ATTATTCTCA ACTGTGGTGA CGATACTCAG CTCATCAGAT CTGAGCCTAC ACTGTCAGTG
    GCCTCTGAGA CACATAAGCA CAAAAGTGTA GAGCAGAAGA CATCCAACTC CCACCAGCCT
    GGGCCAGTAC CCTGCCCCAG TGTGCAGCTG GAGTCTTCAT GTAAGGTTGC TGATGCTTCA
    TCGGTCCCAA GACCTTTCAA TGTCTTGCCT GTGAAAACAA AATGGAGTCA CATTGGCTTC
    CATGTTCTCC TGTTTGATCT GGAAAATCTT GTTGAACTAC TGCTGCCCAC TCCCCTAAGT
    GATGTTGACC CTTCTGGCTC ATTCTATGGA GGTGACATCT TGAGGAGAGC CAAGAGCACA
    GTAGAGAAGA AGACCCTGAC AATAAGAAGA AACAAAGCAT CGTGTAGCTC TCTCCAGACA
    GAGGCACAAG CCAAGCCCAG TGAGGACACC CTGGTCCTTG GGGACAGCAC CAGTAAGTTC
    TCAGAGGAGA ACAATGGTAT TAAAAGACAG AAGAAAATGA AGAGCTCCAA AAAGGCACAT
    CCTAAGCCAC CCAGGAAAGT CGATGCCAGC CTCACAATAG ACATGGCGAA ATTGTTTCTG
    TCTTGTATTT TGCCATGGGG AGTGGATAAA GATTTAGACA GCCTCTGCAC CAGGCATCTC
    AGCATCTTAA AGCTGCAGGG CCCCGTGTCT TTGGGACTTG CCTCGAATGA AGACCTCTTT
    TCCCTGATGC TGCCTGGGTG GGATGCATGC AGTACTGAAA TGAAGGAGTA CTCAGGGGTA
    AATCTGTGCT CCAGAAAAGT TTTGGACTTG TCAAATAAAT ACACAGCCAC TCTTCTGCAC
    CAGACTGGAA TTCCCCGAGG CCTGGAAAGT CACTGTGACT CTGTGCAGCA ATCAGATGCT
    ATTGTGTATT TACTGAGCAG ACTCTTTTTA GTTAATAAGT TAGTTAACAT GCCTTTGGAT
    TTGGCCTGTG AAATCGACAG ACCCTTCAAA ATGGAGACTG TACACAGCAA GGCAAGATTC
    CCTGGAAGTG ACATTTTGAA TATATCAAGC TTCTATGGTC ACCTAAAAAA TGGTCGAAAT
    GAGTGTCACA CACCTGAGGC TGACCTCTCG CTTTTGAAGC TTATCTCGTG CTGGAGAGAC
    CAGTCTGTAC AGGTAACTGA AGCAATACAA GCTGTCCTCT TGGCTGAAGT CCAACAGCAT
    ATGAAGAGTC TGAGAAATAC ACCAGTCAGT AGTCAACCAG ATCCCGTGGC AGAGCATAGC
    ATCTGTGAGA GGATGCAGAT CTCAGCCAAG ATGGAGCGAG CTGAAGAATT AGAGCTGCAG
    TGTGTGGGGA AGTCTTCACC TCTGAAAACT TCAGTCAGTC CGGTCAAGCA TGGCAACGAC
    TTGAACTCGG CAAACTTCCA AGATACAGAG GACATTCTTG ACAGATGTGT CTTGGAAGAG
    TCGGAGAGTG CAGGAATTTG GTGGCACCGA GGGACCGTTT GGAACTGTGA AATTATGACA
    ATCCATTCTT CAGTGCCCAA AGATAAACTT CAGAGTCGGA AGTCACACCA AGCATAG

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

    CloneID OMv76341
    Clone ID Related Accession (Same CDS sequence) XM_029482131.1
    Accession Version XM_029482131.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3309bp)
    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 WD repeat-containing protein 72 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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##

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGTGG GCTTTCCAAA TGCGCGTGCC CTGCCGACGG AGGTGTCCTG
    AAGGGAACTG TCTACCCTCA CTTACTCTGC TCCACTTCTG TGGAGGAAAA TAAGAGCCTG
    CATTTCGTCA TGGGCTACAT GAATGAACGG AAAGAGCCAT TTTACAAGGT GCTTTTCTCA
    GGTGAAGTCT CGGGGAGAAT AACATTGTGG CATATCCCAG ATGTCCCCAT ATCTAAGTTT
    GACGGTTCCC CTAGAGAAAT ACCAATAACT ACCACCTGGA CTCTTCAGGA TAACTTCGAT
    AAGCATCAAA TGGTGTCACA GAGCATCACA GACCATTTCT CTGGGTCCAG AGATGAGGTG
    GGAATGACAG CTACCATCAC CTCATCAGAG TACATTCCAA ATCTTGATAA GCTCATCTGT
    GGCTGTGAGG ATGGGACCAT TTTCATCACT AAGGCCTTGA ATGCTGCCAA AGCTGGACTT
    CTAGAAGGGG ATTCTTTACT GAAAGATTCC CCGTGCCACA CCCTTCTCAG AGGCCATCAC
    CAGAGTGTGA CTTCATTACT TTACCCTCAC AGTCTTGCTT CAAAGTTAGA CCAAAGTTGG
    ATGGTGTCTG GGGACCGAGG CTCCTATGTG ATCCTCTGGG ATATTTTTAC CGAGGAAATT
    CTGCACACGT TCTTTTTGGA AGCTGGTCCA GTAACAAGAC TATTGATGTC ACCAGAGACC
    TTGAAGCGAA GTGATGGTCA GATCCTCTGC TGTGTGTGTG GTGACCATTC CGTGACTCTC
    CTTCACCTGG AAGGGAGACG GTGCCTCTTG CGTGCTCGGA AGCACCTTTT CCCTGTGAGG
    ATGATCAGAT GGCATCCAGT CGAGAACTTT CTCATTGTTG GTTGTACAGA TGACTCTGTC
    TACATCTGGG AAATTGAAAC AGGCACTTTG GAAAGGCACG AGACAGGAGA AAGAGCAAGG
    ATTATTCTCA ACTGTGGTGA CGATACTCAG CTCATCAGAT CTGAGCCTAC ACTGTCAGTG
    GCCTCTGAGA CACATAAGCA CAAAAGTGTA GAGCAGAAGA CATCCAACTC CCACCAGCCT
    GGGCCAGTAC CCTGCCCCAG TGTGCAGCTG GAGTCTTCAT GTAAGGTTGC TGATGCTTCA
    TCGGTCCCAA GACCTTTCAA TGTCTTGCCT GTGAAAACAA AATGGAGTCA CATTGGCTTC
    CATGTTCTCC TGTTTGATCT GGAAAATCTT GTTGAACTAC TGCTGCCCAC TCCCCTAAGT
    GATGTTGACC CTTCTGGCTC ATTCTATGGA GGTGACATCT TGAGGAGAGC CAAGAGCACA
    GTAGAGAAGA AGACCCTGAC AATAAGAAGA AACAAAGCAT CGTGTAGCTC TCTCCAGACA
    GAGGCACAAG CCAAGCCCAG TGAGGACACC CTGGTCCTTG GGGACAGCAC CAGTAAGTTC
    TCAGAGGAGA ACAATGGTAT TAAAAGACAG AAGAAAATGA AGAGCTCCAA AAAGGCACAT
    CCTAAGCCAC CCAGGAAAGT CGATGCCAGC CTCACAATAG ACATGGCGAA ATTGTTTCTG
    TCTTGTATTT TGCCATGGGG AGTGGATAAA GATTTAGACA GCCTCTGCAC CAGGCATCTC
    AGCATCTTAA AGCTGCAGGG CCCCGTGTCT TTGGGACTTG CCTCGAATGA AGACCTCTTT
    TCCCTGATGC TGCCTGGGTG GGATGCATGC AGTACTGAAA TGAAGGAGTA CTCAGGGGTA
    AATCTGTGCT CCAGAAAAGT TTTGGACTTG TCAAATAAAT ACACAGCCAC TCTTCTGCAC
    CAGACTGGAA TTCCCCGAGG CCTGGAAAGT CACTGTGACT CTGTGCAGCA ATCAGATGCT
    ATTGTGTATT TACTGAGCAG ACTCTTTTTA GTTAATAAGT TAGTTAACAT GCCTTTGGAT
    TTGGCCTGTG AAATCGACAG ACCCTTCAAA ATGGAGACTG TACACAGCAA GGCAAGATTC
    CCTGGAAGTG ACATTTTGAA TATATCAAGC TTCTATGGTC ACCTAAAAAA TGGTCGAAAT
    GAGTGTCACA CACCTGAGGC TGACCTCTCG CTTTTGAAGC TTATCTCGTG CTGGAGAGAC
    CAGTCTGTAC AGGTAACTGA AGCAATACAA GCTGTCCTCT TGGCTGAAGT CCAACAGCAT
    ATGAAGAGTC TGAGAAATAC ACCAGTCAGT AGTCAACCAG ATCCCGTGGC AGAGCATAGC
    ATCTGTGAGA GGATGCAGAT CTCAGCCAAG ATGGAGCGAG CTGAAGAATT AGAGCTGCAG
    TGTGTGGGGA AGTCTTCACC TCTGAAAACT TCAGTCAGTC CGGTCAAGCA TGGCAACGAC
    TTGAACTCGG CAAACTTCCA AGATACAGAG GACATTCTTG ACAGATGTGT CTTGGAAGAG
    TCGGAGAGTG CAGGTCAGCC AAGGCATCGT CCATGGATAG CGAAGGTGTG CTCCTGCAGG
    ATGTGCTAG

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

    RefSeq XP_029337991.1
    CDS364..3672
    Translation

    Target ORF information:

    RefSeq Version XM_029482131.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli WD repeat domain 72 (Wdr72), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029482131.1

    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
    ATGAGGGGTG CTCTGCAGGC TGTGGCCCTC TGGGGAAGAA AAGCTCCCCC CCACAGCATC 
    ACGGCCATCA TGATCACAGA TGACCAGCAA ACCATAGTGA CTGGAAGTCA GGAGGGTCAG
    CTCTGCCTCT GGAGCCTCTC ACCTGAACTG AAGATTTCAG CTAAAGAACT TCTTTTTGGT
    CATTCGGCTT CGGTGACATG TTTGGCAAGA GCAAGAGACT TCTCCAAACA GCCTTACGTT
    GTGAGTGCTG CTGAGAATGG GGAGATGTGT ATGTGGAATG TGAGCAGCGG CCAGTGTGTG
    GAGAAGACCA CCCTTCCTTA CAGGCACACT GCCATCTGTT ACTACCACTG CTCCTTCCGG
    ATGACTGGCG AGGGCTGGCT GCTGTGCTGT GGGGAATATC AAGATGTTCT CGTCCTTGAT
    GCTGGAACTC TGGCTGTCCT GCACACCTTT ACCTCTTTAC AGTCTCCCGA CTGGATGAAA
    TGCATGTGCA TCGTTCACTC CGTGAGAATT CAAGAAGATT CTCTCTTGGT TGTGTCCGTA
    ACTGGCGAGC TCAAAGTATG GGATCTCTCC TCGTCCATCA ACAGCATTCA GGAAAAGCAA
    GATGTCTATG AAAAAGAATC CAAGTTTCTT GACTCCTTCA ACTGTCAGAC CATACGGTTT
    TGTCCGTACA CAGAGAGACT CCTGTTGGTG GTGTTTTCTA AGTGTTGGAA GATTTATGAC
    TATTGTGACT TCTCCCTTCT GTGGACTGAA GTTAGTAGAG ACGGGCAATT CTTTGCTGGT
    GGAGAGGTGC TTGCTGCCCA CAGGATCCTT GTTTGGACAG AAGATGGTCA CAGTTATATC
    TATCAGCTGC TGAACAGTGG GCTTTCCAAA TGCGCGTGCC CTGCCGACGG AGGTGTCCTG
    AAGGGAACTG TCTACCCTCA CTTACTCTGC TCCACTTCTG TGGAGGAAAA TAAGAGCCTG
    CATTTCGTCA TGGGCTACAT GAATGAACGG AAAGAGCCAT TTTACAAGGT GCTTTTCTCA
    GGTGAAGTCT CGGGGAGAAT AACATTGTGG CATATCCCAG ATGTCCCCAT ATCTAAGTTT
    GACGGTTCCC CTAGAGAAAT ACCAATAACT ACCACCTGGA CTCTTCAGGA TAACTTCGAT
    AAGCATCAAA TGGTGTCACA GAGCATCACA GACCATTTCT CTGGGTCCAG AGATGAGGTG
    GGAATGACAG CTACCATCAC CTCATCAGAG TACATTCCAA ATCTTGATAA GCTCATCTGT
    GGCTGTGAGG ATGGGACCAT TTTCATCACT AAGGCCTTGA ATGCTGCCAA AGCTGGACTT
    CTAGAAGGGG ATTCTTTACT GAAAGATTCC CCGTGCCACA CCCTTCTCAG AGGCCATCAC
    CAGAGTGTGA CTTCATTACT TTACCCTCAC AGTCTTGCTT CAAAGTTAGA CCAAAGTTGG
    ATGGTGTCTG GGGACCGAGG CTCCTATGTG ATCCTCTGGG ATATTTTTAC CGAGGAAATT
    CTGCACACGT TCTTTTTGGA AGCTGGTCCA GTAACAAGAC TATTGATGTC ACCAGAGACC
    TTGAAGCGAA GTGATGGTCA GATCCTCTGC TGTGTGTGTG GTGACCATTC CGTGACTCTC
    CTTCACCTGG AAGGGAGACG GTGCCTCTTG CGTGCTCGGA AGCACCTTTT CCCTGTGAGG
    ATGATCAGAT GGCATCCAGT CGAGAACTTT CTCATTGTTG GTTGTACAGA TGACTCTGTC
    TACATCTGGG AAATTGAAAC AGGCACTTTG GAAAGGCACG AGACAGGAGA AAGAGCAAGG
    ATTATTCTCA ACTGTGGTGA CGATACTCAG CTCATCAGAT CTGAGCCTAC ACTGTCAGTG
    GCCTCTGAGA CACATAAGCA CAAAAGTGTA GAGCAGAAGA CATCCAACTC CCACCAGCCT
    GGGCCAGTAC CCTGCCCCAG TGTGCAGCTG GAGTCTTCAT GTAAGGTTGC TGATGCTTCA
    TCGGTCCCAA GACCTTTCAA TGTCTTGCCT GTGAAAACAA AATGGAGTCA CATTGGCTTC
    CATGTTCTCC TGTTTGATCT GGAAAATCTT GTTGAACTAC TGCTGCCCAC TCCCCTAAGT
    GATGTTGACC CTTCTGGCTC ATTCTATGGA GGTGACATCT TGAGGAGAGC CAAGAGCACA
    GTAGAGAAGA AGACCCTGAC AATAAGAAGA AACAAAGCAT CGTGTAGCTC TCTCCAGACA
    GAGGCACAAG CCAAGCCCAG TGAGGACACC CTGGTCCTTG GGGACAGCAC CAGTAAGTTC
    TCAGAGGAGA ACAATGGTAT TAAAAGACAG AAGAAAATGA AGAGCTCCAA AAAGGCACAT
    CCTAAGCCAC CCAGGAAAGT CGATGCCAGC CTCACAATAG ACATGGCGAA ATTGTTTCTG
    TCTTGTATTT TGCCATGGGG AGTGGATAAA GATTTAGACA GCCTCTGCAC CAGGCATCTC
    AGCATCTTAA AGCTGCAGGG CCCCGTGTCT TTGGGACTTG CCTCGAATGA AGACCTCTTT
    TCCCTGATGC TGCCTGGGTG GGATGCATGC AGTACTGAAA TGAAGGAGTA CTCAGGGGTA
    AATCTGTGCT CCAGAAAAGT TTTGGACTTG TCAAATAAAT ACACAGCCAC TCTTCTGCAC
    CAGACTGGAA TTCCCCGAGG CCTGGAAAGT CACTGTGACT CTGTGCAGCA ATCAGATGCT
    ATTGTGTATT TACTGAGCAG ACTCTTTTTA GTTAATAAGT TAGTTAACAT GCCTTTGGAT
    TTGGCCTGTG AAATCGACAG ACCCTTCAAA ATGGAGACTG TACACAGCAA GGCAAGATTC
    CCTGGAAGTG ACATTTTGAA TATATCAAGC TTCTATGGTC ACCTAAAAAA TGGTCGAAAT
    GAGTGTCACA CACCTGAGGC TGACCTCTCG CTTTTGAAGC TTATCTCGTG CTGGAGAGAC
    CAGTCTGTAC AGGTAACTGA AGCAATACAA GCTGTCCTCT TGGCTGAAGT CCAACAGCAT
    ATGAAGAGTC TGAGAAATAC ACCAGTCAGT AGTCAACCAG ATCCCGTGGC AGAGCATAGC
    ATCTGTGAGA GGATGCAGAT CTCAGCCAAG ATGGAGCGAG CTGAAGAATT AGAGCTGCAG
    TGTGTGGGGA AGTCTTCACC TCTGAAAACT TCAGTCAGTC CGGTCAAGCA TGGCAACGAC
    TTGAACTCGG CAAACTTCCA AGATACAGAG GACATTCTTG ACAGATGTGT CTTGGAAGAG
    TCGGAGAGTG CAGGTCAGCC AAGGCATCGT CCATGGATAG CGAAGGTGTG CTCCTGCAGG
    ATGTGCTAG

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