ORF » Species Summary » Mus caroli » Cdc42bpa cDNA ORF clone

Cdc42bpa cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Cdc42bpa gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Cdc42bpa 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
OMv22385 XM_021164427.2
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv22386 XM_021164511.2
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv66185 XM_029475997.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv66186 XM_029476000.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv66187 XM_029476003.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv66188 XM_029476006.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv66189 XM_029476009.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv66190 XM_029476012.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv66191 XM_029476022.1
Latest version!		 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
View Old Accession Versions >>
OMv22385 XM_021164427.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv22386 XM_021164511.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
Hide Old Accession Versions >>

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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)
    Cdc42bpa ( XM_021164427.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021020086.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv22385
    Clone ID Related Accession (Same CDS sequence) XM_021164427.2 , XM_021164427.1
    Accession Version XM_021164427.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5160bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021164427.1. ##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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAATTGCA GACTGTGCTC CACTTCCAGC TCACACACCA 
    ACCTTAAGGA AAAAGGGATG CCCGGCTTCA ACTGGCTTTC CACCTAAGCG CAAGACTCAT 
    CAATTTTTCG TGAAGTCTTT CACTGCCCCT ACCAAATGTC ATCAGTGCAC CTCCTTGATG 
    GTCGGTTTGA TAAGACAGGG CTGTTCCTGT GAAGTCTGTG GGTTCTCATG TCATATAACT 
    TGTGTGAACA AAGCCCCGAC GGTTTGCCCA GTTCCTCCCG AGCAAACTAA AGGTCCATTG 
    GGCATAGACC CCCAGAAGGG AGTCGGGACG GCGTATGAGG GTCATGTCAG GATCCCTAAG 
    CCAGCGGGAG TGAAGAAAGG GTGGCAGAGA GCACTGGCTG TGGTCTGCGA CTTCAAACTG 
    TTTCTTTATG ATATTGCGGA GGGAAAAGCA TCGCAGCCCA GCTCCGTCAT TAGTCAAGTG 
    ATTGACATGA GAGATGAAGA ATTTTCTGTG AGTTCAGTCT TAGCTTCTGA TGTTATTCAC 
    GCAAGTCGAA AAGATATTCC CTGTATATTC AGAGTCACAG CTTCCCAGCT CTCAGCACCT 
    AGTAACAAAT GTTCCATCCT GATGCTAGCA GACAGCGAGA ATGAGAGGAG TAAGTGGGTG 
    GGAGTGCTGA GTGAACTCCA CAAGATTCTG AAGAAAAACA AGTTCAGAGA CCGCTCAGTG 
    TATGTCCCCA AGGAGGCTTA CGACAGCACG CTACCCCTCA TTAAGACAAC GCAGGCTGCT 
    GCAATCATAG ATCATGAACG GATAGCTTTG GGAAATGAAG AAGGATTATT TGTTGTGCAT 
    GTCACCAAAG ATGAGATTAT TAGAGTTGGT GATAATAAGA AAATCCATCA GATTGAACTC 
    ATTCCAAGTG ACCAGCTTGT TGCTGTGATC TCGGGCCGAA ATCGCCATGT CCGACTTTTT 
    CCTATGTCAG CTTTGGATGG GCAAGAGACA GATTTTTATA AACTGGCAGA GACTAAAGGG 
    TGTCAGACCA TAGCTGCTGG GAAAGTGCGC CACGGAGCTC TGTCCTGCCT GTGTGTGGCC 
    ATGAAGAGAC AGGTCCTCTG CTATGAACTG TTCCAAAGCA AGACCAGGCA CAGGAAGTTT 
    AAGGAGATTC AAGTCCCATG TAATGTCCAG TGGATGGCCA TCTTCAGTGA GCATCTCTGT 
    GTGGGATTCC AGTCAGGATT TCTCAGATAC CCCCTGAATG GAGAAGGAGG TCCATGCAAT 
    ATGCTCCATT CAAATGACCA TACACTGTCA TTCATTACAC ACCAACCAAT GGATGCTCTC 
    TGTGCAGTTG AGATCTCCAA CAAAGAGTAT TTGCTGTGTT TTAACAGCAT TGGGATATAC 
    ACAGACTGCC AGGGCCGAAG GTCTAGACAG CAGGAACTCA TGTGGCCAGC AAATCCTTCC 
    TCCTGTTGTT ACAATGCACC ATATCTCTCC GTGTATAGTG AAAACGCAGT TGATGTCTTT 
    GATGTCAACT CCATGGAATG GATACAGACT CTTCCTCTCA AAAAGGTCCG ACCTTTAAAC 
    ACTGAAGGAT CATTAAATCT CTTAGGATTG GAGACCATTA GATTAATATA TTTCAAAAAT 
    AAGATGGCAG AAGGGGATGA ACTTGTGGTC CCTGAAACAT CAGATAATAG TCGGAAGCAA 
    ATGGTCAGAA ATATCAACAA CAAACGGCGC TACTCCTTCC GAGTCCCTGA GGAAGAGAGG 
    ATGCAACAGA GGAGGGAGAT GCTACGAGAT CCAGAAATGA GAAATAAATT AATTTCTAAC 
    CCAACTAATT TTAACCACAT AGCACACATG GGTCCTGGAG ATGGAATACA GATCCTAAAA 
    GACCTGCCCA TGAACCCACG GCCTCAGGAA AGCCGGACAG TATTCAGTGG CTCCGTCAGT 
    ATTCCCTCCA TCACCAAGTC CCGCCCTGAG CCAGGCCGCT CCATGAGTGC CAGCAGCGGC 
    CTGTCTGCAC GGTCGTCAGC CCAGAATGGC AGTGCACTAA AGAGGGAATT CTCCGGAGGA 
    AGCTATAACA CAAAGCGACA GCCCATGCCC TCTCCCTCGG AGGGCTCTTT GTCATCAGGA 
    GGCATGGACC AAGGAAGTGA CGCCCCTGCG AGGGACTATG ATGGAGAGGA CTCTGATTCT 
    CCAAGGCATT CCACAGCTTC CAACAGCTCT AACCTGAGCA GCCCCCCAAG TCCCATTTCA 
    CCCCAAAAGA CCAAGAGCCT CTCCCTGGAG AGCACAGACC GCGGGAGCTG GGATCCATGA

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

    RefSeq XP_021020086.1
    CDS1266..6425
    Translation

    Target ORF information:

    RefSeq Version XM_021164427.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021164427.2

    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
    4921
    4981
    5041
    5101
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAATTGCA GACTGTGCTC CACTTCCAGC TCACACACCA 
    ACCTTAAGGA AAAAGGGATG CCCGGCTTCA ACTGGCTTTC CACCTAAGCG CAAGACTCAT 
    CAATTTTTCG TGAAGTCTTT CACTGCCCCT ACCAAATGTC ATCAGTGCAC CTCCTTGATG 
    GTCGGTTTGA TAAGACAGGG CTGTTCCTGT GAAGTCTGTG GGTTCTCATG TCATATAACT 
    TGTGTGAACA AAGCCCCGAC GGTTTGCCCA GTTCCTCCCG AGCAAACTAA AGGTCCATTG 
    GGCATAGACC CCCAGAAGGG AGTCGGGACG GCGTATGAGG GTCATGTCAG GATCCCTAAG 
    CCAGCGGGAG TGAAGAAAGG GTGGCAGAGA GCACTGGCTG TGGTCTGCGA CTTCAAACTG 
    TTTCTTTATG ATATTGCGGA GGGAAAAGCA TCGCAGCCCA GCTCCGTCAT TAGTCAAGTG 
    ATTGACATGA GAGATGAAGA ATTTTCTGTG AGTTCAGTCT TAGCTTCTGA TGTTATTCAC 
    GCAAGTCGAA AAGATATTCC CTGTATATTC AGAGTCACAG CTTCCCAGCT CTCAGCACCT 
    AGTAACAAAT GTTCCATCCT GATGCTAGCA GACAGCGAGA ATGAGAGGAG TAAGTGGGTG 
    GGAGTGCTGA GTGAACTCCA CAAGATTCTG AAGAAAAACA AGTTCAGAGA CCGCTCAGTG 
    TATGTCCCCA AGGAGGCTTA CGACAGCACG CTACCCCTCA TTAAGACAAC GCAGGCTGCT 
    GCAATCATAG ATCATGAACG GATAGCTTTG GGAAATGAAG AAGGATTATT TGTTGTGCAT 
    GTCACCAAAG ATGAGATTAT TAGAGTTGGT GATAATAAGA AAATCCATCA GATTGAACTC 
    ATTCCAAGTG ACCAGCTTGT TGCTGTGATC TCGGGCCGAA ATCGCCATGT CCGACTTTTT 
    CCTATGTCAG CTTTGGATGG GCAAGAGACA GATTTTTATA AACTGGCAGA GACTAAAGGG 
    TGTCAGACCA TAGCTGCTGG GAAAGTGCGC CACGGAGCTC TGTCCTGCCT GTGTGTGGCC 
    ATGAAGAGAC AGGTCCTCTG CTATGAACTG TTCCAAAGCA AGACCAGGCA CAGGAAGTTT 
    AAGGAGATTC AAGTCCCATG TAATGTCCAG TGGATGGCCA TCTTCAGTGA GCATCTCTGT 
    GTGGGATTCC AGTCAGGATT TCTCAGATAC CCCCTGAATG GAGAAGGAGG TCCATGCAAT 
    ATGCTCCATT CAAATGACCA TACACTGTCA TTCATTACAC ACCAACCAAT GGATGCTCTC 
    TGTGCAGTTG AGATCTCCAA CAAAGAGTAT TTGCTGTGTT TTAACAGCAT TGGGATATAC 
    ACAGACTGCC AGGGCCGAAG GTCTAGACAG CAGGAACTCA TGTGGCCAGC AAATCCTTCC 
    TCCTGTTGTT ACAATGCACC ATATCTCTCC GTGTATAGTG AAAACGCAGT TGATGTCTTT 
    GATGTCAACT CCATGGAATG GATACAGACT CTTCCTCTCA AAAAGGTCCG ACCTTTAAAC 
    ACTGAAGGAT CATTAAATCT CTTAGGATTG GAGACCATTA GATTAATATA TTTCAAAAAT 
    AAGATGGCAG AAGGGGATGA ACTTGTGGTC CCTGAAACAT CAGATAATAG TCGGAAGCAA 
    ATGGTCAGAA ATATCAACAA CAAACGGCGC TACTCCTTCC GAGTCCCTGA GGAAGAGAGG 
    ATGCAACAGA GGAGGGAGAT GCTACGAGAT CCAGAAATGA GAAATAAATT AATTTCTAAC 
    CCAACTAATT TTAACCACAT AGCACACATG GGTCCTGGAG ATGGAATACA GATCCTAAAA 
    GACCTGCCCA TGAACCCACG GCCTCAGGAA AGCCGGACAG TATTCAGTGG CTCCGTCAGT 
    ATTCCCTCCA TCACCAAGTC CCGCCCTGAG CCAGGCCGCT CCATGAGTGC CAGCAGCGGC 
    CTGTCTGCAC GGTCGTCAGC CCAGAATGGC AGTGCACTAA AGAGGGAATT CTCCGGAGGA 
    AGCTATAACA CAAAGCGACA GCCCATGCCC TCTCCCTCGG AGGGCTCTTT GTCATCAGGA 
    GGCATGGACC AAGGAAGTGA CGCCCCTGCG AGGGACTATG ATGGAGAGGA CTCTGATTCT 
    CCAAGGCATT CCACAGCTTC CAACAGCTCT AACCTGAGCA GCCCCCCAAG TCCCATTTCA 
    CCCCAAAAGA CCAAGAGCCT CTCCCTGGAG AGCACAGACC GCGGGAGCTG GGATCCATGA

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

    Cdc42bpa ( XM_021164427.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021020086.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv22385
    Clone ID Related Accession (Same CDS sequence) XM_021164427.2 , XM_021164427.1
    Accession Version XM_021164427.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5160bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product serine/threonine-protein kinase MRCK alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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 Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAATTGCA GACTGTGCTC CACTTCCAGC TCACACACCA 
    ACCTTAAGGA AAAAGGGATG CCCGGCTTCA ACTGGCTTTC CACCTAAGCG CAAGACTCAT 
    CAATTTTTCG TGAAGTCTTT CACTGCCCCT ACCAAATGTC ATCAGTGCAC CTCCTTGATG 
    GTCGGTTTGA TAAGACAGGG CTGTTCCTGT GAAGTCTGTG GGTTCTCATG TCATATAACT 
    TGTGTGAACA AAGCCCCGAC GGTTTGCCCA GTTCCTCCCG AGCAAACTAA AGGTCCATTG 
    GGCATAGACC CCCAGAAGGG AGTCGGGACG GCGTATGAGG GTCATGTCAG GATCCCTAAG 
    CCAGCGGGAG TGAAGAAAGG GTGGCAGAGA GCACTGGCTG TGGTCTGCGA CTTCAAACTG 
    TTTCTTTATG ATATTGCGGA GGGAAAAGCA TCGCAGCCCA GCTCCGTCAT TAGTCAAGTG 
    ATTGACATGA GAGATGAAGA ATTTTCTGTG AGTTCAGTCT TAGCTTCTGA TGTTATTCAC 
    GCAAGTCGAA AAGATATTCC CTGTATATTC AGAGTCACAG CTTCCCAGCT CTCAGCACCT 
    AGTAACAAAT GTTCCATCCT GATGCTAGCA GACAGCGAGA ATGAGAGGAG TAAGTGGGTG 
    GGAGTGCTGA GTGAACTCCA CAAGATTCTG AAGAAAAACA AGTTCAGAGA CCGCTCAGTG 
    TATGTCCCCA AGGAGGCTTA CGACAGCACG CTACCCCTCA TTAAGACAAC GCAGGCTGCT 
    GCAATCATAG ATCATGAACG GATAGCTTTG GGAAATGAAG AAGGATTATT TGTTGTGCAT 
    GTCACCAAAG ATGAGATTAT TAGAGTTGGT GATAATAAGA AAATCCATCA GATTGAACTC 
    ATTCCAAGTG ACCAGCTTGT TGCTGTGATC TCGGGCCGAA ATCGCCATGT CCGACTTTTT 
    CCTATGTCAG CTTTGGATGG GCAAGAGACA GATTTTTATA AACTGGCAGA GACTAAAGGG 
    TGTCAGACCA TAGCTGCTGG GAAAGTGCGC CACGGAGCTC TGTCCTGCCT GTGTGTGGCC 
    ATGAAGAGAC AGGTCCTCTG CTATGAACTG TTCCAAAGCA AGACCAGGCA CAGGAAGTTT 
    AAGGAGATTC AAGTCCCATG TAATGTCCAG TGGATGGCCA TCTTCAGTGA GCATCTCTGT 
    GTGGGATTCC AGTCAGGATT TCTCAGATAC CCCCTGAATG GAGAAGGAGG TCCATGCAAT 
    ATGCTCCATT CAAATGACCA TACACTGTCA TTCATTACAC ACCAACCAAT GGATGCTCTC 
    TGTGCAGTTG AGATCTCCAA CAAAGAGTAT TTGCTGTGTT TTAACAGCAT TGGGATATAC 
    ACAGACTGCC AGGGCCGAAG GTCTAGACAG CAGGAACTCA TGTGGCCAGC AAATCCTTCC 
    TCCTGTTGTT ACAATGCACC ATATCTCTCC GTGTATAGTG AAAACGCAGT TGATGTCTTT 
    GATGTCAACT CCATGGAATG GATACAGACT CTTCCTCTCA AAAAGGTCCG ACCTTTAAAC 
    ACTGAAGGAT CATTAAATCT CTTAGGATTG GAGACCATTA GATTAATATA TTTCAAAAAT 
    AAGATGGCAG AAGGGGATGA ACTTGTGGTC CCTGAAACAT CAGATAATAG TCGGAAGCAA 
    ATGGTCAGAA ATATCAACAA CAAACGGCGC TACTCCTTCC GAGTCCCTGA GGAAGAGAGG 
    ATGCAACAGA GGAGGGAGAT GCTACGAGAT CCAGAAATGA GAAATAAATT AATTTCTAAC 
    CCAACTAATT TTAACCACAT AGCACACATG GGTCCTGGAG ATGGAATACA GATCCTAAAA 
    GACCTGCCCA TGAACCCACG GCCTCAGGAA AGCCGGACAG TATTCAGTGG CTCCGTCAGT 
    ATTCCCTCCA TCACCAAGTC CCGCCCTGAG CCAGGCCGCT CCATGAGTGC CAGCAGCGGC 
    CTGTCTGCAC GGTCGTCAGC CCAGAATGGC AGTGCACTAA AGAGGGAATT CTCCGGAGGA 
    AGCTATAACA CAAAGCGACA GCCCATGCCC TCTCCCTCGG AGGGCTCTTT GTCATCAGGA 
    GGCATGGACC AAGGAAGTGA CGCCCCTGCG AGGGACTATG ATGGAGAGGA CTCTGATTCT 
    CCAAGGCATT CCACAGCTTC CAACAGCTCT AACCTGAGCA GCCCCCCAAG TCCCATTTCA 
    CCCCAAAAGA CCAAGAGCCT CTCCCTGGAG AGCACAGACC GCGGGAGCTG GGATCCATGA

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

    RefSeq XP_021020086.1
    CDS218..5377
    Translation

    Target ORF information:

    RefSeq Version XM_021164427.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021164427.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAATTGCA GACTGTGCTC CACTTCCAGC TCACACACCA 
    ACCTTAAGGA AAAAGGGATG CCCGGCTTCA ACTGGCTTTC CACCTAAGCG CAAGACTCAT 
    CAATTTTTCG TGAAGTCTTT CACTGCCCCT ACCAAATGTC ATCAGTGCAC CTCCTTGATG 
    GTCGGTTTGA TAAGACAGGG CTGTTCCTGT GAAGTCTGTG GGTTCTCATG TCATATAACT 
    TGTGTGAACA AAGCCCCGAC GGTTTGCCCA GTTCCTCCCG AGCAAACTAA AGGTCCATTG 
    GGCATAGACC CCCAGAAGGG AGTCGGGACG GCGTATGAGG GTCATGTCAG GATCCCTAAG 
    CCAGCGGGAG TGAAGAAAGG GTGGCAGAGA GCACTGGCTG TGGTCTGCGA CTTCAAACTG 
    TTTCTTTATG ATATTGCGGA GGGAAAAGCA TCGCAGCCCA GCTCCGTCAT TAGTCAAGTG 
    ATTGACATGA GAGATGAAGA ATTTTCTGTG AGTTCAGTCT TAGCTTCTGA TGTTATTCAC 
    GCAAGTCGAA AAGATATTCC CTGTATATTC AGAGTCACAG CTTCCCAGCT CTCAGCACCT 
    AGTAACAAAT GTTCCATCCT GATGCTAGCA GACAGCGAGA ATGAGAGGAG TAAGTGGGTG 
    GGAGTGCTGA GTGAACTCCA CAAGATTCTG AAGAAAAACA AGTTCAGAGA CCGCTCAGTG 
    TATGTCCCCA AGGAGGCTTA CGACAGCACG CTACCCCTCA TTAAGACAAC GCAGGCTGCT 
    GCAATCATAG ATCATGAACG GATAGCTTTG GGAAATGAAG AAGGATTATT TGTTGTGCAT 
    GTCACCAAAG ATGAGATTAT TAGAGTTGGT GATAATAAGA AAATCCATCA GATTGAACTC 
    ATTCCAAGTG ACCAGCTTGT TGCTGTGATC TCGGGCCGAA ATCGCCATGT CCGACTTTTT 
    CCTATGTCAG CTTTGGATGG GCAAGAGACA GATTTTTATA AACTGGCAGA GACTAAAGGG 
    TGTCAGACCA TAGCTGCTGG GAAAGTGCGC CACGGAGCTC TGTCCTGCCT GTGTGTGGCC 
    ATGAAGAGAC AGGTCCTCTG CTATGAACTG TTCCAAAGCA AGACCAGGCA CAGGAAGTTT 
    AAGGAGATTC AAGTCCCATG TAATGTCCAG TGGATGGCCA TCTTCAGTGA GCATCTCTGT 
    GTGGGATTCC AGTCAGGATT TCTCAGATAC CCCCTGAATG GAGAAGGAGG TCCATGCAAT 
    ATGCTCCATT CAAATGACCA TACACTGTCA TTCATTACAC ACCAACCAAT GGATGCTCTC 
    TGTGCAGTTG AGATCTCCAA CAAAGAGTAT TTGCTGTGTT TTAACAGCAT TGGGATATAC 
    ACAGACTGCC AGGGCCGAAG GTCTAGACAG CAGGAACTCA TGTGGCCAGC AAATCCTTCC 
    TCCTGTTGTT ACAATGCACC ATATCTCTCC GTGTATAGTG AAAACGCAGT TGATGTCTTT 
    GATGTCAACT CCATGGAATG GATACAGACT CTTCCTCTCA AAAAGGTCCG ACCTTTAAAC 
    ACTGAAGGAT CATTAAATCT CTTAGGATTG GAGACCATTA GATTAATATA TTTCAAAAAT 
    AAGATGGCAG AAGGGGATGA ACTTGTGGTC CCTGAAACAT CAGATAATAG TCGGAAGCAA 
    ATGGTCAGAA ATATCAACAA CAAACGGCGC TACTCCTTCC GAGTCCCTGA GGAAGAGAGG 
    ATGCAACAGA GGAGGGAGAT GCTACGAGAT CCAGAAATGA GAAATAAATT AATTTCTAAC 
    CCAACTAATT TTAACCACAT AGCACACATG GGTCCTGGAG ATGGAATACA GATCCTAAAA 
    GACCTGCCCA TGAACCCACG GCCTCAGGAA AGCCGGACAG TATTCAGTGG CTCCGTCAGT 
    ATTCCCTCCA TCACCAAGTC CCGCCCTGAG CCAGGCCGCT CCATGAGTGC CAGCAGCGGC 
    CTGTCTGCAC GGTCGTCAGC CCAGAATGGC AGTGCACTAA AGAGGGAATT CTCCGGAGGA 
    AGCTATAACA CAAAGCGACA GCCCATGCCC TCTCCCTCGG AGGGCTCTTT GTCATCAGGA 
    GGCATGGACC AAGGAAGTGA CGCCCCTGCG AGGGACTATG ATGGAGAGGA CTCTGATTCT 
    CCAAGGCATT CCACAGCTTC CAACAGCTCT AACCTGAGCA GCCCCCCAAG TCCCATTTCA 
    CCCCAAAAGA CCAAGAGCCT CTCCCTGGAG AGCACAGACC GCGGGAGCTG GGATCCATGA

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

    Cdc42bpa ( XM_021164511.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021020170.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv22386
    Clone ID Related Accession (Same CDS sequence) XM_021164511.1 , XM_021164511.2
    Accession Version XM_021164511.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4917bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product serine/threonine-protein kinase MRCK alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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 Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGCTG GAAGTTCACA CCGAAGCGCT AATTGCTGAA 
    GCATCAAAGG ACAAGAAGCT CCGAGAGCAG AGCGAACATT ATTCTAAGCA ACTGGAAAAC 
    GAGTTGGAGG GACTGAAGCA AAAACAAATT AGTTACTCAC CAGGAATCTG CAGCATAGAA 
    CATCAGCAAG AGATAACTAA ACTGAAAACT GACTTGGAAA AGAAAAGTAT CTTTTATGAA 
    GAAGAAATTT CTAAAAGAGA AGGAATTCAC GCAAGTGAGA TTAAAAACCT GAAGAAGGAG 
    CTGCATGACT CAGAAGGCCA GCAGCTTGCT CTCAACAAAG AGATTCTGGT TTTAAAAGAC 
    AAATTGGAAA AAACCAGGAG AGAAAGTCAA AGTGAAAGGG AAGAATTTGA AAATGAGTTC 
    AAACAACAAT ATGAACGGGA AAAAGTATTA TTAACTGAAG AGAATAAAAA GTTAACGAGT 
    GAACTCGATA AGCTAACTTC ACTGTATGAG AGCTTAAGTT TGCGCAACCA GCACTTAGAA 
    GAAGAAGTCA AAGATCTAGC AGATAAGAAG GAATCAGTAG CCCACTGGGA AGCCCAAATC 
    ACAGAGATAA TTCAGTGGGT GAGCGATGAG AAGGATGCAC GAGGCTATCT TCAGGCCTTA 
    GCTTCTAAAA TGACTGAAGA ATTGGAAGCA TTAAGAAATT CCAGCTTGGG GACACGAGCA 
    ACAGATATGC CCTGGAAAAT GCGTCGTTTT GCAAAACTGG ACATGTCGGC TAGACTAGAG 
    TTGCAGTCTG CTCTGGATGC AGAAATAAGA GCTAAGCAGG CCATCCAGGA AGAGCTGAAT 
    AAAGTCAAAG CATCTAACAT CATAACAGAA TGTAAACTGA AAGATTCAGA GAAGAAGAAC 
    TTGGAACTGT TGTCCGAAAT CGAGCAGCTG ATAAAGGACA CTGAAGAGCT TAGATCTGAA 
    AAGGGTATAG AGCACCAAGA CTCACAGCAT TCTTTCTTGG CATTTTTGAA TACGCCTACC 
    GATGCTCTGG ACCAATTTGA AATTGCAGAC TGTGCTCCAC TTCCAGCTCA CACACCAACC 
    TTAAGGAAAA AGGGATGCCC GGCTTCAACT GGCTTTCCAC CTAAGCGCAA GACTCATCAA 
    TTTTTCGTGA AGTCTTTCAC TGCCCCTACC AAATGTCATC AGTGCACCTC CTTGATGGTC 
    GGTTTGATAA GACAGGGCTG TTCCTGTGAA GTCTGTGGGT TCTCATGTCA TATAACTTGT 
    GTGAACAAAG CCCCGACGGT TTGCCCAGTT CCTCCCGAGC AAACTAAAGG TCCATTGGGC 
    ATAGACCCCC AGAAGGGAGT CGGGACGGCG TATGAGGGTC ATGTCAGGAT CCCTAAGCCA 
    GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA CTGGCTGTGG TCTGCGACTT CAAACTGTTT 
    CTTTATGATA TTGCGGAGGG AAAAGCATCG CAGCCCAGCT CCGTCATTAG TCAAGTGATT 
    GACATGAGAG ATGAAGAATT TTCTGTGAGT TCAGTCTTAG CTTCTGATGT TATTCACGCA 
    AGTCGAAAAG ATATTCCCTG TATATTCAGA GTCACAGCTT CCCAGCTCTC AGCACCTAGT 
    AACAAATGTT CCATCCTGAT GCTAGCAGAC AGCGAGAATG AGAGGAGTAA GTGGGTGGGA 
    GTGCTGAGTG AACTCCACAA GATTCTGAAG AAAAACAAGT TCAGAGACCG CTCAGTGTAT 
    GTCCCCAAGG AGGCTTACGA CAGCACGCTA CCCCTCATTA AGACAACGCA GGCTGCTGCA 
    ATCATAGATC ATGAACGGAT AGCTTTGGGA AATGAAGAAG GATTATTTGT TGTGCATGTC 
    ACCAAAGATG AGATTATTAG AGTTGGTGAT AATAAGAAAA TCCATCAGAT TGAACTCATT 
    CCAAGTGACC AGCTTGTTGC TGTGATCTCG GGCCGAAATC GCCATGTCCG ACTTTTTCCT 
    ATGTCAGCTT TGGATGGGCA AGAGACAGAT TTTTATAAAC TGGCAGAGAC TAAAGGGTGT 
    CAGACCATAG CTGCTGGGAA AGTGCGCCAC GGAGCTCTGT CCTGCCTGTG TGTGGCCATG 
    AAGAGACAGG TCCTCTGCTA TGAACTGTTC CAAAGCAAGA CCAGGCACAG GAAGTTTAAG 
    GAGATTCAAG TCCCATGTAA TGTCCAGTGG ATGGCCATCT TCAGTGAGCA TCTCTGTGTG 
    GGATTCCAGT CAGGATTTCT CAGATACCCC CTGAATGGAG AAGGAGGTCC ATGCAATATG 
    CTCCATTCAA ATGACCATAC ACTGTCATTC ATTACACACC AACCAATGGA TGCTCTCTGT 
    GCAGTTGAGA TCTCCAACAA AGAGTATTTG CTGTGTTTTA ACAGCATTGG GATATACACA 
    GACTGCCAGG GCCGAAGGTC TAGACAGCAG GAACTCATGT GGCCAGCAAA TCCTTCCTCC 
    TGTTGTTACA ATGCACCATA TCTCTCCGTG TATAGTGAAA ACGCAGTTGA TGTCTTTGAT 
    GTCAACTCCA TGGAATGGAT ACAGACTCTT CCTCTCAAAA AGGTCCGACC TTTAAACACT 
    GAAGGATCAT TAAATCTCTT AGGATTGGAG ACCATTAGAT TAATATATTT CAAAAATAAG 
    ATGGCAGAAG GGGATGAACT TGTGGTCCCT GAAACATCAG ATAATAGTCG GAAGCAAATG 
    GTCAGAAATA TCAACAACAA ACGGCGCTAC TCCTTCCGAG TCCCTGAGGA AGAGAGGATG 
    CAACAGAGGA GGGAGATGCT ACGAGATCCA GAAATGAGAA ATAAATTAAT TTCTAACCCA 
    ACTAATTTTA ACCACATAGC ACACATGGGT CCTGGAGATG GAATACAGAT CCTAAAAGAC 
    CTGCCCATGA ACCCACGGCC TCAGGAAAGC CGGACAGTAT TCAGTGGCTC CGTCAGTATT 
    CCCTCCATCA CCAAGTCCCG CCCTGAGCCA GGCCGCTCCA TGAGTGCCAG CAGCGGCCTG 
    TCTGCACGGT CGTCAGCCCA GAATGGCAGT GCACTAAAGA GGGAATTCTC CGGAGGAAGC 
    TATAACACAA AGCGACAGCC CATGCCCTCT CCCTCGGAGG GCTCTTTGTC ATCAGGAGGC 
    ATGGACCAAG GAAGTGACGC CCCTGCGAGG GACTATGATG GAGAGGACTC TGATTCTCCA 
    AGGCATTCCA CAGCTTCCAA CAGCTCTAAC CTGAGCAGCC CCCCAAGTCC CATTTCACCC 
    CAAAAGACCA AGAGCCTCTC CCTGGAGAGC ACAGACCGCG GGAGCTGGGA TCCATGA

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

    RefSeq XP_021020170.1
    CDS218..5134
    Translation

    Target ORF information:

    RefSeq Version XM_021164511.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021164511.1

    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGCTG GAAGTTCACA CCGAAGCGCT AATTGCTGAA 
    GCATCAAAGG ACAAGAAGCT CCGAGAGCAG AGCGAACATT ATTCTAAGCA ACTGGAAAAC 
    GAGTTGGAGG GACTGAAGCA AAAACAAATT AGTTACTCAC CAGGAATCTG CAGCATAGAA 
    CATCAGCAAG AGATAACTAA ACTGAAAACT GACTTGGAAA AGAAAAGTAT CTTTTATGAA 
    GAAGAAATTT CTAAAAGAGA AGGAATTCAC GCAAGTGAGA TTAAAAACCT GAAGAAGGAG 
    CTGCATGACT CAGAAGGCCA GCAGCTTGCT CTCAACAAAG AGATTCTGGT TTTAAAAGAC 
    AAATTGGAAA AAACCAGGAG AGAAAGTCAA AGTGAAAGGG AAGAATTTGA AAATGAGTTC 
    AAACAACAAT ATGAACGGGA AAAAGTATTA TTAACTGAAG AGAATAAAAA GTTAACGAGT 
    GAACTCGATA AGCTAACTTC ACTGTATGAG AGCTTAAGTT TGCGCAACCA GCACTTAGAA 
    GAAGAAGTCA AAGATCTAGC AGATAAGAAG GAATCAGTAG CCCACTGGGA AGCCCAAATC 
    ACAGAGATAA TTCAGTGGGT GAGCGATGAG AAGGATGCAC GAGGCTATCT TCAGGCCTTA 
    GCTTCTAAAA TGACTGAAGA ATTGGAAGCA TTAAGAAATT CCAGCTTGGG GACACGAGCA 
    ACAGATATGC CCTGGAAAAT GCGTCGTTTT GCAAAACTGG ACATGTCGGC TAGACTAGAG 
    TTGCAGTCTG CTCTGGATGC AGAAATAAGA GCTAAGCAGG CCATCCAGGA AGAGCTGAAT 
    AAAGTCAAAG CATCTAACAT CATAACAGAA TGTAAACTGA AAGATTCAGA GAAGAAGAAC 
    TTGGAACTGT TGTCCGAAAT CGAGCAGCTG ATAAAGGACA CTGAAGAGCT TAGATCTGAA 
    AAGGGTATAG AGCACCAAGA CTCACAGCAT TCTTTCTTGG CATTTTTGAA TACGCCTACC 
    GATGCTCTGG ACCAATTTGA AATTGCAGAC TGTGCTCCAC TTCCAGCTCA CACACCAACC 
    TTAAGGAAAA AGGGATGCCC GGCTTCAACT GGCTTTCCAC CTAAGCGCAA GACTCATCAA 
    TTTTTCGTGA AGTCTTTCAC TGCCCCTACC AAATGTCATC AGTGCACCTC CTTGATGGTC 
    GGTTTGATAA GACAGGGCTG TTCCTGTGAA GTCTGTGGGT TCTCATGTCA TATAACTTGT 
    GTGAACAAAG CCCCGACGGT TTGCCCAGTT CCTCCCGAGC AAACTAAAGG TCCATTGGGC 
    ATAGACCCCC AGAAGGGAGT CGGGACGGCG TATGAGGGTC ATGTCAGGAT CCCTAAGCCA 
    GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA CTGGCTGTGG TCTGCGACTT CAAACTGTTT 
    CTTTATGATA TTGCGGAGGG AAAAGCATCG CAGCCCAGCT CCGTCATTAG TCAAGTGATT 
    GACATGAGAG ATGAAGAATT TTCTGTGAGT TCAGTCTTAG CTTCTGATGT TATTCACGCA 
    AGTCGAAAAG ATATTCCCTG TATATTCAGA GTCACAGCTT CCCAGCTCTC AGCACCTAGT 
    AACAAATGTT CCATCCTGAT GCTAGCAGAC AGCGAGAATG AGAGGAGTAA GTGGGTGGGA 
    GTGCTGAGTG AACTCCACAA GATTCTGAAG AAAAACAAGT TCAGAGACCG CTCAGTGTAT 
    GTCCCCAAGG AGGCTTACGA CAGCACGCTA CCCCTCATTA AGACAACGCA GGCTGCTGCA 
    ATCATAGATC ATGAACGGAT AGCTTTGGGA AATGAAGAAG GATTATTTGT TGTGCATGTC 
    ACCAAAGATG AGATTATTAG AGTTGGTGAT AATAAGAAAA TCCATCAGAT TGAACTCATT 
    CCAAGTGACC AGCTTGTTGC TGTGATCTCG GGCCGAAATC GCCATGTCCG ACTTTTTCCT 
    ATGTCAGCTT TGGATGGGCA AGAGACAGAT TTTTATAAAC TGGCAGAGAC TAAAGGGTGT 
    CAGACCATAG CTGCTGGGAA AGTGCGCCAC GGAGCTCTGT CCTGCCTGTG TGTGGCCATG 
    AAGAGACAGG TCCTCTGCTA TGAACTGTTC CAAAGCAAGA CCAGGCACAG GAAGTTTAAG 
    GAGATTCAAG TCCCATGTAA TGTCCAGTGG ATGGCCATCT TCAGTGAGCA TCTCTGTGTG 
    GGATTCCAGT CAGGATTTCT CAGATACCCC CTGAATGGAG AAGGAGGTCC ATGCAATATG 
    CTCCATTCAA ATGACCATAC ACTGTCATTC ATTACACACC AACCAATGGA TGCTCTCTGT 
    GCAGTTGAGA TCTCCAACAA AGAGTATTTG CTGTGTTTTA ACAGCATTGG GATATACACA 
    GACTGCCAGG GCCGAAGGTC TAGACAGCAG GAACTCATGT GGCCAGCAAA TCCTTCCTCC 
    TGTTGTTACA ATGCACCATA TCTCTCCGTG TATAGTGAAA ACGCAGTTGA TGTCTTTGAT 
    GTCAACTCCA TGGAATGGAT ACAGACTCTT CCTCTCAAAA AGGTCCGACC TTTAAACACT 
    GAAGGATCAT TAAATCTCTT AGGATTGGAG ACCATTAGAT TAATATATTT CAAAAATAAG 
    ATGGCAGAAG GGGATGAACT TGTGGTCCCT GAAACATCAG ATAATAGTCG GAAGCAAATG 
    GTCAGAAATA TCAACAACAA ACGGCGCTAC TCCTTCCGAG TCCCTGAGGA AGAGAGGATG 
    CAACAGAGGA GGGAGATGCT ACGAGATCCA GAAATGAGAA ATAAATTAAT TTCTAACCCA 
    ACTAATTTTA ACCACATAGC ACACATGGGT CCTGGAGATG GAATACAGAT CCTAAAAGAC 
    CTGCCCATGA ACCCACGGCC TCAGGAAAGC CGGACAGTAT TCAGTGGCTC CGTCAGTATT 
    CCCTCCATCA CCAAGTCCCG CCCTGAGCCA GGCCGCTCCA TGAGTGCCAG CAGCGGCCTG 
    TCTGCACGGT CGTCAGCCCA GAATGGCAGT GCACTAAAGA GGGAATTCTC CGGAGGAAGC 
    TATAACACAA AGCGACAGCC CATGCCCTCT CCCTCGGAGG GCTCTTTGTC ATCAGGAGGC 
    ATGGACCAAG GAAGTGACGC CCCTGCGAGG GACTATGATG GAGAGGACTC TGATTCTCCA 
    AGGCATTCCA CAGCTTCCAA CAGCTCTAAC CTGAGCAGCC CCCCAAGTCC CATTTCACCC 
    CAAAAGACCA AGAGCCTCTC CCTGGAGAGC ACAGACCGCG GGAGCTGGGA TCCATGA

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

    Cdc42bpa ( XM_021164511.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021020170.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OMv22386
    Clone ID Related Accession (Same CDS sequence) XM_021164511.1 , XM_021164511.2
    Accession Version XM_021164511.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4917bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021164511.1. ##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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGCTG GAAGTTCACA CCGAAGCGCT AATTGCTGAA 
    GCATCAAAGG ACAAGAAGCT CCGAGAGCAG AGCGAACATT ATTCTAAGCA ACTGGAAAAC 
    GAGTTGGAGG GACTGAAGCA AAAACAAATT AGTTACTCAC CAGGAATCTG CAGCATAGAA 
    CATCAGCAAG AGATAACTAA ACTGAAAACT GACTTGGAAA AGAAAAGTAT CTTTTATGAA 
    GAAGAAATTT CTAAAAGAGA AGGAATTCAC GCAAGTGAGA TTAAAAACCT GAAGAAGGAG 
    CTGCATGACT CAGAAGGCCA GCAGCTTGCT CTCAACAAAG AGATTCTGGT TTTAAAAGAC 
    AAATTGGAAA AAACCAGGAG AGAAAGTCAA AGTGAAAGGG AAGAATTTGA AAATGAGTTC 
    AAACAACAAT ATGAACGGGA AAAAGTATTA TTAACTGAAG AGAATAAAAA GTTAACGAGT 
    GAACTCGATA AGCTAACTTC ACTGTATGAG AGCTTAAGTT TGCGCAACCA GCACTTAGAA 
    GAAGAAGTCA AAGATCTAGC AGATAAGAAG GAATCAGTAG CCCACTGGGA AGCCCAAATC 
    ACAGAGATAA TTCAGTGGGT GAGCGATGAG AAGGATGCAC GAGGCTATCT TCAGGCCTTA 
    GCTTCTAAAA TGACTGAAGA ATTGGAAGCA TTAAGAAATT CCAGCTTGGG GACACGAGCA 
    ACAGATATGC CCTGGAAAAT GCGTCGTTTT GCAAAACTGG ACATGTCGGC TAGACTAGAG 
    TTGCAGTCTG CTCTGGATGC AGAAATAAGA GCTAAGCAGG CCATCCAGGA AGAGCTGAAT 
    AAAGTCAAAG CATCTAACAT CATAACAGAA TGTAAACTGA AAGATTCAGA GAAGAAGAAC 
    TTGGAACTGT TGTCCGAAAT CGAGCAGCTG ATAAAGGACA CTGAAGAGCT TAGATCTGAA 
    AAGGGTATAG AGCACCAAGA CTCACAGCAT TCTTTCTTGG CATTTTTGAA TACGCCTACC 
    GATGCTCTGG ACCAATTTGA AATTGCAGAC TGTGCTCCAC TTCCAGCTCA CACACCAACC 
    TTAAGGAAAA AGGGATGCCC GGCTTCAACT GGCTTTCCAC CTAAGCGCAA GACTCATCAA 
    TTTTTCGTGA AGTCTTTCAC TGCCCCTACC AAATGTCATC AGTGCACCTC CTTGATGGTC 
    GGTTTGATAA GACAGGGCTG TTCCTGTGAA GTCTGTGGGT TCTCATGTCA TATAACTTGT 
    GTGAACAAAG CCCCGACGGT TTGCCCAGTT CCTCCCGAGC AAACTAAAGG TCCATTGGGC 
    ATAGACCCCC AGAAGGGAGT CGGGACGGCG TATGAGGGTC ATGTCAGGAT CCCTAAGCCA 
    GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA CTGGCTGTGG TCTGCGACTT CAAACTGTTT 
    CTTTATGATA TTGCGGAGGG AAAAGCATCG CAGCCCAGCT CCGTCATTAG TCAAGTGATT 
    GACATGAGAG ATGAAGAATT TTCTGTGAGT TCAGTCTTAG CTTCTGATGT TATTCACGCA 
    AGTCGAAAAG ATATTCCCTG TATATTCAGA GTCACAGCTT CCCAGCTCTC AGCACCTAGT 
    AACAAATGTT CCATCCTGAT GCTAGCAGAC AGCGAGAATG AGAGGAGTAA GTGGGTGGGA 
    GTGCTGAGTG AACTCCACAA GATTCTGAAG AAAAACAAGT TCAGAGACCG CTCAGTGTAT 
    GTCCCCAAGG AGGCTTACGA CAGCACGCTA CCCCTCATTA AGACAACGCA GGCTGCTGCA 
    ATCATAGATC ATGAACGGAT AGCTTTGGGA AATGAAGAAG GATTATTTGT TGTGCATGTC 
    ACCAAAGATG AGATTATTAG AGTTGGTGAT AATAAGAAAA TCCATCAGAT TGAACTCATT 
    CCAAGTGACC AGCTTGTTGC TGTGATCTCG GGCCGAAATC GCCATGTCCG ACTTTTTCCT 
    ATGTCAGCTT TGGATGGGCA AGAGACAGAT TTTTATAAAC TGGCAGAGAC TAAAGGGTGT 
    CAGACCATAG CTGCTGGGAA AGTGCGCCAC GGAGCTCTGT CCTGCCTGTG TGTGGCCATG 
    AAGAGACAGG TCCTCTGCTA TGAACTGTTC CAAAGCAAGA CCAGGCACAG GAAGTTTAAG 
    GAGATTCAAG TCCCATGTAA TGTCCAGTGG ATGGCCATCT TCAGTGAGCA TCTCTGTGTG 
    GGATTCCAGT CAGGATTTCT CAGATACCCC CTGAATGGAG AAGGAGGTCC ATGCAATATG 
    CTCCATTCAA ATGACCATAC ACTGTCATTC ATTACACACC AACCAATGGA TGCTCTCTGT 
    GCAGTTGAGA TCTCCAACAA AGAGTATTTG CTGTGTTTTA ACAGCATTGG GATATACACA 
    GACTGCCAGG GCCGAAGGTC TAGACAGCAG GAACTCATGT GGCCAGCAAA TCCTTCCTCC 
    TGTTGTTACA ATGCACCATA TCTCTCCGTG TATAGTGAAA ACGCAGTTGA TGTCTTTGAT 
    GTCAACTCCA TGGAATGGAT ACAGACTCTT CCTCTCAAAA AGGTCCGACC TTTAAACACT 
    GAAGGATCAT TAAATCTCTT AGGATTGGAG ACCATTAGAT TAATATATTT CAAAAATAAG 
    ATGGCAGAAG GGGATGAACT TGTGGTCCCT GAAACATCAG ATAATAGTCG GAAGCAAATG 
    GTCAGAAATA TCAACAACAA ACGGCGCTAC TCCTTCCGAG TCCCTGAGGA AGAGAGGATG 
    CAACAGAGGA GGGAGATGCT ACGAGATCCA GAAATGAGAA ATAAATTAAT TTCTAACCCA 
    ACTAATTTTA ACCACATAGC ACACATGGGT CCTGGAGATG GAATACAGAT CCTAAAAGAC 
    CTGCCCATGA ACCCACGGCC TCAGGAAAGC CGGACAGTAT TCAGTGGCTC CGTCAGTATT 
    CCCTCCATCA CCAAGTCCCG CCCTGAGCCA GGCCGCTCCA TGAGTGCCAG CAGCGGCCTG 
    TCTGCACGGT CGTCAGCCCA GAATGGCAGT GCACTAAAGA GGGAATTCTC CGGAGGAAGC 
    TATAACACAA AGCGACAGCC CATGCCCTCT CCCTCGGAGG GCTCTTTGTC ATCAGGAGGC 
    ATGGACCAAG GAAGTGACGC CCCTGCGAGG GACTATGATG GAGAGGACTC TGATTCTCCA 
    AGGCATTCCA CAGCTTCCAA CAGCTCTAAC CTGAGCAGCC CCCCAAGTCC CATTTCACCC 
    CAAAAGACCA AGAGCCTCTC CCTGGAGAGC ACAGACCGCG GGAGCTGGGA TCCATGA

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

    RefSeq XP_021020170.1
    CDS1266..6182
    Translation

    Target ORF information:

    RefSeq Version XM_021164511.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021164511.2

    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGCTG GAAGTTCACA CCGAAGCGCT AATTGCTGAA 
    GCATCAAAGG ACAAGAAGCT CCGAGAGCAG AGCGAACATT ATTCTAAGCA ACTGGAAAAC 
    GAGTTGGAGG GACTGAAGCA AAAACAAATT AGTTACTCAC CAGGAATCTG CAGCATAGAA 
    CATCAGCAAG AGATAACTAA ACTGAAAACT GACTTGGAAA AGAAAAGTAT CTTTTATGAA 
    GAAGAAATTT CTAAAAGAGA AGGAATTCAC GCAAGTGAGA TTAAAAACCT GAAGAAGGAG 
    CTGCATGACT CAGAAGGCCA GCAGCTTGCT CTCAACAAAG AGATTCTGGT TTTAAAAGAC 
    AAATTGGAAA AAACCAGGAG AGAAAGTCAA AGTGAAAGGG AAGAATTTGA AAATGAGTTC 
    AAACAACAAT ATGAACGGGA AAAAGTATTA TTAACTGAAG AGAATAAAAA GTTAACGAGT 
    GAACTCGATA AGCTAACTTC ACTGTATGAG AGCTTAAGTT TGCGCAACCA GCACTTAGAA 
    GAAGAAGTCA AAGATCTAGC AGATAAGAAG GAATCAGTAG CCCACTGGGA AGCCCAAATC 
    ACAGAGATAA TTCAGTGGGT GAGCGATGAG AAGGATGCAC GAGGCTATCT TCAGGCCTTA 
    GCTTCTAAAA TGACTGAAGA ATTGGAAGCA TTAAGAAATT CCAGCTTGGG GACACGAGCA 
    ACAGATATGC CCTGGAAAAT GCGTCGTTTT GCAAAACTGG ACATGTCGGC TAGACTAGAG 
    TTGCAGTCTG CTCTGGATGC AGAAATAAGA GCTAAGCAGG CCATCCAGGA AGAGCTGAAT 
    AAAGTCAAAG CATCTAACAT CATAACAGAA TGTAAACTGA AAGATTCAGA GAAGAAGAAC 
    TTGGAACTGT TGTCCGAAAT CGAGCAGCTG ATAAAGGACA CTGAAGAGCT TAGATCTGAA 
    AAGGGTATAG AGCACCAAGA CTCACAGCAT TCTTTCTTGG CATTTTTGAA TACGCCTACC 
    GATGCTCTGG ACCAATTTGA AATTGCAGAC TGTGCTCCAC TTCCAGCTCA CACACCAACC 
    TTAAGGAAAA AGGGATGCCC GGCTTCAACT GGCTTTCCAC CTAAGCGCAA GACTCATCAA 
    TTTTTCGTGA AGTCTTTCAC TGCCCCTACC AAATGTCATC AGTGCACCTC CTTGATGGTC 
    GGTTTGATAA GACAGGGCTG TTCCTGTGAA GTCTGTGGGT TCTCATGTCA TATAACTTGT 
    GTGAACAAAG CCCCGACGGT TTGCCCAGTT CCTCCCGAGC AAACTAAAGG TCCATTGGGC 
    ATAGACCCCC AGAAGGGAGT CGGGACGGCG TATGAGGGTC ATGTCAGGAT CCCTAAGCCA 
    GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA CTGGCTGTGG TCTGCGACTT CAAACTGTTT 
    CTTTATGATA TTGCGGAGGG AAAAGCATCG CAGCCCAGCT CCGTCATTAG TCAAGTGATT 
    GACATGAGAG ATGAAGAATT TTCTGTGAGT TCAGTCTTAG CTTCTGATGT TATTCACGCA 
    AGTCGAAAAG ATATTCCCTG TATATTCAGA GTCACAGCTT CCCAGCTCTC AGCACCTAGT 
    AACAAATGTT CCATCCTGAT GCTAGCAGAC AGCGAGAATG AGAGGAGTAA GTGGGTGGGA 
    GTGCTGAGTG AACTCCACAA GATTCTGAAG AAAAACAAGT TCAGAGACCG CTCAGTGTAT 
    GTCCCCAAGG AGGCTTACGA CAGCACGCTA CCCCTCATTA AGACAACGCA GGCTGCTGCA 
    ATCATAGATC ATGAACGGAT AGCTTTGGGA AATGAAGAAG GATTATTTGT TGTGCATGTC 
    ACCAAAGATG AGATTATTAG AGTTGGTGAT AATAAGAAAA TCCATCAGAT TGAACTCATT 
    CCAAGTGACC AGCTTGTTGC TGTGATCTCG GGCCGAAATC GCCATGTCCG ACTTTTTCCT 
    ATGTCAGCTT TGGATGGGCA AGAGACAGAT TTTTATAAAC TGGCAGAGAC TAAAGGGTGT 
    CAGACCATAG CTGCTGGGAA AGTGCGCCAC GGAGCTCTGT CCTGCCTGTG TGTGGCCATG 
    AAGAGACAGG TCCTCTGCTA TGAACTGTTC CAAAGCAAGA CCAGGCACAG GAAGTTTAAG 
    GAGATTCAAG TCCCATGTAA TGTCCAGTGG ATGGCCATCT TCAGTGAGCA TCTCTGTGTG 
    GGATTCCAGT CAGGATTTCT CAGATACCCC CTGAATGGAG AAGGAGGTCC ATGCAATATG 
    CTCCATTCAA ATGACCATAC ACTGTCATTC ATTACACACC AACCAATGGA TGCTCTCTGT 
    GCAGTTGAGA TCTCCAACAA AGAGTATTTG CTGTGTTTTA ACAGCATTGG GATATACACA 
    GACTGCCAGG GCCGAAGGTC TAGACAGCAG GAACTCATGT GGCCAGCAAA TCCTTCCTCC 
    TGTTGTTACA ATGCACCATA TCTCTCCGTG TATAGTGAAA ACGCAGTTGA TGTCTTTGAT 
    GTCAACTCCA TGGAATGGAT ACAGACTCTT CCTCTCAAAA AGGTCCGACC TTTAAACACT 
    GAAGGATCAT TAAATCTCTT AGGATTGGAG ACCATTAGAT TAATATATTT CAAAAATAAG 
    ATGGCAGAAG GGGATGAACT TGTGGTCCCT GAAACATCAG ATAATAGTCG GAAGCAAATG 
    GTCAGAAATA TCAACAACAA ACGGCGCTAC TCCTTCCGAG TCCCTGAGGA AGAGAGGATG 
    CAACAGAGGA GGGAGATGCT ACGAGATCCA GAAATGAGAA ATAAATTAAT TTCTAACCCA 
    ACTAATTTTA ACCACATAGC ACACATGGGT CCTGGAGATG GAATACAGAT CCTAAAAGAC 
    CTGCCCATGA ACCCACGGCC TCAGGAAAGC CGGACAGTAT TCAGTGGCTC CGTCAGTATT 
    CCCTCCATCA CCAAGTCCCG CCCTGAGCCA GGCCGCTCCA TGAGTGCCAG CAGCGGCCTG 
    TCTGCACGGT CGTCAGCCCA GAATGGCAGT GCACTAAAGA GGGAATTCTC CGGAGGAAGC 
    TATAACACAA AGCGACAGCC CATGCCCTCT CCCTCGGAGG GCTCTTTGTC ATCAGGAGGC 
    ATGGACCAAG GAAGTGACGC CCCTGCGAGG GACTATGATG GAGAGGACTC TGATTCTCCA 
    AGGCATTCCA CAGCTTCCAA CAGCTCTAAC CTGAGCAGCC CCCCAAGTCC CATTTCACCC 
    CAAAAGACCA AGAGCCTCTC CCTGGAGAGC ACAGACCGCG GGAGCTGGGA TCCATGA

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

    Cdc42bpa ( XM_029475997.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331857.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv66185
    Clone ID Related Accession (Same CDS sequence) XM_029475997.1
    Accession Version XM_029475997.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5433bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAGATTCC CTTTCTTCTT CCTCATCCTC ACTGATTGAT 
    TTTTTGGATG ACCGCTCTCC GTCCTGTACT CCAGCTAGCA AAGGCAGACG TATTGCAGAC 
    TGTGCTCCAC TTCCAGCTCA CACACCAACC TTAAGGAAAA AGGGATGCCC GGCTTCAACT 
    GGCTTTCCAC CTAAGCGCAA GACTCATCAA TTTTTCGTGA AGTCTTTCAC TGCCCCTACC 
    AAATGTCATC AGTGCACCTC CTTGATGGTC GGTTTGATAA GACAGGGCTG TTCCTGTGAA 
    GTCTGTGGGT TCTCATGTCA TATAACTTGT GTGAACAAAG CCCCGACGGT TTGCCCAGTT 
    CCTCCCGAGC AAACTAAAGG TCCATTGGGC ATAGACCCCC AGAAGGGAGT CGGGACGGCG 
    TATGAGGGTC ATGTCAGGAT CCCTAAGCCA GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA 
    CTGGCTGTGG TCTGCGACTT CAAACTGTTT CTTTATGATA TTGCGGAGGG AAAAGCATCG 
    CAGCCCAGCT CCGTCATTAG TCAAGTGATT GACATGAGAG ATGAAGAATT TTCTGTGAGT 
    TCAGTCTTAG CTTCTGATGT TATTCACGCA AGTCGAAAAG ATATTCCCTG TATATTCAGA 
    GTCACAGCTT CCCAGCTCTC AGCACCTAGT AACAAATGTT CCATCCTGAT GCTAGCAGAC 
    AGCGAGAATG AGAGGAGTAA GTGGGTGGGA GTGCTGAGTG AACTCCACAA GATTCTGAAG 
    AAAAACAAGT TCAGAGACCG CTCAGTGTAT GTCCCCAAGG AGGCTTACGA CAGCACGCTA 
    CCCCTCATTA AGACAACGCA GGCTGCTGCA ATCATAGATC ATGAACGGAT AGCTTTGGGA 
    AATGAAGAAG GATTATTTGT TGTGCATGTC ACCAAAGATG AGATTATTAG AGTTGGTGAT 
    AATAAGAAAA TCCATCAGAT TGAACTCATT CCAAGTGACC AGCTTGTTGC TGTGATCTCG 
    GGCCGAAATC GCCATGTCCG ACTTTTTCCT ATGTCAGCTT TGGATGGGCA AGAGACAGAT 
    TTTTATAAAC TGGCAGAGAC TAAAGGGTGT CAGACCATAG CTGCTGGGAA AGTGCGCCAC 
    GGAGCTCTGT CCTGCCTGTG TGTGGCCATG AAGAGACAGG TCCTCTGCTA TGAACTGTTC 
    CAAAGCAAGA CCAGGCACAG GAAGTTTAAG GAGATTCAAG TCCCATGTAA TGTCCAGTGG 
    ATGGCCATCT TCAGTGAGCA TCTCTGTGTG GGATTCCAGT CAGGATTTCT CAGATACCCC 
    CTGAATGGAG AAGGAGGTCC ATGCAATATG CTCCATTCAA ATGACCATAC ACTGTCATTC 
    ATTACACACC AACCAATGGA TGCTCTCTGT GCAGTTGAGA TCTCCAACAA AGAGTATTTG 
    CTGTGTTTTA ACAGCATTGG GATATACACA GACTGCCAGG GCCGAAGGTC TAGACAGCAG 
    GAACTCATGT GGCCAGCAAA TCCTTCCTCC TGTTGTTACA ATGCACCATA TCTCTCCGTG 
    TATAGTGAAA ACGCAGTTGA TGTCTTTGAT GTCAACTCCA TGGAATGGAT ACAGACTCTT 
    CCTCTCAAAA AGGTCCGACC TTTAAACACT GAAGGATCAT TAAATCTCTT AGGATTGGAG 
    ACCATTAGAT TAATATATTT CAAAAATAAG ATGGCAGAAG GGGATGAACT TGTGGTCCCT 
    GAAACATCAG ATAATAGTCG GAAGCAAATG GTCAGAAATA TCAACAACAA ACGGCGCTAC 
    TCCTTCCGAG TCCCTGAGGA AGAGAGGATG CAACAGAGGA GGGAGATGCT ACGAGATCCA 
    GAAATGAGAA ATAAATTAAT TTCTAACCCA ACTAATTTTA ACCACATAGC ACACATGGGT 
    CCTGGAGATG GAATACAGAT CCTAAAAGAC CTGCCCATGC CGGGTTTCCC TTATTCACCC 
    CCTCATCACC ACTCCAGCCT GATCTCCTCT CCGAGCAACT TTGAGCACAT CTATCACATG 
    ACTGTCAATT CTGCTGAACA GTTTCTCTCT CCTGAATCCA TAAACCCTGG GTACCCCCCG 
    TCCCTGCGCT CTGCCCCTGG TACACCACAC TCTATGACTC TGAGGAACCC ACGGCCTCAG 
    GAAAGCCGGA CAGTATTCAG TGGCTCCGTC AGTATTCCCT CCATCACCAA GTCCCGCCCT 
    GAGCCAGGCC GCTCCATGAG TGCCAGCAGC GGCCTGTCTG CACGGTCGTC AGCCCAGAAT 
    GGCAGTGCAC TAAAGAGGGA ATTCTCCGGA GGAAGCTATA ACACAAAGCG ACAGCCCATG 
    CCCTCTCCCT CGGAGGGCTC TTTGTCATCA GGAGGCATGG ACCAAGGAAG TGACGCCCCT 
    GCGAGGGACT ATGATGGAGA GGACTCTGAT TCTCCAAGGC ATTCCACAGC TTCCAACAGC 
    TCTAACCTGA GCAGCCCCCC AAGTCCCATT TCACCCCAAA AGACCAAGAG CCTCTCCCTG 
    GAGAGCACAG ACCGCGGGAG CTGGGATCCA TGA

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

    RefSeq XP_029331857.1
    CDS706..6138
    Translation

    Target ORF information:

    RefSeq Version XM_029475997.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029475997.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAGATTCC CTTTCTTCTT CCTCATCCTC ACTGATTGAT 
    TTTTTGGATG ACCGCTCTCC GTCCTGTACT CCAGCTAGCA AAGGCAGACG TATTGCAGAC 
    TGTGCTCCAC TTCCAGCTCA CACACCAACC TTAAGGAAAA AGGGATGCCC GGCTTCAACT 
    GGCTTTCCAC CTAAGCGCAA GACTCATCAA TTTTTCGTGA AGTCTTTCAC TGCCCCTACC 
    AAATGTCATC AGTGCACCTC CTTGATGGTC GGTTTGATAA GACAGGGCTG TTCCTGTGAA 
    GTCTGTGGGT TCTCATGTCA TATAACTTGT GTGAACAAAG CCCCGACGGT TTGCCCAGTT 
    CCTCCCGAGC AAACTAAAGG TCCATTGGGC ATAGACCCCC AGAAGGGAGT CGGGACGGCG 
    TATGAGGGTC ATGTCAGGAT CCCTAAGCCA GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA 
    CTGGCTGTGG TCTGCGACTT CAAACTGTTT CTTTATGATA TTGCGGAGGG AAAAGCATCG 
    CAGCCCAGCT CCGTCATTAG TCAAGTGATT GACATGAGAG ATGAAGAATT TTCTGTGAGT 
    TCAGTCTTAG CTTCTGATGT TATTCACGCA AGTCGAAAAG ATATTCCCTG TATATTCAGA 
    GTCACAGCTT CCCAGCTCTC AGCACCTAGT AACAAATGTT CCATCCTGAT GCTAGCAGAC 
    AGCGAGAATG AGAGGAGTAA GTGGGTGGGA GTGCTGAGTG AACTCCACAA GATTCTGAAG 
    AAAAACAAGT TCAGAGACCG CTCAGTGTAT GTCCCCAAGG AGGCTTACGA CAGCACGCTA 
    CCCCTCATTA AGACAACGCA GGCTGCTGCA ATCATAGATC ATGAACGGAT AGCTTTGGGA 
    AATGAAGAAG GATTATTTGT TGTGCATGTC ACCAAAGATG AGATTATTAG AGTTGGTGAT 
    AATAAGAAAA TCCATCAGAT TGAACTCATT CCAAGTGACC AGCTTGTTGC TGTGATCTCG 
    GGCCGAAATC GCCATGTCCG ACTTTTTCCT ATGTCAGCTT TGGATGGGCA AGAGACAGAT 
    TTTTATAAAC TGGCAGAGAC TAAAGGGTGT CAGACCATAG CTGCTGGGAA AGTGCGCCAC 
    GGAGCTCTGT CCTGCCTGTG TGTGGCCATG AAGAGACAGG TCCTCTGCTA TGAACTGTTC 
    CAAAGCAAGA CCAGGCACAG GAAGTTTAAG GAGATTCAAG TCCCATGTAA TGTCCAGTGG 
    ATGGCCATCT TCAGTGAGCA TCTCTGTGTG GGATTCCAGT CAGGATTTCT CAGATACCCC 
    CTGAATGGAG AAGGAGGTCC ATGCAATATG CTCCATTCAA ATGACCATAC ACTGTCATTC 
    ATTACACACC AACCAATGGA TGCTCTCTGT GCAGTTGAGA TCTCCAACAA AGAGTATTTG 
    CTGTGTTTTA ACAGCATTGG GATATACACA GACTGCCAGG GCCGAAGGTC TAGACAGCAG 
    GAACTCATGT GGCCAGCAAA TCCTTCCTCC TGTTGTTACA ATGCACCATA TCTCTCCGTG 
    TATAGTGAAA ACGCAGTTGA TGTCTTTGAT GTCAACTCCA TGGAATGGAT ACAGACTCTT 
    CCTCTCAAAA AGGTCCGACC TTTAAACACT GAAGGATCAT TAAATCTCTT AGGATTGGAG 
    ACCATTAGAT TAATATATTT CAAAAATAAG ATGGCAGAAG GGGATGAACT TGTGGTCCCT 
    GAAACATCAG ATAATAGTCG GAAGCAAATG GTCAGAAATA TCAACAACAA ACGGCGCTAC 
    TCCTTCCGAG TCCCTGAGGA AGAGAGGATG CAACAGAGGA GGGAGATGCT ACGAGATCCA 
    GAAATGAGAA ATAAATTAAT TTCTAACCCA ACTAATTTTA ACCACATAGC ACACATGGGT 
    CCTGGAGATG GAATACAGAT CCTAAAAGAC CTGCCCATGC CGGGTTTCCC TTATTCACCC 
    CCTCATCACC ACTCCAGCCT GATCTCCTCT CCGAGCAACT TTGAGCACAT CTATCACATG 
    ACTGTCAATT CTGCTGAACA GTTTCTCTCT CCTGAATCCA TAAACCCTGG GTACCCCCCG 
    TCCCTGCGCT CTGCCCCTGG TACACCACAC TCTATGACTC TGAGGAACCC ACGGCCTCAG 
    GAAAGCCGGA CAGTATTCAG TGGCTCCGTC AGTATTCCCT CCATCACCAA GTCCCGCCCT 
    GAGCCAGGCC GCTCCATGAG TGCCAGCAGC GGCCTGTCTG CACGGTCGTC AGCCCAGAAT 
    GGCAGTGCAC TAAAGAGGGA ATTCTCCGGA GGAAGCTATA ACACAAAGCG ACAGCCCATG 
    CCCTCTCCCT CGGAGGGCTC TTTGTCATCA GGAGGCATGG ACCAAGGAAG TGACGCCCCT 
    GCGAGGGACT ATGATGGAGA GGACTCTGAT TCTCCAAGGC ATTCCACAGC TTCCAACAGC 
    TCTAACCTGA GCAGCCCCCC AAGTCCCATT TCACCCCAAA AGACCAAGAG CCTCTCCCTG 
    GAGAGCACAG ACCGCGGGAG CTGGGATCCA TGA

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

    Cdc42bpa ( XM_029476000.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331860.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv66186
    Clone ID Related Accession (Same CDS sequence) XM_029476000.1
    Accession Version XM_029476000.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5385bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAACGCTCT CCGTCCTGTA CTCCAGCTAG CAAAGGCAGA 
    CGTATTGCAG ACTGTGCTCC ACTTCCAGCT CACACACCAA CCTTAAGGAA AAAGGGATGC 
    CCGGCTTCAA CTGGCTTTCC ACCTAAGCGC AAGACTCATC AATTTTTCGT GAAGTCTTTC 
    ACTGCCCCTA CCAAATGTCA TCAGTGCACC TCCTTGATGG TCGGTTTGAT AAGACAGGGC 
    TGTTCCTGTG AAGTCTGTGG GTTCTCATGT CATATAACTT GTGTGAACAA AGCCCCGACG 
    GTTTGCCCAG TTCCTCCCGA GCAAACTAAA GGTCCATTGG GCATAGACCC CCAGAAGGGA 
    GTCGGGACGG CGTATGAGGG TCATGTCAGG ATCCCTAAGC CAGCGGGAGT GAAGAAAGGG 
    TGGCAGAGAG CACTGGCTGT GGTCTGCGAC TTCAAACTGT TTCTTTATGA TATTGCGGAG 
    GGAAAAGCAT CGCAGCCCAG CTCCGTCATT AGTCAAGTGA TTGACATGAG AGATGAAGAA 
    TTTTCTGTGA GTTCAGTCTT AGCTTCTGAT GTTATTCACG CAAGTCGAAA AGATATTCCC 
    TGTATATTCA GAGTCACAGC TTCCCAGCTC TCAGCACCTA GTAACAAATG TTCCATCCTG 
    ATGCTAGCAG ACAGCGAGAA TGAGAGGAGT AAGTGGGTGG GAGTGCTGAG TGAACTCCAC 
    AAGATTCTGA AGAAAAACAA GTTCAGAGAC CGCTCAGTGT ATGTCCCCAA GGAGGCTTAC 
    GACAGCACGC TACCCCTCAT TAAGACAACG CAGGCTGCTG CAATCATAGA TCATGAACGG 
    ATAGCTTTGG GAAATGAAGA AGGATTATTT GTTGTGCATG TCACCAAAGA TGAGATTATT 
    AGAGTTGGTG ATAATAAGAA AATCCATCAG ATTGAACTCA TTCCAAGTGA CCAGCTTGTT 
    GCTGTGATCT CGGGCCGAAA TCGCCATGTC CGACTTTTTC CTATGTCAGC TTTGGATGGG 
    CAAGAGACAG ATTTTTATAA ACTGGCAGAG ACTAAAGGGT GTCAGACCAT AGCTGCTGGG 
    AAAGTGCGCC ACGGAGCTCT GTCCTGCCTG TGTGTGGCCA TGAAGAGACA GGTCCTCTGC 
    TATGAACTGT TCCAAAGCAA GACCAGGCAC AGGAAGTTTA AGGAGATTCA AGTCCCATGT 
    AATGTCCAGT GGATGGCCAT CTTCAGTGAG CATCTCTGTG TGGGATTCCA GTCAGGATTT 
    CTCAGATACC CCCTGAATGG AGAAGGAGGT CCATGCAATA TGCTCCATTC AAATGACCAT 
    ACACTGTCAT TCATTACACA CCAACCAATG GATGCTCTCT GTGCAGTTGA GATCTCCAAC 
    AAAGAGTATT TGCTGTGTTT TAACAGCATT GGGATATACA CAGACTGCCA GGGCCGAAGG 
    TCTAGACAGC AGGAACTCAT GTGGCCAGCA AATCCTTCCT CCTGTTGTTA CAATGCACCA 
    TATCTCTCCG TGTATAGTGA AAACGCAGTT GATGTCTTTG ATGTCAACTC CATGGAATGG 
    ATACAGACTC TTCCTCTCAA AAAGGTCCGA CCTTTAAACA CTGAAGGATC ATTAAATCTC 
    TTAGGATTGG AGACCATTAG ATTAATATAT TTCAAAAATA AGATGGCAGA AGGGGATGAA 
    CTTGTGGTCC CTGAAACATC AGATAATAGT CGGAAGCAAA TGGTCAGAAA TATCAACAAC 
    AAACGGCGCT ACTCCTTCCG AGTCCCTGAG GAAGAGAGGA TGCAACAGAG GAGGGAGATG 
    CTACGAGATC CAGAAATGAG AAATAAATTA ATTTCTAACC CAACTAATTT TAACCACATA 
    GCACACATGG GTCCTGGAGA TGGAATACAG ATCCTAAAAG ACCTGCCCAT GCCGGGTTTC 
    CCTTATTCAC CCCCTCATCA CCACTCCAGC CTGATCTCCT CTCCGAGCAA CTTTGAGCAC 
    ATCTATCACA TGACTGTCAA TTCTGCTGAA CAGTTTCTCT CTCCTGAATC CATAAACCCT 
    GGGTACCCCC CGTCCCTGCG CTCTGCCCCT GGTACACCAC ACTCTATGAC TCTGAGGAAC 
    CCACGGCCTC AGGAAAGCCG GACAGTATTC AGTGGCTCCG TCAGTATTCC CTCCATCACC 
    AAGTCCCGCC CTGAGCCAGG CCGCTCCATG AGTGCCAGCA GCGGCCTGTC TGCACGGTCG 
    TCAGCCCAGA ATGGCAGTGC ACTAAAGAGG GAATTCTCCG GAGGAAGCTA TAACACAAAG 
    CGACAGCCCA TGCCCTCTCC CTCGGAGGGC TCTTTGTCAT CAGGAGGCAT GGACCAAGGA 
    AGTGACGCCC CTGCGAGGGA CTATGATGGA GAGGACTCTG ATTCTCCAAG GCATTCCACA 
    GCTTCCAACA GCTCTAACCT GAGCAGCCCC CCAAGTCCCA TTTCACCCCA AAAGACCAAG 
    AGCCTCTCCC TGGAGAGCAC AGACCGCGGG AGCTGGGATC CATGA

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

    RefSeq XP_029331860.1
    CDS706..6090
    Translation

    Target ORF information:

    RefSeq Version XM_029476000.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029476000.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAACGCTCT CCGTCCTGTA CTCCAGCTAG CAAAGGCAGA 
    CGTATTGCAG ACTGTGCTCC ACTTCCAGCT CACACACCAA CCTTAAGGAA AAAGGGATGC 
    CCGGCTTCAA CTGGCTTTCC ACCTAAGCGC AAGACTCATC AATTTTTCGT GAAGTCTTTC 
    ACTGCCCCTA CCAAATGTCA TCAGTGCACC TCCTTGATGG TCGGTTTGAT AAGACAGGGC 
    TGTTCCTGTG AAGTCTGTGG GTTCTCATGT CATATAACTT GTGTGAACAA AGCCCCGACG 
    GTTTGCCCAG TTCCTCCCGA GCAAACTAAA GGTCCATTGG GCATAGACCC CCAGAAGGGA 
    GTCGGGACGG CGTATGAGGG TCATGTCAGG ATCCCTAAGC CAGCGGGAGT GAAGAAAGGG 
    TGGCAGAGAG CACTGGCTGT GGTCTGCGAC TTCAAACTGT TTCTTTATGA TATTGCGGAG 
    GGAAAAGCAT CGCAGCCCAG CTCCGTCATT AGTCAAGTGA TTGACATGAG AGATGAAGAA 
    TTTTCTGTGA GTTCAGTCTT AGCTTCTGAT GTTATTCACG CAAGTCGAAA AGATATTCCC 
    TGTATATTCA GAGTCACAGC TTCCCAGCTC TCAGCACCTA GTAACAAATG TTCCATCCTG 
    ATGCTAGCAG ACAGCGAGAA TGAGAGGAGT AAGTGGGTGG GAGTGCTGAG TGAACTCCAC 
    AAGATTCTGA AGAAAAACAA GTTCAGAGAC CGCTCAGTGT ATGTCCCCAA GGAGGCTTAC 
    GACAGCACGC TACCCCTCAT TAAGACAACG CAGGCTGCTG CAATCATAGA TCATGAACGG 
    ATAGCTTTGG GAAATGAAGA AGGATTATTT GTTGTGCATG TCACCAAAGA TGAGATTATT 
    AGAGTTGGTG ATAATAAGAA AATCCATCAG ATTGAACTCA TTCCAAGTGA CCAGCTTGTT 
    GCTGTGATCT CGGGCCGAAA TCGCCATGTC CGACTTTTTC CTATGTCAGC TTTGGATGGG 
    CAAGAGACAG ATTTTTATAA ACTGGCAGAG ACTAAAGGGT GTCAGACCAT AGCTGCTGGG 
    AAAGTGCGCC ACGGAGCTCT GTCCTGCCTG TGTGTGGCCA TGAAGAGACA GGTCCTCTGC 
    TATGAACTGT TCCAAAGCAA GACCAGGCAC AGGAAGTTTA AGGAGATTCA AGTCCCATGT 
    AATGTCCAGT GGATGGCCAT CTTCAGTGAG CATCTCTGTG TGGGATTCCA GTCAGGATTT 
    CTCAGATACC CCCTGAATGG AGAAGGAGGT CCATGCAATA TGCTCCATTC AAATGACCAT 
    ACACTGTCAT TCATTACACA CCAACCAATG GATGCTCTCT GTGCAGTTGA GATCTCCAAC 
    AAAGAGTATT TGCTGTGTTT TAACAGCATT GGGATATACA CAGACTGCCA GGGCCGAAGG 
    TCTAGACAGC AGGAACTCAT GTGGCCAGCA AATCCTTCCT CCTGTTGTTA CAATGCACCA 
    TATCTCTCCG TGTATAGTGA AAACGCAGTT GATGTCTTTG ATGTCAACTC CATGGAATGG 
    ATACAGACTC TTCCTCTCAA AAAGGTCCGA CCTTTAAACA CTGAAGGATC ATTAAATCTC 
    TTAGGATTGG AGACCATTAG ATTAATATAT TTCAAAAATA AGATGGCAGA AGGGGATGAA 
    CTTGTGGTCC CTGAAACATC AGATAATAGT CGGAAGCAAA TGGTCAGAAA TATCAACAAC 
    AAACGGCGCT ACTCCTTCCG AGTCCCTGAG GAAGAGAGGA TGCAACAGAG GAGGGAGATG 
    CTACGAGATC CAGAAATGAG AAATAAATTA ATTTCTAACC CAACTAATTT TAACCACATA 
    GCACACATGG GTCCTGGAGA TGGAATACAG ATCCTAAAAG ACCTGCCCAT GCCGGGTTTC 
    CCTTATTCAC CCCCTCATCA CCACTCCAGC CTGATCTCCT CTCCGAGCAA CTTTGAGCAC 
    ATCTATCACA TGACTGTCAA TTCTGCTGAA CAGTTTCTCT CTCCTGAATC CATAAACCCT 
    GGGTACCCCC CGTCCCTGCG CTCTGCCCCT GGTACACCAC ACTCTATGAC TCTGAGGAAC 
    CCACGGCCTC AGGAAAGCCG GACAGTATTC AGTGGCTCCG TCAGTATTCC CTCCATCACC 
    AAGTCCCGCC CTGAGCCAGG CCGCTCCATG AGTGCCAGCA GCGGCCTGTC TGCACGGTCG 
    TCAGCCCAGA ATGGCAGTGC ACTAAAGAGG GAATTCTCCG GAGGAAGCTA TAACACAAAG 
    CGACAGCCCA TGCCCTCTCC CTCGGAGGGC TCTTTGTCAT CAGGAGGCAT GGACCAAGGA 
    AGTGACGCCC CTGCGAGGGA CTATGATGGA GAGGACTCTG ATTCTCCAAG GCATTCCACA 
    GCTTCCAACA GCTCTAACCT GAGCAGCCCC CCAAGTCCCA TTTCACCCCA AAAGACCAAG 
    AGCCTCTCCC TGGAGAGCAC AGACCGCGGG AGCTGGGATC CATGA

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

    Cdc42bpa ( XM_029476003.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331863.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv66187
    Clone ID Related Accession (Same CDS sequence) XM_029476003.1
    Accession Version XM_029476003.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5346bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAATTGCA GACTGTGCTC CACTTCCAGC TCACACACCA 
    ACCTTAAGGA AAAAGGGATG CCCGGCTTCA ACTGGCTTTC CACCTAAGCG CAAGACTCAT 
    CAATTTTTCG TGAAGTCTTT CACTGCCCCT ACCAAATGTC ATCAGTGCAC CTCCTTGATG 
    GTCGGTTTGA TAAGACAGGG CTGTTCCTGT GAAGTCTGTG GGTTCTCATG TCATATAACT 
    TGTGTGAACA AAGCCCCGAC GGTTTGCCCA GTTCCTCCCG AGCAAACTAA AGGTCCATTG 
    GGCATAGACC CCCAGAAGGG AGTCGGGACG GCGTATGAGG GTCATGTCAG GATCCCTAAG 
    CCAGCGGGAG TGAAGAAAGG GTGGCAGAGA GCACTGGCTG TGGTCTGCGA CTTCAAACTG 
    TTTCTTTATG ATATTGCGGA GGGAAAAGCA TCGCAGCCCA GCTCCGTCAT TAGTCAAGTG 
    ATTGACATGA GAGATGAAGA ATTTTCTGTG AGTTCAGTCT TAGCTTCTGA TGTTATTCAC 
    GCAAGTCGAA AAGATATTCC CTGTATATTC AGAGTCACAG CTTCCCAGCT CTCAGCACCT 
    AGTAACAAAT GTTCCATCCT GATGCTAGCA GACAGCGAGA ATGAGAGGAG TAAGTGGGTG 
    GGAGTGCTGA GTGAACTCCA CAAGATTCTG AAGAAAAACA AGTTCAGAGA CCGCTCAGTG 
    TATGTCCCCA AGGAGGCTTA CGACAGCACG CTACCCCTCA TTAAGACAAC GCAGGCTGCT 
    GCAATCATAG ATCATGAACG GATAGCTTTG GGAAATGAAG AAGGATTATT TGTTGTGCAT 
    GTCACCAAAG ATGAGATTAT TAGAGTTGGT GATAATAAGA AAATCCATCA GATTGAACTC 
    ATTCCAAGTG ACCAGCTTGT TGCTGTGATC TCGGGCCGAA ATCGCCATGT CCGACTTTTT 
    CCTATGTCAG CTTTGGATGG GCAAGAGACA GATTTTTATA AACTGGCAGA GACTAAAGGG 
    TGTCAGACCA TAGCTGCTGG GAAAGTGCGC CACGGAGCTC TGTCCTGCCT GTGTGTGGCC 
    ATGAAGAGAC AGGTCCTCTG CTATGAACTG TTCCAAAGCA AGACCAGGCA CAGGAAGTTT 
    AAGGAGATTC AAGTCCCATG TAATGTCCAG TGGATGGCCA TCTTCAGTGA GCATCTCTGT 
    GTGGGATTCC AGTCAGGATT TCTCAGATAC CCCCTGAATG GAGAAGGAGG TCCATGCAAT 
    ATGCTCCATT CAAATGACCA TACACTGTCA TTCATTACAC ACCAACCAAT GGATGCTCTC 
    TGTGCAGTTG AGATCTCCAA CAAAGAGTAT TTGCTGTGTT TTAACAGCAT TGGGATATAC 
    ACAGACTGCC AGGGCCGAAG GTCTAGACAG CAGGAACTCA TGTGGCCAGC AAATCCTTCC 
    TCCTGTTGTT ACAATGCACC ATATCTCTCC GTGTATAGTG AAAACGCAGT TGATGTCTTT 
    GATGTCAACT CCATGGAATG GATACAGACT CTTCCTCTCA AAAAGGTCCG ACCTTTAAAC 
    ACTGAAGGAT CATTAAATCT CTTAGGATTG GAGACCATTA GATTAATATA TTTCAAAAAT 
    AAGATGGCAG AAGGGGATGA ACTTGTGGTC CCTGAAACAT CAGATAATAG TCGGAAGCAA 
    ATGGTCAGAA ATATCAACAA CAAACGGCGC TACTCCTTCC GAGTCCCTGA GGAAGAGAGG 
    ATGCAACAGA GGAGGGAGAT GCTACGAGAT CCAGAAATGA GAAATAAATT AATTTCTAAC 
    CCAACTAATT TTAACCACAT AGCACACATG GGTCCTGGAG ATGGAATACA GATCCTAAAA 
    GACCTGCCCA TGCCGGGTTT CCCTTATTCA CCCCCTCATC ACCACTCCAG CCTGATCTCC 
    TCTCCGAGCA ACTTTGAGCA CATCTATCAC ATGACTGTCA ATTCTGCTGA ACAGTTTCTC 
    TCTCCTGAAT CCATAAACCC TGGGTACCCC CCGTCCCTGC GCTCTGCCCC TGGTACACCA 
    CACTCTATGA CTCTGAGGAA CCCACGGCCT CAGGAAAGCC GGACAGTATT CAGTGGCTCC 
    GTCAGTATTC CCTCCATCAC CAAGTCCCGC CCTGAGCCAG GCCGCTCCAT GAGTGCCAGC 
    AGCGGCCTGT CTGCACGGTC GTCAGCCCAG AATGGCAGTG CACTAAAGAG GGAATTCTCC 
    GGAGGAAGCT ATAACACAAA GCGACAGCCC ATGCCCTCTC CCTCGGAGGG CTCTTTGTCA 
    TCAGGAGGCA TGGACCAAGG AAGTGACGCC CCTGCGAGGG ACTATGATGG AGAGGACTCT 
    GATTCTCCAA GGCATTCCAC AGCTTCCAAC AGCTCTAACC TGAGCAGCCC CCCAAGTCCC 
    ATTTCACCCC AAAAGACCAA GAGCCTCTCC CTGGAGAGCA CAGACCGCGG GAGCTGGGAT 
    CCATGA

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

    RefSeq XP_029331863.1
    CDS706..6051
    Translation

    Target ORF information:

    RefSeq Version XM_029476003.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029476003.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAATTGCA GACTGTGCTC CACTTCCAGC TCACACACCA 
    ACCTTAAGGA AAAAGGGATG CCCGGCTTCA ACTGGCTTTC CACCTAAGCG CAAGACTCAT 
    CAATTTTTCG TGAAGTCTTT CACTGCCCCT ACCAAATGTC ATCAGTGCAC CTCCTTGATG 
    GTCGGTTTGA TAAGACAGGG CTGTTCCTGT GAAGTCTGTG GGTTCTCATG TCATATAACT 
    TGTGTGAACA AAGCCCCGAC GGTTTGCCCA GTTCCTCCCG AGCAAACTAA AGGTCCATTG 
    GGCATAGACC CCCAGAAGGG AGTCGGGACG GCGTATGAGG GTCATGTCAG GATCCCTAAG 
    CCAGCGGGAG TGAAGAAAGG GTGGCAGAGA GCACTGGCTG TGGTCTGCGA CTTCAAACTG 
    TTTCTTTATG ATATTGCGGA GGGAAAAGCA TCGCAGCCCA GCTCCGTCAT TAGTCAAGTG 
    ATTGACATGA GAGATGAAGA ATTTTCTGTG AGTTCAGTCT TAGCTTCTGA TGTTATTCAC 
    GCAAGTCGAA AAGATATTCC CTGTATATTC AGAGTCACAG CTTCCCAGCT CTCAGCACCT 
    AGTAACAAAT GTTCCATCCT GATGCTAGCA GACAGCGAGA ATGAGAGGAG TAAGTGGGTG 
    GGAGTGCTGA GTGAACTCCA CAAGATTCTG AAGAAAAACA AGTTCAGAGA CCGCTCAGTG 
    TATGTCCCCA AGGAGGCTTA CGACAGCACG CTACCCCTCA TTAAGACAAC GCAGGCTGCT 
    GCAATCATAG ATCATGAACG GATAGCTTTG GGAAATGAAG AAGGATTATT TGTTGTGCAT 
    GTCACCAAAG ATGAGATTAT TAGAGTTGGT GATAATAAGA AAATCCATCA GATTGAACTC 
    ATTCCAAGTG ACCAGCTTGT TGCTGTGATC TCGGGCCGAA ATCGCCATGT CCGACTTTTT 
    CCTATGTCAG CTTTGGATGG GCAAGAGACA GATTTTTATA AACTGGCAGA GACTAAAGGG 
    TGTCAGACCA TAGCTGCTGG GAAAGTGCGC CACGGAGCTC TGTCCTGCCT GTGTGTGGCC 
    ATGAAGAGAC AGGTCCTCTG CTATGAACTG TTCCAAAGCA AGACCAGGCA CAGGAAGTTT 
    AAGGAGATTC AAGTCCCATG TAATGTCCAG TGGATGGCCA TCTTCAGTGA GCATCTCTGT 
    GTGGGATTCC AGTCAGGATT TCTCAGATAC CCCCTGAATG GAGAAGGAGG TCCATGCAAT 
    ATGCTCCATT CAAATGACCA TACACTGTCA TTCATTACAC ACCAACCAAT GGATGCTCTC 
    TGTGCAGTTG AGATCTCCAA CAAAGAGTAT TTGCTGTGTT TTAACAGCAT TGGGATATAC 
    ACAGACTGCC AGGGCCGAAG GTCTAGACAG CAGGAACTCA TGTGGCCAGC AAATCCTTCC 
    TCCTGTTGTT ACAATGCACC ATATCTCTCC GTGTATAGTG AAAACGCAGT TGATGTCTTT 
    GATGTCAACT CCATGGAATG GATACAGACT CTTCCTCTCA AAAAGGTCCG ACCTTTAAAC 
    ACTGAAGGAT CATTAAATCT CTTAGGATTG GAGACCATTA GATTAATATA TTTCAAAAAT 
    AAGATGGCAG AAGGGGATGA ACTTGTGGTC CCTGAAACAT CAGATAATAG TCGGAAGCAA 
    ATGGTCAGAA ATATCAACAA CAAACGGCGC TACTCCTTCC GAGTCCCTGA GGAAGAGAGG 
    ATGCAACAGA GGAGGGAGAT GCTACGAGAT CCAGAAATGA GAAATAAATT AATTTCTAAC 
    CCAACTAATT TTAACCACAT AGCACACATG GGTCCTGGAG ATGGAATACA GATCCTAAAA 
    GACCTGCCCA TGCCGGGTTT CCCTTATTCA CCCCCTCATC ACCACTCCAG CCTGATCTCC 
    TCTCCGAGCA ACTTTGAGCA CATCTATCAC ATGACTGTCA ATTCTGCTGA ACAGTTTCTC 
    TCTCCTGAAT CCATAAACCC TGGGTACCCC CCGTCCCTGC GCTCTGCCCC TGGTACACCA 
    CACTCTATGA CTCTGAGGAA CCCACGGCCT CAGGAAAGCC GGACAGTATT CAGTGGCTCC 
    GTCAGTATTC CCTCCATCAC CAAGTCCCGC CCTGAGCCAG GCCGCTCCAT GAGTGCCAGC 
    AGCGGCCTGT CTGCACGGTC GTCAGCCCAG AATGGCAGTG CACTAAAGAG GGAATTCTCC 
    GGAGGAAGCT ATAACACAAA GCGACAGCCC ATGCCCTCTC CCTCGGAGGG CTCTTTGTCA 
    TCAGGAGGCA TGGACCAAGG AAGTGACGCC CCTGCGAGGG ACTATGATGG AGAGGACTCT 
    GATTCTCCAA GGCATTCCAC AGCTTCCAAC AGCTCTAACC TGAGCAGCCC CCCAAGTCCC 
    ATTTCACCCC AAAAGACCAA GAGCCTCTCC CTGGAGAGCA CAGACCGCGG GAGCTGGGAT 
    CCATGA

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

    Cdc42bpa ( XM_029476006.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331866.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv66188
    Clone ID Related Accession (Same CDS sequence) XM_029476006.1
    Accession Version XM_029476006.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5247bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAGATTCC CTTTCTTCTT CCTCATCCTC ACTGATTGAT 
    TTTTTGGATG ACCGCTCTCC GTCCTGTACT CCAGCTAGCA AAGGCAGACG TATTGCAGAC 
    TGTGCTCCAC TTCCAGCTCA CACACCAACC TTAAGGAAAA AGGGATGCCC GGCTTCAACT 
    GGCTTTCCAC CTAAGCGCAA GACTCATCAA TTTTTCGTGA AGTCTTTCAC TGCCCCTACC 
    AAATGTCATC AGTGCACCTC CTTGATGGTC GGTTTGATAA GACAGGGCTG TTCCTGTGAA 
    GTCTGTGGGT TCTCATGTCA TATAACTTGT GTGAACAAAG CCCCGACGGT TTGCCCAGTT 
    CCTCCCGAGC AAACTAAAGG TCCATTGGGC ATAGACCCCC AGAAGGGAGT CGGGACGGCG 
    TATGAGGGTC ATGTCAGGAT CCCTAAGCCA GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA 
    CTGGCTGTGG TCTGCGACTT CAAACTGTTT CTTTATGATA TTGCGGAGGG AAAAGCATCG 
    CAGCCCAGCT CCGTCATTAG TCAAGTGATT GACATGAGAG ATGAAGAATT TTCTGTGAGT 
    TCAGTCTTAG CTTCTGATGT TATTCACGCA AGTCGAAAAG ATATTCCCTG TATATTCAGA 
    GTCACAGCTT CCCAGCTCTC AGCACCTAGT AACAAATGTT CCATCCTGAT GCTAGCAGAC 
    AGCGAGAATG AGAGGAGTAA GTGGGTGGGA GTGCTGAGTG AACTCCACAA GATTCTGAAG 
    AAAAACAAGT TCAGAGACCG CTCAGTGTAT GTCCCCAAGG AGGCTTACGA CAGCACGCTA 
    CCCCTCATTA AGACAACGCA GGCTGCTGCA ATCATAGATC ATGAACGGAT AGCTTTGGGA 
    AATGAAGAAG GATTATTTGT TGTGCATGTC ACCAAAGATG AGATTATTAG AGTTGGTGAT 
    AATAAGAAAA TCCATCAGAT TGAACTCATT CCAAGTGACC AGCTTGTTGC TGTGATCTCG 
    GGCCGAAATC GCCATGTCCG ACTTTTTCCT ATGTCAGCTT TGGATGGGCA AGAGACAGAT 
    TTTTATAAAC TGGCAGAGAC TAAAGGGTGT CAGACCATAG CTGCTGGGAA AGTGCGCCAC 
    GGAGCTCTGT CCTGCCTGTG TGTGGCCATG AAGAGACAGG TCCTCTGCTA TGAACTGTTC 
    CAAAGCAAGA CCAGGCACAG GAAGTTTAAG GAGATTCAAG TCCCATGTAA TGTCCAGTGG 
    ATGGCCATCT TCAGTGAGCA TCTCTGTGTG GGATTCCAGT CAGGATTTCT CAGATACCCC 
    CTGAATGGAG AAGGAGGTCC ATGCAATATG CTCCATTCAA ATGACCATAC ACTGTCATTC 
    ATTACACACC AACCAATGGA TGCTCTCTGT GCAGTTGAGA TCTCCAACAA AGAGTATTTG 
    CTGTGTTTTA ACAGCATTGG GATATACACA GACTGCCAGG GCCGAAGGTC TAGACAGCAG 
    GAACTCATGT GGCCAGCAAA TCCTTCCTCC TGTTGTTACA ATGCACCATA TCTCTCCGTG 
    TATAGTGAAA ACGCAGTTGA TGTCTTTGAT GTCAACTCCA TGGAATGGAT ACAGACTCTT 
    CCTCTCAAAA AGGTCCGACC TTTAAACACT GAAGGATCAT TAAATCTCTT AGGATTGGAG 
    ACCATTAGAT TAATATATTT CAAAAATAAG ATGGCAGAAG GGGATGAACT TGTGGTCCCT 
    GAAACATCAG ATAATAGTCG GAAGCAAATG GTCAGAAATA TCAACAACAA ACGGCGCTAC 
    TCCTTCCGAG TCCCTGAGGA AGAGAGGATG CAACAGAGGA GGGAGATGCT ACGAGATCCA 
    GAAATGAGAA ATAAATTAAT TTCTAACCCA ACTAATTTTA ACCACATAGC ACACATGGGT 
    CCTGGAGATG GAATACAGAT CCTAAAAGAC CTGCCCATGA ACCCACGGCC TCAGGAAAGC 
    CGGACAGTAT TCAGTGGCTC CGTCAGTATT CCCTCCATCA CCAAGTCCCG CCCTGAGCCA 
    GGCCGCTCCA TGAGTGCCAG CAGCGGCCTG TCTGCACGGT CGTCAGCCCA GAATGGCAGT 
    GCACTAAAGA GGGAATTCTC CGGAGGAAGC TATAACACAA AGCGACAGCC CATGCCCTCT 
    CCCTCGGAGG GCTCTTTGTC ATCAGGAGGC ATGGACCAAG GAAGTGACGC CCCTGCGAGG 
    GACTATGATG GAGAGGACTC TGATTCTCCA AGGCATTCCA CAGCTTCCAA CAGCTCTAAC 
    CTGAGCAGCC CCCCAAGTCC CATTTCACCC CAAAAGACCA AGAGCCTCTC CCTGGAGAGC 
    ACAGACCGCG GGAGCTGGGA TCCATGA

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

    RefSeq XP_029331866.1
    CDS706..5952
    Translation

    Target ORF information:

    RefSeq Version XM_029476006.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029476006.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAGATTCC CTTTCTTCTT CCTCATCCTC ACTGATTGAT 
    TTTTTGGATG ACCGCTCTCC GTCCTGTACT CCAGCTAGCA AAGGCAGACG TATTGCAGAC 
    TGTGCTCCAC TTCCAGCTCA CACACCAACC TTAAGGAAAA AGGGATGCCC GGCTTCAACT 
    GGCTTTCCAC CTAAGCGCAA GACTCATCAA TTTTTCGTGA AGTCTTTCAC TGCCCCTACC 
    AAATGTCATC AGTGCACCTC CTTGATGGTC GGTTTGATAA GACAGGGCTG TTCCTGTGAA 
    GTCTGTGGGT TCTCATGTCA TATAACTTGT GTGAACAAAG CCCCGACGGT TTGCCCAGTT 
    CCTCCCGAGC AAACTAAAGG TCCATTGGGC ATAGACCCCC AGAAGGGAGT CGGGACGGCG 
    TATGAGGGTC ATGTCAGGAT CCCTAAGCCA GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA 
    CTGGCTGTGG TCTGCGACTT CAAACTGTTT CTTTATGATA TTGCGGAGGG AAAAGCATCG 
    CAGCCCAGCT CCGTCATTAG TCAAGTGATT GACATGAGAG ATGAAGAATT TTCTGTGAGT 
    TCAGTCTTAG CTTCTGATGT TATTCACGCA AGTCGAAAAG ATATTCCCTG TATATTCAGA 
    GTCACAGCTT CCCAGCTCTC AGCACCTAGT AACAAATGTT CCATCCTGAT GCTAGCAGAC 
    AGCGAGAATG AGAGGAGTAA GTGGGTGGGA GTGCTGAGTG AACTCCACAA GATTCTGAAG 
    AAAAACAAGT TCAGAGACCG CTCAGTGTAT GTCCCCAAGG AGGCTTACGA CAGCACGCTA 
    CCCCTCATTA AGACAACGCA GGCTGCTGCA ATCATAGATC ATGAACGGAT AGCTTTGGGA 
    AATGAAGAAG GATTATTTGT TGTGCATGTC ACCAAAGATG AGATTATTAG AGTTGGTGAT 
    AATAAGAAAA TCCATCAGAT TGAACTCATT CCAAGTGACC AGCTTGTTGC TGTGATCTCG 
    GGCCGAAATC GCCATGTCCG ACTTTTTCCT ATGTCAGCTT TGGATGGGCA AGAGACAGAT 
    TTTTATAAAC TGGCAGAGAC TAAAGGGTGT CAGACCATAG CTGCTGGGAA AGTGCGCCAC 
    GGAGCTCTGT CCTGCCTGTG TGTGGCCATG AAGAGACAGG TCCTCTGCTA TGAACTGTTC 
    CAAAGCAAGA CCAGGCACAG GAAGTTTAAG GAGATTCAAG TCCCATGTAA TGTCCAGTGG 
    ATGGCCATCT TCAGTGAGCA TCTCTGTGTG GGATTCCAGT CAGGATTTCT CAGATACCCC 
    CTGAATGGAG AAGGAGGTCC ATGCAATATG CTCCATTCAA ATGACCATAC ACTGTCATTC 
    ATTACACACC AACCAATGGA TGCTCTCTGT GCAGTTGAGA TCTCCAACAA AGAGTATTTG 
    CTGTGTTTTA ACAGCATTGG GATATACACA GACTGCCAGG GCCGAAGGTC TAGACAGCAG 
    GAACTCATGT GGCCAGCAAA TCCTTCCTCC TGTTGTTACA ATGCACCATA TCTCTCCGTG 
    TATAGTGAAA ACGCAGTTGA TGTCTTTGAT GTCAACTCCA TGGAATGGAT ACAGACTCTT 
    CCTCTCAAAA AGGTCCGACC TTTAAACACT GAAGGATCAT TAAATCTCTT AGGATTGGAG 
    ACCATTAGAT TAATATATTT CAAAAATAAG ATGGCAGAAG GGGATGAACT TGTGGTCCCT 
    GAAACATCAG ATAATAGTCG GAAGCAAATG GTCAGAAATA TCAACAACAA ACGGCGCTAC 
    TCCTTCCGAG TCCCTGAGGA AGAGAGGATG CAACAGAGGA GGGAGATGCT ACGAGATCCA 
    GAAATGAGAA ATAAATTAAT TTCTAACCCA ACTAATTTTA ACCACATAGC ACACATGGGT 
    CCTGGAGATG GAATACAGAT CCTAAAAGAC CTGCCCATGA ACCCACGGCC TCAGGAAAGC 
    CGGACAGTAT TCAGTGGCTC CGTCAGTATT CCCTCCATCA CCAAGTCCCG CCCTGAGCCA 
    GGCCGCTCCA TGAGTGCCAG CAGCGGCCTG TCTGCACGGT CGTCAGCCCA GAATGGCAGT 
    GCACTAAAGA GGGAATTCTC CGGAGGAAGC TATAACACAA AGCGACAGCC CATGCCCTCT 
    CCCTCGGAGG GCTCTTTGTC ATCAGGAGGC ATGGACCAAG GAAGTGACGC CCCTGCGAGG 
    GACTATGATG GAGAGGACTC TGATTCTCCA AGGCATTCCA CAGCTTCCAA CAGCTCTAAC 
    CTGAGCAGCC CCCCAAGTCC CATTTCACCC CAAAAGACCA AGAGCCTCTC CCTGGAGAGC 
    ACAGACCGCG GGAGCTGGGA TCCATGA

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

    Cdc42bpa ( XM_029476009.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331869.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv66189
    Clone ID Related Accession (Same CDS sequence) XM_029476009.1
    Accession Version XM_029476009.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5208bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAGATTCC CTTTCTTCTT CCTCATCCTC ACTGATTGAT 
    TTTTTGGATG ACATTGCAGA CTGTGCTCCA CTTCCAGCTC ACACACCAAC CTTAAGGAAA 
    AAGGGATGCC CGGCTTCAAC TGGCTTTCCA CCTAAGCGCA AGACTCATCA ATTTTTCGTG 
    AAGTCTTTCA CTGCCCCTAC CAAATGTCAT CAGTGCACCT CCTTGATGGT CGGTTTGATA 
    AGACAGGGCT GTTCCTGTGA AGTCTGTGGG TTCTCATGTC ATATAACTTG TGTGAACAAA 
    GCCCCGACGG TTTGCCCAGT TCCTCCCGAG CAAACTAAAG GTCCATTGGG CATAGACCCC 
    CAGAAGGGAG TCGGGACGGC GTATGAGGGT CATGTCAGGA TCCCTAAGCC AGCGGGAGTG 
    AAGAAAGGGT GGCAGAGAGC ACTGGCTGTG GTCTGCGACT TCAAACTGTT TCTTTATGAT 
    ATTGCGGAGG GAAAAGCATC GCAGCCCAGC TCCGTCATTA GTCAAGTGAT TGACATGAGA 
    GATGAAGAAT TTTCTGTGAG TTCAGTCTTA GCTTCTGATG TTATTCACGC AAGTCGAAAA 
    GATATTCCCT GTATATTCAG AGTCACAGCT TCCCAGCTCT CAGCACCTAG TAACAAATGT 
    TCCATCCTGA TGCTAGCAGA CAGCGAGAAT GAGAGGAGTA AGTGGGTGGG AGTGCTGAGT 
    GAACTCCACA AGATTCTGAA GAAAAACAAG TTCAGAGACC GCTCAGTGTA TGTCCCCAAG 
    GAGGCTTACG ACAGCACGCT ACCCCTCATT AAGACAACGC AGGCTGCTGC AATCATAGAT 
    CATGAACGGA TAGCTTTGGG AAATGAAGAA GGATTATTTG TTGTGCATGT CACCAAAGAT 
    GAGATTATTA GAGTTGGTGA TAATAAGAAA ATCCATCAGA TTGAACTCAT TCCAAGTGAC 
    CAGCTTGTTG CTGTGATCTC GGGCCGAAAT CGCCATGTCC GACTTTTTCC TATGTCAGCT 
    TTGGATGGGC AAGAGACAGA TTTTTATAAA CTGGCAGAGA CTAAAGGGTG TCAGACCATA 
    GCTGCTGGGA AAGTGCGCCA CGGAGCTCTG TCCTGCCTGT GTGTGGCCAT GAAGAGACAG 
    GTCCTCTGCT ATGAACTGTT CCAAAGCAAG ACCAGGCACA GGAAGTTTAA GGAGATTCAA 
    GTCCCATGTA ATGTCCAGTG GATGGCCATC TTCAGTGAGC ATCTCTGTGT GGGATTCCAG 
    TCAGGATTTC TCAGATACCC CCTGAATGGA GAAGGAGGTC CATGCAATAT GCTCCATTCA 
    AATGACCATA CACTGTCATT CATTACACAC CAACCAATGG ATGCTCTCTG TGCAGTTGAG 
    ATCTCCAACA AAGAGTATTT GCTGTGTTTT AACAGCATTG GGATATACAC AGACTGCCAG 
    GGCCGAAGGT CTAGACAGCA GGAACTCATG TGGCCAGCAA ATCCTTCCTC CTGTTGTTAC 
    AATGCACCAT ATCTCTCCGT GTATAGTGAA AACGCAGTTG ATGTCTTTGA TGTCAACTCC 
    ATGGAATGGA TACAGACTCT TCCTCTCAAA AAGGTCCGAC CTTTAAACAC TGAAGGATCA 
    TTAAATCTCT TAGGATTGGA GACCATTAGA TTAATATATT TCAAAAATAA GATGGCAGAA 
    GGGGATGAAC TTGTGGTCCC TGAAACATCA GATAATAGTC GGAAGCAAAT GGTCAGAAAT 
    ATCAACAACA AACGGCGCTA CTCCTTCCGA GTCCCTGAGG AAGAGAGGAT GCAACAGAGG 
    AGGGAGATGC TACGAGATCC AGAAATGAGA AATAAATTAA TTTCTAACCC AACTAATTTT 
    AACCACATAG CACACATGGG TCCTGGAGAT GGAATACAGA TCCTAAAAGA CCTGCCCATG 
    AACCCACGGC CTCAGGAAAG CCGGACAGTA TTCAGTGGCT CCGTCAGTAT TCCCTCCATC 
    ACCAAGTCCC GCCCTGAGCC AGGCCGCTCC ATGAGTGCCA GCAGCGGCCT GTCTGCACGG 
    TCGTCAGCCC AGAATGGCAG TGCACTAAAG AGGGAATTCT CCGGAGGAAG CTATAACACA 
    AAGCGACAGC CCATGCCCTC TCCCTCGGAG GGCTCTTTGT CATCAGGAGG CATGGACCAA 
    GGAAGTGACG CCCCTGCGAG GGACTATGAT GGAGAGGACT CTGATTCTCC AAGGCATTCC 
    ACAGCTTCCA ACAGCTCTAA CCTGAGCAGC CCCCCAAGTC CCATTTCACC CCAAAAGACC 
    AAGAGCCTCT CCCTGGAGAG CACAGACCGC GGGAGCTGGG ATCCATGA

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

    RefSeq XP_029331869.1
    CDS706..5913
    Translation

    Target ORF information:

    RefSeq Version XM_029476009.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029476009.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAAGATTCC CTTTCTTCTT CCTCATCCTC ACTGATTGAT 
    TTTTTGGATG ACATTGCAGA CTGTGCTCCA CTTCCAGCTC ACACACCAAC CTTAAGGAAA 
    AAGGGATGCC CGGCTTCAAC TGGCTTTCCA CCTAAGCGCA AGACTCATCA ATTTTTCGTG 
    AAGTCTTTCA CTGCCCCTAC CAAATGTCAT CAGTGCACCT CCTTGATGGT CGGTTTGATA 
    AGACAGGGCT GTTCCTGTGA AGTCTGTGGG TTCTCATGTC ATATAACTTG TGTGAACAAA 
    GCCCCGACGG TTTGCCCAGT TCCTCCCGAG CAAACTAAAG GTCCATTGGG CATAGACCCC 
    CAGAAGGGAG TCGGGACGGC GTATGAGGGT CATGTCAGGA TCCCTAAGCC AGCGGGAGTG 
    AAGAAAGGGT GGCAGAGAGC ACTGGCTGTG GTCTGCGACT TCAAACTGTT TCTTTATGAT 
    ATTGCGGAGG GAAAAGCATC GCAGCCCAGC TCCGTCATTA GTCAAGTGAT TGACATGAGA 
    GATGAAGAAT TTTCTGTGAG TTCAGTCTTA GCTTCTGATG TTATTCACGC AAGTCGAAAA 
    GATATTCCCT GTATATTCAG AGTCACAGCT TCCCAGCTCT CAGCACCTAG TAACAAATGT 
    TCCATCCTGA TGCTAGCAGA CAGCGAGAAT GAGAGGAGTA AGTGGGTGGG AGTGCTGAGT 
    GAACTCCACA AGATTCTGAA GAAAAACAAG TTCAGAGACC GCTCAGTGTA TGTCCCCAAG 
    GAGGCTTACG ACAGCACGCT ACCCCTCATT AAGACAACGC AGGCTGCTGC AATCATAGAT 
    CATGAACGGA TAGCTTTGGG AAATGAAGAA GGATTATTTG TTGTGCATGT CACCAAAGAT 
    GAGATTATTA GAGTTGGTGA TAATAAGAAA ATCCATCAGA TTGAACTCAT TCCAAGTGAC 
    CAGCTTGTTG CTGTGATCTC GGGCCGAAAT CGCCATGTCC GACTTTTTCC TATGTCAGCT 
    TTGGATGGGC AAGAGACAGA TTTTTATAAA CTGGCAGAGA CTAAAGGGTG TCAGACCATA 
    GCTGCTGGGA AAGTGCGCCA CGGAGCTCTG TCCTGCCTGT GTGTGGCCAT GAAGAGACAG 
    GTCCTCTGCT ATGAACTGTT CCAAAGCAAG ACCAGGCACA GGAAGTTTAA GGAGATTCAA 
    GTCCCATGTA ATGTCCAGTG GATGGCCATC TTCAGTGAGC ATCTCTGTGT GGGATTCCAG 
    TCAGGATTTC TCAGATACCC CCTGAATGGA GAAGGAGGTC CATGCAATAT GCTCCATTCA 
    AATGACCATA CACTGTCATT CATTACACAC CAACCAATGG ATGCTCTCTG TGCAGTTGAG 
    ATCTCCAACA AAGAGTATTT GCTGTGTTTT AACAGCATTG GGATATACAC AGACTGCCAG 
    GGCCGAAGGT CTAGACAGCA GGAACTCATG TGGCCAGCAA ATCCTTCCTC CTGTTGTTAC 
    AATGCACCAT ATCTCTCCGT GTATAGTGAA AACGCAGTTG ATGTCTTTGA TGTCAACTCC 
    ATGGAATGGA TACAGACTCT TCCTCTCAAA AAGGTCCGAC CTTTAAACAC TGAAGGATCA 
    TTAAATCTCT TAGGATTGGA GACCATTAGA TTAATATATT TCAAAAATAA GATGGCAGAA 
    GGGGATGAAC TTGTGGTCCC TGAAACATCA GATAATAGTC GGAAGCAAAT GGTCAGAAAT 
    ATCAACAACA AACGGCGCTA CTCCTTCCGA GTCCCTGAGG AAGAGAGGAT GCAACAGAGG 
    AGGGAGATGC TACGAGATCC AGAAATGAGA AATAAATTAA TTTCTAACCC AACTAATTTT 
    AACCACATAG CACACATGGG TCCTGGAGAT GGAATACAGA TCCTAAAAGA CCTGCCCATG 
    AACCCACGGC CTCAGGAAAG CCGGACAGTA TTCAGTGGCT CCGTCAGTAT TCCCTCCATC 
    ACCAAGTCCC GCCCTGAGCC AGGCCGCTCC ATGAGTGCCA GCAGCGGCCT GTCTGCACGG 
    TCGTCAGCCC AGAATGGCAG TGCACTAAAG AGGGAATTCT CCGGAGGAAG CTATAACACA 
    AAGCGACAGC CCATGCCCTC TCCCTCGGAG GGCTCTTTGT CATCAGGAGG CATGGACCAA 
    GGAAGTGACG CCCCTGCGAG GGACTATGAT GGAGAGGACT CTGATTCTCC AAGGCATTCC 
    ACAGCTTCCA ACAGCTCTAA CCTGAGCAGC CCCCCAAGTC CCATTTCACC CCAAAAGACC 
    AAGAGCCTCT CCCTGGAGAG CACAGACCGC GGGAGCTGGG ATCCATGA

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

    Cdc42bpa ( XM_029476012.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331872.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv66190
    Clone ID Related Accession (Same CDS sequence) XM_029476012.1
    Accession Version XM_029476012.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5199bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAACGCTCT CCGTCCTGTA CTCCAGCTAG CAAAGGCAGA 
    CGTATTGCAG ACTGTGCTCC ACTTCCAGCT CACACACCAA CCTTAAGGAA AAAGGGATGC 
    CCGGCTTCAA CTGGCTTTCC ACCTAAGCGC AAGACTCATC AATTTTTCGT GAAGTCTTTC 
    ACTGCCCCTA CCAAATGTCA TCAGTGCACC TCCTTGATGG TCGGTTTGAT AAGACAGGGC 
    TGTTCCTGTG AAGTCTGTGG GTTCTCATGT CATATAACTT GTGTGAACAA AGCCCCGACG 
    GTTTGCCCAG TTCCTCCCGA GCAAACTAAA GGTCCATTGG GCATAGACCC CCAGAAGGGA 
    GTCGGGACGG CGTATGAGGG TCATGTCAGG ATCCCTAAGC CAGCGGGAGT GAAGAAAGGG 
    TGGCAGAGAG CACTGGCTGT GGTCTGCGAC TTCAAACTGT TTCTTTATGA TATTGCGGAG 
    GGAAAAGCAT CGCAGCCCAG CTCCGTCATT AGTCAAGTGA TTGACATGAG AGATGAAGAA 
    TTTTCTGTGA GTTCAGTCTT AGCTTCTGAT GTTATTCACG CAAGTCGAAA AGATATTCCC 
    TGTATATTCA GAGTCACAGC TTCCCAGCTC TCAGCACCTA GTAACAAATG TTCCATCCTG 
    ATGCTAGCAG ACAGCGAGAA TGAGAGGAGT AAGTGGGTGG GAGTGCTGAG TGAACTCCAC 
    AAGATTCTGA AGAAAAACAA GTTCAGAGAC CGCTCAGTGT ATGTCCCCAA GGAGGCTTAC 
    GACAGCACGC TACCCCTCAT TAAGACAACG CAGGCTGCTG CAATCATAGA TCATGAACGG 
    ATAGCTTTGG GAAATGAAGA AGGATTATTT GTTGTGCATG TCACCAAAGA TGAGATTATT 
    AGAGTTGGTG ATAATAAGAA AATCCATCAG ATTGAACTCA TTCCAAGTGA CCAGCTTGTT 
    GCTGTGATCT CGGGCCGAAA TCGCCATGTC CGACTTTTTC CTATGTCAGC TTTGGATGGG 
    CAAGAGACAG ATTTTTATAA ACTGGCAGAG ACTAAAGGGT GTCAGACCAT AGCTGCTGGG 
    AAAGTGCGCC ACGGAGCTCT GTCCTGCCTG TGTGTGGCCA TGAAGAGACA GGTCCTCTGC 
    TATGAACTGT TCCAAAGCAA GACCAGGCAC AGGAAGTTTA AGGAGATTCA AGTCCCATGT 
    AATGTCCAGT GGATGGCCAT CTTCAGTGAG CATCTCTGTG TGGGATTCCA GTCAGGATTT 
    CTCAGATACC CCCTGAATGG AGAAGGAGGT CCATGCAATA TGCTCCATTC AAATGACCAT 
    ACACTGTCAT TCATTACACA CCAACCAATG GATGCTCTCT GTGCAGTTGA GATCTCCAAC 
    AAAGAGTATT TGCTGTGTTT TAACAGCATT GGGATATACA CAGACTGCCA GGGCCGAAGG 
    TCTAGACAGC AGGAACTCAT GTGGCCAGCA AATCCTTCCT CCTGTTGTTA CAATGCACCA 
    TATCTCTCCG TGTATAGTGA AAACGCAGTT GATGTCTTTG ATGTCAACTC CATGGAATGG 
    ATACAGACTC TTCCTCTCAA AAAGGTCCGA CCTTTAAACA CTGAAGGATC ATTAAATCTC 
    TTAGGATTGG AGACCATTAG ATTAATATAT TTCAAAAATA AGATGGCAGA AGGGGATGAA 
    CTTGTGGTCC CTGAAACATC AGATAATAGT CGGAAGCAAA TGGTCAGAAA TATCAACAAC 
    AAACGGCGCT ACTCCTTCCG AGTCCCTGAG GAAGAGAGGA TGCAACAGAG GAGGGAGATG 
    CTACGAGATC CAGAAATGAG AAATAAATTA ATTTCTAACC CAACTAATTT TAACCACATA 
    GCACACATGG GTCCTGGAGA TGGAATACAG ATCCTAAAAG ACCTGCCCAT GAACCCACGG 
    CCTCAGGAAA GCCGGACAGT ATTCAGTGGC TCCGTCAGTA TTCCCTCCAT CACCAAGTCC 
    CGCCCTGAGC CAGGCCGCTC CATGAGTGCC AGCAGCGGCC TGTCTGCACG GTCGTCAGCC 
    CAGAATGGCA GTGCACTAAA GAGGGAATTC TCCGGAGGAA GCTATAACAC AAAGCGACAG 
    CCCATGCCCT CTCCCTCGGA GGGCTCTTTG TCATCAGGAG GCATGGACCA AGGAAGTGAC 
    GCCCCTGCGA GGGACTATGA TGGAGAGGAC TCTGATTCTC CAAGGCATTC CACAGCTTCC 
    AACAGCTCTA ACCTGAGCAG CCCCCCAAGT CCCATTTCAC CCCAAAAGAC CAAGAGCCTC 
    TCCCTGGAGA GCACAGACCG CGGGAGCTGG GATCCATGA

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

    RefSeq XP_029331872.1
    CDS1266..6464
    Translation

    Target ORF information:

    RefSeq Version XM_029476012.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029476012.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGGAA CTAGTCCAGG CTAGTGAGCG ATTAAAAAAC 
    CAATCCAAAG AGCTGAAAGA TGCACACTGT CAGAGGAAAC TGGCCATGCA GGAATTCATG 
    GAGATCAATG AGCGACTAAC AGAATTGCAC ACCCAAAAGC AGAAACTTGC TCGCCATGTC 
    CGAGATAAGG AAGAAGAGGT GGACCTGGTG ATGCAAAAAG CTGAGAGCTT AAGGCAGGAG 
    CTGCGCAGAG CAGAAAGAGC CAAGAAAGAG CTGGAAGTTC ACACCGAAGC GCTAATTGCT 
    GAAGCATCAA AGGACAAGAA GCTCCGAGAG CAGAGCGAAC ATTATTCTAA GCAACTGGAA 
    AACGAGTTGG AGGGACTGAA GCAAAAACAA ATTAGTTACT CACCAGGAAT CTGCAGCATA 
    GAACATCAGC AAGAGATAAC TAAACTGAAA ACTGACTTGG AAAAGAAAAG TATCTTTTAT 
    GAAGAAGAAA TTTCTAAAAG AGAAGGAATT CACGCAAGTG AGATTAAAAA CCTGAAGAAG 
    GAGCTGCATG ACTCAGAAGG CCAGCAGCTT GCTCTCAACA AAGAGATTCT GGTTTTAAAA 
    GACAAATTGG AAAAAACCAG GAGAGAAAGT CAAAGTGAAA GGGAAGAATT TGAAAATGAG 
    TTCAAACAAC AATATGAACG GGAAAAAGTA TTATTAACTG AAGAGAATAA AAAGTTAACG 
    AGTGAACTCG ATAAGCTAAC TTCACTGTAT GAGAGCTTAA GTTTGCGCAA CCAGCACTTA 
    GAAGAAGAAG TCAAAGATCT AGCAGATAAG AAGGAATCAG TAGCCCACTG GGAAGCCCAA 
    ATCACAGAGA TAATTCAGTG GGTGAGCGAT GAGAAGGATG CACGAGGCTA TCTTCAGGCC 
    TTAGCTTCTA AAATGACTGA AGAATTGGAA GCATTAAGAA ATTCCAGCTT GGGGACACGA 
    GCAACAGATA TGCCCTGGAA AATGCGTCGT TTTGCAAAAC TGGACATGTC GGCTAGACTA 
    GAGTTGCAGT CTGCTCTGGA TGCAGAAATA AGAGCTAAGC AGGCCATCCA GGAAGAGCTG 
    AATAAAGTCA AAGCATCTAA CATCATAACA GAATGTAAAC TGAAAGATTC AGAGAAGAAG 
    AACTTGGAAC TGTTGTCCGA AATCGAGCAG CTGATAAAGG ACACTGAAGA GCTTAGATCT 
    GAAAAGGGTA TAGAGCACCA AGACTCACAG CATTCTTTCT TGGCATTTTT GAATACGCCT 
    ACCGATGCTC TGGACCAATT TGAACGCTCT CCGTCCTGTA CTCCAGCTAG CAAAGGCAGA 
    CGTATTGCAG ACTGTGCTCC ACTTCCAGCT CACACACCAA CCTTAAGGAA AAAGGGATGC 
    CCGGCTTCAA CTGGCTTTCC ACCTAAGCGC AAGACTCATC AATTTTTCGT GAAGTCTTTC 
    ACTGCCCCTA CCAAATGTCA TCAGTGCACC TCCTTGATGG TCGGTTTGAT AAGACAGGGC 
    TGTTCCTGTG AAGTCTGTGG GTTCTCATGT CATATAACTT GTGTGAACAA AGCCCCGACG 
    GTTTGCCCAG TTCCTCCCGA GCAAACTAAA GGTCCATTGG GCATAGACCC CCAGAAGGGA 
    GTCGGGACGG CGTATGAGGG TCATGTCAGG ATCCCTAAGC CAGCGGGAGT GAAGAAAGGG 
    TGGCAGAGAG CACTGGCTGT GGTCTGCGAC TTCAAACTGT TTCTTTATGA TATTGCGGAG 
    GGAAAAGCAT CGCAGCCCAG CTCCGTCATT AGTCAAGTGA TTGACATGAG AGATGAAGAA 
    TTTTCTGTGA GTTCAGTCTT AGCTTCTGAT GTTATTCACG CAAGTCGAAA AGATATTCCC 
    TGTATATTCA GAGTCACAGC TTCCCAGCTC TCAGCACCTA GTAACAAATG TTCCATCCTG 
    ATGCTAGCAG ACAGCGAGAA TGAGAGGAGT AAGTGGGTGG GAGTGCTGAG TGAACTCCAC 
    AAGATTCTGA AGAAAAACAA GTTCAGAGAC CGCTCAGTGT ATGTCCCCAA GGAGGCTTAC 
    GACAGCACGC TACCCCTCAT TAAGACAACG CAGGCTGCTG CAATCATAGA TCATGAACGG 
    ATAGCTTTGG GAAATGAAGA AGGATTATTT GTTGTGCATG TCACCAAAGA TGAGATTATT 
    AGAGTTGGTG ATAATAAGAA AATCCATCAG ATTGAACTCA TTCCAAGTGA CCAGCTTGTT 
    GCTGTGATCT CGGGCCGAAA TCGCCATGTC CGACTTTTTC CTATGTCAGC TTTGGATGGG 
    CAAGAGACAG ATTTTTATAA ACTGGCAGAG ACTAAAGGGT GTCAGACCAT AGCTGCTGGG 
    AAAGTGCGCC ACGGAGCTCT GTCCTGCCTG TGTGTGGCCA TGAAGAGACA GGTCCTCTGC 
    TATGAACTGT TCCAAAGCAA GACCAGGCAC AGGAAGTTTA AGGAGATTCA AGTCCCATGT 
    AATGTCCAGT GGATGGCCAT CTTCAGTGAG CATCTCTGTG TGGGATTCCA GTCAGGATTT 
    CTCAGATACC CCCTGAATGG AGAAGGAGGT CCATGCAATA TGCTCCATTC AAATGACCAT 
    ACACTGTCAT TCATTACACA CCAACCAATG GATGCTCTCT GTGCAGTTGA GATCTCCAAC 
    AAAGAGTATT TGCTGTGTTT TAACAGCATT GGGATATACA CAGACTGCCA GGGCCGAAGG 
    TCTAGACAGC AGGAACTCAT GTGGCCAGCA AATCCTTCCT CCTGTTGTTA CAATGCACCA 
    TATCTCTCCG TGTATAGTGA AAACGCAGTT GATGTCTTTG ATGTCAACTC CATGGAATGG 
    ATACAGACTC TTCCTCTCAA AAAGGTCCGA CCTTTAAACA CTGAAGGATC ATTAAATCTC 
    TTAGGATTGG AGACCATTAG ATTAATATAT TTCAAAAATA AGATGGCAGA AGGGGATGAA 
    CTTGTGGTCC CTGAAACATC AGATAATAGT CGGAAGCAAA TGGTCAGAAA TATCAACAAC 
    AAACGGCGCT ACTCCTTCCG AGTCCCTGAG GAAGAGAGGA TGCAACAGAG GAGGGAGATG 
    CTACGAGATC CAGAAATGAG AAATAAATTA ATTTCTAACC CAACTAATTT TAACCACATA 
    GCACACATGG GTCCTGGAGA TGGAATACAG ATCCTAAAAG ACCTGCCCAT GAACCCACGG 
    CCTCAGGAAA GCCGGACAGT ATTCAGTGGC TCCGTCAGTA TTCCCTCCAT CACCAAGTCC 
    CGCCCTGAGC CAGGCCGCTC CATGAGTGCC AGCAGCGGCC TGTCTGCACG GTCGTCAGCC 
    CAGAATGGCA GTGCACTAAA GAGGGAATTC TCCGGAGGAA GCTATAACAC AAAGCGACAG 
    CCCATGCCCT CTCCCTCGGA GGGCTCTTTG TCATCAGGAG GCATGGACCA AGGAAGTGAC 
    GCCCCTGCGA GGGACTATGA TGGAGAGGAC TCTGATTCTC CAAGGCATTC CACAGCTTCC 
    AACAGCTCTA ACCTGAGCAG CCCCCCAAGT CCCATTTCAC CCCAAAAGAC CAAGAGCCTC 
    TCCCTGGAGA GCACAGACCG CGGGAGCTGG GATCCATGA

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

    Cdc42bpa ( XM_029476022.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029331882.1 Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMv66191
    Clone ID Related Accession (Same CDS sequence) XM_029476022.1
    Accession Version XM_029476022.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5103bp)
    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 serine/threonine-protein kinase MRCK alpha isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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
    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
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGCTG GAAGTTCACA CCGAAGCGCT AATTGCTGAA 
    GCATCAAAGG ACAAGAAGCT CCGAGAGCAG AGCGAACATT ATTCTAAGCA ACTGGAAAAC 
    GAGTTGGAGG GACTGAAGCA AAAACAAATT AGTTACTCAC CAGGAATCTG CAGCATAGAA 
    CATCAGCAAG AGATAACTAA ACTGAAAACT GACTTGGAAA AGAAAAGTAT CTTTTATGAA 
    GAAGAAATTT CTAAAAGAGA AGGAATTCAC GCAAGTGAGA TTAAAAACCT GAAGAAGGAG 
    CTGCATGACT CAGAAGGCCA GCAGCTTGCT CTCAACAAAG AGATTCTGGT TTTAAAAGAC 
    AAATTGGAAA AAACCAGGAG AGAAAGTCAA AGTGAAAGGG AAGAATTTGA AAATGAGTTC 
    AAACAACAAT ATGAACGGGA AAAAGTATTA TTAACTGAAG AGAATAAAAA GTTAACGAGT 
    GAACTCGATA AGCTAACTTC ACTGTATGAG AGCTTAAGTT TGCGCAACCA GCACTTAGAA 
    GAAGAAGTCA AAGATCTAGC AGATAAGAAG GAATCAGTAG CCCACTGGGA AGCCCAAATC 
    ACAGAGATAA TTCAGTGGGT GAGCGATGAG AAGGATGCAC GAGGCTATCT TCAGGCCTTA 
    GCTTCTAAAA TGACTGAAGA ATTGGAAGCA TTAAGAAATT CCAGCTTGGG GACACGAGCA 
    ACAGATATGC CCTGGAAAAT GCGTCGTTTT GCAAAACTGG ACATGTCGGC TAGACTAGAG 
    TTGCAGTCTG CTCTGGATGC AGAAATAAGA GCTAAGCAGG CCATCCAGGA AGAGCTGAAT 
    AAAGTCAAAG CATCTAACAT CATAACAGAA TGTAAACTGA AAGATTCAGA GAAGAAGAAC 
    TTGGAACTGT TGTCCGAAAT CGAGCAGCTG ATAAAGGACA CTGAAGAGCT TAGATCTGAA 
    AAGGGTATAG AGCACCAAGA CTCACAGCAT TCTTTCTTGG CATTTTTGAA TACGCCTACC 
    GATGCTCTGG ACCAATTTGA AATTGCAGAC TGTGCTCCAC TTCCAGCTCA CACACCAACC 
    TTAAGGAAAA AGGGATGCCC GGCTTCAACT GGCTTTCCAC CTAAGCGCAA GACTCATCAA 
    TTTTTCGTGA AGTCTTTCAC TGCCCCTACC AAATGTCATC AGTGCACCTC CTTGATGGTC 
    GGTTTGATAA GACAGGGCTG TTCCTGTGAA GTCTGTGGGT TCTCATGTCA TATAACTTGT 
    GTGAACAAAG CCCCGACGGT TTGCCCAGTT CCTCCCGAGC AAACTAAAGG TCCATTGGGC 
    ATAGACCCCC AGAAGGGAGT CGGGACGGCG TATGAGGGTC ATGTCAGGAT CCCTAAGCCA 
    GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA CTGGCTGTGG TCTGCGACTT CAAACTGTTT 
    CTTTATGATA TTGCGGAGGG AAAAGCATCG CAGCCCAGCT CCGTCATTAG TCAAGTGATT 
    GACATGAGAG ATGAAGAATT TTCTGTGAGT TCAGTCTTAG CTTCTGATGT TATTCACGCA 
    AGTCGAAAAG ATATTCCCTG TATATTCAGA GTCACAGCTT CCCAGCTCTC AGCACCTAGT 
    AACAAATGTT CCATCCTGAT GCTAGCAGAC AGCGAGAATG AGAGGAGTAA GTGGGTGGGA 
    GTGCTGAGTG AACTCCACAA GATTCTGAAG AAAAACAAGT TCAGAGACCG CTCAGTGTAT 
    GTCCCCAAGG AGGCTTACGA CAGCACGCTA CCCCTCATTA AGACAACGCA GGCTGCTGCA 
    ATCATAGATC ATGAACGGAT AGCTTTGGGA AATGAAGAAG GATTATTTGT TGTGCATGTC 
    ACCAAAGATG AGATTATTAG AGTTGGTGAT AATAAGAAAA TCCATCAGAT TGAACTCATT 
    CCAAGTGACC AGCTTGTTGC TGTGATCTCG GGCCGAAATC GCCATGTCCG ACTTTTTCCT 
    ATGTCAGCTT TGGATGGGCA AGAGACAGAT TTTTATAAAC TGGCAGAGAC TAAAGGGTGT 
    CAGACCATAG CTGCTGGGAA AGTGCGCCAC GGAGCTCTGT CCTGCCTGTG TGTGGCCATG 
    AAGAGACAGG TCCTCTGCTA TGAACTGTTC CAAAGCAAGA CCAGGCACAG GAAGTTTAAG 
    GAGATTCAAG TCCCATGTAA TGTCCAGTGG ATGGCCATCT TCAGTGAGCA TCTCTGTGTG 
    GGATTCCAGT CAGGATTTCT CAGATACCCC CTGAATGGAG AAGGAGGTCC ATGCAATATG 
    CTCCATTCAA ATGACCATAC ACTGTCATTC ATTACACACC AACCAATGGA TGCTCTCTGT 
    GCAGTTGAGA TCTCCAACAA AGAGTATTTG CTGTGTTTTA ACAGCATTGG GATATACACA 
    GACTGCCAGG GCCGAAGGTC TAGACAGCAG GAACTCATGT GGCCAGCAAA TCCTTCCTCC 
    TGTTGTTACA ATGCACCATA TCTCTCCGTG TATAGTGAAA ACGCAGTTGA TGTCTTTGAT 
    GTCAACTCCA TGGAATGGAT ACAGACTCTT CCTCTCAAAA AGGTCCGACC TTTAAACACT 
    GAAGGATCAT TAAATCTCTT AGGATTGGAG ACCATTAGAT TAATATATTT CAAAAATAAG 
    ATGGCAGAAG GGGATGAACT TGTGGTCCCT GAAACATCAG ATAATAGTCG GAAGCAAATG 
    GTCAGAAATA TCAACAACAA ACGGCGCTAC TCCTTCCGAG TCCCTGAGGA AGAGAGGATG 
    CAACAGAGGA GGGAGATGCT ACGAGATCCA GAAATGAGAA ATAAATTAAT TTCTAACCCA 
    ACTAATTTTA ACCACATAGC ACACATGGGT CCTGGAGATG GAATACAGAT CCTAAAAGAC 
    CTGCCCATGC CGGGTTTCCC TTATTCACCC CCTCATCACC ACTCCAGCCT GATCTCCTCT 
    CCGAGCAACT TTGAGCACAT CTATCACATG ACTGTCAATT CTGCTGAACA GTTTCTCTCT 
    CCTGAATCCA TAAACCCTGG GTACCCCCCG TCCCTGCGCT CTGCCCCTGG TACACCACAC 
    TCTATGACTC TGAGGAACCC ACGGCCTCAG GAAAGCCGGA CAGTATTCAG TGGCTCCGTC 
    AGTATTCCCT CCATCACCAA GTCCCGCCCT GAGCCAGGCC GCTCCATGAG TGCCAGCAGC 
    GGCCTGTCTG CACGGTCGTC AGCCCAGAAT GGCAGTGCAC TAAAGAGGGA ATTCTCCGGA 
    GGAAGCTATA ACACAAAGCG ACAGCCCATG CCCTCTCCCT CGGAGGGCTC TTTGTCATCA 
    GGAGGCATGG ACCAAGGAAG TGACGCCCCT GCGAGGGACT ATGATGGAGA GGACTCTGAT 
    TCTCCAAGGC ATTCCACAGC TTCCAACAGC TCTAACCTGA GCAGCCCCCC AAGTCCCATT 
    TCACCCCAAA AGACCAAGAG CCTCTCCCTG GAGAGCACAG ACCGCGGGAG CTGGGATCCA 
    TGA

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

    RefSeq XP_029331882.1
    CDS706..5808
    Translation

    Target ORF information:

    RefSeq Version XM_029476022.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli CDC42 binding protein kinase alpha (Cdc42bpa), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029476022.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGTCCGGAG AAGTGCGTTT GAGGCAGTTG GAGCAGTTTA TTTTAGATGG GCCAGCTCAG 
    ACCAATGGGC AGTGCTTCAG TGTGGAGACG CTACTGGACA TCCTCATCTG TCTTTACGAT 
    GAATGCAATA ATTCTCCGTT GAGAAGAGAG AAGAACATTC TTGAATATCT AGAATGGGCT 
    AAACCATTTA CTTCTAAAGT GAAGCAAATG CGATTACATA GAGAAGACTT TGAAATATTA 
    AAGGTGATTG GTCGAGGAGC TTTTGGGGAG GTTGCTGTAG TTAAACTAAA AAATGCAGAT 
    AAAGTATTTG CCATGAAAAT TCTGAACAAG TGGGAAATGC TGAAAAGAGC TGAGACAGCG 
    TGCTTTCGTG AAGAGAGAGA TGTGTTGGTA AATGGAGACA GTAAGTGGAT AACCACTCTG 
    CACTATGCTT TTCAGGATGA CAATAACTTA TACCTGGTTA TGGATTATTA TGTTGGTGGG 
    GATTTACTTA CTCTGCTCAG CAAATTTGAA GATAGATTGC CTGAAGAGAT GGCTCGGTTT 
    TACTTGGCTG AGATGGTGAT AGCCATTGAC TCAGTTCACC AGCTCCACTA TGTTCACAGA 
    GACATCAAAC CTGACAATAT ATTGATGGAT ATGAATGGAC ATATTCGTTT AGCAGATTTT 
    GGTTCTTGTC TGAAGCTGAT GGAAGATGGA ACGGTCCAGT CCTCGGTAGC TGTTGGAACT 
    CCAGATTATA TTTCTCCGGA AATCCTTCAG GCTATGGAAG ACGGAAAAGG CAGATATGGA 
    CCAGAGTGTG ATTGGTGGTC CTTGGGGGTC TGTATGTATG AGATGCTTTA CGGAGAAACA 
    CCATTCTATG CAGAGTCTCT GGTGGAGACA TATGGAAAAA TTATGAATCA CAAAGAGAGG 
    TTTCAGTTTC CAGCCCAAGT CACAGATGTG TCAGAAAATG CTAAAGATCT TATTCGAAGA 
    CTCATTTGTA GCAGAGAACA TCGACTTGGC CAAAATGGAA TAGAAGACTT TAAGAAACAT 
    CCATTTTTCA GTGGAATTGA TTGGGATAAT ATTCGGAATT GTGAAGCACC TTACATCCCA 
    GAAGTTAGTA GCCCAACAGA TACATCAAAT TTTGATGTGG ATGACGACTG TTTAAAAAAT 
    TCTGAAACAA TGCCCCCACC AACACATACT GCGTTTTCTG GCCATCATCT ACCGTTTGTT 
    GGTTTTACAT ATACTAGTAG CTGTGTTCTT TCTGATCGGA GCTGTTTAAG AGTCACAGCA 
    GGTCCCACGT CATTGGATCT CGATGTCAGC GTCCAGAGGA CTCTAGATAA TAACTTAGCA 
    ACTGAGGCTT ACGAAAGAAG AATTAAGCGG CTTGAGCAGG AAAAGCTTGA ACTTACTAGA 
    AAACTTCAAG AGTCAACACA GACTGTTCAA GCTCTGCAGT ATTCAACTGT TGATGGTCCA 
    CTAACGGCAA GCAAAGATTT AGAAATTAAA AGTCTGAAAG AAGAGATTGA AAAACTAAGG 
    AAACAAGTAT CAGAAGTGAA TCATTTGGAA CAACAACTTG AAGAAGCTAA TTCTGTAAGA 
    CGAGAACTAG ATGATGCTTT TAGGCAAATC AAAGCTTTTG AAAAACAAAT CAAAACTTTG 
    CAGCAGGAAA GAGAAGAACT AAATAAGCTG GAAGTTCACA CCGAAGCGCT AATTGCTGAA 
    GCATCAAAGG ACAAGAAGCT CCGAGAGCAG AGCGAACATT ATTCTAAGCA ACTGGAAAAC 
    GAGTTGGAGG GACTGAAGCA AAAACAAATT AGTTACTCAC CAGGAATCTG CAGCATAGAA 
    CATCAGCAAG AGATAACTAA ACTGAAAACT GACTTGGAAA AGAAAAGTAT CTTTTATGAA 
    GAAGAAATTT CTAAAAGAGA AGGAATTCAC GCAAGTGAGA TTAAAAACCT GAAGAAGGAG 
    CTGCATGACT CAGAAGGCCA GCAGCTTGCT CTCAACAAAG AGATTCTGGT TTTAAAAGAC 
    AAATTGGAAA AAACCAGGAG AGAAAGTCAA AGTGAAAGGG AAGAATTTGA AAATGAGTTC 
    AAACAACAAT ATGAACGGGA AAAAGTATTA TTAACTGAAG AGAATAAAAA GTTAACGAGT 
    GAACTCGATA AGCTAACTTC ACTGTATGAG AGCTTAAGTT TGCGCAACCA GCACTTAGAA 
    GAAGAAGTCA AAGATCTAGC AGATAAGAAG GAATCAGTAG CCCACTGGGA AGCCCAAATC 
    ACAGAGATAA TTCAGTGGGT GAGCGATGAG AAGGATGCAC GAGGCTATCT TCAGGCCTTA 
    GCTTCTAAAA TGACTGAAGA ATTGGAAGCA TTAAGAAATT CCAGCTTGGG GACACGAGCA 
    ACAGATATGC CCTGGAAAAT GCGTCGTTTT GCAAAACTGG ACATGTCGGC TAGACTAGAG 
    TTGCAGTCTG CTCTGGATGC AGAAATAAGA GCTAAGCAGG CCATCCAGGA AGAGCTGAAT 
    AAAGTCAAAG CATCTAACAT CATAACAGAA TGTAAACTGA AAGATTCAGA GAAGAAGAAC 
    TTGGAACTGT TGTCCGAAAT CGAGCAGCTG ATAAAGGACA CTGAAGAGCT TAGATCTGAA 
    AAGGGTATAG AGCACCAAGA CTCACAGCAT TCTTTCTTGG CATTTTTGAA TACGCCTACC 
    GATGCTCTGG ACCAATTTGA AATTGCAGAC TGTGCTCCAC TTCCAGCTCA CACACCAACC 
    TTAAGGAAAA AGGGATGCCC GGCTTCAACT GGCTTTCCAC CTAAGCGCAA GACTCATCAA 
    TTTTTCGTGA AGTCTTTCAC TGCCCCTACC AAATGTCATC AGTGCACCTC CTTGATGGTC 
    GGTTTGATAA GACAGGGCTG TTCCTGTGAA GTCTGTGGGT TCTCATGTCA TATAACTTGT 
    GTGAACAAAG CCCCGACGGT TTGCCCAGTT CCTCCCGAGC AAACTAAAGG TCCATTGGGC 
    ATAGACCCCC AGAAGGGAGT CGGGACGGCG TATGAGGGTC ATGTCAGGAT CCCTAAGCCA 
    GCGGGAGTGA AGAAAGGGTG GCAGAGAGCA CTGGCTGTGG TCTGCGACTT CAAACTGTTT 
    CTTTATGATA TTGCGGAGGG AAAAGCATCG CAGCCCAGCT CCGTCATTAG TCAAGTGATT 
    GACATGAGAG ATGAAGAATT TTCTGTGAGT TCAGTCTTAG CTTCTGATGT TATTCACGCA 
    AGTCGAAAAG ATATTCCCTG TATATTCAGA GTCACAGCTT CCCAGCTCTC AGCACCTAGT 
    AACAAATGTT CCATCCTGAT GCTAGCAGAC AGCGAGAATG AGAGGAGTAA GTGGGTGGGA 
    GTGCTGAGTG AACTCCACAA GATTCTGAAG AAAAACAAGT TCAGAGACCG CTCAGTGTAT 
    GTCCCCAAGG AGGCTTACGA CAGCACGCTA CCCCTCATTA AGACAACGCA GGCTGCTGCA 
    ATCATAGATC ATGAACGGAT AGCTTTGGGA AATGAAGAAG GATTATTTGT TGTGCATGTC 
    ACCAAAGATG AGATTATTAG AGTTGGTGAT AATAAGAAAA TCCATCAGAT TGAACTCATT 
    CCAAGTGACC AGCTTGTTGC TGTGATCTCG GGCCGAAATC GCCATGTCCG ACTTTTTCCT 
    ATGTCAGCTT TGGATGGGCA AGAGACAGAT TTTTATAAAC TGGCAGAGAC TAAAGGGTGT 
    CAGACCATAG CTGCTGGGAA AGTGCGCCAC GGAGCTCTGT CCTGCCTGTG TGTGGCCATG 
    AAGAGACAGG TCCTCTGCTA TGAACTGTTC CAAAGCAAGA CCAGGCACAG GAAGTTTAAG 
    GAGATTCAAG TCCCATGTAA TGTCCAGTGG ATGGCCATCT TCAGTGAGCA TCTCTGTGTG 
    GGATTCCAGT CAGGATTTCT CAGATACCCC CTGAATGGAG AAGGAGGTCC ATGCAATATG 
    CTCCATTCAA ATGACCATAC ACTGTCATTC ATTACACACC AACCAATGGA TGCTCTCTGT 
    GCAGTTGAGA TCTCCAACAA AGAGTATTTG CTGTGTTTTA ACAGCATTGG GATATACACA 
    GACTGCCAGG GCCGAAGGTC TAGACAGCAG GAACTCATGT GGCCAGCAAA TCCTTCCTCC 
    TGTTGTTACA ATGCACCATA TCTCTCCGTG TATAGTGAAA ACGCAGTTGA TGTCTTTGAT 
    GTCAACTCCA TGGAATGGAT ACAGACTCTT CCTCTCAAAA AGGTCCGACC TTTAAACACT 
    GAAGGATCAT TAAATCTCTT AGGATTGGAG ACCATTAGAT TAATATATTT CAAAAATAAG 
    ATGGCAGAAG GGGATGAACT TGTGGTCCCT GAAACATCAG ATAATAGTCG GAAGCAAATG 
    GTCAGAAATA TCAACAACAA ACGGCGCTAC TCCTTCCGAG TCCCTGAGGA AGAGAGGATG 
    CAACAGAGGA GGGAGATGCT ACGAGATCCA GAAATGAGAA ATAAATTAAT TTCTAACCCA 
    ACTAATTTTA ACCACATAGC ACACATGGGT CCTGGAGATG GAATACAGAT CCTAAAAGAC 
    CTGCCCATGC CGGGTTTCCC TTATTCACCC CCTCATCACC ACTCCAGCCT GATCTCCTCT 
    CCGAGCAACT TTGAGCACAT CTATCACATG ACTGTCAATT CTGCTGAACA GTTTCTCTCT 
    CCTGAATCCA TAAACCCTGG GTACCCCCCG TCCCTGCGCT CTGCCCCTGG TACACCACAC 
    TCTATGACTC TGAGGAACCC ACGGCCTCAG GAAAGCCGGA CAGTATTCAG TGGCTCCGTC 
    AGTATTCCCT CCATCACCAA GTCCCGCCCT GAGCCAGGCC GCTCCATGAG TGCCAGCAGC 
    GGCCTGTCTG CACGGTCGTC AGCCCAGAAT GGCAGTGCAC TAAAGAGGGA ATTCTCCGGA 
    GGAAGCTATA ACACAAAGCG ACAGCCCATG CCCTCTCCCT CGGAGGGCTC TTTGTCATCA 
    GGAGGCATGG ACCAAGGAAG TGACGCCCCT GCGAGGGACT ATGATGGAGA GGACTCTGAT 
    TCTCCAAGGC ATTCCACAGC TTCCAACAGC TCTAACCTGA GCAGCCCCCC AAGTCCCATT 
    TCACCCCAAA AGACCAAGAG CCTCTCCCTG GAGAGCACAG ACCGCGGGAG CTGGGATCCA 
    TGA

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

見積依頼

Eメール

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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