ATP13A5 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following ATP13A5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP13A5 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
OMb29547 XM_015132514.1
Latest version!
Macaca mulatta ATPase type 13A5 (ATP13A5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb78301 XM_001095224.4
Latest version!
Macaca mulatta ATPase 13A5 (ATP13A5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb16261 XM_001095224.3
Latest version!
Macaca mulatta ATPase type 13A5 (ATP13A5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMb29547
    Clone ID Related Accession (Same CDS sequence) XM_015132514.1
    Accession Version XM_015132514.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3639bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product probable cation-transporting ATPase 13A5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804666.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGAGTGTGA AGAGGTCTCT TAGCTCCAGA AAGAGCACAG CTCAGGAGGT GTTTGGTTAC 
    CGGGACCACA GTGTACGCAA AGCCCTCTGC CTTGTCGCAT CCGTGCTGAC CTGTGGGGTC
    CTTCTGCTGC TGTTCTACTG GAGACCCCAG TGGAGAGTGT GGGCCAGCTG CATGCCATGC
    CCCTTGCGAG AAGCAGACAC TGTTTTGCTG AGGACAACAG ACAAATTTCA ACGATATATG
    AGGAAGAAGG TATTCTGCCT CTACTTATCC ACACTGAAGT TTCCTGTAAG CAAGAAGTGG
    GAAGAATCCT TGGTGGCTGA CTGCCATTCT ATCATAAACC AAGCCTTAAT AAAGCCAGAA
    TTAAAACTGC GATGCATCCA AGTGCAGAAA ATCAGGTATG TTTGGAACAA CCTGGAGAAG
    CAGTTTCAGA AAGTTGGGTT GCTAGAAGAC AGTAACTCCT GCTCTGACAT CCATCAGACA
    TTTGGATTGG GTCTGACCAG TGAGGAGCAA GAGGTCAGAA GATTAGTGTG TGGGCCTAAC
    ACCATTGAGG TTGAAATCCA ACCCATATGG AAGCTGCTTG TTAAACAGGT TTTAAATCCA
    TTCTATGTGT TCCAAGCCTT CACCCTAACT TTGTGGCTGT CTCAAGGTTA CATAGAATAC
    TCTGTGGCCA TCATCATTTT GACAGTTATC TCCATTGTCT TAAGCGTGTA TGATTTGCGA
    CAGCAATCAG TTAAGCTGCA TAACCTCGTG GAGGACCACA ACAAAGTCCA GGTTACAATC
    ATTGTAAAAG ACAAAGGTTT GGAGGAGCTG GAATCCCGTC TCTTGGTTCC CGGAGACATT
    CTTATTCTTC CAGGAAAACT TTCATTGCCA TGTGATGCTG TTTTGATTGA TGGAAGCTGC
    GTGGTGAATG AAGGCATGCT TACAGGAGAA AGTATACCTG TTACAAAGAC ACCGTTGCCC
    CAGATGGAGA ACACCATGCC TTGGAAATGT CACAGTTTGG AAGATTATCG GAAACACGTC
    CTCTTCTGTG GAACAGAAGT TATCCAGGTC AAGCCCTCTG GGCAGGGGCC TGTAAGAGCA
    GTCGTTTTGC AAACAGGTTA CAATACAGCC AAAGGGGACT TAGTGAGATC CATCCTGTAC
    CCCCGGCCTC TGAACTTCAA ACTATACAGC GATGCCTTCA AGTTCATGGT GTTCCTGGCC
    TGCCTTGGTG TCATGGGTTT TTTCTATGCC CTAGGGGTAT ATGCGTACCA TGGAGTCCCT
    CCAAAAGATA CTGTGACCAT GGCCCTGATC CTCCTCACCA CGACTGTCCC TCCAGTGCTG
    CCGGCTGCCC TGACCATAGG CAACGTGTAT GCTCAGAAGA GACTGAAGAA AAAGAAAATC
    TTCTGTATCT CCCCACAGAG AATCAACATG TGTGGGCAAA TAAACCTCGT GTGCTTTGAC
    AAAACTGGCA CTCTCACTGA AGACGGGCTG GACCTCTGGC AGACTGTCCC TACTGCTGAC
    AACTGCTTCC AGGAAGCCCA CAGCTTTGCC TCGGGCCAGG CTGTGCCGTG GGGCCCACTG
    TGTGCGGCCA TGGCCAGCTG CCACTCTCTG ATCCTTCTCA ATGGAACTAT GCAGGGAGAC
    CCTCTGGACC TCAAAATGTT TGAGGGCACT GCCTGGAAAA TGGAAGATTG CAATGTAGAC
    TCCTGCAAAT TTGGGATGTC AGTTTCAAAC ATCATAAAAC CAGGACCAAA AGCCAGTAAG
    AGTCCGGTGG AAGCCATCGC CACCTTGCGC CAGTTTCCAT TTTCCTCGAG CCTGCAGAGG
    ATGTCGGTGA TCACTCAGCT AGCTGGGGAG AATCACTTCC ATGTCTACAT GAAGGGTGCC
    CCAGAAATGG TGGCCAGGTT CTGCAGATCT GAAACAGTGC CTAAGAATTT CCCACAGGAA
    CTGAGGAAGT ACACGGTGCA AGGCTTCCGT GTCATTGCTC TTGCCCACAA AACCTTAAAG
    ATGGGGAACC TTTCAGAAGT GGAGCACTTA GCCAGAGAAA AAGTGGAGTC AGAGTTAACA
    TTTCTGGGAC TTCTCATCAT GGAGAATCGT TTGAAAAAAG AAACCAAACC GGTCTTGAAG
    GAACTGAGCG AGGCCCGTAT CAGGACTGTG ATGATTACAG GTGACAACCT TCAAACAGCC
    ATTACTGTTG CAAAGAATTC TGAAATGATC CCTCCAGGCA GCCAAGTGAT CATTGTTGAA
    GCCAATGAAC CAGAAGAATT TGTTCCTGCC TCTGTGACCT GGCAGCTGGT GGAGAACCAA
    GAGACTGGAC CTGGGAAGAT AGAAACCTGC GTGTACACTG GAAACAGTTC AACCCCTCGT
    GGGGAAAGAG GAAGCTGTTA CCATTTTGCA ATGAGTGGGA AATCATACCA AGTGATATTT
    GAGCATTTCA CCAGCTTGCT TCCAAAAATT CTGGTGAATG GAACAGTTTT TGCAAGAATG
    TCTCCTGGGC AGAAATCAAG CCTTATTGAA GAATTTCAGA AATTAAATTA TTATGTGGGC
    ATGTGTGGAG ATGGAGCTAA CGATTGTGGG GCTTTGAAGG TGGCTCATGC AGGCATTTCA
    TTGTCAGAGC AGGAAGCATC TGTGGCATCC CCTTTTACCT CTAAAACAGC CAACATCAAG
    TGTGTGCCTC ATCTCATCAG AGAAGGCCGA GCTGCTCTGG TTTCCTCCTT TGGAGTATTT
    AAATACTTGA CCATGTACGG CATAATCCAG TTTATCAGTG CATTACTGCT CTATTGGCAA
    CTACAACTCT TTGGAAATTA CCAGTATCTC GTGCAAGATG TAGCCATTAC TTTGATGGTC
    TGTTTAACAA TGAGTTCAAC TCATGCCTAC CCAAAGCTGG CTCCATATAG ACCAGCAGGA
    CAGCTCCTTT CTCCCCCTTT GCTGCTGTCA ATATTTTTGA ATTCCTGTTT CTCCTGCATT
    GTGCAGATCA GTGCATTTCT CTATGTGAAG CAGCAGCCTT GGTATTGTGA GGTCTACCAA
    TATAGTGAGT GTTTCCTGGC CAACCAAAGT AATTTTTCAA CAACTATGAG TCTGGAAAGA
    AACTGGACTG GAAATGCAAC TCTGATTCCT GGTTCAATTT TAAGTTTTGA GACCACCACA
    CTGTGGCCCA TCACCACCAT CAACTATATC ACAGTAGCAT TCATCTTTTC TAGGGGAAAG
    CCGTTTCGAA AACCCATCTA TACAAACTAT ATATTTTCAT TGCTGCTGCT AGCTGCCTTG
    AGCCTCACAA TTTTCATTCT GTTTTCTGAC TTTCAAGTTA TCTACCGTGG AATGGAGTTG
    ATCCCAACCA TAACATCGTG GAGGGTTTTA ATTTTGGTGG TAACCCTCAC CCAATTCTGT
    GTGACTTTCT TTGTAGAGGA TGCCATCCTT CAAAATCATG AGCTCTGGCT GTTGATCAAA
    AGAGAATTTG GATTCTCCTC TAAAAGTCAA TATAGGACTT GGCAAAAGCA GCTGGCAGAA
    GACTCAACCT GGCCTCCCAC AAACAGGACA GATTATTCAG GTGATGGCAA AAATGGATTC
    TACATCAACA GAGGCTATGA AAGCCATGAA CAGATTCCAG AAAGAAAACT CAAACTGGGA
    AGCCAACCCA CAGAACAGCA TTTTTGGACC AGGCTGTAA

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

    RefSeq XP_014988000.1
    CDS352..3990
    Translation

    Target ORF information:

    RefSeq Version XM_015132514.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ATPase type 13A5 (ATP13A5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015132514.1

    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
    ATGAGTGTGA AGAGGTCTCT TAGCTCCAGA AAGAGCACAG CTCAGGAGGT GTTTGGTTAC 
    CGGGACCACA GTGTACGCAA AGCCCTCTGC CTTGTCGCAT CCGTGCTGAC CTGTGGGGTC
    CTTCTGCTGC TGTTCTACTG GAGACCCCAG TGGAGAGTGT GGGCCAGCTG CATGCCATGC
    CCCTTGCGAG AAGCAGACAC TGTTTTGCTG AGGACAACAG ACAAATTTCA ACGATATATG
    AGGAAGAAGG TATTCTGCCT CTACTTATCC ACACTGAAGT TTCCTGTAAG CAAGAAGTGG
    GAAGAATCCT TGGTGGCTGA CTGCCATTCT ATCATAAACC AAGCCTTAAT AAAGCCAGAA
    TTAAAACTGC GATGCATCCA AGTGCAGAAA ATCAGGTATG TTTGGAACAA CCTGGAGAAG
    CAGTTTCAGA AAGTTGGGTT GCTAGAAGAC AGTAACTCCT GCTCTGACAT CCATCAGACA
    TTTGGATTGG GTCTGACCAG TGAGGAGCAA GAGGTCAGAA GATTAGTGTG TGGGCCTAAC
    ACCATTGAGG TTGAAATCCA ACCCATATGG AAGCTGCTTG TTAAACAGGT TTTAAATCCA
    TTCTATGTGT TCCAAGCCTT CACCCTAACT TTGTGGCTGT CTCAAGGTTA CATAGAATAC
    TCTGTGGCCA TCATCATTTT GACAGTTATC TCCATTGTCT TAAGCGTGTA TGATTTGCGA
    CAGCAATCAG TTAAGCTGCA TAACCTCGTG GAGGACCACA ACAAAGTCCA GGTTACAATC
    ATTGTAAAAG ACAAAGGTTT GGAGGAGCTG GAATCCCGTC TCTTGGTTCC CGGAGACATT
    CTTATTCTTC CAGGAAAACT TTCATTGCCA TGTGATGCTG TTTTGATTGA TGGAAGCTGC
    GTGGTGAATG AAGGCATGCT TACAGGAGAA AGTATACCTG TTACAAAGAC ACCGTTGCCC
    CAGATGGAGA ACACCATGCC TTGGAAATGT CACAGTTTGG AAGATTATCG GAAACACGTC
    CTCTTCTGTG GAACAGAAGT TATCCAGGTC AAGCCCTCTG GGCAGGGGCC TGTAAGAGCA
    GTCGTTTTGC AAACAGGTTA CAATACAGCC AAAGGGGACT TAGTGAGATC CATCCTGTAC
    CCCCGGCCTC TGAACTTCAA ACTATACAGC GATGCCTTCA AGTTCATGGT GTTCCTGGCC
    TGCCTTGGTG TCATGGGTTT TTTCTATGCC CTAGGGGTAT ATGCGTACCA TGGAGTCCCT
    CCAAAAGATA CTGTGACCAT GGCCCTGATC CTCCTCACCA CGACTGTCCC TCCAGTGCTG
    CCGGCTGCCC TGACCATAGG CAACGTGTAT GCTCAGAAGA GACTGAAGAA AAAGAAAATC
    TTCTGTATCT CCCCACAGAG AATCAACATG TGTGGGCAAA TAAACCTCGT GTGCTTTGAC
    AAAACTGGCA CTCTCACTGA AGACGGGCTG GACCTCTGGC AGACTGTCCC TACTGCTGAC
    AACTGCTTCC AGGAAGCCCA CAGCTTTGCC TCGGGCCAGG CTGTGCCGTG GGGCCCACTG
    TGTGCGGCCA TGGCCAGCTG CCACTCTCTG ATCCTTCTCA ATGGAACTAT GCAGGGAGAC
    CCTCTGGACC TCAAAATGTT TGAGGGCACT GCCTGGAAAA TGGAAGATTG CAATGTAGAC
    TCCTGCAAAT TTGGGATGTC AGTTTCAAAC ATCATAAAAC CAGGACCAAA AGCCAGTAAG
    AGTCCGGTGG AAGCCATCGC CACCTTGCGC CAGTTTCCAT TTTCCTCGAG CCTGCAGAGG
    ATGTCGGTGA TCACTCAGCT AGCTGGGGAG AATCACTTCC ATGTCTACAT GAAGGGTGCC
    CCAGAAATGG TGGCCAGGTT CTGCAGATCT GAAACAGTGC CTAAGAATTT CCCACAGGAA
    CTGAGGAAGT ACACGGTGCA AGGCTTCCGT GTCATTGCTC TTGCCCACAA AACCTTAAAG
    ATGGGGAACC TTTCAGAAGT GGAGCACTTA GCCAGAGAAA AAGTGGAGTC AGAGTTAACA
    TTTCTGGGAC TTCTCATCAT GGAGAATCGT TTGAAAAAAG AAACCAAACC GGTCTTGAAG
    GAACTGAGCG AGGCCCGTAT CAGGACTGTG ATGATTACAG GTGACAACCT TCAAACAGCC
    ATTACTGTTG CAAAGAATTC TGAAATGATC CCTCCAGGCA GCCAAGTGAT CATTGTTGAA
    GCCAATGAAC CAGAAGAATT TGTTCCTGCC TCTGTGACCT GGCAGCTGGT GGAGAACCAA
    GAGACTGGAC CTGGGAAGAT AGAAACCTGC GTGTACACTG GAAACAGTTC AACCCCTCGT
    GGGGAAAGAG GAAGCTGTTA CCATTTTGCA ATGAGTGGGA AATCATACCA AGTGATATTT
    GAGCATTTCA CCAGCTTGCT TCCAAAAATT CTGGTGAATG GAACAGTTTT TGCAAGAATG
    TCTCCTGGGC AGAAATCAAG CCTTATTGAA GAATTTCAGA AATTAAATTA TTATGTGGGC
    ATGTGTGGAG ATGGAGCTAA CGATTGTGGG GCTTTGAAGG TGGCTCATGC AGGCATTTCA
    TTGTCAGAGC AGGAAGCATC TGTGGCATCC CCTTTTACCT CTAAAACAGC CAACATCAAG
    TGTGTGCCTC ATCTCATCAG AGAAGGCCGA GCTGCTCTGG TTTCCTCCTT TGGAGTATTT
    AAATACTTGA CCATGTACGG CATAATCCAG TTTATCAGTG CATTACTGCT CTATTGGCAA
    CTACAACTCT TTGGAAATTA CCAGTATCTC GTGCAAGATG TAGCCATTAC TTTGATGGTC
    TGTTTAACAA TGAGTTCAAC TCATGCCTAC CCAAAGCTGG CTCCATATAG ACCAGCAGGA
    CAGCTCCTTT CTCCCCCTTT GCTGCTGTCA ATATTTTTGA ATTCCTGTTT CTCCTGCATT
    GTGCAGATCA GTGCATTTCT CTATGTGAAG CAGCAGCCTT GGTATTGTGA GGTCTACCAA
    TATAGTGAGT GTTTCCTGGC CAACCAAAGT AATTTTTCAA CAACTATGAG TCTGGAAAGA
    AACTGGACTG GAAATGCAAC TCTGATTCCT GGTTCAATTT TAAGTTTTGA GACCACCACA
    CTGTGGCCCA TCACCACCAT CAACTATATC ACAGTAGCAT TCATCTTTTC TAGGGGAAAG
    CCGTTTCGAA AACCCATCTA TACAAACTAT ATATTTTCAT TGCTGCTGCT AGCTGCCTTG
    AGCCTCACAA TTTTCATTCT GTTTTCTGAC TTTCAAGTTA TCTACCGTGG AATGGAGTTG
    ATCCCAACCA TAACATCGTG GAGGGTTTTA ATTTTGGTGG TAACCCTCAC CCAATTCTGT
    GTGACTTTCT TTGTAGAGGA TGCCATCCTT CAAAATCATG AGCTCTGGCT GTTGATCAAA
    AGAGAATTTG GATTCTCCTC TAAAAGTCAA TATAGGACTT GGCAAAAGCA GCTGGCAGAA
    GACTCAACCT GGCCTCCCAC AAACAGGACA GATTATTCAG GTGATGGCAA AAATGGATTC
    TACATCAACA GAGGCTATGA AAGCCATGAA CAGATTCCAG AAAGAAAACT CAAACTGGGA
    AGCCAACCCA CAGAACAGCA TTTTTGGACC AGGCTGTAA

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

    CloneID OMb78301
    Clone ID Related Accession (Same CDS sequence) XM_001095224.4
    Accession Version XM_001095224.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3657bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product probable cation-transporting ATPase 13A5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041755.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001095224.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 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
    ATGGAAGAGA ACAGTAAGAA GGACCATCGG GCTTTGCTCA ACCAGGGAGA GGAGGATGAA 
    CTGGAGGTGT TTGGTTACCG GGACCACAGT GTACGCAAAG CCCTCTGCCT TGTCGCATCC
    GTGCTGACCT GTGGGGTCCT TCTGCTGCTG TTCTACTGGA GACCCCAGTG GAGAGTGTGG
    GCCAGCTGCA TGCCATGCCC CTTGCGAGAA GCAGACACTG TTTTGCTGAG GACAACAGAC
    AAATTTCAAC GATATATGAG GAAGAAGGTA TTCTGCCTCT ACTTATCCAC ACTGAAGTTT
    CCTGTAAGCA AGAAGTGGGA AGAATCCTTG GTGGCTGACT GCCATTCTAT CATAAACCAA
    GCCTTAATAA AGCCAGAATT AAAACTGCGA TGCATCCAAG TGCAGAAAAT CAGGTATGTT
    TGGAACAACC TGGAGAAGCA GTTTCAGAAA GTTGGGTTGC TAGAAGACAG TAACTCCTGC
    TCTGACATCC ATCAGACATT TGGATTGGGT CTGACCAGTG AGGAGCAAGA GGTCAGAAGA
    TTAGTGTGTG GGCCTAACAC CATTGAGGTT GAAATCCAAC CCATATGGAA GCTGCTTGTT
    AAACAGGTTT TAAATCCATT CTATGTGTTC CAAGCCTTCA CCCTAACTTT GTGGCTGTCT
    CAAGGTTACA TAGAATACTC TGTGGCCATC ATCATTTTGA CAGTTATCTC CATTGTCTTA
    AGCGTGTATG ATTTGCGACA GCAATCAGTT AAGCTGCATA ACCTCGTGGA GGACCACAAC
    AAAGTCCAGG TTACAATCAT TGTAAAAGAC AAAGGTTTGG AGGAGCTGGA ATCCCGTCTC
    TTGGTTCCCG GAGACATTCT TATTCTTCCA GGAAAACTTT CATTGCCATG TGATGCTGTT
    TTGATTGATG GAAGCTGCGT GGTGAATGAA GGCATGCTTA CAGGAGAAAG TATACCTGTT
    ACAAAGACAC CGTTGCCCCA GATGGAGAAC ACCATGCCTT GGAAATGTCA CAGTTTGGAA
    GATTATCGGA AACACGTCCT CTTCTGTGGA ACAGAAGTTA TCCAGGTCAA GCCCTCTGGG
    CAGGGGCCTG TAAGAGCAGT CGTTTTGCAA ACAGGTTACA ATACAGCCAA AGGGGACTTA
    GTGAGATCCA TCCTGTACCC CCGGCCTCTG AACTTCAAAC TATACAGCGA TGCCTTCAAG
    TTCATGGTGT TCCTGGCCTG CCTTGGTGTC ATGGGTTTTT TCTATGCCCT AGGGGTATAT
    GCGTACCATG GAGTCCCTCC AAAAGATACT GTGACCATGG CCCTGATCCT CCTCACCACG
    ACTGTCCCTC CAGTGCTGCC GGCTGCCCTG ACCATAGGCA ACGTGTATGC TCAGAAGAGA
    CTGAAGAAAA AGAAAATCTT CTGTATCTCC CCACAGAGAA TCAACATGTG TGGGCAAATA
    AACCTCGTGT GCTTTGACAA AACTGGCACT CTCACTGAAG ACGGGCTGGA CCTCTGGCAG
    ACTGTCCCTA CTGCTGACAA CTGCTTCCAG GAAGCCCACA GCTTTGCCTC GGGCCAGGCT
    GTGCCGTGGG GCCCACTGTG TGCGGCCATG GCCAGCTGCC ACTCTCTGAT CCTTCTCAAT
    GGAACTATGC AGGGAGACCC TCTGGACCTC AAAATGTTTG AGGGCACTGC CTGGAAAATG
    GAAGATTGCA ATGTAGACTC CTGCAAATTT GGGATGTCAG TTTCAAACAT CATAAAACCA
    GGACCAAAAG CCAGTAAGAG TCCGGTGGAA GCCATCGCCA CCTTGCGCCA GTTTCCATTT
    TCCTCGAGCC TGCAGAGGAT GTCGGTGATC ACTCAGCTAG CTGGGGAGAA TCACTTCCAT
    GTCTACATGA AGGGTGCCCC AGAAATGGTG GCCAGGTTCT GCAGATCTGA AACAGTGCCT
    AAGAATTTCC CACAGGAACT GAGGAAGTAC ACGGTGCAAG GCTTCCGTGT CATTGCTCTT
    GCCCACAAAA CCTTAAAGAT GGGGAACCTT TCAGAAGTGG AGCACTTAGC CAGAGAAAAA
    GTGGAGTCAG AGTTAACATT TCTGGGACTT CTCATCATGG AGAATCGTTT GAAAAAAGAA
    ACCAAACCGG TCTTGAAGGA ACTGAGCGAG GCCCGTATCA GGACTGTGAT GATTACAGGT
    GACAACCTTC AAACAGCCAT TACTGTTGCA AAGAATTCTG AAATGATCCC TCCAGGCAGC
    CAAGTGATCA TTGTTGAAGC CAATGAACCA GAAGAATTTG TTCCTGCCTC TGTGACCTGG
    CAGCTGGTGG AGAACCAAGA GACTGGACCT GGGAAGATAG AAACCTGCGT GTACACTGGA
    AACAGTTCAA CCCCTCGTGG GGAAAGAGGA AGCTGTTACC ATTTTGCAAT GAGTGGGAAA
    TCATACCAAG TGATATTTGA GCATTTCACC AGCTTGCTTC CAAAAATTCT GGTGAATGGA
    ACAGTTTTTG CAAGAATGTC TCCTGGGCAG AAATCAAGCC TTATTGAAGA ATTTCAGAAA
    TTAAATTATT ATGTGGGCAT GTGTGGAGAT GGAGCTAACG ATTGTGGGGC TTTGAAAGTG
    GCTCATGCAG GCATTTCATT GTCAGAGCAG GAAGCATCTG TGGCATCCCC TTTTACCTCT
    AAAACAGCCA ACATCAAGTG TGTGCCTCAT CTCATCAGAG AAGGCCGAGC TGCTCTGGTT
    TCCTCCTTTG GAGTATTCAA ATACTTGACC ATGTACGGCA TAATCCAGTT TATCAGTGCA
    TTACTGCTCT ATTGGCAACT ACAACTCTTT GGAAATTACC AGTATCTCGT GCAAGATGTA
    GCCATTACTT TGATGGTCTG TTTAACAATG AGTTCAACTC ATGCCTACCC AAAGCTGGCT
    CCATATAGAC CAGCAGGACA GCTCCTTTCT CCCCCTTTGC TGCTGTCAAT ATTTTTGAAT
    TCCTGTTTCT CCTGCATTGT GCAGATCAGT GCATTTCTCT ATGTGAAGCA GCAACCTTGG
    TATTGTGAGG TCTACCAATA TAGTGAGTGT TTCCTGGCCA ACCAAAGTAA TTTTTCAACA
    ACTATGAGTC TGGAAAGAAA CTGGACTGGA AATGCAACTC TGATTCCTGG TTCAATTTTA
    AGTTTTGAGA CCACCACACT GTGGCCCATC ACCACCATCA ACTATATCAC AGTAGCATTC
    ATCTTTTCTA AGGGAAAGCC GTTTCGAAAA CCCATCTATA CAAACTATAT ATTTTCATTG
    CTGCTGCTAG CTGCCTTGAG CCTCACAATT TTCATTCTGT TTTCTGACTT TCAAGTTATC
    TACCGTGGAA TGGAGTTGAT CCCAACCATA ACATCGTGGA GGGTTTTAAT TTTGGTGGTA
    ACCCTCACCC AATTCTGTGT GACTTTCTTT GTAGAGGATG CCATCCTTCA AAATCATGAG
    CTCTGGCTGT TGATCAAAAG AGAATTTGGA TTCTCCTCTA AAAGTCAATA TAGGACTTGG
    CAAAAGCAGC TGGCAGAAGA CTCAACCTGG CCTCCCACAA ACAGGACAGA TTATTCAGGT
    GATGGCAAAA ATGGATTCTA CATCAACAGA GGCTATGAAA GCCATGAACA GATTCCAGAA
    AGAAAACTCA AACTGGGAAG CCAACCCACA GAACAGCATT TTTGGACCAG GCTGTAA

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

    RefSeq XP_001095224.2
    CDS288..3944
    Translation

    Target ORF information:

    RefSeq Version XM_001095224.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ATPase 13A5 (ATP13A5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001095224.4

    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
    ATGGAAGAGA ACAGTAAGAA GGACCATCGG GCTTTGCTCA ACCAGGGAGA GGAGGATGAA 
    CTGGAGGTGT TTGGTTACCG GGACCACAGT GTACGCAAAG CCCTCTGCCT TGTCGCATCC
    GTGCTGACCT GTGGGGTCCT TCTGCTGCTG TTCTACTGGA GACCCCAGTG GAGAGTGTGG
    GCCAGCTGCA TGCCATGCCC CTTGCGAGAA GCAGACACTG TTTTGCTGAG GACAACAGAC
    AAATTTCAAC GATATATGAG GAAGAAGGTA TTCTGCCTCT ACTTATCCAC ACTGAAGTTT
    CCTGTAAGCA AGAAGTGGGA AGAATCCTTG GTGGCTGACT GCCATTCTAT CATAAACCAA
    GCCTTAATAA AGCCAGAATT AAAACTGCGA TGCATCCAAG TGCAGAAAAT CAGGTATGTT
    TGGAACAACC TGGAGAAGCA GTTTCAGAAA GTTGGGTTGC TAGAAGACAG TAACTCCTGC
    TCTGACATCC ATCAGACATT TGGATTGGGT CTGACCAGTG AGGAGCAAGA GGTCAGAAGA
    TTAGTGTGTG GGCCTAACAC CATTGAGGTT GAAATCCAAC CCATATGGAA GCTGCTTGTT
    AAACAGGTTT TAAATCCATT CTATGTGTTC CAAGCCTTCA CCCTAACTTT GTGGCTGTCT
    CAAGGTTACA TAGAATACTC TGTGGCCATC ATCATTTTGA CAGTTATCTC CATTGTCTTA
    AGCGTGTATG ATTTGCGACA GCAATCAGTT AAGCTGCATA ACCTCGTGGA GGACCACAAC
    AAAGTCCAGG TTACAATCAT TGTAAAAGAC AAAGGTTTGG AGGAGCTGGA ATCCCGTCTC
    TTGGTTCCCG GAGACATTCT TATTCTTCCA GGAAAACTTT CATTGCCATG TGATGCTGTT
    TTGATTGATG GAAGCTGCGT GGTGAATGAA GGCATGCTTA CAGGAGAAAG TATACCTGTT
    ACAAAGACAC CGTTGCCCCA GATGGAGAAC ACCATGCCTT GGAAATGTCA CAGTTTGGAA
    GATTATCGGA AACACGTCCT CTTCTGTGGA ACAGAAGTTA TCCAGGTCAA GCCCTCTGGG
    CAGGGGCCTG TAAGAGCAGT CGTTTTGCAA ACAGGTTACA ATACAGCCAA AGGGGACTTA
    GTGAGATCCA TCCTGTACCC CCGGCCTCTG AACTTCAAAC TATACAGCGA TGCCTTCAAG
    TTCATGGTGT TCCTGGCCTG CCTTGGTGTC ATGGGTTTTT TCTATGCCCT AGGGGTATAT
    GCGTACCATG GAGTCCCTCC AAAAGATACT GTGACCATGG CCCTGATCCT CCTCACCACG
    ACTGTCCCTC CAGTGCTGCC GGCTGCCCTG ACCATAGGCA ACGTGTATGC TCAGAAGAGA
    CTGAAGAAAA AGAAAATCTT CTGTATCTCC CCACAGAGAA TCAACATGTG TGGGCAAATA
    AACCTCGTGT GCTTTGACAA AACTGGCACT CTCACTGAAG ACGGGCTGGA CCTCTGGCAG
    ACTGTCCCTA CTGCTGACAA CTGCTTCCAG GAAGCCCACA GCTTTGCCTC GGGCCAGGCT
    GTGCCGTGGG GCCCACTGTG TGCGGCCATG GCCAGCTGCC ACTCTCTGAT CCTTCTCAAT
    GGAACTATGC AGGGAGACCC TCTGGACCTC AAAATGTTTG AGGGCACTGC CTGGAAAATG
    GAAGATTGCA ATGTAGACTC CTGCAAATTT GGGATGTCAG TTTCAAACAT CATAAAACCA
    GGACCAAAAG CCAGTAAGAG TCCGGTGGAA GCCATCGCCA CCTTGCGCCA GTTTCCATTT
    TCCTCGAGCC TGCAGAGGAT GTCGGTGATC ACTCAGCTAG CTGGGGAGAA TCACTTCCAT
    GTCTACATGA AGGGTGCCCC AGAAATGGTG GCCAGGTTCT GCAGATCTGA AACAGTGCCT
    AAGAATTTCC CACAGGAACT GAGGAAGTAC ACGGTGCAAG GCTTCCGTGT CATTGCTCTT
    GCCCACAAAA CCTTAAAGAT GGGGAACCTT TCAGAAGTGG AGCACTTAGC CAGAGAAAAA
    GTGGAGTCAG AGTTAACATT TCTGGGACTT CTCATCATGG AGAATCGTTT GAAAAAAGAA
    ACCAAACCGG TCTTGAAGGA ACTGAGCGAG GCCCGTATCA GGACTGTGAT GATTACAGGT
    GACAACCTTC AAACAGCCAT TACTGTTGCA AAGAATTCTG AAATGATCCC TCCAGGCAGC
    CAAGTGATCA TTGTTGAAGC CAATGAACCA GAAGAATTTG TTCCTGCCTC TGTGACCTGG
    CAGCTGGTGG AGAACCAAGA GACTGGACCT GGGAAGATAG AAACCTGCGT GTACACTGGA
    AACAGTTCAA CCCCTCGTGG GGAAAGAGGA AGCTGTTACC ATTTTGCAAT GAGTGGGAAA
    TCATACCAAG TGATATTTGA GCATTTCACC AGCTTGCTTC CAAAAATTCT GGTGAATGGA
    ACAGTTTTTG CAAGAATGTC TCCTGGGCAG AAATCAAGCC TTATTGAAGA ATTTCAGAAA
    TTAAATTATT ATGTGGGCAT GTGTGGAGAT GGAGCTAACG ATTGTGGGGC TTTGAAAGTG
    GCTCATGCAG GCATTTCATT GTCAGAGCAG GAAGCATCTG TGGCATCCCC TTTTACCTCT
    AAAACAGCCA ACATCAAGTG TGTGCCTCAT CTCATCAGAG AAGGCCGAGC TGCTCTGGTT
    TCCTCCTTTG GAGTATTCAA ATACTTGACC ATGTACGGCA TAATCCAGTT TATCAGTGCA
    TTACTGCTCT ATTGGCAACT ACAACTCTTT GGAAATTACC AGTATCTCGT GCAAGATGTA
    GCCATTACTT TGATGGTCTG TTTAACAATG AGTTCAACTC ATGCCTACCC AAAGCTGGCT
    CCATATAGAC CAGCAGGACA GCTCCTTTCT CCCCCTTTGC TGCTGTCAAT ATTTTTGAAT
    TCCTGTTTCT CCTGCATTGT GCAGATCAGT GCATTTCTCT ATGTGAAGCA GCAACCTTGG
    TATTGTGAGG TCTACCAATA TAGTGAGTGT TTCCTGGCCA ACCAAAGTAA TTTTTCAACA
    ACTATGAGTC TGGAAAGAAA CTGGACTGGA AATGCAACTC TGATTCCTGG TTCAATTTTA
    AGTTTTGAGA CCACCACACT GTGGCCCATC ACCACCATCA ACTATATCAC AGTAGCATTC
    ATCTTTTCTA AGGGAAAGCC GTTTCGAAAA CCCATCTATA CAAACTATAT ATTTTCATTG
    CTGCTGCTAG CTGCCTTGAG CCTCACAATT TTCATTCTGT TTTCTGACTT TCAAGTTATC
    TACCGTGGAA TGGAGTTGAT CCCAACCATA ACATCGTGGA GGGTTTTAAT TTTGGTGGTA
    ACCCTCACCC AATTCTGTGT GACTTTCTTT GTAGAGGATG CCATCCTTCA AAATCATGAG
    CTCTGGCTGT TGATCAAAAG AGAATTTGGA TTCTCCTCTA AAAGTCAATA TAGGACTTGG
    CAAAAGCAGC TGGCAGAAGA CTCAACCTGG CCTCCCACAA ACAGGACAGA TTATTCAGGT
    GATGGCAAAA ATGGATTCTA CATCAACAGA GGCTATGAAA GCCATGAACA GATTCCAGAA
    AGAAAACTCA AACTGGGAAG CCAACCCACA GAACAGCATT TTTGGACCAG GCTGTAA

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

    CloneID OMb16261
    Clone ID Related Accession (Same CDS sequence) XM_001095224.3
    Accession Version XM_001095224.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3657bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product probable cation-transporting ATPase 13A5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804666.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_001095224.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGAAGAGA ACAGTAAGAA GGACCATCGG GCTTTGCTCA ACCAGGGAGA GGAGGATGAA 
    CTGGAGGTGT TTGGTTACCG GGACCACAGT GTACGCAAAG CCCTCTGCCT TGTCGCATCC
    GTGCTGACCT GTGGGGTCCT TCTGCTGCTG TTCTACTGGA GACCCCAGTG GAGAGTGTGG
    GCCAGCTGCA TGCCATGCCC CTTGCGAGAA GCAGACACTG TTTTGCTGAG GACAACAGAC
    AAATTTCAAC GATATATGAG GAAGAAGGTA TTCTGCCTCT ACTTATCCAC ACTGAAGTTT
    CCTGTAAGCA AGAAGTGGGA AGAATCCTTG GTGGCTGACT GCCATTCTAT CATAAACCAA
    GCCTTAATAA AGCCAGAATT AAAACTGCGA TGCATCCAAG TGCAGAAAAT CAGGTATGTT
    TGGAACAACC TGGAGAAGCA GTTTCAGAAA GTTGGGTTGC TAGAAGACAG TAACTCCTGC
    TCTGACATCC ATCAGACATT TGGATTGGGT CTGACCAGTG AGGAGCAAGA GGTCAGAAGA
    TTAGTGTGTG GGCCTAACAC CATTGAGGTT GAAATCCAAC CCATATGGAA GCTGCTTGTT
    AAACAGGTTT TAAATCCATT CTATGTGTTC CAAGCCTTCA CCCTAACTTT GTGGCTGTCT
    CAAGGTTACA TAGAATACTC TGTGGCCATC ATCATTTTGA CAGTTATCTC CATTGTCTTA
    AGCGTGTATG ATTTGCGACA GCAATCAGTT AAGCTGCATA ACCTCGTGGA GGACCACAAC
    AAAGTCCAGG TTACAATCAT TGTAAAAGAC AAAGGTTTGG AGGAGCTGGA ATCCCGTCTC
    TTGGTTCCCG GAGACATTCT TATTCTTCCA GGAAAACTTT CATTGCCATG TGATGCTGTT
    TTGATTGATG GAAGCTGCGT GGTGAATGAA GGCATGCTTA CAGGAGAAAG TATACCTGTT
    ACAAAGACAC CGTTGCCCCA GATGGAGAAC ACCATGCCTT GGAAATGTCA CAGTTTGGAA
    GATTATCGGA AACACGTCCT CTTCTGTGGA ACAGAAGTTA TCCAGGTCAA GCCCTCTGGG
    CAGGGGCCTG TAAGAGCAGT CGTTTTGCAA ACAGGTTACA ATACAGCCAA AGGGGACTTA
    GTGAGATCCA TCCTGTACCC CCGGCCTCTG AACTTCAAAC TATACAGCGA TGCCTTCAAG
    TTCATGGTGT TCCTGGCCTG CCTTGGTGTC ATGGGTTTTT TCTATGCCCT AGGGGTATAT
    GCGTACCATG GAGTCCCTCC AAAAGATACT GTGACCATGG CCCTGATCCT CCTCACCACG
    ACTGTCCCTC CAGTGCTGCC GGCTGCCCTG ACCATAGGCA ACGTGTATGC TCAGAAGAGA
    CTGAAGAAAA AGAAAATCTT CTGTATCTCC CCACAGAGAA TCAACATGTG TGGGCAAATA
    AACCTCGTGT GCTTTGACAA AACTGGCACT CTCACTGAAG ACGGGCTGGA CCTCTGGCAG
    ACTGTCCCTA CTGCTGACAA CTGCTTCCAG GAAGCCCACA GCTTTGCCTC GGGCCAGGCT
    GTGCCGTGGG GCCCACTGTG TGCGGCCATG GCCAGCTGCC ACTCTCTGAT CCTTCTCAAT
    GGAACTATGC AGGGAGACCC TCTGGACCTC AAAATGTTTG AGGGCACTGC CTGGAAAATG
    GAAGATTGCA ATGTAGACTC CTGCAAATTT GGGATGTCAG TTTCAAACAT CATAAAACCA
    GGACCAAAAG CCAGTAAGAG TCCGGTGGAA GCCATCGCCA CCTTGCGCCA GTTTCCATTT
    TCCTCGAGCC TGCAGAGGAT GTCGGTGATC ACTCAGCTAG CTGGGGAGAA TCACTTCCAT
    GTCTACATGA AGGGTGCCCC AGAAATGGTG GCCAGGTTCT GCAGATCTGA AACAGTGCCT
    AAGAATTTCC CACAGGAACT GAGGAAGTAC ACGGTGCAAG GCTTCCGTGT CATTGCTCTT
    GCCCACAAAA CCTTAAAGAT GGGGAACCTT TCAGAAGTGG AGCACTTAGC CAGAGAAAAA
    GTGGAGTCAG AGTTAACATT TCTGGGACTT CTCATCATGG AGAATCGTTT GAAAAAAGAA
    ACCAAACCGG TCTTGAAGGA ACTGAGCGAG GCCCGTATCA GGACTGTGAT GATTACAGGT
    GACAACCTTC AAACAGCCAT TACTGTTGCA AAGAATTCTG AAATGATCCC TCCAGGCAGC
    CAAGTGATCA TTGTTGAAGC CAATGAACCA GAAGAATTTG TTCCTGCCTC TGTGACCTGG
    CAGCTGGTGG AGAACCAAGA GACTGGACCT GGGAAGATAG AAACCTGCGT GTACACTGGA
    AACAGTTCAA CCCCTCGTGG GGAAAGAGGA AGCTGTTACC ATTTTGCAAT GAGTGGGAAA
    TCATACCAAG TGATATTTGA GCATTTCACC AGCTTGCTTC CAAAAATTCT GGTGAATGGA
    ACAGTTTTTG CAAGAATGTC TCCTGGGCAG AAATCAAGCC TTATTGAAGA ATTTCAGAAA
    TTAAATTATT ATGTGGGCAT GTGTGGAGAT GGAGCTAACG ATTGTGGGGC TTTGAAGGTG
    GCTCATGCAG GCATTTCATT GTCAGAGCAG GAAGCATCTG TGGCATCCCC TTTTACCTCT
    AAAACAGCCA ACATCAAGTG TGTGCCTCAT CTCATCAGAG AAGGCCGAGC TGCTCTGGTT
    TCCTCCTTTG GAGTATTTAA ATACTTGACC ATGTACGGCA TAATCCAGTT TATCAGTGCA
    TTACTGCTCT ATTGGCAACT ACAACTCTTT GGAAATTACC AGTATCTCGT GCAAGATGTA
    GCCATTACTT TGATGGTCTG TTTAACAATG AGTTCAACTC ATGCCTACCC AAAGCTGGCT
    CCATATAGAC CAGCAGGACA GCTCCTTTCT CCCCCTTTGC TGCTGTCAAT ATTTTTGAAT
    TCCTGTTTCT CCTGCATTGT GCAGATCAGT GCATTTCTCT ATGTGAAGCA GCAGCCTTGG
    TATTGTGAGG TCTACCAATA TAGTGAGTGT TTCCTGGCCA ACCAAAGTAA TTTTTCAACA
    ACTATGAGTC TGGAAAGAAA CTGGACTGGA AATGCAACTC TGATTCCTGG TTCAATTTTA
    AGTTTTGAGA CCACCACACT GTGGCCCATC ACCACCATCA ACTATATCAC AGTAGCATTC
    ATCTTTTCTA GGGGAAAGCC GTTTCGAAAA CCCATCTATA CAAACTATAT ATTTTCATTG
    CTGCTGCTAG CTGCCTTGAG CCTCACAATT TTCATTCTGT TTTCTGACTT TCAAGTTATC
    TACCGTGGAA TGGAGTTGAT CCCAACCATA ACATCGTGGA GGGTTTTAAT TTTGGTGGTA
    ACCCTCACCC AATTCTGTGT GACTTTCTTT GTAGAGGATG CCATCCTTCA AAATCATGAG
    CTCTGGCTGT TGATCAAAAG AGAATTTGGA TTCTCCTCTA AAAGTCAATA TAGGACTTGG
    CAAAAGCAGC TGGCAGAAGA CTCAACCTGG CCTCCCACAA ACAGGACAGA TTATTCAGGT
    GATGGCAAAA ATGGATTCTA CATCAACAGA GGCTATGAAA GCCATGAACA GATTCCAGAA
    AGAAAACTCA AACTGGGAAG CCAACCCACA GAACAGCATT TTTGGACCAG GCTGTAA

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

    RefSeq XP_001095224.1
    CDS168..3824
    Translation

    Target ORF information:

    RefSeq Version XM_001095224.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ATPase type 13A5 (ATP13A5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001095224.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGAAGAGA ACAGTAAGAA GGACCATCGG GCTTTGCTCA ACCAGGGAGA GGAGGATGAA 
    CTGGAGGTGT TTGGTTACCG GGACCACAGT GTACGCAAAG CCCTCTGCCT TGTCGCATCC
    GTGCTGACCT GTGGGGTCCT TCTGCTGCTG TTCTACTGGA GACCCCAGTG GAGAGTGTGG
    GCCAGCTGCA TGCCATGCCC CTTGCGAGAA GCAGACACTG TTTTGCTGAG GACAACAGAC
    AAATTTCAAC GATATATGAG GAAGAAGGTA TTCTGCCTCT ACTTATCCAC ACTGAAGTTT
    CCTGTAAGCA AGAAGTGGGA AGAATCCTTG GTGGCTGACT GCCATTCTAT CATAAACCAA
    GCCTTAATAA AGCCAGAATT AAAACTGCGA TGCATCCAAG TGCAGAAAAT CAGGTATGTT
    TGGAACAACC TGGAGAAGCA GTTTCAGAAA GTTGGGTTGC TAGAAGACAG TAACTCCTGC
    TCTGACATCC ATCAGACATT TGGATTGGGT CTGACCAGTG AGGAGCAAGA GGTCAGAAGA
    TTAGTGTGTG GGCCTAACAC CATTGAGGTT GAAATCCAAC CCATATGGAA GCTGCTTGTT
    AAACAGGTTT TAAATCCATT CTATGTGTTC CAAGCCTTCA CCCTAACTTT GTGGCTGTCT
    CAAGGTTACA TAGAATACTC TGTGGCCATC ATCATTTTGA CAGTTATCTC CATTGTCTTA
    AGCGTGTATG ATTTGCGACA GCAATCAGTT AAGCTGCATA ACCTCGTGGA GGACCACAAC
    AAAGTCCAGG TTACAATCAT TGTAAAAGAC AAAGGTTTGG AGGAGCTGGA ATCCCGTCTC
    TTGGTTCCCG GAGACATTCT TATTCTTCCA GGAAAACTTT CATTGCCATG TGATGCTGTT
    TTGATTGATG GAAGCTGCGT GGTGAATGAA GGCATGCTTA CAGGAGAAAG TATACCTGTT
    ACAAAGACAC CGTTGCCCCA GATGGAGAAC ACCATGCCTT GGAAATGTCA CAGTTTGGAA
    GATTATCGGA AACACGTCCT CTTCTGTGGA ACAGAAGTTA TCCAGGTCAA GCCCTCTGGG
    CAGGGGCCTG TAAGAGCAGT CGTTTTGCAA ACAGGTTACA ATACAGCCAA AGGGGACTTA
    GTGAGATCCA TCCTGTACCC CCGGCCTCTG AACTTCAAAC TATACAGCGA TGCCTTCAAG
    TTCATGGTGT TCCTGGCCTG CCTTGGTGTC ATGGGTTTTT TCTATGCCCT AGGGGTATAT
    GCGTACCATG GAGTCCCTCC AAAAGATACT GTGACCATGG CCCTGATCCT CCTCACCACG
    ACTGTCCCTC CAGTGCTGCC GGCTGCCCTG ACCATAGGCA ACGTGTATGC TCAGAAGAGA
    CTGAAGAAAA AGAAAATCTT CTGTATCTCC CCACAGAGAA TCAACATGTG TGGGCAAATA
    AACCTCGTGT GCTTTGACAA AACTGGCACT CTCACTGAAG ACGGGCTGGA CCTCTGGCAG
    ACTGTCCCTA CTGCTGACAA CTGCTTCCAG GAAGCCCACA GCTTTGCCTC GGGCCAGGCT
    GTGCCGTGGG GCCCACTGTG TGCGGCCATG GCCAGCTGCC ACTCTCTGAT CCTTCTCAAT
    GGAACTATGC AGGGAGACCC TCTGGACCTC AAAATGTTTG AGGGCACTGC CTGGAAAATG
    GAAGATTGCA ATGTAGACTC CTGCAAATTT GGGATGTCAG TTTCAAACAT CATAAAACCA
    GGACCAAAAG CCAGTAAGAG TCCGGTGGAA GCCATCGCCA CCTTGCGCCA GTTTCCATTT
    TCCTCGAGCC TGCAGAGGAT GTCGGTGATC ACTCAGCTAG CTGGGGAGAA TCACTTCCAT
    GTCTACATGA AGGGTGCCCC AGAAATGGTG GCCAGGTTCT GCAGATCTGA AACAGTGCCT
    AAGAATTTCC CACAGGAACT GAGGAAGTAC ACGGTGCAAG GCTTCCGTGT CATTGCTCTT
    GCCCACAAAA CCTTAAAGAT GGGGAACCTT TCAGAAGTGG AGCACTTAGC CAGAGAAAAA
    GTGGAGTCAG AGTTAACATT TCTGGGACTT CTCATCATGG AGAATCGTTT GAAAAAAGAA
    ACCAAACCGG TCTTGAAGGA ACTGAGCGAG GCCCGTATCA GGACTGTGAT GATTACAGGT
    GACAACCTTC AAACAGCCAT TACTGTTGCA AAGAATTCTG AAATGATCCC TCCAGGCAGC
    CAAGTGATCA TTGTTGAAGC CAATGAACCA GAAGAATTTG TTCCTGCCTC TGTGACCTGG
    CAGCTGGTGG AGAACCAAGA GACTGGACCT GGGAAGATAG AAACCTGCGT GTACACTGGA
    AACAGTTCAA CCCCTCGTGG GGAAAGAGGA AGCTGTTACC ATTTTGCAAT GAGTGGGAAA
    TCATACCAAG TGATATTTGA GCATTTCACC AGCTTGCTTC CAAAAATTCT GGTGAATGGA
    ACAGTTTTTG CAAGAATGTC TCCTGGGCAG AAATCAAGCC TTATTGAAGA ATTTCAGAAA
    TTAAATTATT ATGTGGGCAT GTGTGGAGAT GGAGCTAACG ATTGTGGGGC TTTGAAGGTG
    GCTCATGCAG GCATTTCATT GTCAGAGCAG GAAGCATCTG TGGCATCCCC TTTTACCTCT
    AAAACAGCCA ACATCAAGTG TGTGCCTCAT CTCATCAGAG AAGGCCGAGC TGCTCTGGTT
    TCCTCCTTTG GAGTATTTAA ATACTTGACC ATGTACGGCA TAATCCAGTT TATCAGTGCA
    TTACTGCTCT ATTGGCAACT ACAACTCTTT GGAAATTACC AGTATCTCGT GCAAGATGTA
    GCCATTACTT TGATGGTCTG TTTAACAATG AGTTCAACTC ATGCCTACCC AAAGCTGGCT
    CCATATAGAC CAGCAGGACA GCTCCTTTCT CCCCCTTTGC TGCTGTCAAT ATTTTTGAAT
    TCCTGTTTCT CCTGCATTGT GCAGATCAGT GCATTTCTCT ATGTGAAGCA GCAGCCTTGG
    TATTGTGAGG TCTACCAATA TAGTGAGTGT TTCCTGGCCA ACCAAAGTAA TTTTTCAACA
    ACTATGAGTC TGGAAAGAAA CTGGACTGGA AATGCAACTC TGATTCCTGG TTCAATTTTA
    AGTTTTGAGA CCACCACACT GTGGCCCATC ACCACCATCA ACTATATCAC AGTAGCATTC
    ATCTTTTCTA GGGGAAAGCC GTTTCGAAAA CCCATCTATA CAAACTATAT ATTTTCATTG
    CTGCTGCTAG CTGCCTTGAG CCTCACAATT TTCATTCTGT TTTCTGACTT TCAAGTTATC
    TACCGTGGAA TGGAGTTGAT CCCAACCATA ACATCGTGGA GGGTTTTAAT TTTGGTGGTA
    ACCCTCACCC AATTCTGTGT GACTTTCTTT GTAGAGGATG CCATCCTTCA AAATCATGAG
    CTCTGGCTGT TGATCAAAAG AGAATTTGGA TTCTCCTCTA AAAGTCAATA TAGGACTTGG
    CAAAAGCAGC TGGCAGAAGA CTCAACCTGG CCTCCCACAA ACAGGACAGA TTATTCAGGT
    GATGGCAAAA ATGGATTCTA CATCAACAGA GGCTATGAAA GCCATGAACA GATTCCAGAA
    AGAAAACTCA AACTGGGAAG CCAACCCACA GAACAGCATT TTTGGACCAG GCTGTAA

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