SSH2 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following SSH2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SSH2 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
OMb50213 XM_015118969.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $174.30
$249.00
OMb50209 XM_015118963.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb50210 XM_015118964.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb50211 XM_015118965.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb50212 XM_015118967.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb50212 XM_015118966.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb50212 XM_015118968.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb72882 XM_015118963.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb72883 XM_028836169.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb72884 XM_001111434.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb72885 XM_015118964.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb72886 XM_015118965.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb72887 XM_015118967.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb72887 XM_015118966.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb72887 XM_015118968.2
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb72888 XM_028836171.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMb10172 XM_001111434.1
Latest version!
Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
OMb50213 XM_015118969.1 Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $174.30
$249.00
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)
    CloneID OMb50213
    Clone ID Related Accession (Same CDS sequence) XM_015118969.1 , XM_015118969.2
    Accession Version XM_015118969.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 609bp)
    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 protein phosphatase Slingshot homolog 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) annotated using gene prediction method: Gnomon, supported by 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
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGGTGGA CAGGGATTCA AGGAACAAAC ACTGTGATGT ACTATTGGTG
    GAAGAATGA

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

    RefSeq XP_014974455.1
    CDS155..763
    Translation

    Target ORF information:

    RefSeq Version XM_015118969.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118969.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGGTGGA CAGGGATTCA AGGAACAAAC ACTGTGATGT ACTATTGGTG
    GAAGAATGA

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

    CloneID OMb50213
    Clone ID Related Accession (Same CDS sequence) XM_015118969.1 , XM_015118969.2
    Accession Version XM_015118969.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 609bp)
    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 protein phosphatase Slingshot homolog 2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) 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_015118969.1. ##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
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGGTGGA CAGGGATTCA AGGAACAAAC ACTGTGATGT ACTATTGGTG
    GAAGAATGA

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

    RefSeq XP_014974455.1
    CDS151..759
    Translation

    Target ORF information:

    RefSeq Version XM_015118969.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118969.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGGTGGA CAGGGATTCA AGGAACAAAC ACTGTGATGT ACTATTGGTG
    GAAGAATGA

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

    CloneID OMb50209
    Clone ID Related Accession (Same CDS sequence) XM_015118963.1
    Accession Version XM_015118963.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    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 protein phosphatase Slingshot homolog 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGAGCTCTC ATTTGGAAGA CAGTGAATCA GCAGCATTAC TTTGCTGTGA ATGTGAAGAA
    TCAGAAATCT TTAGTGATTC CAATGAGGCA GACAGTGGGG AGGAAGAATG CCGGTCACAG
    CCCAGGAGCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACATTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATACTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    RefSeq XP_014974449.1
    CDS229..4581
    Translation

    Target ORF information:

    RefSeq Version XM_015118963.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118963.1

    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
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGAGCTCTC ATTTGGAAGA CAGTGAATCA GCAGCATTAC TTTGCTGTGA ATGTGAAGAA
    TCAGAAATCT TTAGTGATTC CAATGAGGCA GACAGTGGGG AGGAAGAATG CCGGTCACAG
    CCCAGGAGCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACATTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATACTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    CloneID OMb50210
    Clone ID Related Accession (Same CDS sequence) XM_015118964.1
    Accession Version XM_015118964.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4272bp)
    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 protein phosphatase Slingshot homolog 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGGAGGCAG ACAGTGGGGA GGAAGAATGC CGGTCACAGC CCAGGAGCAT CAGCGAGAGC
    TTTCTAACTG TCAAAGGTGC TGCCCTTTTT CTACCACGGG GAAATGGCTC ATCCACACCA
    AGAATCAGCC ACAGACGGAA CAAACATGCA GGCGATCTCC AACAGCATCT CCAAGCAATG
    TTCATATTAC TCCGCCCAGA AGACAACATC AGGCTGGCTG TAAGACTGGA AAGTACTTAC
    CAGAATCGAA CACGCTATAT GGTAGTGGTT TCAACTAATG GTAGACAAGA CACCGAAGAA
    AGCATCGTCC TAGGAATGGA TTTCTCCTCT AATGACAGTA GCACTTGTAC CATGGGCTTA
    GTTTTGCCTC TCTGGAGCGA CACGCTAATT CATTTGGATG GTGATGGTGG GTTCAGTGTA
    TCGACGGATA ACAGAGTTCA CATATTCAAA CCTGTATCTG TGCAGGCAAT GTGGTCTGCA
    CTACAGAGCT TACACAAGGC TTGTGAAGTC GCCAGAGCGC ATAACTACTA CCCAGGCAGC
    CTATTTCTCA CCTGGGTGAG TTATTATGAG AGCCATATCA ACTCAGATCA ATCCTCAGTC
    AATGAATGGA ATGCTATGCA AGATGTCCAG TCCCACCGGC CCGACTCTCC AGCTCTCTTC
    ACCGACATAC CTACTGAACG TGAACGAACA GAAAGGCTAA TTAAAACCAA ATTAAGGGAG
    ATCATGATGC AGAAGGATTT GGAGAATATT ACATCCAAAG AGATAAGAAC AGAGTTGGAA
    ATGCAAATGG TGTGCAACTT GCGGGAATTC AAGGAATTTA TAGACAACGA AATGATAGTG
    ATCCTTGGTC AAATGGATAG CCCTACACAA ATATTTGAGC ATGTGTTCTT GGGCTCAGAA
    TGGAATGCCT CCAACTTAGA GGACTTACAG AACCGAGGGG TACGGTATAT CTTGAATGTC
    ACTCGAGAGA TAGATAACTT CTTCCCAGGA GTCTTTGAGT ATCATAACAT TCGGGTATAT
    GATGAAGAGG CAACGGATCT CCTGGCTTAC TGGAACGACA CTTACAAATT CATCTCTAAA
    GCAAAGAAAC ATGGATCTAA ATGCCTTGTG CACTGCAAAA TGGGGGTTAG TCGCTCAGCC
    TCCACCGTGA TTGCCTATGC AATGAAGGAA TATGGCTGGA ATCTGGACCG AGCCTATGAC
    TACGTGAAAG AAAGACGAAC AGTGACCAAG CCCAACCCCA GCTTCATGAG ACAACTGGAA
    GAGTATCAGG GGATCTTGCT GGCAAGCAAA CAGCGGCATA ACAAACTATG GAGATCTCAT
    TCAGATAGTG ACCTCTCAGA CCACCACGAA CCCATCTGCA AACCTGGGCT AGAACTCAAC
    AAGAAGGAGA TCACCACCTC AGCAGACCAG ATTGCTGAGG TGAAGACCAT GGAGAGTCAC
    CCACCCATAC CTCCTGTCTT TGTGGAACAT GTGGTCCCAC AAGATGCAAA TCAGAAAGGC
    CTATGTACCA AAGAAAGAAT GATCTGCTTG GAGTTTACTT CTACGGAATT TCATGCTGGA
    CAGATTGAGG ATGAATTAAA CTTAAATGAC ATCAATGGAT GCTCATCAGG GTGTTGTCTG
    AATGAATCAA AATTTCCTCT TGACAACTGC CATGCATCCA AAGCCTTAAT TCAGCCTGGA
    CATGTCCCAG AAATGGCCAA CAAGTTTCCA GACTTAACAG TGGAAGATTT GGAGACAGAC
    GCACTGAAAG CAGACATGAA TGTCCACCTA CTGCCTATGG AAGAATTGAC ATCTCGACTG
    AAAGACCTCC CCATGTCCCC TGATCCTGAG TCACCAAGCC CCCAACCCAG TTGCCAGACT
    GAAATCTCAG ATTTCAGTAC AGATCGCATT GACTTTTTTA GTGCCCTAGA GAAGTTTGTG
    GAGCTCTCCC AAGAAACCCG GTCACGATCT TTTTCCCATT CAAGGATGGA GGAACTGGGT
    GGAGGAAGGA GTGAGAGCTG TCGACTGTCA GTGGTAGAAG TAGCCCCTTC CAAAGTGACA
    ACTGATGACC AGAGAAGCAG CTCTTTGAGT AATACTCCCC ATGCATCAGA AGAATCTTCA
    ATGGATGAGG AACATTCAAA GGCAATTTCA GAACTGGTCA GCCCAGACAT CTTCATGCAG
    TCTCACTTGG AAAATGCAAT TTCAGTCAAA GAAATTGTCA CTGAAATTGA GTCCATCAGT
    CAAGGAGTTG GACAGATTCA ACTGAAAGGA GACATCTTAT CCAACCCGTG CCATACACCA
    AAGAAGAACA GCATCCATGA GCTGCTCTTT GAGAGGGCCC AGACCCCAGA GAACAAACCT
    GGACATCTGG AGCAAGACGA GGGCTCCTGC ACAGCCCAGC CTGAACTAGC CAAAGACTCA
    GGGATGTGCA ACCCAGAAGG CTGCCTAACC ACATGCTCAT CTACAGCAGA CTTGGAAGAA
    GGGGAACCAG CTGAGGGGGA ACAAGAGCTC CAGGGCTCAG GGATGCACCC AGGTGCCAAG
    TGGTACCCTG GGTCTGTGAG GCGAGCCACC TTGGAGTTTG AAGAGCGCTT ACGGCAGGAG
    CAAGAGCATC ATGGTGCTGC CTCAACATGT ACCTCATTGT CCACTCGTAA GAATTCAAAG
    AATGATTCTT CTGTGGCAGA CCTGGCACCA AAAGGGAAGA GTGACGAAGC CACCCCAGAA
    CATTCATTTG TCCCCAAGGA ACCAGAGATG AGCAAAGGCA AAGGGAAATA CAGTGGGCCT
    GAGGCTGGCT CACTGTCCCA TTCTGAGCAG AATGCCACTG TTCCAGCTCC CAAGGTGCTG
    GGGTTTGACC ACTTGCCAGC TCCTCAGGAG GGCCCAGGGT CGGATACTGG AACACAGCAG
    GAAGGAGTCC TGAAGGATCT GAGGACTGTG ATTCCATACC AGGAGTCTGA GACACAGGCA
    GTCCCTCTTC CCCTTCCCAA GAGGGTAGAA ATCATTGAGT ATACCCACAC AGTTACATCA
    CCCAATCACG CTGGGCCAGG GAGTGAAATA GCCACTGGCG AGAAGAGCGG AGAGCAAGGA
    CTAAGGAAAG TGAACGTGGA AAAATCTGTC ACTGTGCTCT GCACACTGGA TGAAAATCTA
    AACAGGACTC TGGACCCCAA CCAGGTTTCT CTGCACCCCC AAGTGCTACC TCCGCCTCAT
    TCTTCCTCTC CTGAGCACAA CAGGCCCACT GACCACCCGA CCTCCACGCT GAGTAGCCCT
    GAAGACAGAG GCAGCAGCCT GTCAACAGCC CTGGAGACAG CGGCACCTTT TGTCAGTCAT
    ACAACCCACT TACTGTCTGC CAGTTTGGAT TACCTGCATC CCCAGACTAT GGTTCACCTG
    GAGGGCTTCA TAGAGCAGAG CAGCACCACA GATGAGCCCT CTGCAGAACA GGTTAGCTGG
    GAAGAAAGTC AGGACAGCCC TCTCTCCAGT GGCAGTGAGG TGCCATATAA GGACTCCCAG
    CTGAGTAGCG CAGACCTAAG TTTAATTAAC AAACTTGGTG ACAACACTGG GGAGTTACAG
    GAGAAACTGG ACCCATTGCC TGTAGCCTGT CGACTACCAC ATAGCTCTAG TAGTGAAAAC
    ATAAAGGGTC TCAGCCACAG CCCCGGTGTG GTGAAGGAGC GTGCTAAAGA AATCGAGTCT
    CGAGTGGTTT TCCAGGCAGG GCTCACCAAA CCATCCCAAA TGAGGCGCTC AGCTTCTCTC
    GCCAAATTAG GTTACTTGGA CCTCTGTAAA GACTGCTTAC CAGAGAGGGA GCCTGCCTCC
    TGTGAATCCC CTCATCTCAA ACTGCTTCAG CCTTTCCTCA GAACAGACTC AGGCATGCAT
    GCCATGGAGG ACCAAGAGTC CCTAGAAAAC CCAGGTGCCC CCCACAACCC AGAGCCCACC
    AAGTATTTTG TAGAACAGCT CACAACAACA GAGTGTATTG TGCAGAGCAA GCCAGTGGAG
    AGGCCCCTTG TGCAGTATGC CAAAGAATTT GGTTCCAGTC AGCAGTGTTT GCTTCCCAGG
    GCAGGACCTG AATTGACTAG TTCTGAAGGA GGCCTTCCCA TGCTACAGAC CCAGGGACTG
    CAGTGTGCAT GCCCAGCTCC AGGGCTGGCC GTGGCACCCC GTCAGCAACA CGGCAGAACT
    CACCCCCTTA GGAGACTGAA AAAGGCAAAT GACAAAAAAC GGACAACCAA CCCCTTCTAT
    AATACCATGT GA

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

    RefSeq XP_014974450.1
    CDS229..4500
    Translation

    Target ORF information:

    RefSeq Version XM_015118964.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118964.1

    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
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGGAGGCAG ACAGTGGGGA GGAAGAATGC CGGTCACAGC CCAGGAGCAT CAGCGAGAGC
    TTTCTAACTG TCAAAGGTGC TGCCCTTTTT CTACCACGGG GAAATGGCTC ATCCACACCA
    AGAATCAGCC ACAGACGGAA CAAACATGCA GGCGATCTCC AACAGCATCT CCAAGCAATG
    TTCATATTAC TCCGCCCAGA AGACAACATC AGGCTGGCTG TAAGACTGGA AAGTACTTAC
    CAGAATCGAA CACGCTATAT GGTAGTGGTT TCAACTAATG GTAGACAAGA CACCGAAGAA
    AGCATCGTCC TAGGAATGGA TTTCTCCTCT AATGACAGTA GCACTTGTAC CATGGGCTTA
    GTTTTGCCTC TCTGGAGCGA CACGCTAATT CATTTGGATG GTGATGGTGG GTTCAGTGTA
    TCGACGGATA ACAGAGTTCA CATATTCAAA CCTGTATCTG TGCAGGCAAT GTGGTCTGCA
    CTACAGAGCT TACACAAGGC TTGTGAAGTC GCCAGAGCGC ATAACTACTA CCCAGGCAGC
    CTATTTCTCA CCTGGGTGAG TTATTATGAG AGCCATATCA ACTCAGATCA ATCCTCAGTC
    AATGAATGGA ATGCTATGCA AGATGTCCAG TCCCACCGGC CCGACTCTCC AGCTCTCTTC
    ACCGACATAC CTACTGAACG TGAACGAACA GAAAGGCTAA TTAAAACCAA ATTAAGGGAG
    ATCATGATGC AGAAGGATTT GGAGAATATT ACATCCAAAG AGATAAGAAC AGAGTTGGAA
    ATGCAAATGG TGTGCAACTT GCGGGAATTC AAGGAATTTA TAGACAACGA AATGATAGTG
    ATCCTTGGTC AAATGGATAG CCCTACACAA ATATTTGAGC ATGTGTTCTT GGGCTCAGAA
    TGGAATGCCT CCAACTTAGA GGACTTACAG AACCGAGGGG TACGGTATAT CTTGAATGTC
    ACTCGAGAGA TAGATAACTT CTTCCCAGGA GTCTTTGAGT ATCATAACAT TCGGGTATAT
    GATGAAGAGG CAACGGATCT CCTGGCTTAC TGGAACGACA CTTACAAATT CATCTCTAAA
    GCAAAGAAAC ATGGATCTAA ATGCCTTGTG CACTGCAAAA TGGGGGTTAG TCGCTCAGCC
    TCCACCGTGA TTGCCTATGC AATGAAGGAA TATGGCTGGA ATCTGGACCG AGCCTATGAC
    TACGTGAAAG AAAGACGAAC AGTGACCAAG CCCAACCCCA GCTTCATGAG ACAACTGGAA
    GAGTATCAGG GGATCTTGCT GGCAAGCAAA CAGCGGCATA ACAAACTATG GAGATCTCAT
    TCAGATAGTG ACCTCTCAGA CCACCACGAA CCCATCTGCA AACCTGGGCT AGAACTCAAC
    AAGAAGGAGA TCACCACCTC AGCAGACCAG ATTGCTGAGG TGAAGACCAT GGAGAGTCAC
    CCACCCATAC CTCCTGTCTT TGTGGAACAT GTGGTCCCAC AAGATGCAAA TCAGAAAGGC
    CTATGTACCA AAGAAAGAAT GATCTGCTTG GAGTTTACTT CTACGGAATT TCATGCTGGA
    CAGATTGAGG ATGAATTAAA CTTAAATGAC ATCAATGGAT GCTCATCAGG GTGTTGTCTG
    AATGAATCAA AATTTCCTCT TGACAACTGC CATGCATCCA AAGCCTTAAT TCAGCCTGGA
    CATGTCCCAG AAATGGCCAA CAAGTTTCCA GACTTAACAG TGGAAGATTT GGAGACAGAC
    GCACTGAAAG CAGACATGAA TGTCCACCTA CTGCCTATGG AAGAATTGAC ATCTCGACTG
    AAAGACCTCC CCATGTCCCC TGATCCTGAG TCACCAAGCC CCCAACCCAG TTGCCAGACT
    GAAATCTCAG ATTTCAGTAC AGATCGCATT GACTTTTTTA GTGCCCTAGA GAAGTTTGTG
    GAGCTCTCCC AAGAAACCCG GTCACGATCT TTTTCCCATT CAAGGATGGA GGAACTGGGT
    GGAGGAAGGA GTGAGAGCTG TCGACTGTCA GTGGTAGAAG TAGCCCCTTC CAAAGTGACA
    ACTGATGACC AGAGAAGCAG CTCTTTGAGT AATACTCCCC ATGCATCAGA AGAATCTTCA
    ATGGATGAGG AACATTCAAA GGCAATTTCA GAACTGGTCA GCCCAGACAT CTTCATGCAG
    TCTCACTTGG AAAATGCAAT TTCAGTCAAA GAAATTGTCA CTGAAATTGA GTCCATCAGT
    CAAGGAGTTG GACAGATTCA ACTGAAAGGA GACATCTTAT CCAACCCGTG CCATACACCA
    AAGAAGAACA GCATCCATGA GCTGCTCTTT GAGAGGGCCC AGACCCCAGA GAACAAACCT
    GGACATCTGG AGCAAGACGA GGGCTCCTGC ACAGCCCAGC CTGAACTAGC CAAAGACTCA
    GGGATGTGCA ACCCAGAAGG CTGCCTAACC ACATGCTCAT CTACAGCAGA CTTGGAAGAA
    GGGGAACCAG CTGAGGGGGA ACAAGAGCTC CAGGGCTCAG GGATGCACCC AGGTGCCAAG
    TGGTACCCTG GGTCTGTGAG GCGAGCCACC TTGGAGTTTG AAGAGCGCTT ACGGCAGGAG
    CAAGAGCATC ATGGTGCTGC CTCAACATGT ACCTCATTGT CCACTCGTAA GAATTCAAAG
    AATGATTCTT CTGTGGCAGA CCTGGCACCA AAAGGGAAGA GTGACGAAGC CACCCCAGAA
    CATTCATTTG TCCCCAAGGA ACCAGAGATG AGCAAAGGCA AAGGGAAATA CAGTGGGCCT
    GAGGCTGGCT CACTGTCCCA TTCTGAGCAG AATGCCACTG TTCCAGCTCC CAAGGTGCTG
    GGGTTTGACC ACTTGCCAGC TCCTCAGGAG GGCCCAGGGT CGGATACTGG AACACAGCAG
    GAAGGAGTCC TGAAGGATCT GAGGACTGTG ATTCCATACC AGGAGTCTGA GACACAGGCA
    GTCCCTCTTC CCCTTCCCAA GAGGGTAGAA ATCATTGAGT ATACCCACAC AGTTACATCA
    CCCAATCACG CTGGGCCAGG GAGTGAAATA GCCACTGGCG AGAAGAGCGG AGAGCAAGGA
    CTAAGGAAAG TGAACGTGGA AAAATCTGTC ACTGTGCTCT GCACACTGGA TGAAAATCTA
    AACAGGACTC TGGACCCCAA CCAGGTTTCT CTGCACCCCC AAGTGCTACC TCCGCCTCAT
    TCTTCCTCTC CTGAGCACAA CAGGCCCACT GACCACCCGA CCTCCACGCT GAGTAGCCCT
    GAAGACAGAG GCAGCAGCCT GTCAACAGCC CTGGAGACAG CGGCACCTTT TGTCAGTCAT
    ACAACCCACT TACTGTCTGC CAGTTTGGAT TACCTGCATC CCCAGACTAT GGTTCACCTG
    GAGGGCTTCA TAGAGCAGAG CAGCACCACA GATGAGCCCT CTGCAGAACA GGTTAGCTGG
    GAAGAAAGTC AGGACAGCCC TCTCTCCAGT GGCAGTGAGG TGCCATATAA GGACTCCCAG
    CTGAGTAGCG CAGACCTAAG TTTAATTAAC AAACTTGGTG ACAACACTGG GGAGTTACAG
    GAGAAACTGG ACCCATTGCC TGTAGCCTGT CGACTACCAC ATAGCTCTAG TAGTGAAAAC
    ATAAAGGGTC TCAGCCACAG CCCCGGTGTG GTGAAGGAGC GTGCTAAAGA AATCGAGTCT
    CGAGTGGTTT TCCAGGCAGG GCTCACCAAA CCATCCCAAA TGAGGCGCTC AGCTTCTCTC
    GCCAAATTAG GTTACTTGGA CCTCTGTAAA GACTGCTTAC CAGAGAGGGA GCCTGCCTCC
    TGTGAATCCC CTCATCTCAA ACTGCTTCAG CCTTTCCTCA GAACAGACTC AGGCATGCAT
    GCCATGGAGG ACCAAGAGTC CCTAGAAAAC CCAGGTGCCC CCCACAACCC AGAGCCCACC
    AAGTATTTTG TAGAACAGCT CACAACAACA GAGTGTATTG TGCAGAGCAA GCCAGTGGAG
    AGGCCCCTTG TGCAGTATGC CAAAGAATTT GGTTCCAGTC AGCAGTGTTT GCTTCCCAGG
    GCAGGACCTG AATTGACTAG TTCTGAAGGA GGCCTTCCCA TGCTACAGAC CCAGGGACTG
    CAGTGTGCAT GCCCAGCTCC AGGGCTGGCC GTGGCACCCC GTCAGCAACA CGGCAGAACT
    CACCCCCTTA GGAGACTGAA AAAGGCAAAT GACAAAAAAC GGACAACCAA CCCCTTCTAT
    AATACCATGT GA

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

    CloneID OMb50211
    Clone ID Related Accession (Same CDS sequence) XM_015118965.1
    Accession Version XM_015118965.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 protein phosphatase Slingshot homolog 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTGTCTGG GAAATCAATG CCCTCAGAGA GAGGATTCCA GCATCAGCGA GAGCTTTCTA 
    ACTGTCAAAG GTGCTGCCCT TTTTCTACCA CGGGGAAATG GCTCATCCAC ACCAAGAATC
    AGCCACAGAC GGAACAAACA TGCAGGCGAT CTCCAACAGC ATCTCCAAGC AATGTTCATA
    TTACTCCGCC CAGAAGACAA CATCAGGCTG GCTGTAAGAC TGGAAAGTAC TTACCAGAAT
    CGAACACGCT ATATGGTAGT GGTTTCAACT AATGGTAGAC AAGACACCGA AGAAAGCATC
    GTCCTAGGAA TGGATTTCTC CTCTAATGAC AGTAGCACTT GTACCATGGG CTTAGTTTTG
    CCTCTCTGGA GCGACACGCT AATTCATTTG GATGGTGATG GTGGGTTCAG TGTATCGACG
    GATAACAGAG TTCACATATT CAAACCTGTA TCTGTGCAGG CAATGTGGTC TGCACTACAG
    AGCTTACACA AGGCTTGTGA AGTCGCCAGA GCGCATAACT ACTACCCAGG CAGCCTATTT
    CTCACCTGGG TGAGTTATTA TGAGAGCCAT ATCAACTCAG ATCAATCCTC AGTCAATGAA
    TGGAATGCTA TGCAAGATGT CCAGTCCCAC CGGCCCGACT CTCCAGCTCT CTTCACCGAC
    ATACCTACTG AACGTGAACG AACAGAAAGG CTAATTAAAA CCAAATTAAG GGAGATCATG
    ATGCAGAAGG ATTTGGAGAA TATTACATCC AAAGAGATAA GAACAGAGTT GGAAATGCAA
    ATGGTGTGCA ACTTGCGGGA ATTCAAGGAA TTTATAGACA ACGAAATGAT AGTGATCCTT
    GGTCAAATGG ATAGCCCTAC ACAAATATTT GAGCATGTGT TCTTGGGCTC AGAATGGAAT
    GCCTCCAACT TAGAGGACTT ACAGAACCGA GGGGTACGGT ATATCTTGAA TGTCACTCGA
    GAGATAGATA ACTTCTTCCC AGGAGTCTTT GAGTATCATA ACATTCGGGT ATATGATGAA
    GAGGCAACGG ATCTCCTGGC TTACTGGAAC GACACTTACA AATTCATCTC TAAAGCAAAG
    AAACATGGAT CTAAATGCCT TGTGCACTGC AAAATGGGGG TTAGTCGCTC AGCCTCCACC
    GTGATTGCCT ATGCAATGAA GGAATATGGC TGGAATCTGG ACCGAGCCTA TGACTACGTG
    AAAGAAAGAC GAACAGTGAC CAAGCCCAAC CCCAGCTTCA TGAGACAACT GGAAGAGTAT
    CAGGGGATCT TGCTGGCAAG CAAACAGCGG CATAACAAAC TATGGAGATC TCATTCAGAT
    AGTGACCTCT CAGACCACCA CGAACCCATC TGCAAACCTG GGCTAGAACT CAACAAGAAG
    GAGATCACCA CCTCAGCAGA CCAGATTGCT GAGGTGAAGA CCATGGAGAG TCACCCACCC
    ATACCTCCTG TCTTTGTGGA ACATGTGGTC CCACAAGATG CAAATCAGAA AGGCCTATGT
    ACCAAAGAAA GAATGATCTG CTTGGAGTTT ACTTCTACGG AATTTCATGC TGGACAGATT
    GAGGATGAAT TAAACTTAAA TGACATCAAT GGATGCTCAT CAGGGTGTTG TCTGAATGAA
    TCAAAATTTC CTCTTGACAA CTGCCATGCA TCCAAAGCCT TAATTCAGCC TGGACATGTC
    CCAGAAATGG CCAACAAGTT TCCAGACTTA ACAGTGGAAG ATTTGGAGAC AGACGCACTG
    AAAGCAGACA TGAATGTCCA CCTACTGCCT ATGGAAGAAT TGACATCTCG ACTGAAAGAC
    CTCCCCATGT CCCCTGATCC TGAGTCACCA AGCCCCCAAC CCAGTTGCCA GACTGAAATC
    TCAGATTTCA GTACAGATCG CATTGACTTT TTTAGTGCCC TAGAGAAGTT TGTGGAGCTC
    TCCCAAGAAA CCCGGTCACG ATCTTTTTCC CATTCAAGGA TGGAGGAACT GGGTGGAGGA
    AGGAGTGAGA GCTGTCGACT GTCAGTGGTA GAAGTAGCCC CTTCCAAAGT GACAACTGAT
    GACCAGAGAA GCAGCTCTTT GAGTAATACT CCCCATGCAT CAGAAGAATC TTCAATGGAT
    GAGGAACATT CAAAGGCAAT TTCAGAACTG GTCAGCCCAG ACATCTTCAT GCAGTCTCAC
    TTGGAAAATG CAATTTCAGT CAAAGAAATT GTCACTGAAA TTGAGTCCAT CAGTCAAGGA
    GTTGGACAGA TTCAACTGAA AGGAGACATC TTATCCAACC CGTGCCATAC ACCAAAGAAG
    AACAGCATCC ATGAGCTGCT CTTTGAGAGG GCCCAGACCC CAGAGAACAA ACCTGGACAT
    CTGGAGCAAG ACGAGGGCTC CTGCACAGCC CAGCCTGAAC TAGCCAAAGA CTCAGGGATG
    TGCAACCCAG AAGGCTGCCT AACCACATGC TCATCTACAG CAGACTTGGA AGAAGGGGAA
    CCAGCTGAGG GGGAACAAGA GCTCCAGGGC TCAGGGATGC ACCCAGGTGC CAAGTGGTAC
    CCTGGGTCTG TGAGGCGAGC CACCTTGGAG TTTGAAGAGC GCTTACGGCA GGAGCAAGAG
    CATCATGGTG CTGCCTCAAC ATGTACCTCA TTGTCCACTC GTAAGAATTC AAAGAATGAT
    TCTTCTGTGG CAGACCTGGC ACCAAAAGGG AAGAGTGACG AAGCCACCCC AGAACATTCA
    TTTGTCCCCA AGGAACCAGA GATGAGCAAA GGCAAAGGGA AATACAGTGG GCCTGAGGCT
    GGCTCACTGT CCCATTCTGA GCAGAATGCC ACTGTTCCAG CTCCCAAGGT GCTGGGGTTT
    GACCACTTGC CAGCTCCTCA GGAGGGCCCA GGGTCGGATA CTGGAACACA GCAGGAAGGA
    GTCCTGAAGG ATCTGAGGAC TGTGATTCCA TACCAGGAGT CTGAGACACA GGCAGTCCCT
    CTTCCCCTTC CCAAGAGGGT AGAAATCATT GAGTATACCC ACACAGTTAC ATCACCCAAT
    CACGCTGGGC CAGGGAGTGA AATAGCCACT GGCGAGAAGA GCGGAGAGCA AGGACTAAGG
    AAAGTGAACG TGGAAAAATC TGTCACTGTG CTCTGCACAC TGGATGAAAA TCTAAACAGG
    ACTCTGGACC CCAACCAGGT TTCTCTGCAC CCCCAAGTGC TACCTCCGCC TCATTCTTCC
    TCTCCTGAGC ACAACAGGCC CACTGACCAC CCGACCTCCA CGCTGAGTAG CCCTGAAGAC
    AGAGGCAGCA GCCTGTCAAC AGCCCTGGAG ACAGCGGCAC CTTTTGTCAG TCATACAACC
    CACTTACTGT CTGCCAGTTT GGATTACCTG CATCCCCAGA CTATGGTTCA CCTGGAGGGC
    TTCATAGAGC AGAGCAGCAC CACAGATGAG CCCTCTGCAG AACAGGTTAG CTGGGAAGAA
    AGTCAGGACA GCCCTCTCTC CAGTGGCAGT GAGGTGCCAT ATAAGGACTC CCAGCTGAGT
    AGCGCAGACC TAAGTTTAAT TAACAAACTT GGTGACAACA CTGGGGAGTT ACAGGAGAAA
    CTGGACCCAT TGCCTGTAGC CTGTCGACTA CCACATAGCT CTAGTAGTGA AAACATAAAG
    GGTCTCAGCC ACAGCCCCGG TGTGGTGAAG GAGCGTGCTA AAGAAATCGA GTCTCGAGTG
    GTTTTCCAGG CAGGGCTCAC CAAACCATCC CAAATGAGGC GCTCAGCTTC TCTCGCCAAA
    TTAGGTTACT TGGACCTCTG TAAAGACTGC TTACCAGAGA GGGAGCCTGC CTCCTGTGAA
    TCCCCTCATC TCAAACTGCT TCAGCCTTTC CTCAGAACAG ACTCAGGCAT GCATGCCATG
    GAGGACCAAG AGTCCCTAGA AAACCCAGGT GCCCCCCACA ACCCAGAGCC CACCAAGTAT
    TTTGTAGAAC AGCTCACAAC AACAGAGTGT ATTGTGCAGA GCAAGCCAGT GGAGAGGCCC
    CTTGTGCAGT ATGCCAAAGA ATTTGGTTCC AGTCAGCAGT GTTTGCTTCC CAGGGCAGGA
    CCTGAATTGA CTAGTTCTGA AGGAGGCCTT CCCATGCTAC AGACCCAGGG ACTGCAGTGT
    GCATGCCCAG CTCCAGGGCT GGCCGTGGCA CCCCGTCAGC AACACGGCAG AACTCACCCC
    CTTAGGAGAC TGAAAAAGGC AAATGACAAA AAACGGACAA CCAACCCCTT CTATAATACC
    ATGTGA

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

    RefSeq XP_014974451.1
    CDS1562..5767
    Translation

    Target ORF information:

    RefSeq Version XM_015118965.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118965.1

    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
    ATGTGTCTGG GAAATCAATG CCCTCAGAGA GAGGATTCCA GCATCAGCGA GAGCTTTCTA 
    ACTGTCAAAG GTGCTGCCCT TTTTCTACCA CGGGGAAATG GCTCATCCAC ACCAAGAATC
    AGCCACAGAC GGAACAAACA TGCAGGCGAT CTCCAACAGC ATCTCCAAGC AATGTTCATA
    TTACTCCGCC CAGAAGACAA CATCAGGCTG GCTGTAAGAC TGGAAAGTAC TTACCAGAAT
    CGAACACGCT ATATGGTAGT GGTTTCAACT AATGGTAGAC AAGACACCGA AGAAAGCATC
    GTCCTAGGAA TGGATTTCTC CTCTAATGAC AGTAGCACTT GTACCATGGG CTTAGTTTTG
    CCTCTCTGGA GCGACACGCT AATTCATTTG GATGGTGATG GTGGGTTCAG TGTATCGACG
    GATAACAGAG TTCACATATT CAAACCTGTA TCTGTGCAGG CAATGTGGTC TGCACTACAG
    AGCTTACACA AGGCTTGTGA AGTCGCCAGA GCGCATAACT ACTACCCAGG CAGCCTATTT
    CTCACCTGGG TGAGTTATTA TGAGAGCCAT ATCAACTCAG ATCAATCCTC AGTCAATGAA
    TGGAATGCTA TGCAAGATGT CCAGTCCCAC CGGCCCGACT CTCCAGCTCT CTTCACCGAC
    ATACCTACTG AACGTGAACG AACAGAAAGG CTAATTAAAA CCAAATTAAG GGAGATCATG
    ATGCAGAAGG ATTTGGAGAA TATTACATCC AAAGAGATAA GAACAGAGTT GGAAATGCAA
    ATGGTGTGCA ACTTGCGGGA ATTCAAGGAA TTTATAGACA ACGAAATGAT AGTGATCCTT
    GGTCAAATGG ATAGCCCTAC ACAAATATTT GAGCATGTGT TCTTGGGCTC AGAATGGAAT
    GCCTCCAACT TAGAGGACTT ACAGAACCGA GGGGTACGGT ATATCTTGAA TGTCACTCGA
    GAGATAGATA ACTTCTTCCC AGGAGTCTTT GAGTATCATA ACATTCGGGT ATATGATGAA
    GAGGCAACGG ATCTCCTGGC TTACTGGAAC GACACTTACA AATTCATCTC TAAAGCAAAG
    AAACATGGAT CTAAATGCCT TGTGCACTGC AAAATGGGGG TTAGTCGCTC AGCCTCCACC
    GTGATTGCCT ATGCAATGAA GGAATATGGC TGGAATCTGG ACCGAGCCTA TGACTACGTG
    AAAGAAAGAC GAACAGTGAC CAAGCCCAAC CCCAGCTTCA TGAGACAACT GGAAGAGTAT
    CAGGGGATCT TGCTGGCAAG CAAACAGCGG CATAACAAAC TATGGAGATC TCATTCAGAT
    AGTGACCTCT CAGACCACCA CGAACCCATC TGCAAACCTG GGCTAGAACT CAACAAGAAG
    GAGATCACCA CCTCAGCAGA CCAGATTGCT GAGGTGAAGA CCATGGAGAG TCACCCACCC
    ATACCTCCTG TCTTTGTGGA ACATGTGGTC CCACAAGATG CAAATCAGAA AGGCCTATGT
    ACCAAAGAAA GAATGATCTG CTTGGAGTTT ACTTCTACGG AATTTCATGC TGGACAGATT
    GAGGATGAAT TAAACTTAAA TGACATCAAT GGATGCTCAT CAGGGTGTTG TCTGAATGAA
    TCAAAATTTC CTCTTGACAA CTGCCATGCA TCCAAAGCCT TAATTCAGCC TGGACATGTC
    CCAGAAATGG CCAACAAGTT TCCAGACTTA ACAGTGGAAG ATTTGGAGAC AGACGCACTG
    AAAGCAGACA TGAATGTCCA CCTACTGCCT ATGGAAGAAT TGACATCTCG ACTGAAAGAC
    CTCCCCATGT CCCCTGATCC TGAGTCACCA AGCCCCCAAC CCAGTTGCCA GACTGAAATC
    TCAGATTTCA GTACAGATCG CATTGACTTT TTTAGTGCCC TAGAGAAGTT TGTGGAGCTC
    TCCCAAGAAA CCCGGTCACG ATCTTTTTCC CATTCAAGGA TGGAGGAACT GGGTGGAGGA
    AGGAGTGAGA GCTGTCGACT GTCAGTGGTA GAAGTAGCCC CTTCCAAAGT GACAACTGAT
    GACCAGAGAA GCAGCTCTTT GAGTAATACT CCCCATGCAT CAGAAGAATC TTCAATGGAT
    GAGGAACATT CAAAGGCAAT TTCAGAACTG GTCAGCCCAG ACATCTTCAT GCAGTCTCAC
    TTGGAAAATG CAATTTCAGT CAAAGAAATT GTCACTGAAA TTGAGTCCAT CAGTCAAGGA
    GTTGGACAGA TTCAACTGAA AGGAGACATC TTATCCAACC CGTGCCATAC ACCAAAGAAG
    AACAGCATCC ATGAGCTGCT CTTTGAGAGG GCCCAGACCC CAGAGAACAA ACCTGGACAT
    CTGGAGCAAG ACGAGGGCTC CTGCACAGCC CAGCCTGAAC TAGCCAAAGA CTCAGGGATG
    TGCAACCCAG AAGGCTGCCT AACCACATGC TCATCTACAG CAGACTTGGA AGAAGGGGAA
    CCAGCTGAGG GGGAACAAGA GCTCCAGGGC TCAGGGATGC ACCCAGGTGC CAAGTGGTAC
    CCTGGGTCTG TGAGGCGAGC CACCTTGGAG TTTGAAGAGC GCTTACGGCA GGAGCAAGAG
    CATCATGGTG CTGCCTCAAC ATGTACCTCA TTGTCCACTC GTAAGAATTC AAAGAATGAT
    TCTTCTGTGG CAGACCTGGC ACCAAAAGGG AAGAGTGACG AAGCCACCCC AGAACATTCA
    TTTGTCCCCA AGGAACCAGA GATGAGCAAA GGCAAAGGGA AATACAGTGG GCCTGAGGCT
    GGCTCACTGT CCCATTCTGA GCAGAATGCC ACTGTTCCAG CTCCCAAGGT GCTGGGGTTT
    GACCACTTGC CAGCTCCTCA GGAGGGCCCA GGGTCGGATA CTGGAACACA GCAGGAAGGA
    GTCCTGAAGG ATCTGAGGAC TGTGATTCCA TACCAGGAGT CTGAGACACA GGCAGTCCCT
    CTTCCCCTTC CCAAGAGGGT AGAAATCATT GAGTATACCC ACACAGTTAC ATCACCCAAT
    CACGCTGGGC CAGGGAGTGA AATAGCCACT GGCGAGAAGA GCGGAGAGCA AGGACTAAGG
    AAAGTGAACG TGGAAAAATC TGTCACTGTG CTCTGCACAC TGGATGAAAA TCTAAACAGG
    ACTCTGGACC CCAACCAGGT TTCTCTGCAC CCCCAAGTGC TACCTCCGCC TCATTCTTCC
    TCTCCTGAGC ACAACAGGCC CACTGACCAC CCGACCTCCA CGCTGAGTAG CCCTGAAGAC
    AGAGGCAGCA GCCTGTCAAC AGCCCTGGAG ACAGCGGCAC CTTTTGTCAG TCATACAACC
    CACTTACTGT CTGCCAGTTT GGATTACCTG CATCCCCAGA CTATGGTTCA CCTGGAGGGC
    TTCATAGAGC AGAGCAGCAC CACAGATGAG CCCTCTGCAG AACAGGTTAG CTGGGAAGAA
    AGTCAGGACA GCCCTCTCTC CAGTGGCAGT GAGGTGCCAT ATAAGGACTC CCAGCTGAGT
    AGCGCAGACC TAAGTTTAAT TAACAAACTT GGTGACAACA CTGGGGAGTT ACAGGAGAAA
    CTGGACCCAT TGCCTGTAGC CTGTCGACTA CCACATAGCT CTAGTAGTGA AAACATAAAG
    GGTCTCAGCC ACAGCCCCGG TGTGGTGAAG GAGCGTGCTA AAGAAATCGA GTCTCGAGTG
    GTTTTCCAGG CAGGGCTCAC CAAACCATCC CAAATGAGGC GCTCAGCTTC TCTCGCCAAA
    TTAGGTTACT TGGACCTCTG TAAAGACTGC TTACCAGAGA GGGAGCCTGC CTCCTGTGAA
    TCCCCTCATC TCAAACTGCT TCAGCCTTTC CTCAGAACAG ACTCAGGCAT GCATGCCATG
    GAGGACCAAG AGTCCCTAGA AAACCCAGGT GCCCCCCACA ACCCAGAGCC CACCAAGTAT
    TTTGTAGAAC AGCTCACAAC AACAGAGTGT ATTGTGCAGA GCAAGCCAGT GGAGAGGCCC
    CTTGTGCAGT ATGCCAAAGA ATTTGGTTCC AGTCAGCAGT GTTTGCTTCC CAGGGCAGGA
    CCTGAATTGA CTAGTTCTGA AGGAGGCCTT CCCATGCTAC AGACCCAGGG ACTGCAGTGT
    GCATGCCCAG CTCCAGGGCT GGCCGTGGCA CCCCGTCAGC AACACGGCAG AACTCACCCC
    CTTAGGAGAC TGAAAAAGGC AAATGACAAA AAACGGACAA CCAACCCCTT CTATAATACC
    ATGTGA

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

    CloneID OMb50212
    Clone ID Related Accession (Same CDS sequence) XM_015118966.1 , XM_015118968.1 , XM_015118967.1
    Accession Version XM_015118966.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3987bp)
    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 protein phosphatase Slingshot homolog 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAT TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    ACTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    RefSeq XP_014974452.1
    CDS392..4378
    Translation

    Target ORF information:

    RefSeq Version XM_015118966.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118966.1

    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
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAT TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    ACTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    CloneID OMb50212
    Clone ID Related Accession (Same CDS sequence) XM_015118966.1 , XM_015118968.1 , XM_015118967.1
    Accession Version XM_015118968.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3987bp)
    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 protein phosphatase Slingshot homolog 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAT TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    ACTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    RefSeq XP_014974454.1
    CDS1659..5645
    Translation

    Target ORF information:

    RefSeq Version XM_015118968.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118968.1

    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
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAT TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    ACTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    CloneID OMb50212
    Clone ID Related Accession (Same CDS sequence) XM_015118966.1 , XM_015118968.1 , XM_015118967.1
    Accession Version XM_015118967.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3987bp)
    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 protein phosphatase Slingshot homolog 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAT TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    ACTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    RefSeq XP_014974453.1
    CDS234..4220
    Translation

    Target ORF information:

    RefSeq Version XM_015118967.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118967.1

    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
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAT TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    ACTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    CloneID OMb72882
    Clone ID Related Accession (Same CDS sequence) XM_015118963.2
    Accession Version XM_015118963.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    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 protein phosphatase Slingshot homolog 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015118963.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGAGCTCTC ATTTGGAAGA CAGTGAATCA GCAGCATTAC TTTGCTGTGA ATGTGAAGAA
    TCAGAAATCT TTAGTGATTC CAATGAGGCA GACAGTGGGG AGGAAGAATG CCGGTCACAG
    CCCAGGAGCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACAGTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATGCTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    RefSeq XP_014974449.2
    CDS226..4578
    Translation

    Target ORF information:

    RefSeq Version XM_015118963.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118963.2

    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
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGAGCTCTC ATTTGGAAGA CAGTGAATCA GCAGCATTAC TTTGCTGTGA ATGTGAAGAA
    TCAGAAATCT TTAGTGATTC CAATGAGGCA GACAGTGGGG AGGAAGAATG CCGGTCACAG
    CCCAGGAGCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACAGTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATGCTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    CloneID OMb72883
    Clone ID Related Accession (Same CDS sequence) XM_028836169.1
    Accession Version XM_028836169.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4350bp)
    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 protein phosphatase Slingshot homolog 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) 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 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGAGCTCTC ATTTGGAAGA CAGTGAATCA GCAGCATTAC TTTGCTGTGA ATGTGAAGAA
    TCAGAAATCT TTAGTGATTC CAATGAGGCA GACAGTGGGG AGGAAGAATG CCGGTCACAG
    CCCAGGAGCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGC
    ACTTGTACCA TGGGCTTAGT TTTGCCTCTC TGGAGCGACA CGCTAATTCA TTTGGATGGT
    GATGGTGGGT TCAGTGTATC GACGGATAAC AGAGTTCACA TATTCAAACC TGTATCTGTG
    CAGGCAATGT GGTCTGCACT ACAGAGCTTA CACAAGGCTT GTGAAGTCGC CAGAGCGCAT
    AACTACTACC CAGGCAGCCT ATTTCTCACC TGGGTGAGTT ATTATGAGAG CCATATCAAC
    TCAGATCAAT CCTCAGTCAA TGAATGGAAT GCTATGCAAG ATGTCCAGTC CCACCGGCCC
    GACTCTCCAG CTCTCTTCAC CGACATACCT ACTGAACGTG AACGAACAGA AAGGCTAATT
    AAAACCAAAT TAAGGGAGAT CATGATGCAG AAGGATTTGG AGAATATTAC ATCCAAAGAG
    ATAAGAACAG AGTTGGAAAT GCAAATGGTG TGCAACTTGC GGGAATTCAA GGAATTTATA
    GACAACGAAA TGATAGTGAT CCTTGGTCAA ATGGATAGCC CTACACAAAT ATTTGAGCAT
    GTGTTCTTGG GCTCAGAATG GAATGCCTCC AACTTAGAGG ACTTACAGAA CCGAGGGGTA
    CGGTATATCT TGAATGTCAC TCGAGAGATA GATAACTTCT TCCCAGGAGT CTTTGAGTAT
    CATAACATTC GGGTATATGA TGAAGAGGCA ACGGATCTCC TGGCTTACTG GAACGACACT
    TACAAATTCA TCTCTAAAGC AAAGAAACAT GGATCTAAAT GCCTTGTGCA CTGCAAAATG
    GGGGTTAGTC GCTCAGCCTC CACCGTGATT GCCTATGCAA TGAAGGAATA TGGCTGGAAT
    CTGGACCGAG CCTATGACTA CGTGAAAGAA AGACGAACAG TGACCAAGCC CAACCCCAGC
    TTCATGAGAC AACTGGAAGA GTATCAGGGG ATCTTGCTGG CAAGCAAACA GCGGCATAAC
    AAACTATGGA GATCTCATTC AGATAGTGAC CTCTCAGACC ACCACGAACC CATCTGCAAA
    CCTGGGCTAG AACTCAACAA GAAGGAGATC ACCACCTCAG CAGACCAGAT TGCTGAGGTG
    AAGACCATGG AGAGTCACCC ACCCATACCT CCTGTCTTTG TGGAACATGT GGTCCCACAA
    GATGCAAATC AGAAAGGCCT ATGTACCAAA GAAAGAATGA TCTGCTTGGA GTTTACTTCT
    ACGGAATTTC ATGCTGGACA GATTGAGGAT GAATTAAACT TAAATGACAT CAATGGATGC
    TCATCAGGGT GTTGTCTGAA TGAATCAAAA TTTCCTCTTG ACAACTGCCA TGCATCCAAA
    GCCTTAATTC AGCCTGGACA TGTCCCAGAA ATGGCCAACA AGTTTCCAGA CTTAACAGTG
    GAAGATTTGG AGACAGACGC ACTGAAAGCA GACATGAATG TCCACCTACT GCCTATGGAA
    GAATTGACAT CTCGACTGAA AGACCTCCCC ATGTCCCCTG ATCCTGAGTC ACCAAGCCCC
    CAACCCAGTT GCCAGACTGA AATCTCAGAT TTCAGTACAG ATCGCATTGA CTTTTTTAGT
    GCCCTAGAGA AGTTTGTGGA GCTCTCCCAA GAAACCCGGT CACGATCTTT TTCCCATTCA
    AGGATGGAGG AACTGGGTGG AGGAAGGAGT GAGAGCTGTC GACTGTCAGT GGTAGAAGTA
    GCCCCTTCCA AAGTGACAAC TGATGACCAG AGAAGCAGCT CTTTGAGTAA TACTCCCCAT
    GCATCAGAAG AATCTTCAAT GGATGAGGAA CAGTCAAAGG CAATTTCAGA ACTGGTCAGC
    CCAGACATCT TCATGCAGTC TCACTTGGAA AATGCAATTT CAGTCAAAGA AATTGTCACT
    GAAATTGAGT CCATCAGTCA AGGAGTTGGA CAGATTCAAC TGAAAGGAGA CATCTTATCC
    AACCCGTGCC ATACACCAAA GAAGAACAGC ATCCATGAGC TGCTCTTTGA GAGGGCCCAG
    ACCCCAGAGA ACAAACCTGG ACATCTGGAG CAAGACGAGG GCTCCTGCAC AGCCCAGCCT
    GAACTAGCCA AAGACTCAGG GATGTGCAAC CCAGAAGGCT GCCTAACCAC ATGCTCATCT
    ACAGCAGACT TGGAAGAAGG GGAACCAGCT GAGGGGGAAC AAGAGCTCCA GGGCTCAGGG
    ATGCACCCAG GTGCCAAGTG GTACCCTGGG TCTGTGAGGC GAGCCACCTT GGAGTTTGAA
    GAGCGCTTAC GGCAGGAGCA AGAGCATCAT GGTGCTGCCT CAACATGTAC CTCATTGTCC
    ACTCGTAAGA ATTCAAAGAA TGATTCTTCT GTGGCAGACC TGGCACCAAA AGGGAAGAGT
    GACGAAGCCA CCCCAGAACA TTCATTTGTC CCCAAGGAAC CAGAGATGAG CAAAGGCAAA
    GGGAAATACA GTGGGCCTGA GGCTGGCTCA CTGTCCCATT CTGAGCAGAA TGCCACTGTT
    CCAGCTCCCA AGGTGCTGGG GTTTGACCAC TTGCCAGCTC CTCAGGAGGG CCCAGGGTCG
    GATGCTGGAA CACAGCAGGA AGGAGTCCTG AAGGATCTGA GGACTGTGAT TCCATACCAG
    GAGTCTGAGA CACAGGCAGT CCCTCTTCCC CTTCCCAAGA GGGTAGAAAT CATTGAGTAT
    ACCCACACAG TTACATCACC CAATCACGCT GGGCCAGGGA GTGAAATAGC CACTGGCGAG
    AAGAGCGGAG AGCAAGGACT AAGGAAAGTG AACGTGGAAA AATCTGTCAC TGTGCTCTGC
    ACACTGGATG AAAATCTAAA CAGGACTCTG GACCCCAACC AGGTTTCTCT GCACCCCCAA
    GTGCTACCTC CGCCTCATTC TTCCTCTCCT GAGCACAACA GGCCCACTGA CCACCCGACC
    TCCACGCTGA GTAGCCCTGA AGACAGAGGC AGCAGCCTGT CAACAGCCCT GGAGACAGCG
    GCACCTTTTG TCAGTCATAC AACCCACTTA CTGTCTGCCA GTTTGGATTA CCTGCATCCC
    CAGACTATGG TTCACCTGGA GGGCTTCATA GAGCAGAGCA GCACCACAGA TGAGCCCTCT
    GCAGAACAGG TTAGCTGGGA AGAAAGTCAG GACAGCCCTC TCTCCAGTGG CAGTGAGGTG
    CCATATAAGG ACTCCCAGCT GAGTAGCGCA GACCTAAGTT TAATTAACAA ACTTGGTGAC
    AACACTGGGG AGTTACAGGA GAAACTGGAC CCATTGCCTG TAGCCTGTCG ACTACCACAT
    AGCTCTAGTA GTGAAAACAT AAAGGGTCTC AGCCACAGCC CCGGTGTGGT GAAGGAGCGT
    GCTAAAGAAA TCGAGTCTCG AGTGGTTTTC CAGGCAGGGC TCACCAAACC ATCCCAAATG
    AGGCGCTCAG CTTCTCTCGC CAAATTAGGT TACTTGGACC TCTGTAAAGA CTGCTTACCA
    GAGAGGGAGC CTGCCTCCTG TGAATCCCCT CATCTCAAAC TGCTTCAGCC TTTCCTCAGA
    ACAGACTCAG GCATGCATGC CATGGAGGAC CAAGAGTCCC TAGAAAACCC AGGTGCCCCC
    CACAACCCAG AGCCCACCAA GTATTTTGTA GAACAGCTCA CAACAACAGA GTGTATTGTG
    CAGAGCAAGC CAGTGGAGAG GCCCCTTGTG CAGTATGCCA AAGAATTTGG TTCCAGTCAG
    CAGTGTTTGC TTCCCAGGGC AGGACCTGAA TTGACTAGTT CTGAAGGAGG CCTTCCCATG
    CTACAGACCC AGGGACTGCA GTGTGCATGC CCAGCTCCAG GGCTGGCCGT GGCACCCCGT
    CAGCAACACG GCAGAACTCA CCCCCTTAGG AGACTGAAAA AGGCAAATGA CAAAAAACGG
    ACAACCAACC CCTTCTATAA TACCATGTGA

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

    RefSeq XP_028692002.1
    CDS226..4575
    Translation

    Target ORF information:

    RefSeq Version XM_028836169.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836169.1

    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
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGAGCTCTC ATTTGGAAGA CAGTGAATCA GCAGCATTAC TTTGCTGTGA ATGTGAAGAA
    TCAGAAATCT TTAGTGATTC CAATGAGGCA GACAGTGGGG AGGAAGAATG CCGGTCACAG
    CCCAGGAGCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGC
    ACTTGTACCA TGGGCTTAGT TTTGCCTCTC TGGAGCGACA CGCTAATTCA TTTGGATGGT
    GATGGTGGGT TCAGTGTATC GACGGATAAC AGAGTTCACA TATTCAAACC TGTATCTGTG
    CAGGCAATGT GGTCTGCACT ACAGAGCTTA CACAAGGCTT GTGAAGTCGC CAGAGCGCAT
    AACTACTACC CAGGCAGCCT ATTTCTCACC TGGGTGAGTT ATTATGAGAG CCATATCAAC
    TCAGATCAAT CCTCAGTCAA TGAATGGAAT GCTATGCAAG ATGTCCAGTC CCACCGGCCC
    GACTCTCCAG CTCTCTTCAC CGACATACCT ACTGAACGTG AACGAACAGA AAGGCTAATT
    AAAACCAAAT TAAGGGAGAT CATGATGCAG AAGGATTTGG AGAATATTAC ATCCAAAGAG
    ATAAGAACAG AGTTGGAAAT GCAAATGGTG TGCAACTTGC GGGAATTCAA GGAATTTATA
    GACAACGAAA TGATAGTGAT CCTTGGTCAA ATGGATAGCC CTACACAAAT ATTTGAGCAT
    GTGTTCTTGG GCTCAGAATG GAATGCCTCC AACTTAGAGG ACTTACAGAA CCGAGGGGTA
    CGGTATATCT TGAATGTCAC TCGAGAGATA GATAACTTCT TCCCAGGAGT CTTTGAGTAT
    CATAACATTC GGGTATATGA TGAAGAGGCA ACGGATCTCC TGGCTTACTG GAACGACACT
    TACAAATTCA TCTCTAAAGC AAAGAAACAT GGATCTAAAT GCCTTGTGCA CTGCAAAATG
    GGGGTTAGTC GCTCAGCCTC CACCGTGATT GCCTATGCAA TGAAGGAATA TGGCTGGAAT
    CTGGACCGAG CCTATGACTA CGTGAAAGAA AGACGAACAG TGACCAAGCC CAACCCCAGC
    TTCATGAGAC AACTGGAAGA GTATCAGGGG ATCTTGCTGG CAAGCAAACA GCGGCATAAC
    AAACTATGGA GATCTCATTC AGATAGTGAC CTCTCAGACC ACCACGAACC CATCTGCAAA
    CCTGGGCTAG AACTCAACAA GAAGGAGATC ACCACCTCAG CAGACCAGAT TGCTGAGGTG
    AAGACCATGG AGAGTCACCC ACCCATACCT CCTGTCTTTG TGGAACATGT GGTCCCACAA
    GATGCAAATC AGAAAGGCCT ATGTACCAAA GAAAGAATGA TCTGCTTGGA GTTTACTTCT
    ACGGAATTTC ATGCTGGACA GATTGAGGAT GAATTAAACT TAAATGACAT CAATGGATGC
    TCATCAGGGT GTTGTCTGAA TGAATCAAAA TTTCCTCTTG ACAACTGCCA TGCATCCAAA
    GCCTTAATTC AGCCTGGACA TGTCCCAGAA ATGGCCAACA AGTTTCCAGA CTTAACAGTG
    GAAGATTTGG AGACAGACGC ACTGAAAGCA GACATGAATG TCCACCTACT GCCTATGGAA
    GAATTGACAT CTCGACTGAA AGACCTCCCC ATGTCCCCTG ATCCTGAGTC ACCAAGCCCC
    CAACCCAGTT GCCAGACTGA AATCTCAGAT TTCAGTACAG ATCGCATTGA CTTTTTTAGT
    GCCCTAGAGA AGTTTGTGGA GCTCTCCCAA GAAACCCGGT CACGATCTTT TTCCCATTCA
    AGGATGGAGG AACTGGGTGG AGGAAGGAGT GAGAGCTGTC GACTGTCAGT GGTAGAAGTA
    GCCCCTTCCA AAGTGACAAC TGATGACCAG AGAAGCAGCT CTTTGAGTAA TACTCCCCAT
    GCATCAGAAG AATCTTCAAT GGATGAGGAA CAGTCAAAGG CAATTTCAGA ACTGGTCAGC
    CCAGACATCT TCATGCAGTC TCACTTGGAA AATGCAATTT CAGTCAAAGA AATTGTCACT
    GAAATTGAGT CCATCAGTCA AGGAGTTGGA CAGATTCAAC TGAAAGGAGA CATCTTATCC
    AACCCGTGCC ATACACCAAA GAAGAACAGC ATCCATGAGC TGCTCTTTGA GAGGGCCCAG
    ACCCCAGAGA ACAAACCTGG ACATCTGGAG CAAGACGAGG GCTCCTGCAC AGCCCAGCCT
    GAACTAGCCA AAGACTCAGG GATGTGCAAC CCAGAAGGCT GCCTAACCAC ATGCTCATCT
    ACAGCAGACT TGGAAGAAGG GGAACCAGCT GAGGGGGAAC AAGAGCTCCA GGGCTCAGGG
    ATGCACCCAG GTGCCAAGTG GTACCCTGGG TCTGTGAGGC GAGCCACCTT GGAGTTTGAA
    GAGCGCTTAC GGCAGGAGCA AGAGCATCAT GGTGCTGCCT CAACATGTAC CTCATTGTCC
    ACTCGTAAGA ATTCAAAGAA TGATTCTTCT GTGGCAGACC TGGCACCAAA AGGGAAGAGT
    GACGAAGCCA CCCCAGAACA TTCATTTGTC CCCAAGGAAC CAGAGATGAG CAAAGGCAAA
    GGGAAATACA GTGGGCCTGA GGCTGGCTCA CTGTCCCATT CTGAGCAGAA TGCCACTGTT
    CCAGCTCCCA AGGTGCTGGG GTTTGACCAC TTGCCAGCTC CTCAGGAGGG CCCAGGGTCG
    GATGCTGGAA CACAGCAGGA AGGAGTCCTG AAGGATCTGA GGACTGTGAT TCCATACCAG
    GAGTCTGAGA CACAGGCAGT CCCTCTTCCC CTTCCCAAGA GGGTAGAAAT CATTGAGTAT
    ACCCACACAG TTACATCACC CAATCACGCT GGGCCAGGGA GTGAAATAGC CACTGGCGAG
    AAGAGCGGAG AGCAAGGACT AAGGAAAGTG AACGTGGAAA AATCTGTCAC TGTGCTCTGC
    ACACTGGATG AAAATCTAAA CAGGACTCTG GACCCCAACC AGGTTTCTCT GCACCCCCAA
    GTGCTACCTC CGCCTCATTC TTCCTCTCCT GAGCACAACA GGCCCACTGA CCACCCGACC
    TCCACGCTGA GTAGCCCTGA AGACAGAGGC AGCAGCCTGT CAACAGCCCT GGAGACAGCG
    GCACCTTTTG TCAGTCATAC AACCCACTTA CTGTCTGCCA GTTTGGATTA CCTGCATCCC
    CAGACTATGG TTCACCTGGA GGGCTTCATA GAGCAGAGCA GCACCACAGA TGAGCCCTCT
    GCAGAACAGG TTAGCTGGGA AGAAAGTCAG GACAGCCCTC TCTCCAGTGG CAGTGAGGTG
    CCATATAAGG ACTCCCAGCT GAGTAGCGCA GACCTAAGTT TAATTAACAA ACTTGGTGAC
    AACACTGGGG AGTTACAGGA GAAACTGGAC CCATTGCCTG TAGCCTGTCG ACTACCACAT
    AGCTCTAGTA GTGAAAACAT AAAGGGTCTC AGCCACAGCC CCGGTGTGGT GAAGGAGCGT
    GCTAAAGAAA TCGAGTCTCG AGTGGTTTTC CAGGCAGGGC TCACCAAACC ATCCCAAATG
    AGGCGCTCAG CTTCTCTCGC CAAATTAGGT TACTTGGACC TCTGTAAAGA CTGCTTACCA
    GAGAGGGAGC CTGCCTCCTG TGAATCCCCT CATCTCAAAC TGCTTCAGCC TTTCCTCAGA
    ACAGACTCAG GCATGCATGC CATGGAGGAC CAAGAGTCCC TAGAAAACCC AGGTGCCCCC
    CACAACCCAG AGCCCACCAA GTATTTTGTA GAACAGCTCA CAACAACAGA GTGTATTGTG
    CAGAGCAAGC CAGTGGAGAG GCCCCTTGTG CAGTATGCCA AAGAATTTGG TTCCAGTCAG
    CAGTGTTTGC TTCCCAGGGC AGGACCTGAA TTGACTAGTT CTGAAGGAGG CCTTCCCATG
    CTACAGACCC AGGGACTGCA GTGTGCATGC CCAGCTCCAG GGCTGGCCGT GGCACCCCGT
    CAGCAACACG GCAGAACTCA CCCCCTTAGG AGACTGAAAA AGGCAAATGA CAAAAAACGG
    ACAACCAACC CCTTCTATAA TACCATGTGA

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

    CloneID OMb72884
    Clone ID Related Accession (Same CDS sequence) XM_001111434.2
    Accession Version XM_001111434.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 protein phosphatase Slingshot homolog 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001111434.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACAGTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATGCTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    RefSeq XP_001111434.2
    CDS150..4442
    Translation

    Target ORF information:

    RefSeq Version XM_001111434.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001111434.2

    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
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACAGTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATGCTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    CloneID OMb72885
    Clone ID Related Accession (Same CDS sequence) XM_015118964.2
    Accession Version XM_015118964.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4272bp)
    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 protein phosphatase Slingshot homolog 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015118964.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGGAGGCAG ACAGTGGGGA GGAAGAATGC CGGTCACAGC CCAGGAGCAT CAGCGAGAGC
    TTTCTAACTG TCAAAGGTGC TGCCCTTTTT CTACCACGGG GAAATGGCTC ATCCACACCA
    AGAATCAGCC ACAGACGGAA CAAACATGCA GGCGATCTCC AACAGCATCT CCAAGCAATG
    TTCATATTAC TCCGCCCAGA AGACAACATC AGGCTGGCTG TAAGACTGGA AAGTACTTAC
    CAGAATCGAA CACGCTATAT GGTAGTGGTT TCAACTAATG GTAGACAAGA CACCGAAGAA
    AGCATCGTCC TAGGAATGGA TTTCTCCTCT AATGACAGTA GCACTTGTAC CATGGGCTTA
    GTTTTGCCTC TCTGGAGCGA CACGCTAATT CATTTGGATG GTGATGGTGG GTTCAGTGTA
    TCGACGGATA ACAGAGTTCA CATATTCAAA CCTGTATCTG TGCAGGCAAT GTGGTCTGCA
    CTACAGAGCT TACACAAGGC TTGTGAAGTC GCCAGAGCGC ATAACTACTA CCCAGGCAGC
    CTATTTCTCA CCTGGGTGAG TTATTATGAG AGCCATATCA ACTCAGATCA ATCCTCAGTC
    AATGAATGGA ATGCTATGCA AGATGTCCAG TCCCACCGGC CCGACTCTCC AGCTCTCTTC
    ACCGACATAC CTACTGAACG TGAACGAACA GAAAGGCTAA TTAAAACCAA ATTAAGGGAG
    ATCATGATGC AGAAGGATTT GGAGAATATT ACATCCAAAG AGATAAGAAC AGAGTTGGAA
    ATGCAAATGG TGTGCAACTT GCGGGAATTC AAGGAATTTA TAGACAACGA AATGATAGTG
    ATCCTTGGTC AAATGGATAG CCCTACACAA ATATTTGAGC ATGTGTTCTT GGGCTCAGAA
    TGGAATGCCT CCAACTTAGA GGACTTACAG AACCGAGGGG TACGGTATAT CTTGAATGTC
    ACTCGAGAGA TAGATAACTT CTTCCCAGGA GTCTTTGAGT ATCATAACAT TCGGGTATAT
    GATGAAGAGG CAACGGATCT CCTGGCTTAC TGGAACGACA CTTACAAATT CATCTCTAAA
    GCAAAGAAAC ATGGATCTAA ATGCCTTGTG CACTGCAAAA TGGGGGTTAG TCGCTCAGCC
    TCCACCGTGA TTGCCTATGC AATGAAGGAA TATGGCTGGA ATCTGGACCG AGCCTATGAC
    TACGTGAAAG AAAGACGAAC AGTGACCAAG CCCAACCCCA GCTTCATGAG ACAACTGGAA
    GAGTATCAGG GGATCTTGCT GGCAAGCAAA CAGCGGCATA ACAAACTATG GAGATCTCAT
    TCAGATAGTG ACCTCTCAGA CCACCACGAA CCCATCTGCA AACCTGGGCT AGAACTCAAC
    AAGAAGGAGA TCACCACCTC AGCAGACCAG ATTGCTGAGG TGAAGACCAT GGAGAGTCAC
    CCACCCATAC CTCCTGTCTT TGTGGAACAT GTGGTCCCAC AAGATGCAAA TCAGAAAGGC
    CTATGTACCA AAGAAAGAAT GATCTGCTTG GAGTTTACTT CTACGGAATT TCATGCTGGA
    CAGATTGAGG ATGAATTAAA CTTAAATGAC ATCAATGGAT GCTCATCAGG GTGTTGTCTG
    AATGAATCAA AATTTCCTCT TGACAACTGC CATGCATCCA AAGCCTTAAT TCAGCCTGGA
    CATGTCCCAG AAATGGCCAA CAAGTTTCCA GACTTAACAG TGGAAGATTT GGAGACAGAC
    GCACTGAAAG CAGACATGAA TGTCCACCTA CTGCCTATGG AAGAATTGAC ATCTCGACTG
    AAAGACCTCC CCATGTCCCC TGATCCTGAG TCACCAAGCC CCCAACCCAG TTGCCAGACT
    GAAATCTCAG ATTTCAGTAC AGATCGCATT GACTTTTTTA GTGCCCTAGA GAAGTTTGTG
    GAGCTCTCCC AAGAAACCCG GTCACGATCT TTTTCCCATT CAAGGATGGA GGAACTGGGT
    GGAGGAAGGA GTGAGAGCTG TCGACTGTCA GTGGTAGAAG TAGCCCCTTC CAAAGTGACA
    ACTGATGACC AGAGAAGCAG CTCTTTGAGT AATACTCCCC ATGCATCAGA AGAATCTTCA
    ATGGATGAGG AACAGTCAAA GGCAATTTCA GAACTGGTCA GCCCAGACAT CTTCATGCAG
    TCTCACTTGG AAAATGCAAT TTCAGTCAAA GAAATTGTCA CTGAAATTGA GTCCATCAGT
    CAAGGAGTTG GACAGATTCA ACTGAAAGGA GACATCTTAT CCAACCCGTG CCATACACCA
    AAGAAGAACA GCATCCATGA GCTGCTCTTT GAGAGGGCCC AGACCCCAGA GAACAAACCT
    GGACATCTGG AGCAAGACGA GGGCTCCTGC ACAGCCCAGC CTGAACTAGC CAAAGACTCA
    GGGATGTGCA ACCCAGAAGG CTGCCTAACC ACATGCTCAT CTACAGCAGA CTTGGAAGAA
    GGGGAACCAG CTGAGGGGGA ACAAGAGCTC CAGGGCTCAG GGATGCACCC AGGTGCCAAG
    TGGTACCCTG GGTCTGTGAG GCGAGCCACC TTGGAGTTTG AAGAGCGCTT ACGGCAGGAG
    CAAGAGCATC ATGGTGCTGC CTCAACATGT ACCTCATTGT CCACTCGTAA GAATTCAAAG
    AATGATTCTT CTGTGGCAGA CCTGGCACCA AAAGGGAAGA GTGACGAAGC CACCCCAGAA
    CATTCATTTG TCCCCAAGGA ACCAGAGATG AGCAAAGGCA AAGGGAAATA CAGTGGGCCT
    GAGGCTGGCT CACTGTCCCA TTCTGAGCAG AATGCCACTG TTCCAGCTCC CAAGGTGCTG
    GGGTTTGACC ACTTGCCAGC TCCTCAGGAG GGCCCAGGGT CGGATGCTGG AACACAGCAG
    GAAGGAGTCC TGAAGGATCT GAGGACTGTG ATTCCATACC AGGAGTCTGA GACACAGGCA
    GTCCCTCTTC CCCTTCCCAA GAGGGTAGAA ATCATTGAGT ATACCCACAC AGTTACATCA
    CCCAATCACG CTGGGCCAGG GAGTGAAATA GCCACTGGCG AGAAGAGCGG AGAGCAAGGA
    CTAAGGAAAG TGAACGTGGA AAAATCTGTC ACTGTGCTCT GCACACTGGA TGAAAATCTA
    AACAGGACTC TGGACCCCAA CCAGGTTTCT CTGCACCCCC AAGTGCTACC TCCGCCTCAT
    TCTTCCTCTC CTGAGCACAA CAGGCCCACT GACCACCCGA CCTCCACGCT GAGTAGCCCT
    GAAGACAGAG GCAGCAGCCT GTCAACAGCC CTGGAGACAG CGGCACCTTT TGTCAGTCAT
    ACAACCCACT TACTGTCTGC CAGTTTGGAT TACCTGCATC CCCAGACTAT GGTTCACCTG
    GAGGGCTTCA TAGAGCAGAG CAGCACCACA GATGAGCCCT CTGCAGAACA GGTTAGCTGG
    GAAGAAAGTC AGGACAGCCC TCTCTCCAGT GGCAGTGAGG TGCCATATAA GGACTCCCAG
    CTGAGTAGCG CAGACCTAAG TTTAATTAAC AAACTTGGTG ACAACACTGG GGAGTTACAG
    GAGAAACTGG ACCCATTGCC TGTAGCCTGT CGACTACCAC ATAGCTCTAG TAGTGAAAAC
    ATAAAGGGTC TCAGCCACAG CCCCGGTGTG GTGAAGGAGC GTGCTAAAGA AATCGAGTCT
    CGAGTGGTTT TCCAGGCAGG GCTCACCAAA CCATCCCAAA TGAGGCGCTC AGCTTCTCTC
    GCCAAATTAG GTTACTTGGA CCTCTGTAAA GACTGCTTAC CAGAGAGGGA GCCTGCCTCC
    TGTGAATCCC CTCATCTCAA ACTGCTTCAG CCTTTCCTCA GAACAGACTC AGGCATGCAT
    GCCATGGAGG ACCAAGAGTC CCTAGAAAAC CCAGGTGCCC CCCACAACCC AGAGCCCACC
    AAGTATTTTG TAGAACAGCT CACAACAACA GAGTGTATTG TGCAGAGCAA GCCAGTGGAG
    AGGCCCCTTG TGCAGTATGC CAAAGAATTT GGTTCCAGTC AGCAGTGTTT GCTTCCCAGG
    GCAGGACCTG AATTGACTAG TTCTGAAGGA GGCCTTCCCA TGCTACAGAC CCAGGGACTG
    CAGTGTGCAT GCCCAGCTCC AGGGCTGGCC GTGGCACCCC GTCAGCAACA CGGCAGAACT
    CACCCCCTTA GGAGACTGAA AAAGGCAAAT GACAAAAAAC GGACAACCAA CCCCTTCTAT
    AATACCATGT GA

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

    RefSeq XP_014974450.2
    CDS226..4497
    Translation

    Target ORF information:

    RefSeq Version XM_015118964.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118964.2

    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
    ATGGCTTTGG TCACGGTCCA GCGGTCACCT ACCCCCAGCA CCACCTCCAG CCCCTGCGCC 
    TCGGAGGCAG ACAGTGGGGA GGAAGAATGC CGGTCACAGC CCAGGAGCAT CAGCGAGAGC
    TTTCTAACTG TCAAAGGTGC TGCCCTTTTT CTACCACGGG GAAATGGCTC ATCCACACCA
    AGAATCAGCC ACAGACGGAA CAAACATGCA GGCGATCTCC AACAGCATCT CCAAGCAATG
    TTCATATTAC TCCGCCCAGA AGACAACATC AGGCTGGCTG TAAGACTGGA AAGTACTTAC
    CAGAATCGAA CACGCTATAT GGTAGTGGTT TCAACTAATG GTAGACAAGA CACCGAAGAA
    AGCATCGTCC TAGGAATGGA TTTCTCCTCT AATGACAGTA GCACTTGTAC CATGGGCTTA
    GTTTTGCCTC TCTGGAGCGA CACGCTAATT CATTTGGATG GTGATGGTGG GTTCAGTGTA
    TCGACGGATA ACAGAGTTCA CATATTCAAA CCTGTATCTG TGCAGGCAAT GTGGTCTGCA
    CTACAGAGCT TACACAAGGC TTGTGAAGTC GCCAGAGCGC ATAACTACTA CCCAGGCAGC
    CTATTTCTCA CCTGGGTGAG TTATTATGAG AGCCATATCA ACTCAGATCA ATCCTCAGTC
    AATGAATGGA ATGCTATGCA AGATGTCCAG TCCCACCGGC CCGACTCTCC AGCTCTCTTC
    ACCGACATAC CTACTGAACG TGAACGAACA GAAAGGCTAA TTAAAACCAA ATTAAGGGAG
    ATCATGATGC AGAAGGATTT GGAGAATATT ACATCCAAAG AGATAAGAAC AGAGTTGGAA
    ATGCAAATGG TGTGCAACTT GCGGGAATTC AAGGAATTTA TAGACAACGA AATGATAGTG
    ATCCTTGGTC AAATGGATAG CCCTACACAA ATATTTGAGC ATGTGTTCTT GGGCTCAGAA
    TGGAATGCCT CCAACTTAGA GGACTTACAG AACCGAGGGG TACGGTATAT CTTGAATGTC
    ACTCGAGAGA TAGATAACTT CTTCCCAGGA GTCTTTGAGT ATCATAACAT TCGGGTATAT
    GATGAAGAGG CAACGGATCT CCTGGCTTAC TGGAACGACA CTTACAAATT CATCTCTAAA
    GCAAAGAAAC ATGGATCTAA ATGCCTTGTG CACTGCAAAA TGGGGGTTAG TCGCTCAGCC
    TCCACCGTGA TTGCCTATGC AATGAAGGAA TATGGCTGGA ATCTGGACCG AGCCTATGAC
    TACGTGAAAG AAAGACGAAC AGTGACCAAG CCCAACCCCA GCTTCATGAG ACAACTGGAA
    GAGTATCAGG GGATCTTGCT GGCAAGCAAA CAGCGGCATA ACAAACTATG GAGATCTCAT
    TCAGATAGTG ACCTCTCAGA CCACCACGAA CCCATCTGCA AACCTGGGCT AGAACTCAAC
    AAGAAGGAGA TCACCACCTC AGCAGACCAG ATTGCTGAGG TGAAGACCAT GGAGAGTCAC
    CCACCCATAC CTCCTGTCTT TGTGGAACAT GTGGTCCCAC AAGATGCAAA TCAGAAAGGC
    CTATGTACCA AAGAAAGAAT GATCTGCTTG GAGTTTACTT CTACGGAATT TCATGCTGGA
    CAGATTGAGG ATGAATTAAA CTTAAATGAC ATCAATGGAT GCTCATCAGG GTGTTGTCTG
    AATGAATCAA AATTTCCTCT TGACAACTGC CATGCATCCA AAGCCTTAAT TCAGCCTGGA
    CATGTCCCAG AAATGGCCAA CAAGTTTCCA GACTTAACAG TGGAAGATTT GGAGACAGAC
    GCACTGAAAG CAGACATGAA TGTCCACCTA CTGCCTATGG AAGAATTGAC ATCTCGACTG
    AAAGACCTCC CCATGTCCCC TGATCCTGAG TCACCAAGCC CCCAACCCAG TTGCCAGACT
    GAAATCTCAG ATTTCAGTAC AGATCGCATT GACTTTTTTA GTGCCCTAGA GAAGTTTGTG
    GAGCTCTCCC AAGAAACCCG GTCACGATCT TTTTCCCATT CAAGGATGGA GGAACTGGGT
    GGAGGAAGGA GTGAGAGCTG TCGACTGTCA GTGGTAGAAG TAGCCCCTTC CAAAGTGACA
    ACTGATGACC AGAGAAGCAG CTCTTTGAGT AATACTCCCC ATGCATCAGA AGAATCTTCA
    ATGGATGAGG AACAGTCAAA GGCAATTTCA GAACTGGTCA GCCCAGACAT CTTCATGCAG
    TCTCACTTGG AAAATGCAAT TTCAGTCAAA GAAATTGTCA CTGAAATTGA GTCCATCAGT
    CAAGGAGTTG GACAGATTCA ACTGAAAGGA GACATCTTAT CCAACCCGTG CCATACACCA
    AAGAAGAACA GCATCCATGA GCTGCTCTTT GAGAGGGCCC AGACCCCAGA GAACAAACCT
    GGACATCTGG AGCAAGACGA GGGCTCCTGC ACAGCCCAGC CTGAACTAGC CAAAGACTCA
    GGGATGTGCA ACCCAGAAGG CTGCCTAACC ACATGCTCAT CTACAGCAGA CTTGGAAGAA
    GGGGAACCAG CTGAGGGGGA ACAAGAGCTC CAGGGCTCAG GGATGCACCC AGGTGCCAAG
    TGGTACCCTG GGTCTGTGAG GCGAGCCACC TTGGAGTTTG AAGAGCGCTT ACGGCAGGAG
    CAAGAGCATC ATGGTGCTGC CTCAACATGT ACCTCATTGT CCACTCGTAA GAATTCAAAG
    AATGATTCTT CTGTGGCAGA CCTGGCACCA AAAGGGAAGA GTGACGAAGC CACCCCAGAA
    CATTCATTTG TCCCCAAGGA ACCAGAGATG AGCAAAGGCA AAGGGAAATA CAGTGGGCCT
    GAGGCTGGCT CACTGTCCCA TTCTGAGCAG AATGCCACTG TTCCAGCTCC CAAGGTGCTG
    GGGTTTGACC ACTTGCCAGC TCCTCAGGAG GGCCCAGGGT CGGATGCTGG AACACAGCAG
    GAAGGAGTCC TGAAGGATCT GAGGACTGTG ATTCCATACC AGGAGTCTGA GACACAGGCA
    GTCCCTCTTC CCCTTCCCAA GAGGGTAGAA ATCATTGAGT ATACCCACAC AGTTACATCA
    CCCAATCACG CTGGGCCAGG GAGTGAAATA GCCACTGGCG AGAAGAGCGG AGAGCAAGGA
    CTAAGGAAAG TGAACGTGGA AAAATCTGTC ACTGTGCTCT GCACACTGGA TGAAAATCTA
    AACAGGACTC TGGACCCCAA CCAGGTTTCT CTGCACCCCC AAGTGCTACC TCCGCCTCAT
    TCTTCCTCTC CTGAGCACAA CAGGCCCACT GACCACCCGA CCTCCACGCT GAGTAGCCCT
    GAAGACAGAG GCAGCAGCCT GTCAACAGCC CTGGAGACAG CGGCACCTTT TGTCAGTCAT
    ACAACCCACT TACTGTCTGC CAGTTTGGAT TACCTGCATC CCCAGACTAT GGTTCACCTG
    GAGGGCTTCA TAGAGCAGAG CAGCACCACA GATGAGCCCT CTGCAGAACA GGTTAGCTGG
    GAAGAAAGTC AGGACAGCCC TCTCTCCAGT GGCAGTGAGG TGCCATATAA GGACTCCCAG
    CTGAGTAGCG CAGACCTAAG TTTAATTAAC AAACTTGGTG ACAACACTGG GGAGTTACAG
    GAGAAACTGG ACCCATTGCC TGTAGCCTGT CGACTACCAC ATAGCTCTAG TAGTGAAAAC
    ATAAAGGGTC TCAGCCACAG CCCCGGTGTG GTGAAGGAGC GTGCTAAAGA AATCGAGTCT
    CGAGTGGTTT TCCAGGCAGG GCTCACCAAA CCATCCCAAA TGAGGCGCTC AGCTTCTCTC
    GCCAAATTAG GTTACTTGGA CCTCTGTAAA GACTGCTTAC CAGAGAGGGA GCCTGCCTCC
    TGTGAATCCC CTCATCTCAA ACTGCTTCAG CCTTTCCTCA GAACAGACTC AGGCATGCAT
    GCCATGGAGG ACCAAGAGTC CCTAGAAAAC CCAGGTGCCC CCCACAACCC AGAGCCCACC
    AAGTATTTTG TAGAACAGCT CACAACAACA GAGTGTATTG TGCAGAGCAA GCCAGTGGAG
    AGGCCCCTTG TGCAGTATGC CAAAGAATTT GGTTCCAGTC AGCAGTGTTT GCTTCCCAGG
    GCAGGACCTG AATTGACTAG TTCTGAAGGA GGCCTTCCCA TGCTACAGAC CCAGGGACTG
    CAGTGTGCAT GCCCAGCTCC AGGGCTGGCC GTGGCACCCC GTCAGCAACA CGGCAGAACT
    CACCCCCTTA GGAGACTGAA AAAGGCAAAT GACAAAAAAC GGACAACCAA CCCCTTCTAT
    AATACCATGT GA

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

    CloneID OMb72886
    Clone ID Related Accession (Same CDS sequence) XM_015118965.2
    Accession Version XM_015118965.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 protein phosphatase Slingshot homolog 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015118965.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTGTCTGG GAAATCAATG CCCTCAGAGA GAGGATTCCA GCATCAGCGA GAGCTTTCTA 
    ACTGTCAAAG GTGCTGCCCT TTTTCTACCA CGGGGAAATG GCTCATCCAC ACCAAGAATC
    AGCCACAGAC GGAACAAACA TGCAGGCGAT CTCCAACAGC ATCTCCAAGC AATGTTCATA
    TTACTCCGCC CAGAAGACAA CATCAGGCTG GCTGTAAGAC TGGAAAGTAC TTACCAGAAT
    CGAACACGCT ATATGGTAGT GGTTTCAACT AATGGTAGAC AAGACACCGA AGAAAGCATC
    GTCCTAGGAA TGGATTTCTC CTCTAATGAC AGTAGCACTT GTACCATGGG CTTAGTTTTG
    CCTCTCTGGA GCGACACGCT AATTCATTTG GATGGTGATG GTGGGTTCAG TGTATCGACG
    GATAACAGAG TTCACATATT CAAACCTGTA TCTGTGCAGG CAATGTGGTC TGCACTACAG
    AGCTTACACA AGGCTTGTGA AGTCGCCAGA GCGCATAACT ACTACCCAGG CAGCCTATTT
    CTCACCTGGG TGAGTTATTA TGAGAGCCAT ATCAACTCAG ATCAATCCTC AGTCAATGAA
    TGGAATGCTA TGCAAGATGT CCAGTCCCAC CGGCCCGACT CTCCAGCTCT CTTCACCGAC
    ATACCTACTG AACGTGAACG AACAGAAAGG CTAATTAAAA CCAAATTAAG GGAGATCATG
    ATGCAGAAGG ATTTGGAGAA TATTACATCC AAAGAGATAA GAACAGAGTT GGAAATGCAA
    ATGGTGTGCA ACTTGCGGGA ATTCAAGGAA TTTATAGACA ACGAAATGAT AGTGATCCTT
    GGTCAAATGG ATAGCCCTAC ACAAATATTT GAGCATGTGT TCTTGGGCTC AGAATGGAAT
    GCCTCCAACT TAGAGGACTT ACAGAACCGA GGGGTACGGT ATATCTTGAA TGTCACTCGA
    GAGATAGATA ACTTCTTCCC AGGAGTCTTT GAGTATCATA ACATTCGGGT ATATGATGAA
    GAGGCAACGG ATCTCCTGGC TTACTGGAAC GACACTTACA AATTCATCTC TAAAGCAAAG
    AAACATGGAT CTAAATGCCT TGTGCACTGC AAAATGGGGG TTAGTCGCTC AGCCTCCACC
    GTGATTGCCT ATGCAATGAA GGAATATGGC TGGAATCTGG ACCGAGCCTA TGACTACGTG
    AAAGAAAGAC GAACAGTGAC CAAGCCCAAC CCCAGCTTCA TGAGACAACT GGAAGAGTAT
    CAGGGGATCT TGCTGGCAAG CAAACAGCGG CATAACAAAC TATGGAGATC TCATTCAGAT
    AGTGACCTCT CAGACCACCA CGAACCCATC TGCAAACCTG GGCTAGAACT CAACAAGAAG
    GAGATCACCA CCTCAGCAGA CCAGATTGCT GAGGTGAAGA CCATGGAGAG TCACCCACCC
    ATACCTCCTG TCTTTGTGGA ACATGTGGTC CCACAAGATG CAAATCAGAA AGGCCTATGT
    ACCAAAGAAA GAATGATCTG CTTGGAGTTT ACTTCTACGG AATTTCATGC TGGACAGATT
    GAGGATGAAT TAAACTTAAA TGACATCAAT GGATGCTCAT CAGGGTGTTG TCTGAATGAA
    TCAAAATTTC CTCTTGACAA CTGCCATGCA TCCAAAGCCT TAATTCAGCC TGGACATGTC
    CCAGAAATGG CCAACAAGTT TCCAGACTTA ACAGTGGAAG ATTTGGAGAC AGACGCACTG
    AAAGCAGACA TGAATGTCCA CCTACTGCCT ATGGAAGAAT TGACATCTCG ACTGAAAGAC
    CTCCCCATGT CCCCTGATCC TGAGTCACCA AGCCCCCAAC CCAGTTGCCA GACTGAAATC
    TCAGATTTCA GTACAGATCG CATTGACTTT TTTAGTGCCC TAGAGAAGTT TGTGGAGCTC
    TCCCAAGAAA CCCGGTCACG ATCTTTTTCC CATTCAAGGA TGGAGGAACT GGGTGGAGGA
    AGGAGTGAGA GCTGTCGACT GTCAGTGGTA GAAGTAGCCC CTTCCAAAGT GACAACTGAT
    GACCAGAGAA GCAGCTCTTT GAGTAATACT CCCCATGCAT CAGAAGAATC TTCAATGGAT
    GAGGAACAGT CAAAGGCAAT TTCAGAACTG GTCAGCCCAG ACATCTTCAT GCAGTCTCAC
    TTGGAAAATG CAATTTCAGT CAAAGAAATT GTCACTGAAA TTGAGTCCAT CAGTCAAGGA
    GTTGGACAGA TTCAACTGAA AGGAGACATC TTATCCAACC CGTGCCATAC ACCAAAGAAG
    AACAGCATCC ATGAGCTGCT CTTTGAGAGG GCCCAGACCC CAGAGAACAA ACCTGGACAT
    CTGGAGCAAG ACGAGGGCTC CTGCACAGCC CAGCCTGAAC TAGCCAAAGA CTCAGGGATG
    TGCAACCCAG AAGGCTGCCT AACCACATGC TCATCTACAG CAGACTTGGA AGAAGGGGAA
    CCAGCTGAGG GGGAACAAGA GCTCCAGGGC TCAGGGATGC ACCCAGGTGC CAAGTGGTAC
    CCTGGGTCTG TGAGGCGAGC CACCTTGGAG TTTGAAGAGC GCTTACGGCA GGAGCAAGAG
    CATCATGGTG CTGCCTCAAC ATGTACCTCA TTGTCCACTC GTAAGAATTC AAAGAATGAT
    TCTTCTGTGG CAGACCTGGC ACCAAAAGGG AAGAGTGACG AAGCCACCCC AGAACATTCA
    TTTGTCCCCA AGGAACCAGA GATGAGCAAA GGCAAAGGGA AATACAGTGG GCCTGAGGCT
    GGCTCACTGT CCCATTCTGA GCAGAATGCC ACTGTTCCAG CTCCCAAGGT GCTGGGGTTT
    GACCACTTGC CAGCTCCTCA GGAGGGCCCA GGGTCGGATG CTGGAACACA GCAGGAAGGA
    GTCCTGAAGG ATCTGAGGAC TGTGATTCCA TACCAGGAGT CTGAGACACA GGCAGTCCCT
    CTTCCCCTTC CCAAGAGGGT AGAAATCATT GAGTATACCC ACACAGTTAC ATCACCCAAT
    CACGCTGGGC CAGGGAGTGA AATAGCCACT GGCGAGAAGA GCGGAGAGCA AGGACTAAGG
    AAAGTGAACG TGGAAAAATC TGTCACTGTG CTCTGCACAC TGGATGAAAA TCTAAACAGG
    ACTCTGGACC CCAACCAGGT TTCTCTGCAC CCCCAAGTGC TACCTCCGCC TCATTCTTCC
    TCTCCTGAGC ACAACAGGCC CACTGACCAC CCGACCTCCA CGCTGAGTAG CCCTGAAGAC
    AGAGGCAGCA GCCTGTCAAC AGCCCTGGAG ACAGCGGCAC CTTTTGTCAG TCATACAACC
    CACTTACTGT CTGCCAGTTT GGATTACCTG CATCCCCAGA CTATGGTTCA CCTGGAGGGC
    TTCATAGAGC AGAGCAGCAC CACAGATGAG CCCTCTGCAG AACAGGTTAG CTGGGAAGAA
    AGTCAGGACA GCCCTCTCTC CAGTGGCAGT GAGGTGCCAT ATAAGGACTC CCAGCTGAGT
    AGCGCAGACC TAAGTTTAAT TAACAAACTT GGTGACAACA CTGGGGAGTT ACAGGAGAAA
    CTGGACCCAT TGCCTGTAGC CTGTCGACTA CCACATAGCT CTAGTAGTGA AAACATAAAG
    GGTCTCAGCC ACAGCCCCGG TGTGGTGAAG GAGCGTGCTA AAGAAATCGA GTCTCGAGTG
    GTTTTCCAGG CAGGGCTCAC CAAACCATCC CAAATGAGGC GCTCAGCTTC TCTCGCCAAA
    TTAGGTTACT TGGACCTCTG TAAAGACTGC TTACCAGAGA GGGAGCCTGC CTCCTGTGAA
    TCCCCTCATC TCAAACTGCT TCAGCCTTTC CTCAGAACAG ACTCAGGCAT GCATGCCATG
    GAGGACCAAG AGTCCCTAGA AAACCCAGGT GCCCCCCACA ACCCAGAGCC CACCAAGTAT
    TTTGTAGAAC AGCTCACAAC AACAGAGTGT ATTGTGCAGA GCAAGCCAGT GGAGAGGCCC
    CTTGTGCAGT ATGCCAAAGA ATTTGGTTCC AGTCAGCAGT GTTTGCTTCC CAGGGCAGGA
    CCTGAATTGA CTAGTTCTGA AGGAGGCCTT CCCATGCTAC AGACCCAGGG ACTGCAGTGT
    GCATGCCCAG CTCCAGGGCT GGCCGTGGCA CCCCGTCAGC AACACGGCAG AACTCACCCC
    CTTAGGAGAC TGAAAAAGGC AAATGACAAA AAACGGACAA CCAACCCCTT CTATAATACC
    ATGTGA

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

    RefSeq XP_014974451.2
    CDS1554..5759
    Translation

    Target ORF information:

    RefSeq Version XM_015118965.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118965.2

    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
    ATGTGTCTGG GAAATCAATG CCCTCAGAGA GAGGATTCCA GCATCAGCGA GAGCTTTCTA 
    ACTGTCAAAG GTGCTGCCCT TTTTCTACCA CGGGGAAATG GCTCATCCAC ACCAAGAATC
    AGCCACAGAC GGAACAAACA TGCAGGCGAT CTCCAACAGC ATCTCCAAGC AATGTTCATA
    TTACTCCGCC CAGAAGACAA CATCAGGCTG GCTGTAAGAC TGGAAAGTAC TTACCAGAAT
    CGAACACGCT ATATGGTAGT GGTTTCAACT AATGGTAGAC AAGACACCGA AGAAAGCATC
    GTCCTAGGAA TGGATTTCTC CTCTAATGAC AGTAGCACTT GTACCATGGG CTTAGTTTTG
    CCTCTCTGGA GCGACACGCT AATTCATTTG GATGGTGATG GTGGGTTCAG TGTATCGACG
    GATAACAGAG TTCACATATT CAAACCTGTA TCTGTGCAGG CAATGTGGTC TGCACTACAG
    AGCTTACACA AGGCTTGTGA AGTCGCCAGA GCGCATAACT ACTACCCAGG CAGCCTATTT
    CTCACCTGGG TGAGTTATTA TGAGAGCCAT ATCAACTCAG ATCAATCCTC AGTCAATGAA
    TGGAATGCTA TGCAAGATGT CCAGTCCCAC CGGCCCGACT CTCCAGCTCT CTTCACCGAC
    ATACCTACTG AACGTGAACG AACAGAAAGG CTAATTAAAA CCAAATTAAG GGAGATCATG
    ATGCAGAAGG ATTTGGAGAA TATTACATCC AAAGAGATAA GAACAGAGTT GGAAATGCAA
    ATGGTGTGCA ACTTGCGGGA ATTCAAGGAA TTTATAGACA ACGAAATGAT AGTGATCCTT
    GGTCAAATGG ATAGCCCTAC ACAAATATTT GAGCATGTGT TCTTGGGCTC AGAATGGAAT
    GCCTCCAACT TAGAGGACTT ACAGAACCGA GGGGTACGGT ATATCTTGAA TGTCACTCGA
    GAGATAGATA ACTTCTTCCC AGGAGTCTTT GAGTATCATA ACATTCGGGT ATATGATGAA
    GAGGCAACGG ATCTCCTGGC TTACTGGAAC GACACTTACA AATTCATCTC TAAAGCAAAG
    AAACATGGAT CTAAATGCCT TGTGCACTGC AAAATGGGGG TTAGTCGCTC AGCCTCCACC
    GTGATTGCCT ATGCAATGAA GGAATATGGC TGGAATCTGG ACCGAGCCTA TGACTACGTG
    AAAGAAAGAC GAACAGTGAC CAAGCCCAAC CCCAGCTTCA TGAGACAACT GGAAGAGTAT
    CAGGGGATCT TGCTGGCAAG CAAACAGCGG CATAACAAAC TATGGAGATC TCATTCAGAT
    AGTGACCTCT CAGACCACCA CGAACCCATC TGCAAACCTG GGCTAGAACT CAACAAGAAG
    GAGATCACCA CCTCAGCAGA CCAGATTGCT GAGGTGAAGA CCATGGAGAG TCACCCACCC
    ATACCTCCTG TCTTTGTGGA ACATGTGGTC CCACAAGATG CAAATCAGAA AGGCCTATGT
    ACCAAAGAAA GAATGATCTG CTTGGAGTTT ACTTCTACGG AATTTCATGC TGGACAGATT
    GAGGATGAAT TAAACTTAAA TGACATCAAT GGATGCTCAT CAGGGTGTTG TCTGAATGAA
    TCAAAATTTC CTCTTGACAA CTGCCATGCA TCCAAAGCCT TAATTCAGCC TGGACATGTC
    CCAGAAATGG CCAACAAGTT TCCAGACTTA ACAGTGGAAG ATTTGGAGAC AGACGCACTG
    AAAGCAGACA TGAATGTCCA CCTACTGCCT ATGGAAGAAT TGACATCTCG ACTGAAAGAC
    CTCCCCATGT CCCCTGATCC TGAGTCACCA AGCCCCCAAC CCAGTTGCCA GACTGAAATC
    TCAGATTTCA GTACAGATCG CATTGACTTT TTTAGTGCCC TAGAGAAGTT TGTGGAGCTC
    TCCCAAGAAA CCCGGTCACG ATCTTTTTCC CATTCAAGGA TGGAGGAACT GGGTGGAGGA
    AGGAGTGAGA GCTGTCGACT GTCAGTGGTA GAAGTAGCCC CTTCCAAAGT GACAACTGAT
    GACCAGAGAA GCAGCTCTTT GAGTAATACT CCCCATGCAT CAGAAGAATC TTCAATGGAT
    GAGGAACAGT CAAAGGCAAT TTCAGAACTG GTCAGCCCAG ACATCTTCAT GCAGTCTCAC
    TTGGAAAATG CAATTTCAGT CAAAGAAATT GTCACTGAAA TTGAGTCCAT CAGTCAAGGA
    GTTGGACAGA TTCAACTGAA AGGAGACATC TTATCCAACC CGTGCCATAC ACCAAAGAAG
    AACAGCATCC ATGAGCTGCT CTTTGAGAGG GCCCAGACCC CAGAGAACAA ACCTGGACAT
    CTGGAGCAAG ACGAGGGCTC CTGCACAGCC CAGCCTGAAC TAGCCAAAGA CTCAGGGATG
    TGCAACCCAG AAGGCTGCCT AACCACATGC TCATCTACAG CAGACTTGGA AGAAGGGGAA
    CCAGCTGAGG GGGAACAAGA GCTCCAGGGC TCAGGGATGC ACCCAGGTGC CAAGTGGTAC
    CCTGGGTCTG TGAGGCGAGC CACCTTGGAG TTTGAAGAGC GCTTACGGCA GGAGCAAGAG
    CATCATGGTG CTGCCTCAAC ATGTACCTCA TTGTCCACTC GTAAGAATTC AAAGAATGAT
    TCTTCTGTGG CAGACCTGGC ACCAAAAGGG AAGAGTGACG AAGCCACCCC AGAACATTCA
    TTTGTCCCCA AGGAACCAGA GATGAGCAAA GGCAAAGGGA AATACAGTGG GCCTGAGGCT
    GGCTCACTGT CCCATTCTGA GCAGAATGCC ACTGTTCCAG CTCCCAAGGT GCTGGGGTTT
    GACCACTTGC CAGCTCCTCA GGAGGGCCCA GGGTCGGATG CTGGAACACA GCAGGAAGGA
    GTCCTGAAGG ATCTGAGGAC TGTGATTCCA TACCAGGAGT CTGAGACACA GGCAGTCCCT
    CTTCCCCTTC CCAAGAGGGT AGAAATCATT GAGTATACCC ACACAGTTAC ATCACCCAAT
    CACGCTGGGC CAGGGAGTGA AATAGCCACT GGCGAGAAGA GCGGAGAGCA AGGACTAAGG
    AAAGTGAACG TGGAAAAATC TGTCACTGTG CTCTGCACAC TGGATGAAAA TCTAAACAGG
    ACTCTGGACC CCAACCAGGT TTCTCTGCAC CCCCAAGTGC TACCTCCGCC TCATTCTTCC
    TCTCCTGAGC ACAACAGGCC CACTGACCAC CCGACCTCCA CGCTGAGTAG CCCTGAAGAC
    AGAGGCAGCA GCCTGTCAAC AGCCCTGGAG ACAGCGGCAC CTTTTGTCAG TCATACAACC
    CACTTACTGT CTGCCAGTTT GGATTACCTG CATCCCCAGA CTATGGTTCA CCTGGAGGGC
    TTCATAGAGC AGAGCAGCAC CACAGATGAG CCCTCTGCAG AACAGGTTAG CTGGGAAGAA
    AGTCAGGACA GCCCTCTCTC CAGTGGCAGT GAGGTGCCAT ATAAGGACTC CCAGCTGAGT
    AGCGCAGACC TAAGTTTAAT TAACAAACTT GGTGACAACA CTGGGGAGTT ACAGGAGAAA
    CTGGACCCAT TGCCTGTAGC CTGTCGACTA CCACATAGCT CTAGTAGTGA AAACATAAAG
    GGTCTCAGCC ACAGCCCCGG TGTGGTGAAG GAGCGTGCTA AAGAAATCGA GTCTCGAGTG
    GTTTTCCAGG CAGGGCTCAC CAAACCATCC CAAATGAGGC GCTCAGCTTC TCTCGCCAAA
    TTAGGTTACT TGGACCTCTG TAAAGACTGC TTACCAGAGA GGGAGCCTGC CTCCTGTGAA
    TCCCCTCATC TCAAACTGCT TCAGCCTTTC CTCAGAACAG ACTCAGGCAT GCATGCCATG
    GAGGACCAAG AGTCCCTAGA AAACCCAGGT GCCCCCCACA ACCCAGAGCC CACCAAGTAT
    TTTGTAGAAC AGCTCACAAC AACAGAGTGT ATTGTGCAGA GCAAGCCAGT GGAGAGGCCC
    CTTGTGCAGT ATGCCAAAGA ATTTGGTTCC AGTCAGCAGT GTTTGCTTCC CAGGGCAGGA
    CCTGAATTGA CTAGTTCTGA AGGAGGCCTT CCCATGCTAC AGACCCAGGG ACTGCAGTGT
    GCATGCCCAG CTCCAGGGCT GGCCGTGGCA CCCCGTCAGC AACACGGCAG AACTCACCCC
    CTTAGGAGAC TGAAAAAGGC AAATGACAAA AAACGGACAA CCAACCCCTT CTATAATACC
    ATGTGA

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

    CloneID OMb72887
    Clone ID Related Accession (Same CDS sequence) XM_015118968.2 , XM_015118966.2 , XM_015118967.2
    Accession Version XM_015118968.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3987bp)
    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 protein phosphatase Slingshot homolog 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015118968.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAG TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    GCTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    RefSeq XP_014974454.2
    CDS1651..5637
    Translation

    Target ORF information:

    RefSeq Version XM_015118968.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118968.2

    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
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAG TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    GCTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    CloneID OMb72887
    Clone ID Related Accession (Same CDS sequence) XM_015118968.2 , XM_015118966.2 , XM_015118967.2
    Accession Version XM_015118966.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3987bp)
    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 protein phosphatase Slingshot homolog 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015118966.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAG TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    GCTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    RefSeq XP_014974452.2
    CDS392..4378
    Translation

    Target ORF information:

    RefSeq Version XM_015118966.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118966.2

    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
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAG TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    GCTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    CloneID OMb72887
    Clone ID Related Accession (Same CDS sequence) XM_015118968.2 , XM_015118966.2 , XM_015118967.2
    Accession Version XM_015118967.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3987bp)
    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 protein phosphatase Slingshot homolog 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015118967.1. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAG TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    GCTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    RefSeq XP_014974453.2
    CDS329..4315
    Translation

    Target ORF information:

    RefSeq Version XM_015118967.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015118967.2

    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
    ATGGCTCATC CACACCAAGA ATCAGCCACA GACGGAACAA ACATGCAGGC GATCTCCAAC 
    AGCATCTCCA AGCAATGTTC ATATTACTCC GCCCAGAAGA CAACATCAGG CTGTAGCACT
    TGTACCATGG GCTTAGTTTT GCCTCTCTGG AGCGACACGC TAATTCATTT GGATGGTGAT
    GGTGGGTTCA GTGTATCGAC GGATAACAGA GTTCACATAT TCAAACCTGT ATCTGTGCAG
    GCAATGTGGT CTGCACTACA GAGCTTACAC AAGGCTTGTG AAGTCGCCAG AGCGCATAAC
    TACTACCCAG GCAGCCTATT TCTCACCTGG GTGAGTTATT ATGAGAGCCA TATCAACTCA
    GATCAATCCT CAGTCAATGA ATGGAATGCT ATGCAAGATG TCCAGTCCCA CCGGCCCGAC
    TCTCCAGCTC TCTTCACCGA CATACCTACT GAACGTGAAC GAACAGAAAG GCTAATTAAA
    ACCAAATTAA GGGAGATCAT GATGCAGAAG GATTTGGAGA ATATTACATC CAAAGAGATA
    AGAACAGAGT TGGAAATGCA AATGGTGTGC AACTTGCGGG AATTCAAGGA ATTTATAGAC
    AACGAAATGA TAGTGATCCT TGGTCAAATG GATAGCCCTA CACAAATATT TGAGCATGTG
    TTCTTGGGCT CAGAATGGAA TGCCTCCAAC TTAGAGGACT TACAGAACCG AGGGGTACGG
    TATATCTTGA ATGTCACTCG AGAGATAGAT AACTTCTTCC CAGGAGTCTT TGAGTATCAT
    AACATTCGGG TATATGATGA AGAGGCAACG GATCTCCTGG CTTACTGGAA CGACACTTAC
    AAATTCATCT CTAAAGCAAA GAAACATGGA TCTAAATGCC TTGTGCACTG CAAAATGGGG
    GTTAGTCGCT CAGCCTCCAC CGTGATTGCC TATGCAATGA AGGAATATGG CTGGAATCTG
    GACCGAGCCT ATGACTACGT GAAAGAAAGA CGAACAGTGA CCAAGCCCAA CCCCAGCTTC
    ATGAGACAAC TGGAAGAGTA TCAGGGGATC TTGCTGGCAA GCAAACAGCG GCATAACAAA
    CTATGGAGAT CTCATTCAGA TAGTGACCTC TCAGACCACC ACGAACCCAT CTGCAAACCT
    GGGCTAGAAC TCAACAAGAA GGAGATCACC ACCTCAGCAG ACCAGATTGC TGAGGTGAAG
    ACCATGGAGA GTCACCCACC CATACCTCCT GTCTTTGTGG AACATGTGGT CCCACAAGAT
    GCAAATCAGA AAGGCCTATG TACCAAAGAA AGAATGATCT GCTTGGAGTT TACTTCTACG
    GAATTTCATG CTGGACAGAT TGAGGATGAA TTAAACTTAA ATGACATCAA TGGATGCTCA
    TCAGGGTGTT GTCTGAATGA ATCAAAATTT CCTCTTGACA ACTGCCATGC ATCCAAAGCC
    TTAATTCAGC CTGGACATGT CCCAGAAATG GCCAACAAGT TTCCAGACTT AACAGTGGAA
    GATTTGGAGA CAGACGCACT GAAAGCAGAC ATGAATGTCC ACCTACTGCC TATGGAAGAA
    TTGACATCTC GACTGAAAGA CCTCCCCATG TCCCCTGATC CTGAGTCACC AAGCCCCCAA
    CCCAGTTGCC AGACTGAAAT CTCAGATTTC AGTACAGATC GCATTGACTT TTTTAGTGCC
    CTAGAGAAGT TTGTGGAGCT CTCCCAAGAA ACCCGGTCAC GATCTTTTTC CCATTCAAGG
    ATGGAGGAAC TGGGTGGAGG AAGGAGTGAG AGCTGTCGAC TGTCAGTGGT AGAAGTAGCC
    CCTTCCAAAG TGACAACTGA TGACCAGAGA AGCAGCTCTT TGAGTAATAC TCCCCATGCA
    TCAGAAGAAT CTTCAATGGA TGAGGAACAG TCAAAGGCAA TTTCAGAACT GGTCAGCCCA
    GACATCTTCA TGCAGTCTCA CTTGGAAAAT GCAATTTCAG TCAAAGAAAT TGTCACTGAA
    ATTGAGTCCA TCAGTCAAGG AGTTGGACAG ATTCAACTGA AAGGAGACAT CTTATCCAAC
    CCGTGCCATA CACCAAAGAA GAACAGCATC CATGAGCTGC TCTTTGAGAG GGCCCAGACC
    CCAGAGAACA AACCTGGACA TCTGGAGCAA GACGAGGGCT CCTGCACAGC CCAGCCTGAA
    CTAGCCAAAG ACTCAGGGAT GTGCAACCCA GAAGGCTGCC TAACCACATG CTCATCTACA
    GCAGACTTGG AAGAAGGGGA ACCAGCTGAG GGGGAACAAG AGCTCCAGGG CTCAGGGATG
    CACCCAGGTG CCAAGTGGTA CCCTGGGTCT GTGAGGCGAG CCACCTTGGA GTTTGAAGAG
    CGCTTACGGC AGGAGCAAGA GCATCATGGT GCTGCCTCAA CATGTACCTC ATTGTCCACT
    CGTAAGAATT CAAAGAATGA TTCTTCTGTG GCAGACCTGG CACCAAAAGG GAAGAGTGAC
    GAAGCCACCC CAGAACATTC ATTTGTCCCC AAGGAACCAG AGATGAGCAA AGGCAAAGGG
    AAATACAGTG GGCCTGAGGC TGGCTCACTG TCCCATTCTG AGCAGAATGC CACTGTTCCA
    GCTCCCAAGG TGCTGGGGTT TGACCACTTG CCAGCTCCTC AGGAGGGCCC AGGGTCGGAT
    GCTGGAACAC AGCAGGAAGG AGTCCTGAAG GATCTGAGGA CTGTGATTCC ATACCAGGAG
    TCTGAGACAC AGGCAGTCCC TCTTCCCCTT CCCAAGAGGG TAGAAATCAT TGAGTATACC
    CACACAGTTA CATCACCCAA TCACGCTGGG CCAGGGAGTG AAATAGCCAC TGGCGAGAAG
    AGCGGAGAGC AAGGACTAAG GAAAGTGAAC GTGGAAAAAT CTGTCACTGT GCTCTGCACA
    CTGGATGAAA ATCTAAACAG GACTCTGGAC CCCAACCAGG TTTCTCTGCA CCCCCAAGTG
    CTACCTCCGC CTCATTCTTC CTCTCCTGAG CACAACAGGC CCACTGACCA CCCGACCTCC
    ACGCTGAGTA GCCCTGAAGA CAGAGGCAGC AGCCTGTCAA CAGCCCTGGA GACAGCGGCA
    CCTTTTGTCA GTCATACAAC CCACTTACTG TCTGCCAGTT TGGATTACCT GCATCCCCAG
    ACTATGGTTC ACCTGGAGGG CTTCATAGAG CAGAGCAGCA CCACAGATGA GCCCTCTGCA
    GAACAGGTTA GCTGGGAAGA AAGTCAGGAC AGCCCTCTCT CCAGTGGCAG TGAGGTGCCA
    TATAAGGACT CCCAGCTGAG TAGCGCAGAC CTAAGTTTAA TTAACAAACT TGGTGACAAC
    ACTGGGGAGT TACAGGAGAA ACTGGACCCA TTGCCTGTAG CCTGTCGACT ACCACATAGC
    TCTAGTAGTG AAAACATAAA GGGTCTCAGC CACAGCCCCG GTGTGGTGAA GGAGCGTGCT
    AAAGAAATCG AGTCTCGAGT GGTTTTCCAG GCAGGGCTCA CCAAACCATC CCAAATGAGG
    CGCTCAGCTT CTCTCGCCAA ATTAGGTTAC TTGGACCTCT GTAAAGACTG CTTACCAGAG
    AGGGAGCCTG CCTCCTGTGA ATCCCCTCAT CTCAAACTGC TTCAGCCTTT CCTCAGAACA
    GACTCAGGCA TGCATGCCAT GGAGGACCAA GAGTCCCTAG AAAACCCAGG TGCCCCCCAC
    AACCCAGAGC CCACCAAGTA TTTTGTAGAA CAGCTCACAA CAACAGAGTG TATTGTGCAG
    AGCAAGCCAG TGGAGAGGCC CCTTGTGCAG TATGCCAAAG AATTTGGTTC CAGTCAGCAG
    TGTTTGCTTC CCAGGGCAGG ACCTGAATTG ACTAGTTCTG AAGGAGGCCT TCCCATGCTA
    CAGACCCAGG GACTGCAGTG TGCATGCCCA GCTCCAGGGC TGGCCGTGGC ACCCCGTCAG
    CAACACGGCA GAACTCACCC CCTTAGGAGA CTGAAAAAGG CAAATGACAA AAAACGGACA
    ACCAACCCCT TCTATAATAC CATGTGA

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

    CloneID OMb72888
    Clone ID Related Accession (Same CDS sequence) XM_028836171.1
    Accession Version XM_028836171.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3489bp)
    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 protein phosphatase Slingshot homolog 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) 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 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
    ATGATGCAGA AGGATTTGGA GAATATTACA TCCAAAGAGA TAAGAACAGA GTTGGAAATG 
    CAAATGGTGT GCAACTTGCG GGAATTCAAG GAATTTATAG ACAACGAAAT GATAGTGATC
    CTTGGTCAAA TGGATAGCCC TACACAAATA TTTGAGCATG TGTTCTTGGG CTCAGAATGG
    AATGCCTCCA ACTTAGAGGA CTTACAGAAC CGAGGGGTAC GGTATATCTT GAATGTCACT
    CGAGAGATAG ATAACTTCTT CCCAGGAGTC TTTGAGTATC ATAACATTCG GGTATATGAT
    GAAGAGGCAA CGGATCTCCT GGCTTACTGG AACGACACTT ACAAATTCAT CTCTAAAGCA
    AAGAAACATG GATCTAAATG CCTTGTGCAC TGCAAAATGG GGGTTAGTCG CTCAGCCTCC
    ACCGTGATTG CCTATGCAAT GAAGGAATAT GGCTGGAATC TGGACCGAGC CTATGACTAC
    GTGAAAGAAA GACGAACAGT GACCAAGCCC AACCCCAGCT TCATGAGACA ACTGGAAGAG
    TATCAGGGGA TCTTGCTGGC AAGCAAACAG CGGCATAACA AACTATGGAG ATCTCATTCA
    GATAGTGACC TCTCAGACCA CCACGAACCC ATCTGCAAAC CTGGGCTAGA ACTCAACAAG
    AAGGAGATCA CCACCTCAGC AGACCAGATT GCTGAGGTGA AGACCATGGA GAGTCACCCA
    CCCATACCTC CTGTCTTTGT GGAACATGTG GTCCCACAAG ATGCAAATCA GAAAGGCCTA
    TGTACCAAAG AAAGAATGAT CTGCTTGGAG TTTACTTCTA CGGAATTTCA TGCTGGACAG
    ATTGAGGATG AATTAAACTT AAATGACATC AATGGATGCT CATCAGGGTG TTGTCTGAAT
    GAATCAAAAT TTCCTCTTGA CAACTGCCAT GCATCCAAAG CCTTAATTCA GCCTGGACAT
    GTCCCAGAAA TGGCCAACAA GTTTCCAGAC TTAACAGTGG AAGATTTGGA GACAGACGCA
    CTGAAAGCAG ACATGAATGT CCACCTACTG CCTATGGAAG AATTGACATC TCGACTGAAA
    GACCTCCCCA TGTCCCCTGA TCCTGAGTCA CCAAGCCCCC AACCCAGTTG CCAGACTGAA
    ATCTCAGATT TCAGTACAGA TCGCATTGAC TTTTTTAGTG CCCTAGAGAA GTTTGTGGAG
    CTCTCCCAAG AAACCCGGTC ACGATCTTTT TCCCATTCAA GGATGGAGGA ACTGGGTGGA
    GGAAGGAGTG AGAGCTGTCG ACTGTCAGTG GTAGAAGTAG CCCCTTCCAA AGTGACAACT
    GATGACCAGA GAAGCAGCTC TTTGAGTAAT ACTCCCCATG CATCAGAAGA ATCTTCAATG
    GATGAGGAAC AGTCAAAGGC AATTTCAGAA CTGGTCAGCC CAGACATCTT CATGCAGTCT
    CACTTGGAAA ATGCAATTTC AGTCAAAGAA ATTGTCACTG AAATTGAGTC CATCAGTCAA
    GGAGTTGGAC AGATTCAACT GAAAGGAGAC ATCTTATCCA ACCCGTGCCA TACACCAAAG
    AAGAACAGCA TCCATGAGCT GCTCTTTGAG AGGGCCCAGA CCCCAGAGAA CAAACCTGGA
    CATCTGGAGC AAGACGAGGG CTCCTGCACA GCCCAGCCTG AACTAGCCAA AGACTCAGGG
    ATGTGCAACC CAGAAGGCTG CCTAACCACA TGCTCATCTA CAGCAGACTT GGAAGAAGGG
    GAACCAGCTG AGGGGGAACA AGAGCTCCAG GGCTCAGGGA TGCACCCAGG TGCCAAGTGG
    TACCCTGGGT CTGTGAGGCG AGCCACCTTG GAGTTTGAAG AGCGCTTACG GCAGGAGCAA
    GAGCATCATG GTGCTGCCTC AACATGTACC TCATTGTCCA CTCGTAAGAA TTCAAAGAAT
    GATTCTTCTG TGGCAGACCT GGCACCAAAA GGGAAGAGTG ACGAAGCCAC CCCAGAACAT
    TCATTTGTCC CCAAGGAACC AGAGATGAGC AAAGGCAAAG GGAAATACAG TGGGCCTGAG
    GCTGGCTCAC TGTCCCATTC TGAGCAGAAT GCCACTGTTC CAGCTCCCAA GGTGCTGGGG
    TTTGACCACT TGCCAGCTCC TCAGGAGGGC CCAGGGTCGG ATGCTGGAAC ACAGCAGGAA
    GGAGTCCTGA AGGATCTGAG GACTGTGATT CCATACCAGG AGTCTGAGAC ACAGGCAGTC
    CCTCTTCCCC TTCCCAAGAG GGTAGAAATC ATTGAGTATA CCCACACAGT TACATCACCC
    AATCACGCTG GGCCAGGGAG TGAAATAGCC ACTGGCGAGA AGAGCGGAGA GCAAGGACTA
    AGGAAAGTGA ACGTGGAAAA ATCTGTCACT GTGCTCTGCA CACTGGATGA AAATCTAAAC
    AGGACTCTGG ACCCCAACCA GGTTTCTCTG CACCCCCAAG TGCTACCTCC GCCTCATTCT
    TCCTCTCCTG AGCACAACAG GCCCACTGAC CACCCGACCT CCACGCTGAG TAGCCCTGAA
    GACAGAGGCA GCAGCCTGTC AACAGCCCTG GAGACAGCGG CACCTTTTGT CAGTCATACA
    ACCCACTTAC TGTCTGCCAG TTTGGATTAC CTGCATCCCC AGACTATGGT TCACCTGGAG
    GGCTTCATAG AGCAGAGCAG CACCACAGAT GAGCCCTCTG CAGAACAGGT TAGCTGGGAA
    GAAAGTCAGG ACAGCCCTCT CTCCAGTGGC AGTGAGGTGC CATATAAGGA CTCCCAGCTG
    AGTAGCGCAG ACCTAAGTTT AATTAACAAA CTTGGTGACA ACACTGGGGA GTTACAGGAG
    AAACTGGACC CATTGCCTGT AGCCTGTCGA CTACCACATA GCTCTAGTAG TGAAAACATA
    AAGGGTCTCA GCCACAGCCC CGGTGTGGTG AAGGAGCGTG CTAAAGAAAT CGAGTCTCGA
    GTGGTTTTCC AGGCAGGGCT CACCAAACCA TCCCAAATGA GGCGCTCAGC TTCTCTCGCC
    AAATTAGGTT ACTTGGACCT CTGTAAAGAC TGCTTACCAG AGAGGGAGCC TGCCTCCTGT
    GAATCCCCTC ATCTCAAACT GCTTCAGCCT TTCCTCAGAA CAGACTCAGG CATGCATGCC
    ATGGAGGACC AAGAGTCCCT AGAAAACCCA GGTGCCCCCC ACAACCCAGA GCCCACCAAG
    TATTTTGTAG AACAGCTCAC AACAACAGAG TGTATTGTGC AGAGCAAGCC AGTGGAGAGG
    CCCCTTGTGC AGTATGCCAA AGAATTTGGT TCCAGTCAGC AGTGTTTGCT TCCCAGGGCA
    GGACCTGAAT TGACTAGTTC TGAAGGAGGC CTTCCCATGC TACAGACCCA GGGACTGCAG
    TGTGCATGCC CAGCTCCAGG GCTGGCCGTG GCACCCCGTC AGCAACACGG CAGAACTCAC
    CCCCTTAGGA GACTGAAAAA GGCAAATGAC AAAAAACGGA CAACCAACCC CTTCTATAAT
    ACCATGTGA

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

    RefSeq XP_028692004.1
    CDS75..3563
    Translation

    Target ORF information:

    RefSeq Version XM_028836171.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836171.1

    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
    ATGATGCAGA AGGATTTGGA GAATATTACA TCCAAAGAGA TAAGAACAGA GTTGGAAATG 
    CAAATGGTGT GCAACTTGCG GGAATTCAAG GAATTTATAG ACAACGAAAT GATAGTGATC
    CTTGGTCAAA TGGATAGCCC TACACAAATA TTTGAGCATG TGTTCTTGGG CTCAGAATGG
    AATGCCTCCA ACTTAGAGGA CTTACAGAAC CGAGGGGTAC GGTATATCTT GAATGTCACT
    CGAGAGATAG ATAACTTCTT CCCAGGAGTC TTTGAGTATC ATAACATTCG GGTATATGAT
    GAAGAGGCAA CGGATCTCCT GGCTTACTGG AACGACACTT ACAAATTCAT CTCTAAAGCA
    AAGAAACATG GATCTAAATG CCTTGTGCAC TGCAAAATGG GGGTTAGTCG CTCAGCCTCC
    ACCGTGATTG CCTATGCAAT GAAGGAATAT GGCTGGAATC TGGACCGAGC CTATGACTAC
    GTGAAAGAAA GACGAACAGT GACCAAGCCC AACCCCAGCT TCATGAGACA ACTGGAAGAG
    TATCAGGGGA TCTTGCTGGC AAGCAAACAG CGGCATAACA AACTATGGAG ATCTCATTCA
    GATAGTGACC TCTCAGACCA CCACGAACCC ATCTGCAAAC CTGGGCTAGA ACTCAACAAG
    AAGGAGATCA CCACCTCAGC AGACCAGATT GCTGAGGTGA AGACCATGGA GAGTCACCCA
    CCCATACCTC CTGTCTTTGT GGAACATGTG GTCCCACAAG ATGCAAATCA GAAAGGCCTA
    TGTACCAAAG AAAGAATGAT CTGCTTGGAG TTTACTTCTA CGGAATTTCA TGCTGGACAG
    ATTGAGGATG AATTAAACTT AAATGACATC AATGGATGCT CATCAGGGTG TTGTCTGAAT
    GAATCAAAAT TTCCTCTTGA CAACTGCCAT GCATCCAAAG CCTTAATTCA GCCTGGACAT
    GTCCCAGAAA TGGCCAACAA GTTTCCAGAC TTAACAGTGG AAGATTTGGA GACAGACGCA
    CTGAAAGCAG ACATGAATGT CCACCTACTG CCTATGGAAG AATTGACATC TCGACTGAAA
    GACCTCCCCA TGTCCCCTGA TCCTGAGTCA CCAAGCCCCC AACCCAGTTG CCAGACTGAA
    ATCTCAGATT TCAGTACAGA TCGCATTGAC TTTTTTAGTG CCCTAGAGAA GTTTGTGGAG
    CTCTCCCAAG AAACCCGGTC ACGATCTTTT TCCCATTCAA GGATGGAGGA ACTGGGTGGA
    GGAAGGAGTG AGAGCTGTCG ACTGTCAGTG GTAGAAGTAG CCCCTTCCAA AGTGACAACT
    GATGACCAGA GAAGCAGCTC TTTGAGTAAT ACTCCCCATG CATCAGAAGA ATCTTCAATG
    GATGAGGAAC AGTCAAAGGC AATTTCAGAA CTGGTCAGCC CAGACATCTT CATGCAGTCT
    CACTTGGAAA ATGCAATTTC AGTCAAAGAA ATTGTCACTG AAATTGAGTC CATCAGTCAA
    GGAGTTGGAC AGATTCAACT GAAAGGAGAC ATCTTATCCA ACCCGTGCCA TACACCAAAG
    AAGAACAGCA TCCATGAGCT GCTCTTTGAG AGGGCCCAGA CCCCAGAGAA CAAACCTGGA
    CATCTGGAGC AAGACGAGGG CTCCTGCACA GCCCAGCCTG AACTAGCCAA AGACTCAGGG
    ATGTGCAACC CAGAAGGCTG CCTAACCACA TGCTCATCTA CAGCAGACTT GGAAGAAGGG
    GAACCAGCTG AGGGGGAACA AGAGCTCCAG GGCTCAGGGA TGCACCCAGG TGCCAAGTGG
    TACCCTGGGT CTGTGAGGCG AGCCACCTTG GAGTTTGAAG AGCGCTTACG GCAGGAGCAA
    GAGCATCATG GTGCTGCCTC AACATGTACC TCATTGTCCA CTCGTAAGAA TTCAAAGAAT
    GATTCTTCTG TGGCAGACCT GGCACCAAAA GGGAAGAGTG ACGAAGCCAC CCCAGAACAT
    TCATTTGTCC CCAAGGAACC AGAGATGAGC AAAGGCAAAG GGAAATACAG TGGGCCTGAG
    GCTGGCTCAC TGTCCCATTC TGAGCAGAAT GCCACTGTTC CAGCTCCCAA GGTGCTGGGG
    TTTGACCACT TGCCAGCTCC TCAGGAGGGC CCAGGGTCGG ATGCTGGAAC ACAGCAGGAA
    GGAGTCCTGA AGGATCTGAG GACTGTGATT CCATACCAGG AGTCTGAGAC ACAGGCAGTC
    CCTCTTCCCC TTCCCAAGAG GGTAGAAATC ATTGAGTATA CCCACACAGT TACATCACCC
    AATCACGCTG GGCCAGGGAG TGAAATAGCC ACTGGCGAGA AGAGCGGAGA GCAAGGACTA
    AGGAAAGTGA ACGTGGAAAA ATCTGTCACT GTGCTCTGCA CACTGGATGA AAATCTAAAC
    AGGACTCTGG ACCCCAACCA GGTTTCTCTG CACCCCCAAG TGCTACCTCC GCCTCATTCT
    TCCTCTCCTG AGCACAACAG GCCCACTGAC CACCCGACCT CCACGCTGAG TAGCCCTGAA
    GACAGAGGCA GCAGCCTGTC AACAGCCCTG GAGACAGCGG CACCTTTTGT CAGTCATACA
    ACCCACTTAC TGTCTGCCAG TTTGGATTAC CTGCATCCCC AGACTATGGT TCACCTGGAG
    GGCTTCATAG AGCAGAGCAG CACCACAGAT GAGCCCTCTG CAGAACAGGT TAGCTGGGAA
    GAAAGTCAGG ACAGCCCTCT CTCCAGTGGC AGTGAGGTGC CATATAAGGA CTCCCAGCTG
    AGTAGCGCAG ACCTAAGTTT AATTAACAAA CTTGGTGACA ACACTGGGGA GTTACAGGAG
    AAACTGGACC CATTGCCTGT AGCCTGTCGA CTACCACATA GCTCTAGTAG TGAAAACATA
    AAGGGTCTCA GCCACAGCCC CGGTGTGGTG AAGGAGCGTG CTAAAGAAAT CGAGTCTCGA
    GTGGTTTTCC AGGCAGGGCT CACCAAACCA TCCCAAATGA GGCGCTCAGC TTCTCTCGCC
    AAATTAGGTT ACTTGGACCT CTGTAAAGAC TGCTTACCAG AGAGGGAGCC TGCCTCCTGT
    GAATCCCCTC ATCTCAAACT GCTTCAGCCT TTCCTCAGAA CAGACTCAGG CATGCATGCC
    ATGGAGGACC AAGAGTCCCT AGAAAACCCA GGTGCCCCCC ACAACCCAGA GCCCACCAAG
    TATTTTGTAG AACAGCTCAC AACAACAGAG TGTATTGTGC AGAGCAAGCC AGTGGAGAGG
    CCCCTTGTGC AGTATGCCAA AGAATTTGGT TCCAGTCAGC AGTGTTTGCT TCCCAGGGCA
    GGACCTGAAT TGACTAGTTC TGAAGGAGGC CTTCCCATGC TACAGACCCA GGGACTGCAG
    TGTGCATGCC CAGCTCCAGG GCTGGCCGTG GCACCCCGTC AGCAACACGG CAGAACTCAC
    CCCCTTAGGA GACTGAAAAA GGCAAATGAC AAAAAACGGA CAACCAACCC CTTCTATAAT
    ACCATGTGA

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

    CloneID OMb10172
    Clone ID Related Accession (Same CDS sequence) XM_001111434.1
    Accession Version XM_001111434.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 protein phosphatase Slingshot homolog 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805556.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACATTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATACTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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

    RefSeq XP_001111434.1
    CDS155..4447
    Translation

    Target ORF information:

    RefSeq Version XM_001111434.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta slingshot protein phosphatase 2 (SSH2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001111434.1

    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
    ATGACCCTGA GCACGTTGGC CCGCAAGAGG AAGGCGCCTC TCACTTGCAC CTGCAGCCTT 
    GGTGGCCCCG ACATGATTCC TTACTTCTCC GCCAACGCGG TCATCTCGCA GAACGCCATC
    AACCAGCTCA TCAGCGAGAG CTTTCTAACT GTCAAAGGTG CTGCCCTTTT TCTACCACGG
    GGAAATGGCT CATCCACACC AAGAATCAGC CACAGACGGA ACAAACATGC AGGCGATCTC
    CAACAGCATC TCCAAGCAAT GTTCATATTA CTCCGCCCAG AAGACAACAT CAGGCTGGCT
    GTAAGACTGG AAAGTACTTA CCAGAATCGA ACACGCTATA TGGTAGTGGT TTCAACTAAT
    GGTAGACAAG ACACCGAAGA AAGCATCGTC CTAGGAATGG ATTTCTCCTC TAATGACAGT
    AGCACTTGTA CCATGGGCTT AGTTTTGCCT CTCTGGAGCG ACACGCTAAT TCATTTGGAT
    GGTGATGGTG GGTTCAGTGT ATCGACGGAT AACAGAGTTC ACATATTCAA ACCTGTATCT
    GTGCAGGCAA TGTGGTCTGC ACTACAGAGC TTACACAAGG CTTGTGAAGT CGCCAGAGCG
    CATAACTACT ACCCAGGCAG CCTATTTCTC ACCTGGGTGA GTTATTATGA GAGCCATATC
    AACTCAGATC AATCCTCAGT CAATGAATGG AATGCTATGC AAGATGTCCA GTCCCACCGG
    CCCGACTCTC CAGCTCTCTT CACCGACATA CCTACTGAAC GTGAACGAAC AGAAAGGCTA
    ATTAAAACCA AATTAAGGGA GATCATGATG CAGAAGGATT TGGAGAATAT TACATCCAAA
    GAGATAAGAA CAGAGTTGGA AATGCAAATG GTGTGCAACT TGCGGGAATT CAAGGAATTT
    ATAGACAACG AAATGATAGT GATCCTTGGT CAAATGGATA GCCCTACACA AATATTTGAG
    CATGTGTTCT TGGGCTCAGA ATGGAATGCC TCCAACTTAG AGGACTTACA GAACCGAGGG
    GTACGGTATA TCTTGAATGT CACTCGAGAG ATAGATAACT TCTTCCCAGG AGTCTTTGAG
    TATCATAACA TTCGGGTATA TGATGAAGAG GCAACGGATC TCCTGGCTTA CTGGAACGAC
    ACTTACAAAT TCATCTCTAA AGCAAAGAAA CATGGATCTA AATGCCTTGT GCACTGCAAA
    ATGGGGGTTA GTCGCTCAGC CTCCACCGTG ATTGCCTATG CAATGAAGGA ATATGGCTGG
    AATCTGGACC GAGCCTATGA CTACGTGAAA GAAAGACGAA CAGTGACCAA GCCCAACCCC
    AGCTTCATGA GACAACTGGA AGAGTATCAG GGGATCTTGC TGGCAAGCAA ACAGCGGCAT
    AACAAACTAT GGAGATCTCA TTCAGATAGT GACCTCTCAG ACCACCACGA ACCCATCTGC
    AAACCTGGGC TAGAACTCAA CAAGAAGGAG ATCACCACCT CAGCAGACCA GATTGCTGAG
    GTGAAGACCA TGGAGAGTCA CCCACCCATA CCTCCTGTCT TTGTGGAACA TGTGGTCCCA
    CAAGATGCAA ATCAGAAAGG CCTATGTACC AAAGAAAGAA TGATCTGCTT GGAGTTTACT
    TCTACGGAAT TTCATGCTGG ACAGATTGAG GATGAATTAA ACTTAAATGA CATCAATGGA
    TGCTCATCAG GGTGTTGTCT GAATGAATCA AAATTTCCTC TTGACAACTG CCATGCATCC
    AAAGCCTTAA TTCAGCCTGG ACATGTCCCA GAAATGGCCA ACAAGTTTCC AGACTTAACA
    GTGGAAGATT TGGAGACAGA CGCACTGAAA GCAGACATGA ATGTCCACCT ACTGCCTATG
    GAAGAATTGA CATCTCGACT GAAAGACCTC CCCATGTCCC CTGATCCTGA GTCACCAAGC
    CCCCAACCCA GTTGCCAGAC TGAAATCTCA GATTTCAGTA CAGATCGCAT TGACTTTTTT
    AGTGCCCTAG AGAAGTTTGT GGAGCTCTCC CAAGAAACCC GGTCACGATC TTTTTCCCAT
    TCAAGGATGG AGGAACTGGG TGGAGGAAGG AGTGAGAGCT GTCGACTGTC AGTGGTAGAA
    GTAGCCCCTT CCAAAGTGAC AACTGATGAC CAGAGAAGCA GCTCTTTGAG TAATACTCCC
    CATGCATCAG AAGAATCTTC AATGGATGAG GAACATTCAA AGGCAATTTC AGAACTGGTC
    AGCCCAGACA TCTTCATGCA GTCTCACTTG GAAAATGCAA TTTCAGTCAA AGAAATTGTC
    ACTGAAATTG AGTCCATCAG TCAAGGAGTT GGACAGATTC AACTGAAAGG AGACATCTTA
    TCCAACCCGT GCCATACACC AAAGAAGAAC AGCATCCATG AGCTGCTCTT TGAGAGGGCC
    CAGACCCCAG AGAACAAACC TGGACATCTG GAGCAAGACG AGGGCTCCTG CACAGCCCAG
    CCTGAACTAG CCAAAGACTC AGGGATGTGC AACCCAGAAG GCTGCCTAAC CACATGCTCA
    TCTACAGCAG ACTTGGAAGA AGGGGAACCA GCTGAGGGGG AACAAGAGCT CCAGGGCTCA
    GGGATGCACC CAGGTGCCAA GTGGTACCCT GGGTCTGTGA GGCGAGCCAC CTTGGAGTTT
    GAAGAGCGCT TACGGCAGGA GCAAGAGCAT CATGGTGCTG CCTCAACATG TACCTCATTG
    TCCACTCGTA AGAATTCAAA GAATGATTCT TCTGTGGCAG ACCTGGCACC AAAAGGGAAG
    AGTGACGAAG CCACCCCAGA ACATTCATTT GTCCCCAAGG AACCAGAGAT GAGCAAAGGC
    AAAGGGAAAT ACAGTGGGCC TGAGGCTGGC TCACTGTCCC ATTCTGAGCA GAATGCCACT
    GTTCCAGCTC CCAAGGTGCT GGGGTTTGAC CACTTGCCAG CTCCTCAGGA GGGCCCAGGG
    TCGGATACTG GAACACAGCA GGAAGGAGTC CTGAAGGATC TGAGGACTGT GATTCCATAC
    CAGGAGTCTG AGACACAGGC AGTCCCTCTT CCCCTTCCCA AGAGGGTAGA AATCATTGAG
    TATACCCACA CAGTTACATC ACCCAATCAC GCTGGGCCAG GGAGTGAAAT AGCCACTGGC
    GAGAAGAGCG GAGAGCAAGG ACTAAGGAAA GTGAACGTGG AAAAATCTGT CACTGTGCTC
    TGCACACTGG ATGAAAATCT AAACAGGACT CTGGACCCCA ACCAGGTTTC TCTGCACCCC
    CAAGTGCTAC CTCCGCCTCA TTCTTCCTCT CCTGAGCACA ACAGGCCCAC TGACCACCCG
    ACCTCCACGC TGAGTAGCCC TGAAGACAGA GGCAGCAGCC TGTCAACAGC CCTGGAGACA
    GCGGCACCTT TTGTCAGTCA TACAACCCAC TTACTGTCTG CCAGTTTGGA TTACCTGCAT
    CCCCAGACTA TGGTTCACCT GGAGGGCTTC ATAGAGCAGA GCAGCACCAC AGATGAGCCC
    TCTGCAGAAC AGGTTAGCTG GGAAGAAAGT CAGGACAGCC CTCTCTCCAG TGGCAGTGAG
    GTGCCATATA AGGACTCCCA GCTGAGTAGC GCAGACCTAA GTTTAATTAA CAAACTTGGT
    GACAACACTG GGGAGTTACA GGAGAAACTG GACCCATTGC CTGTAGCCTG TCGACTACCA
    CATAGCTCTA GTAGTGAAAA CATAAAGGGT CTCAGCCACA GCCCCGGTGT GGTGAAGGAG
    CGTGCTAAAG AAATCGAGTC TCGAGTGGTT TTCCAGGCAG GGCTCACCAA ACCATCCCAA
    ATGAGGCGCT CAGCTTCTCT CGCCAAATTA GGTTACTTGG ACCTCTGTAA AGACTGCTTA
    CCAGAGAGGG AGCCTGCCTC CTGTGAATCC CCTCATCTCA AACTGCTTCA GCCTTTCCTC
    AGAACAGACT CAGGCATGCA TGCCATGGAG GACCAAGAGT CCCTAGAAAA CCCAGGTGCC
    CCCCACAACC CAGAGCCCAC CAAGTATTTT GTAGAACAGC TCACAACAAC AGAGTGTATT
    GTGCAGAGCA AGCCAGTGGA GAGGCCCCTT GTGCAGTATG CCAAAGAATT TGGTTCCAGT
    CAGCAGTGTT TGCTTCCCAG GGCAGGACCT GAATTGACTA GTTCTGAAGG AGGCCTTCCC
    ATGCTACAGA CCCAGGGACT GCAGTGTGCA TGCCCAGCTC CAGGGCTGGC CGTGGCACCC
    CGTCAGCAAC ACGGCAGAAC TCACCCCCTT AGGAGACTGA AAAAGGCAAA TGACAAAAAA
    CGGACAACCA ACCCCTTCTA TAATACCATG TGA

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