PHLPP1 cDNA ORF clone, Pan troglodytes(chimpanzee)

The following PHLPP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PHLPP1 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
OPc74120 XM_523952.5
Latest version!
Pan troglodytes PH domain and leucine rich repeat protein phosphatase 1 (PHLPP1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
OPc74121 XM_016933837.2
Latest version!
Pan troglodytes PH domain and leucine rich repeat protein phosphatase 1 (PHLPP1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
View Old Accession Versions >>
OPc74121 XM_016933837.1 Pan troglodytes PH domain and leucine rich repeat protein phosphatase 1 (PHLPP1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OPc74120
    Clone ID Related Accession (Same CDS sequence) XM_523952.5
    Accession Version XM_523952.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5160bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product PH domain leucine-rich repeat-containing protein phosphatase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036897.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_523952.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGAGCCCG CCGCCGCGGC CACGGTACAG CGACTCCCCG AGCTCGGCAG GGAGGACCGA 
    GCTTCGGCTC CGGCGGCCGC CGCTGCGGCA GCAGCAGCAG CAGCAGCGGC GGCCGCGGCG
    GCTCTGGCGG CGGCGGCCGG GGGCGGCCGG AGTCCGGAGC CCGCGCTGAC CCCGGCGGCC
    CCGAGCGGCG GGAACGGCAG CGGCGGCGGG GCGCGGGAAG AGGCCCCAGG CGAGGCGCCG
    CCGGGGCCGC TGCCGGGCAG AGCAGGGGGT GCCGGGCGCA GGAGGCGGCG TGGGGCGCCC
    CAGCCCATTG CCGGCGGGGC TGCCTCCGTA CCCGGGGCCG GCGGCGGCGC CAACTCCCTC
    CTGCTGAGGA GAGGGCGGCT GAAGAGGAAT CTGTCCGCGG CCGCCGCGGC CGCCTCGTCG
    TCGTCGTCGT CCTCGGCCGC TGCTGCCTCG CACTCCCCCG GCGCTGCCGG CCTCCCCGCC
    TCCTGCTCGG CCTCGGCGTC GCTGTGCACC CGGAGCCTGG ACAGGAAGAC GCTGCTTCTG
    AAGCACCGGC AGACGCTGCA GCTGCAGCCG TCGGACCGGG ACTGGGTGAG GCACCAGCTC
    CAGCGCGGCT GCGTGCACGT CTTCGACCGC CACATGGCCT CGACCTACCT GCGCCCGGTG
    CTCTGCACAC TGGACACCAC GGCCGGCGAG GTGGCCGCCC GCCTGCTGCA GCTGGGCCAC
    AAAGGCGGCG GCGTGGTGAA GGTGCTGGGC CAGGGGCCCG GAGCCGCCGC CGCCCGGGAG
    CCCGCTGAAC CGCCCCCCGA GGCCGGCCCC CGGCTGGCGC CCCCGGAGCC GCGGGACTCG
    GAGGTACCGC CCGCGAGGAG CGCGCCGGGT GCCGTCGGGG GGCCTCCGCG CGCGCCCCCC
    GCCGACCTAC CCCTGCCCGT CGGCGGCCCG GGCGGGTGGT CGCGCCGCGC CAGCCCAGCG
    CCCTCGGACT CCAGCCCCGG CGAGCCGTTC GTTGGGGGCC CTGTCTCTTC GCCCCGCGCC
    CCACGGCCTG TGGTCTCCGA CACCGAGAGC TTCAGTCTGA GTCCCAGCGC CGAGAGCGTG
    TCTGACCGGT TGGACCCCTA CAGCAGCGGC GGCGGCTCCT CGTCGTCGGA AGAGCTCGAG
    GCCGACGCAG CCTCGGCCCC GACGGGGGTC CCGGGCCAGC CCCGCCGTCC CGGCCACCCC
    GCGCAGCCCC TCCCGCTTCC CCAGACGGCT TCCTCGCCTC AGCCGCAGCA GAAAGCCCCG
    AGGGCCATTG ACAGCCCGGG CGGGGCCGTC CGCGAGGGGT CGTGCGAGGA GAGGGCAGCG
    GCAGCCGTGG CCCCGGGAGG CCTCCAGTCT ACCCCCGGGA GGAGCGGGGT GACCGCGGAG
    AAGGCGCCTC CGCCGCCCCC GCCGCCCACC CTGTACGTGC AGCTCCACGG AGAGACCACC
    CGGCGCTTGG AGGCGGAGGA GAAGCCATTG CAGATCCAAA ATGACTACCT CTTCCAACTG
    GGATTTGGGG AGCTGTGGAG GGTGCAGGAG GAAGGCATGG ACTCGGAGAT TGGCTGCCTC
    ATCCGCTTCT ATGCAGGAAA ACCTCACAGC ACGGGTAGCT CTGAACGGAT TCAGCTCTCA
    GGAATGTATA ATGTCCGTAA AGGCAAGATG CAGTTGCCAG TGAACCGATG GACAAGACGC
    CAAGTCATCC TATGTGGGAC CTGCCTGATA GTATCATCTG TGAAAGACAG CTTGACCGGA
    AAGATGCATG TTCTGCCACT AATTGGTGGA AAAGTAGAAG AAGTGAAAAA GCACCAACAC
    TGTTTAGCAT TTAGCTCCTC TGGACCCCAA AGCCAGACTT ACTACATTTG CTTTGATACT
    TTCACAGAAT ACTTAAGGTG GCTGCGACAA GTCTCCAAGG TTGCATCCCA GCGCATTAGC
    TCAGTGGACC TCTCATGTTG TAGCCTGGAA CATCTGCCTG CCAACCTCTT CTACAGCCAA
    GACCTCACTC ATCTCAATTT AAAACAAAAC TTCCTAAGGC AGAACCCTAG CCTTCCAGCT
    GCCAGGGGGC TTAATGAACT GCAAAGGTTC ACCAAGTTGA AGAGTCTTAA CCTTTCCAAT
    AATCATTTAG GGGACTTCCC ACTGGCAGTC TGCAGTATTC CAACCCTGGC AGAGCTGAAC
    GTGTCCTGCA ATGCCCTGCG ATCAGTCCCG GCAGCTGTTG GAGTGATGCA CAACTTACAG
    ACATTTTTGT TGGATGGAAA CTTTCTCCAA TCCCTTCCTG CTGAGTTGGA GAACATGAAG
    CAGCTTAGTT ATCTGGGTCT TTCTTTCAAT GAATTTACTG ACATTCCCGA AGTATTGGAG
    AAATTGACTG CTGTGGATAA ACTTTGTATG TCTGGAAACT GTATGGAGAC CCTTAGGCTA
    CAGGCTTTAA GAAAAATGCC TCACATTAAA CATGTGGATC TAAGGTTGAA CGTAATTAGG
    AAGCTGATAG CAGATGAAGT GGACTTTCTA CAGCATGTTA CTCAGCTTGA CCTACGAGAC
    AATAAGCTTG GTGATCTAGA TGCTATGATT TTCAACAACA TTGAAGTTTT ACACTGTGAA
    AGGAATCAAC TGGTCACATT AGACATCTGT GGCTATTTCC TAAAAGCGCT CTATGCCTCT
    TCTAATGAAC TTGTTCAACT TGATGTTTAC CCAGTTCCAA ATTATCTGTC CTACATGGAT
    GTTTCAAGGA ACCGCTTAGA AAATGTGCCT GAGTGGGTAT GTGAAAGCCG AAAGCTAGAA
    GTTTTGGATA TTGGCCATAA TCAAATATGT GAACTTCCTG CCCGCTTATT TTGTAATAGC
    AGTCTCCGGA AACTACTGGC AGGACACAAC CAGTTGGCAA GGCTGCCTGA AAGGCTAGAA
    AGAACCTCGG TGGAGGTCTT GGATGTGCAA CACAACCAGC TCCTTGAGCT CCCGCCTAAC
    CTTCTGATGA AGGCTGACAG CCTGAGATTC CTGAACGCCT CTGCGAACAA ACTGGAAAGC
    CTTCCTCCAG CCACGCTTTC CGAAGAGACA AACAGTATCT TACAAGAGTT GTATTTGACA
    AATAACAGCC TCACAGACAA ATGTGTGCCC TTGTTAACGG GACACCCCCA TTTGAAGATC
    CTTCACATGG CCTATAACCG ACTTCAGAGT TTTCCAGCAA GTAAAATGGC GAAACTGGAG
    GAACTTGAAG AAATTGATCT CAGTGGGAAT AAGCTGAAAG CCATCCCAAC AACGATCATG
    AATTGCAGGC GCATGCACAC CGTGATTGCT CACTCCAACT GCATCGAGGT CTTTCCCGAA
    GTTATGCAGC TCCCAGAGAT CAAGTGTGTG GACCTGAGCT GTAATGAGCT AAGTGAAGTC
    ACATTACCAG AAAACCTGCC TCCCAAACTG CAGGAGCTAG ACCTGACTGG AAACCCGCGC
    CTTGTCCTTG ATCACAAAAC CCTGGAACTA CTGAATAATA TCCGCTGTTT CAAGATTGAT
    CAGCCTTCTA CAGGAGACGC TTCCGGAGCC CCAGCTGTAT GGAGTCATGG TTACACTGAA
    GCTTCGGGGG TAAAAAACAA GTTGTGTGTC GCAGCCCTGT CGGTGAATAA CTTCTGTGAC
    AACCGCGAAG CCCTGTATGG TGTGTTTGAC GGAGACCGGA ATGTGGAGGT GCCCTACCTT
    CTCCAGTGCA CTATGAGTGA CATTTTGGCT GAAGAGCTGC AAAAAACAAA AAACGAAGAA
    GAATACATGG TCAATACATT CATTGTCATG CAAAGGAAAC TTGGAACTGC TGGGCAGAAG
    CTTGGTGGTG CCGCTGTCCT TTGTCATATC AAGCATGACC CTGTGGATCC AGGAGGATCC
    TTCACCTTGA CCTCTGCTAA TGTGGGCAAG TGCCAAACAG TTCTCTGTCG AAATGGAAAG
    CCGCTGCCTC TGTCCAGATC TTACATCATG AGCTGTGAAG AAGAGCTGAA GAGGATTAAA
    CAGCACAAGG CCATTATCAC TGAGGATGGC AAGGTGAACG GAGTGACTGA GTCCACGCGC
    ATCCTGGGCT ACACCTTCCT CCATCCCAGT GTGGTGCCTC GCCCCCACGT GCAGTCCGTG
    CTCCTGACCC CCCAGGATGA GTTCTTCATC CTAGGCAGTA AGGGGTTGTG GGACAGCCTG
    TCCGTCGAGG AGGCCGTGGA GGCCGTGCGC AATGTGCCCG ACGCCCTGGC TGCTGCCAAG
    AAGCTGTGTA CCCTGGCCCA GAGCTACGGC TGCCACGACA GCATCAGCGC TGTGGTGGTG
    CAGCTCAGTG TCACTGAGGA CAGCTTCTGC TGCTGCGAGC TCAGCGCCAG TGGGGCTGTG
    CCACCACCCA GTCCTGGCAT CTTTCCTCCC TCAGTGAACA TGGTGATCAA GGATCGGCCC
    TCAGATGGGC TGGGCGTGCC ATCCTCCAGC AGCGGCATGG CTTCCGAGAT TAGCAGTGAG
    CTCTCCACTT CTGAGATGAG CAGCGAGGTG GGGTCAACAG CCTCCGATGA GCCCCCGCCC
    GGAGCCCTAA GCGAGAACAG CCCTGCCTAC CCCAGTGAGC AGCGCTGCAT GCTCCACCCC
    ATCTGTCTGT CCAACTCCTT CCAGCGCCAG CTATCCAGCG CCACGTTCTC TAGCGCCTTC
    TCCGACAACG GCCTTGACAG TGACGATGAG GAGCCCATCG AGGGCGTCTT CACCAACGGC
    AGCCGGGTGG AGGTGGAGGT GGACATCCAC TGCAGCCGGG CCAAGGAGAA GGAGAAACAG
    CAGCACCTGC TTCAGGTGCC AGCAGAGGCC AGCGATGAGG GCATTGTCAT CAGCACCAAC
    GAGGATGAGC CAGGTCTGCC CAGGAAGGCA GACTTCTCTG CCGTTGGGAC CATTGGGCGC
    CGGAGGGCCA ATGGCTCTGT TGCGCCCCAG GAAAGGAGCC ACAATGTGAT AGAGGTGGCT
    ACAGACGCAC CTCTTCGAAA GCCTGGAGGC TATTTTGCTG CCCCGGCTCA GCCGGATCCT
    GATGATCAGT TTATCATACC CCCGGAGCTG GAAGAGGAGG TCAAAGAAAT CATGAAGCAT
    CACCAGGAGC AACAGCAGCA GCAGCAGCAG CAGCCGCCAC CACCCCCTCA GCTCCAGCCG
    CAGCTGCCGC GGCACTACCA GCTGGACCAG CTGCCAGATT ATTACGACAC GCCACTATGA

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

    RefSeq XP_523952.3
    CDS246..5405
    Translation

    Target ORF information:

    RefSeq Version XM_523952.5
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes PH domain and leucine rich repeat protein phosphatase 1 (PHLPP1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_523952.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGAGCCCG CCGCCGCGGC CACGGTACAG CGACTCCCCG AGCTCGGCAG GGAGGACCGA 
    GCTTCGGCTC CGGCGGCCGC CGCTGCGGCA GCAGCAGCAG CAGCAGCGGC GGCCGCGGCG
    GCTCTGGCGG CGGCGGCCGG GGGCGGCCGG AGTCCGGAGC CCGCGCTGAC CCCGGCGGCC
    CCGAGCGGCG GGAACGGCAG CGGCGGCGGG GCGCGGGAAG AGGCCCCAGG CGAGGCGCCG
    CCGGGGCCGC TGCCGGGCAG AGCAGGGGGT GCCGGGCGCA GGAGGCGGCG TGGGGCGCCC
    CAGCCCATTG CCGGCGGGGC TGCCTCCGTA CCCGGGGCCG GCGGCGGCGC CAACTCCCTC
    CTGCTGAGGA GAGGGCGGCT GAAGAGGAAT CTGTCCGCGG CCGCCGCGGC CGCCTCGTCG
    TCGTCGTCGT CCTCGGCCGC TGCTGCCTCG CACTCCCCCG GCGCTGCCGG CCTCCCCGCC
    TCCTGCTCGG CCTCGGCGTC GCTGTGCACC CGGAGCCTGG ACAGGAAGAC GCTGCTTCTG
    AAGCACCGGC AGACGCTGCA GCTGCAGCCG TCGGACCGGG ACTGGGTGAG GCACCAGCTC
    CAGCGCGGCT GCGTGCACGT CTTCGACCGC CACATGGCCT CGACCTACCT GCGCCCGGTG
    CTCTGCACAC TGGACACCAC GGCCGGCGAG GTGGCCGCCC GCCTGCTGCA GCTGGGCCAC
    AAAGGCGGCG GCGTGGTGAA GGTGCTGGGC CAGGGGCCCG GAGCCGCCGC CGCCCGGGAG
    CCCGCTGAAC CGCCCCCCGA GGCCGGCCCC CGGCTGGCGC CCCCGGAGCC GCGGGACTCG
    GAGGTACCGC CCGCGAGGAG CGCGCCGGGT GCCGTCGGGG GGCCTCCGCG CGCGCCCCCC
    GCCGACCTAC CCCTGCCCGT CGGCGGCCCG GGCGGGTGGT CGCGCCGCGC CAGCCCAGCG
    CCCTCGGACT CCAGCCCCGG CGAGCCGTTC GTTGGGGGCC CTGTCTCTTC GCCCCGCGCC
    CCACGGCCTG TGGTCTCCGA CACCGAGAGC TTCAGTCTGA GTCCCAGCGC CGAGAGCGTG
    TCTGACCGGT TGGACCCCTA CAGCAGCGGC GGCGGCTCCT CGTCGTCGGA AGAGCTCGAG
    GCCGACGCAG CCTCGGCCCC GACGGGGGTC CCGGGCCAGC CCCGCCGTCC CGGCCACCCC
    GCGCAGCCCC TCCCGCTTCC CCAGACGGCT TCCTCGCCTC AGCCGCAGCA GAAAGCCCCG
    AGGGCCATTG ACAGCCCGGG CGGGGCCGTC CGCGAGGGGT CGTGCGAGGA GAGGGCAGCG
    GCAGCCGTGG CCCCGGGAGG CCTCCAGTCT ACCCCCGGGA GGAGCGGGGT GACCGCGGAG
    AAGGCGCCTC CGCCGCCCCC GCCGCCCACC CTGTACGTGC AGCTCCACGG AGAGACCACC
    CGGCGCTTGG AGGCGGAGGA GAAGCCATTG CAGATCCAAA ATGACTACCT CTTCCAACTG
    GGATTTGGGG AGCTGTGGAG GGTGCAGGAG GAAGGCATGG ACTCGGAGAT TGGCTGCCTC
    ATCCGCTTCT ATGCAGGAAA ACCTCACAGC ACGGGTAGCT CTGAACGGAT TCAGCTCTCA
    GGAATGTATA ATGTCCGTAA AGGCAAGATG CAGTTGCCAG TGAACCGATG GACAAGACGC
    CAAGTCATCC TATGTGGGAC CTGCCTGATA GTATCATCTG TGAAAGACAG CTTGACCGGA
    AAGATGCATG TTCTGCCACT AATTGGTGGA AAAGTAGAAG AAGTGAAAAA GCACCAACAC
    TGTTTAGCAT TTAGCTCCTC TGGACCCCAA AGCCAGACTT ACTACATTTG CTTTGATACT
    TTCACAGAAT ACTTAAGGTG GCTGCGACAA GTCTCCAAGG TTGCATCCCA GCGCATTAGC
    TCAGTGGACC TCTCATGTTG TAGCCTGGAA CATCTGCCTG CCAACCTCTT CTACAGCCAA
    GACCTCACTC ATCTCAATTT AAAACAAAAC TTCCTAAGGC AGAACCCTAG CCTTCCAGCT
    GCCAGGGGGC TTAATGAACT GCAAAGGTTC ACCAAGTTGA AGAGTCTTAA CCTTTCCAAT
    AATCATTTAG GGGACTTCCC ACTGGCAGTC TGCAGTATTC CAACCCTGGC AGAGCTGAAC
    GTGTCCTGCA ATGCCCTGCG ATCAGTCCCG GCAGCTGTTG GAGTGATGCA CAACTTACAG
    ACATTTTTGT TGGATGGAAA CTTTCTCCAA TCCCTTCCTG CTGAGTTGGA GAACATGAAG
    CAGCTTAGTT ATCTGGGTCT TTCTTTCAAT GAATTTACTG ACATTCCCGA AGTATTGGAG
    AAATTGACTG CTGTGGATAA ACTTTGTATG TCTGGAAACT GTATGGAGAC CCTTAGGCTA
    CAGGCTTTAA GAAAAATGCC TCACATTAAA CATGTGGATC TAAGGTTGAA CGTAATTAGG
    AAGCTGATAG CAGATGAAGT GGACTTTCTA CAGCATGTTA CTCAGCTTGA CCTACGAGAC
    AATAAGCTTG GTGATCTAGA TGCTATGATT TTCAACAACA TTGAAGTTTT ACACTGTGAA
    AGGAATCAAC TGGTCACATT AGACATCTGT GGCTATTTCC TAAAAGCGCT CTATGCCTCT
    TCTAATGAAC TTGTTCAACT TGATGTTTAC CCAGTTCCAA ATTATCTGTC CTACATGGAT
    GTTTCAAGGA ACCGCTTAGA AAATGTGCCT GAGTGGGTAT GTGAAAGCCG AAAGCTAGAA
    GTTTTGGATA TTGGCCATAA TCAAATATGT GAACTTCCTG CCCGCTTATT TTGTAATAGC
    AGTCTCCGGA AACTACTGGC AGGACACAAC CAGTTGGCAA GGCTGCCTGA AAGGCTAGAA
    AGAACCTCGG TGGAGGTCTT GGATGTGCAA CACAACCAGC TCCTTGAGCT CCCGCCTAAC
    CTTCTGATGA AGGCTGACAG CCTGAGATTC CTGAACGCCT CTGCGAACAA ACTGGAAAGC
    CTTCCTCCAG CCACGCTTTC CGAAGAGACA AACAGTATCT TACAAGAGTT GTATTTGACA
    AATAACAGCC TCACAGACAA ATGTGTGCCC TTGTTAACGG GACACCCCCA TTTGAAGATC
    CTTCACATGG CCTATAACCG ACTTCAGAGT TTTCCAGCAA GTAAAATGGC GAAACTGGAG
    GAACTTGAAG AAATTGATCT CAGTGGGAAT AAGCTGAAAG CCATCCCAAC AACGATCATG
    AATTGCAGGC GCATGCACAC CGTGATTGCT CACTCCAACT GCATCGAGGT CTTTCCCGAA
    GTTATGCAGC TCCCAGAGAT CAAGTGTGTG GACCTGAGCT GTAATGAGCT AAGTGAAGTC
    ACATTACCAG AAAACCTGCC TCCCAAACTG CAGGAGCTAG ACCTGACTGG AAACCCGCGC
    CTTGTCCTTG ATCACAAAAC CCTGGAACTA CTGAATAATA TCCGCTGTTT CAAGATTGAT
    CAGCCTTCTA CAGGAGACGC TTCCGGAGCC CCAGCTGTAT GGAGTCATGG TTACACTGAA
    GCTTCGGGGG TAAAAAACAA GTTGTGTGTC GCAGCCCTGT CGGTGAATAA CTTCTGTGAC
    AACCGCGAAG CCCTGTATGG TGTGTTTGAC GGAGACCGGA ATGTGGAGGT GCCCTACCTT
    CTCCAGTGCA CTATGAGTGA CATTTTGGCT GAAGAGCTGC AAAAAACAAA AAACGAAGAA
    GAATACATGG TCAATACATT CATTGTCATG CAAAGGAAAC TTGGAACTGC TGGGCAGAAG
    CTTGGTGGTG CCGCTGTCCT TTGTCATATC AAGCATGACC CTGTGGATCC AGGAGGATCC
    TTCACCTTGA CCTCTGCTAA TGTGGGCAAG TGCCAAACAG TTCTCTGTCG AAATGGAAAG
    CCGCTGCCTC TGTCCAGATC TTACATCATG AGCTGTGAAG AAGAGCTGAA GAGGATTAAA
    CAGCACAAGG CCATTATCAC TGAGGATGGC AAGGTGAACG GAGTGACTGA GTCCACGCGC
    ATCCTGGGCT ACACCTTCCT CCATCCCAGT GTGGTGCCTC GCCCCCACGT GCAGTCCGTG
    CTCCTGACCC CCCAGGATGA GTTCTTCATC CTAGGCAGTA AGGGGTTGTG GGACAGCCTG
    TCCGTCGAGG AGGCCGTGGA GGCCGTGCGC AATGTGCCCG ACGCCCTGGC TGCTGCCAAG
    AAGCTGTGTA CCCTGGCCCA GAGCTACGGC TGCCACGACA GCATCAGCGC TGTGGTGGTG
    CAGCTCAGTG TCACTGAGGA CAGCTTCTGC TGCTGCGAGC TCAGCGCCAG TGGGGCTGTG
    CCACCACCCA GTCCTGGCAT CTTTCCTCCC TCAGTGAACA TGGTGATCAA GGATCGGCCC
    TCAGATGGGC TGGGCGTGCC ATCCTCCAGC AGCGGCATGG CTTCCGAGAT TAGCAGTGAG
    CTCTCCACTT CTGAGATGAG CAGCGAGGTG GGGTCAACAG CCTCCGATGA GCCCCCGCCC
    GGAGCCCTAA GCGAGAACAG CCCTGCCTAC CCCAGTGAGC AGCGCTGCAT GCTCCACCCC
    ATCTGTCTGT CCAACTCCTT CCAGCGCCAG CTATCCAGCG CCACGTTCTC TAGCGCCTTC
    TCCGACAACG GCCTTGACAG TGACGATGAG GAGCCCATCG AGGGCGTCTT CACCAACGGC
    AGCCGGGTGG AGGTGGAGGT GGACATCCAC TGCAGCCGGG CCAAGGAGAA GGAGAAACAG
    CAGCACCTGC TTCAGGTGCC AGCAGAGGCC AGCGATGAGG GCATTGTCAT CAGCACCAAC
    GAGGATGAGC CAGGTCTGCC CAGGAAGGCA GACTTCTCTG CCGTTGGGAC CATTGGGCGC
    CGGAGGGCCA ATGGCTCTGT TGCGCCCCAG GAAAGGAGCC ACAATGTGAT AGAGGTGGCT
    ACAGACGCAC CTCTTCGAAA GCCTGGAGGC TATTTTGCTG CCCCGGCTCA GCCGGATCCT
    GATGATCAGT TTATCATACC CCCGGAGCTG GAAGAGGAGG TCAAAGAAAT CATGAAGCAT
    CACCAGGAGC AACAGCAGCA GCAGCAGCAG CAGCCGCCAC CACCCCCTCA GCTCCAGCCG
    CAGCTGCCGC GGCACTACCA GCTGGACCAG CTGCCAGATT ATTACGACAC GCCACTATGA

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

    CloneID OPc74121
    Clone ID Related Accession (Same CDS sequence) XM_016933837.2 , XM_016933837.1
    Accession Version XM_016933837.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4959bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product PH domain leucine-rich repeat-containing protein phosphatase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036897.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016933837.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGAGCCCG CCGCCGCGGC CACGGTACAG CGACTCCCCG AGCTCGGCAG GGAGGACCGA 
    GCTTCGGCTC CGGCGGCCGC CGCTGCGGCA GCAGCAGCAG CAGCAGCGGC GGCCGCGGCG
    GCTCTGGCGG CGGCGGCCGG GGGCGGCCGG AGTCCGGAGC CCGCGCTGAC CCCGGCGGCC
    CCGAGCGGCG GGAACGGCAG CGGCGGCGGG GCGCGGGAAG AGGCCCCAGG CGAGGCGCCG
    CCGGGGCCGC TGCCGGGCAG AGCAGGGGGT GCCGGGCGCA GGAGGCGGCG TGGGGCGCCC
    CAGCCCATTG CCGGCGGGGC TGCCTCCGTA CCCGGGGCCG GCGGCGGCGC CAACTCCCTC
    CTGCTGAGGA GAGGGCGGCT GAAGAGGAAT CTGTCCGCGG CCGCCGCGGC CGCCTCGTCG
    TCGTCGTCGT CCTCGGCCGC TGCTGCCTCG CACTCCCCCG GCGCTGCCGG CCTCCCCGCC
    TCCTGCTCGG CCTCGGCGTC GCTGTGCACC CGGAGCCTGG ACAGGAAGAC GCTGCTTCTG
    AAGCACCGGC AGACGCTGCA GCTGCAGCCG TCGGACCGGG ACTGGGTGAG GCACCAGCTC
    CAGCGCGGCT GCGTGCACGT CTTCGACCGC CACATGGCCT CGACCTACCT GCGCCCGGTG
    CTCTGCACAC TGGACACCAC GGCCGGCGAG GTGGCCGCCC GCCTGCTGCA GCTGGGCCAC
    AAAGGCGGCG GCGTGGTGAA GGTGCTGGGC CAGGGGCCCG GAGCCGCCGC CGCCCGGGAG
    CCCGCTGAAC CGCCCCCCGA GGCCGGCCCC CGGCTGGCGC CCCCGGAGCC GCGGGACTCG
    GAGGTACCGC CCGCGAGGAG CGCGCCGGGT GCCGTCGGGG GGCCTCCGCG CGCGCCCCCC
    GCCGACCTAC CCCTGCCCGT CGGCGGCCCG GGCGGGTGGT CGCGCCGCGC CAGCCCAGCG
    CCCTCGGACT CCAGCCCCGG CGAGCCGTTC GTTGGGGGCC CTGTCTCTTC GCCCCGCGCC
    CCACGGCCTG TGGTCTCCGA CACCGAGAGC TTCAGTCTGA GTCCCAGCGC CGAGAGCGTG
    TCTGACCGGT TGGACCCCTA CAGCAGCGGC GGCGGCTCCT CGTCGTCGGA AGAGCTCGAG
    GCCGACGCAG CCTCGGCCCC GACGGGGGTC CCGGGCCAGC CCCGCCGTCC CGGCCACCCC
    GCGCAGCCCC TCCCGCTTCC CCAGACGGCT TCCTCGCCTC AGCCGCAGCA GAAAGCCCCG
    AGGGCCATTG ACAGCCCGGG CGGGGCCGTC CGCGAGGGGT CGTGCGAGGA GAGGGCAGCG
    GCAGCCGTGG CCCCGGGAGG CCTCCAGTCT ACCCCCGGGA GGAGCGGGGT GACCGCGGAG
    AAGGCGCCTC CGCCGCCCCC GCCGCCCACC CTGTACGTGC AGCTCCACGG AGAGACCACC
    CGGCGCTTGG AGGCGGAGGA GAAGCCATTG CAGATCCAAA ATGACTACCT CTTCCAACTG
    GGATTTGGGG AGCTGTGGAG GGTGCAGGAG GAAGGCATGG ACTCGGAGAT TGGCTGCCTC
    ATCCGCTTCT ATGCAGGAAA ACCTCACAGC ACGGGTAGCT CTGAACGGAT TCAGCTCTCA
    GGAATGTATA ATGTCCGTAA AGGCAAGATG CAGTTGCCAG TGAACCGATG GACAAGACGC
    CAAGTCATCC TATGTGGGAC CTGCCTGATA GTATCATCTG TGAAAGACAG CTTGACCGGA
    AAGATGCATG TTCTGCCACT AATTGGTGGA AAAGTAGAAG AAGTGAAAAA GCACCAACAC
    TGTTTAGCAT TTAGCTCCTC TGGACCCCAA AGCCAGACTT ACTACATTTG CTTTGATACT
    TTCACAGAAT ACTTAAGGTG GCTGCGACAA GTCTCCAAGG TTGCATCCCA GCGCATTAGC
    TCAGTGGACC TCTCATGTTG TAGCCTGGAA CATCTGCCTG CCAACCTCTT CTACAGCCAA
    GACCTCACTC ATCTCAATTT AAAACAAAAC TTCCTAAGGC AGAACCCTAG CCTTCCAGCT
    GCCAGGGGGC TTAATGAACT GCAAAGGTTC ACCAAGTTGA AGAGTCTTAA CCTTTCCAAT
    AATCATTTAG GGGACTTCCC ACTGGCAGTC TGCAGTATTC CAACCCTGGC AGAGCTGAAC
    GTGTCCTGCA ATGCCCTGCG ATCAGTCCCG GCAGCTGTTG GAGTGATGCA CAACTTACAG
    ACATTTTTGT TGGATGGAAA CTTTCTCCAA TCCCTTCCTG CTGAGTTGGA GAACATGAAG
    CAGCTTAGTT ATCTGGGTCT TTCTTTCAAT GAATTTACTG ACATTCCCGA AGTATTGGAG
    AAATTGACTG CTGTGGATAA ACTTTGTATG TCTGGAAACT GTATGGAGAC CCTTAGGCTA
    CAGGCTTTAA GAAAAATGCC TCACATTAAA CATGTGGATC TAAGGTTGAA CGTAATTAGG
    AAGCTGATAG CAGATGAAGT GGACTTTCTA CAGCATGTTA CTCAGCTTGA CCTACGAGAC
    AATAAGCTTG GTGATCTAGA TGCTATGATT TTCAACAACA TTGAAGTTTT ACACTGTGAA
    AGGAATCAAC TGGTCACATT AGACATCTGT GGCTATTTCC TAAAAGCGCT CTATGCCTCT
    TCTAATGAAC TTGTTCAACT TGATGTTTAC CCAGTTCCAA ATTATCTGTC CTACATGGAT
    GTTTCAAGGA ACCGCTTAGA AAATGTGCCT GAGTGGGTAT GTGAAAGCCG AAAGCTAGAA
    GTTTTGGATA TTGGCCATAA TCAAATATGT GAACTTCCTG CCCGCTTATT TTGTAATAGC
    AGTCTCCGGA AACTACTGGC AGGACACAAC CAGTTGGCAA GGCTGCCTGA AAGGCTAGAA
    AGAACCTCGG TGGAGGTCTT GGATGTGCAA CACAACCAGC TCCTTGAGCT CCCGCCTAAC
    CTTCTGATGA AGGCTGACAG TAAAATGGCG AAACTGGAGG AACTTGAAGA AATTGATCTC
    AGTGGGAATA AGCTGAAAGC CATCCCAACA ACGATCATGA ATTGCAGGCG CATGCACACC
    GTGATTGCTC ACTCCAACTG CATCGAGGTC TTTCCCGAAG TTATGCAGCT CCCAGAGATC
    AAGTGTGTGG ACCTGAGCTG TAATGAGCTA AGTGAAGTCA CATTACCAGA AAACCTGCCT
    CCCAAACTGC AGGAGCTAGA CCTGACTGGA AACCCGCGCC TTGTCCTTGA TCACAAAACC
    CTGGAACTAC TGAATAATAT CCGCTGTTTC AAGATTGATC AGCCTTCTAC AGGAGACGCT
    TCCGGAGCCC CAGCTGTATG GAGTCATGGT TACACTGAAG CTTCGGGGGT AAAAAACAAG
    TTGTGTGTCG CAGCCCTGTC GGTGAATAAC TTCTGTGACA ACCGCGAAGC CCTGTATGGT
    GTGTTTGACG GAGACCGGAA TGTGGAGGTG CCCTACCTTC TCCAGTGCAC TATGAGTGAC
    ATTTTGGCTG AAGAGCTGCA AAAAACAAAA AACGAAGAAG AATACATGGT CAATACATTC
    ATTGTCATGC AAAGGAAACT TGGAACTGCT GGGCAGAAGC TTGGTGGTGC CGCTGTCCTT
    TGTCATATCA AGCATGACCC TGTGGATCCA GGAGGATCCT TCACCTTGAC CTCTGCTAAT
    GTGGGCAAGT GCCAAACAGT TCTCTGTCGA AATGGAAAGC CGCTGCCTCT GTCCAGATCT
    TACATCATGA GCTGTGAAGA AGAGCTGAAG AGGATTAAAC AGCACAAGGC CATTATCACT
    GAGGATGGCA AGGTGAACGG AGTGACTGAG TCCACGCGCA TCCTGGGCTA CACCTTCCTC
    CATCCCAGTG TGGTGCCTCG CCCCCACGTG CAGTCCGTGC TCCTGACCCC CCAGGATGAG
    TTCTTCATCC TAGGCAGTAA GGGGTTGTGG GACAGCCTGT CCGTCGAGGA GGCCGTGGAG
    GCCGTGCGCA ATGTGCCCGA CGCCCTGGCT GCTGCCAAGA AGCTGTGTAC CCTGGCCCAG
    AGCTACGGCT GCCACGACAG CATCAGCGCT GTGGTGGTGC AGCTCAGTGT CACTGAGGAC
    AGCTTCTGCT GCTGCGAGCT CAGCGCCAGT GGGGCTGTGC CACCACCCAG TCCTGGCATC
    TTTCCTCCCT CAGTGAACAT GGTGATCAAG GATCGGCCCT CAGATGGGCT GGGCGTGCCA
    TCCTCCAGCA GCGGCATGGC TTCCGAGATT AGCAGTGAGC TCTCCACTTC TGAGATGAGC
    AGCGAGGTGG GGTCAACAGC CTCCGATGAG CCCCCGCCCG GAGCCCTAAG CGAGAACAGC
    CCTGCCTACC CCAGTGAGCA GCGCTGCATG CTCCACCCCA TCTGTCTGTC CAACTCCTTC
    CAGCGCCAGC TATCCAGCGC CACGTTCTCT AGCGCCTTCT CCGACAACGG CCTTGACAGT
    GACGATGAGG AGCCCATCGA GGGCGTCTTC ACCAACGGCA GCCGGGTGGA GGTGGAGGTG
    GACATCCACT GCAGCCGGGC CAAGGAGAAG GAGAAACAGC AGCACCTGCT TCAGGTGCCA
    GCAGAGGCCA GCGATGAGGG CATTGTCATC AGCACCAACG AGGATGAGCC AGGTCTGCCC
    AGGAAGGCAG ACTTCTCTGC CGTTGGGACC ATTGGGCGCC GGAGGGCCAA TGGCTCTGTT
    GCGCCCCAGG AAAGGAGCCA CAATGTGATA GAGGTGGCTA CAGACGCACC TCTTCGAAAG
    CCTGGAGGCT ATTTTGCTGC CCCGGCTCAG CCGGATCCTG ATGATCAGTT TATCATACCC
    CCGGAGCTGG AAGAGGAGGT CAAAGAAATC ATGAAGCATC ACCAGGAGCA ACAGCAGCAG
    CAGCAGCAGC AGCCGCCACC ACCCCCTCAG CTCCAGCCGC AGCTGCCGCG GCACTACCAG
    CTGGACCAGC TGCCAGATTA TTACGACACG CCACTATGA

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

    RefSeq XP_016789326.1
    CDS240..5198
    Translation

    Target ORF information:

    RefSeq Version XM_016933837.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes PH domain and leucine rich repeat protein phosphatase 1 (PHLPP1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016933837.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGAGCCCG CCGCCGCGGC CACGGTACAG CGACTCCCCG AGCTCGGCAG GGAGGACCGA 
    GCTTCGGCTC CGGCGGCCGC CGCTGCGGCA GCAGCAGCAG CAGCAGCGGC GGCCGCGGCG
    GCTCTGGCGG CGGCGGCCGG GGGCGGCCGG AGTCCGGAGC CCGCGCTGAC CCCGGCGGCC
    CCGAGCGGCG GGAACGGCAG CGGCGGCGGG GCGCGGGAAG AGGCCCCAGG CGAGGCGCCG
    CCGGGGCCGC TGCCGGGCAG AGCAGGGGGT GCCGGGCGCA GGAGGCGGCG TGGGGCGCCC
    CAGCCCATTG CCGGCGGGGC TGCCTCCGTA CCCGGGGCCG GCGGCGGCGC CAACTCCCTC
    CTGCTGAGGA GAGGGCGGCT GAAGAGGAAT CTGTCCGCGG CCGCCGCGGC CGCCTCGTCG
    TCGTCGTCGT CCTCGGCCGC TGCTGCCTCG CACTCCCCCG GCGCTGCCGG CCTCCCCGCC
    TCCTGCTCGG CCTCGGCGTC GCTGTGCACC CGGAGCCTGG ACAGGAAGAC GCTGCTTCTG
    AAGCACCGGC AGACGCTGCA GCTGCAGCCG TCGGACCGGG ACTGGGTGAG GCACCAGCTC
    CAGCGCGGCT GCGTGCACGT CTTCGACCGC CACATGGCCT CGACCTACCT GCGCCCGGTG
    CTCTGCACAC TGGACACCAC GGCCGGCGAG GTGGCCGCCC GCCTGCTGCA GCTGGGCCAC
    AAAGGCGGCG GCGTGGTGAA GGTGCTGGGC CAGGGGCCCG GAGCCGCCGC CGCCCGGGAG
    CCCGCTGAAC CGCCCCCCGA GGCCGGCCCC CGGCTGGCGC CCCCGGAGCC GCGGGACTCG
    GAGGTACCGC CCGCGAGGAG CGCGCCGGGT GCCGTCGGGG GGCCTCCGCG CGCGCCCCCC
    GCCGACCTAC CCCTGCCCGT CGGCGGCCCG GGCGGGTGGT CGCGCCGCGC CAGCCCAGCG
    CCCTCGGACT CCAGCCCCGG CGAGCCGTTC GTTGGGGGCC CTGTCTCTTC GCCCCGCGCC
    CCACGGCCTG TGGTCTCCGA CACCGAGAGC TTCAGTCTGA GTCCCAGCGC CGAGAGCGTG
    TCTGACCGGT TGGACCCCTA CAGCAGCGGC GGCGGCTCCT CGTCGTCGGA AGAGCTCGAG
    GCCGACGCAG CCTCGGCCCC GACGGGGGTC CCGGGCCAGC CCCGCCGTCC CGGCCACCCC
    GCGCAGCCCC TCCCGCTTCC CCAGACGGCT TCCTCGCCTC AGCCGCAGCA GAAAGCCCCG
    AGGGCCATTG ACAGCCCGGG CGGGGCCGTC CGCGAGGGGT CGTGCGAGGA GAGGGCAGCG
    GCAGCCGTGG CCCCGGGAGG CCTCCAGTCT ACCCCCGGGA GGAGCGGGGT GACCGCGGAG
    AAGGCGCCTC CGCCGCCCCC GCCGCCCACC CTGTACGTGC AGCTCCACGG AGAGACCACC
    CGGCGCTTGG AGGCGGAGGA GAAGCCATTG CAGATCCAAA ATGACTACCT CTTCCAACTG
    GGATTTGGGG AGCTGTGGAG GGTGCAGGAG GAAGGCATGG ACTCGGAGAT TGGCTGCCTC
    ATCCGCTTCT ATGCAGGAAA ACCTCACAGC ACGGGTAGCT CTGAACGGAT TCAGCTCTCA
    GGAATGTATA ATGTCCGTAA AGGCAAGATG CAGTTGCCAG TGAACCGATG GACAAGACGC
    CAAGTCATCC TATGTGGGAC CTGCCTGATA GTATCATCTG TGAAAGACAG CTTGACCGGA
    AAGATGCATG TTCTGCCACT AATTGGTGGA AAAGTAGAAG AAGTGAAAAA GCACCAACAC
    TGTTTAGCAT TTAGCTCCTC TGGACCCCAA AGCCAGACTT ACTACATTTG CTTTGATACT
    TTCACAGAAT ACTTAAGGTG GCTGCGACAA GTCTCCAAGG TTGCATCCCA GCGCATTAGC
    TCAGTGGACC TCTCATGTTG TAGCCTGGAA CATCTGCCTG CCAACCTCTT CTACAGCCAA
    GACCTCACTC ATCTCAATTT AAAACAAAAC TTCCTAAGGC AGAACCCTAG CCTTCCAGCT
    GCCAGGGGGC TTAATGAACT GCAAAGGTTC ACCAAGTTGA AGAGTCTTAA CCTTTCCAAT
    AATCATTTAG GGGACTTCCC ACTGGCAGTC TGCAGTATTC CAACCCTGGC AGAGCTGAAC
    GTGTCCTGCA ATGCCCTGCG ATCAGTCCCG GCAGCTGTTG GAGTGATGCA CAACTTACAG
    ACATTTTTGT TGGATGGAAA CTTTCTCCAA TCCCTTCCTG CTGAGTTGGA GAACATGAAG
    CAGCTTAGTT ATCTGGGTCT TTCTTTCAAT GAATTTACTG ACATTCCCGA AGTATTGGAG
    AAATTGACTG CTGTGGATAA ACTTTGTATG TCTGGAAACT GTATGGAGAC CCTTAGGCTA
    CAGGCTTTAA GAAAAATGCC TCACATTAAA CATGTGGATC TAAGGTTGAA CGTAATTAGG
    AAGCTGATAG CAGATGAAGT GGACTTTCTA CAGCATGTTA CTCAGCTTGA CCTACGAGAC
    AATAAGCTTG GTGATCTAGA TGCTATGATT TTCAACAACA TTGAAGTTTT ACACTGTGAA
    AGGAATCAAC TGGTCACATT AGACATCTGT GGCTATTTCC TAAAAGCGCT CTATGCCTCT
    TCTAATGAAC TTGTTCAACT TGATGTTTAC CCAGTTCCAA ATTATCTGTC CTACATGGAT
    GTTTCAAGGA ACCGCTTAGA AAATGTGCCT GAGTGGGTAT GTGAAAGCCG AAAGCTAGAA
    GTTTTGGATA TTGGCCATAA TCAAATATGT GAACTTCCTG CCCGCTTATT TTGTAATAGC
    AGTCTCCGGA AACTACTGGC AGGACACAAC CAGTTGGCAA GGCTGCCTGA AAGGCTAGAA
    AGAACCTCGG TGGAGGTCTT GGATGTGCAA CACAACCAGC TCCTTGAGCT CCCGCCTAAC
    CTTCTGATGA AGGCTGACAG TAAAATGGCG AAACTGGAGG AACTTGAAGA AATTGATCTC
    AGTGGGAATA AGCTGAAAGC CATCCCAACA ACGATCATGA ATTGCAGGCG CATGCACACC
    GTGATTGCTC ACTCCAACTG CATCGAGGTC TTTCCCGAAG TTATGCAGCT CCCAGAGATC
    AAGTGTGTGG ACCTGAGCTG TAATGAGCTA AGTGAAGTCA CATTACCAGA AAACCTGCCT
    CCCAAACTGC AGGAGCTAGA CCTGACTGGA AACCCGCGCC TTGTCCTTGA TCACAAAACC
    CTGGAACTAC TGAATAATAT CCGCTGTTTC AAGATTGATC AGCCTTCTAC AGGAGACGCT
    TCCGGAGCCC CAGCTGTATG GAGTCATGGT TACACTGAAG CTTCGGGGGT AAAAAACAAG
    TTGTGTGTCG CAGCCCTGTC GGTGAATAAC TTCTGTGACA ACCGCGAAGC CCTGTATGGT
    GTGTTTGACG GAGACCGGAA TGTGGAGGTG CCCTACCTTC TCCAGTGCAC TATGAGTGAC
    ATTTTGGCTG AAGAGCTGCA AAAAACAAAA AACGAAGAAG AATACATGGT CAATACATTC
    ATTGTCATGC AAAGGAAACT TGGAACTGCT GGGCAGAAGC TTGGTGGTGC CGCTGTCCTT
    TGTCATATCA AGCATGACCC TGTGGATCCA GGAGGATCCT TCACCTTGAC CTCTGCTAAT
    GTGGGCAAGT GCCAAACAGT TCTCTGTCGA AATGGAAAGC CGCTGCCTCT GTCCAGATCT
    TACATCATGA GCTGTGAAGA AGAGCTGAAG AGGATTAAAC AGCACAAGGC CATTATCACT
    GAGGATGGCA AGGTGAACGG AGTGACTGAG TCCACGCGCA TCCTGGGCTA CACCTTCCTC
    CATCCCAGTG TGGTGCCTCG CCCCCACGTG CAGTCCGTGC TCCTGACCCC CCAGGATGAG
    TTCTTCATCC TAGGCAGTAA GGGGTTGTGG GACAGCCTGT CCGTCGAGGA GGCCGTGGAG
    GCCGTGCGCA ATGTGCCCGA CGCCCTGGCT GCTGCCAAGA AGCTGTGTAC CCTGGCCCAG
    AGCTACGGCT GCCACGACAG CATCAGCGCT GTGGTGGTGC AGCTCAGTGT CACTGAGGAC
    AGCTTCTGCT GCTGCGAGCT CAGCGCCAGT GGGGCTGTGC CACCACCCAG TCCTGGCATC
    TTTCCTCCCT CAGTGAACAT GGTGATCAAG GATCGGCCCT CAGATGGGCT GGGCGTGCCA
    TCCTCCAGCA GCGGCATGGC TTCCGAGATT AGCAGTGAGC TCTCCACTTC TGAGATGAGC
    AGCGAGGTGG GGTCAACAGC CTCCGATGAG CCCCCGCCCG GAGCCCTAAG CGAGAACAGC
    CCTGCCTACC CCAGTGAGCA GCGCTGCATG CTCCACCCCA TCTGTCTGTC CAACTCCTTC
    CAGCGCCAGC TATCCAGCGC CACGTTCTCT AGCGCCTTCT CCGACAACGG CCTTGACAGT
    GACGATGAGG AGCCCATCGA GGGCGTCTTC ACCAACGGCA GCCGGGTGGA GGTGGAGGTG
    GACATCCACT GCAGCCGGGC CAAGGAGAAG GAGAAACAGC AGCACCTGCT TCAGGTGCCA
    GCAGAGGCCA GCGATGAGGG CATTGTCATC AGCACCAACG AGGATGAGCC AGGTCTGCCC
    AGGAAGGCAG ACTTCTCTGC CGTTGGGACC ATTGGGCGCC GGAGGGCCAA TGGCTCTGTT
    GCGCCCCAGG AAAGGAGCCA CAATGTGATA GAGGTGGCTA CAGACGCACC TCTTCGAAAG
    CCTGGAGGCT ATTTTGCTGC CCCGGCTCAG CCGGATCCTG ATGATCAGTT TATCATACCC
    CCGGAGCTGG AAGAGGAGGT CAAAGAAATC ATGAAGCATC ACCAGGAGCA ACAGCAGCAG
    CAGCAGCAGC AGCCGCCACC ACCCCCTCAG CTCCAGCCGC AGCTGCCGCG GCACTACCAG
    CTGGACCAGC TGCCAGATTA TTACGACACG CCACTATGA

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

    CloneID OPc74121
    Clone ID Related Accession (Same CDS sequence) XM_016933837.2 , XM_016933837.1
    Accession Version XM_016933837.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4959bp)
    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 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product PH domain leucine-rich repeat-containing protein phosphatase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006485.4) 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 :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGAGCCCG CCGCCGCGGC CACGGTACAG CGACTCCCCG AGCTCGGCAG GGAGGACCGA 
    GCTTCGGCTC CGGCGGCCGC CGCTGCGGCA GCAGCAGCAG CAGCAGCGGC GGCCGCGGCG
    GCTCTGGCGG CGGCGGCCGG GGGCGGCCGG AGTCCGGAGC CCGCGCTGAC CCCGGCGGCC
    CCGAGCGGCG GGAACGGCAG CGGCGGCGGG GCGCGGGAAG AGGCCCCAGG CGAGGCGCCG
    CCGGGGCCGC TGCCGGGCAG AGCAGGGGGT GCCGGGCGCA GGAGGCGGCG TGGGGCGCCC
    CAGCCCATTG CCGGCGGGGC TGCCTCCGTA CCCGGGGCCG GCGGCGGCGC CAACTCCCTC
    CTGCTGAGGA GAGGGCGGCT GAAGAGGAAT CTGTCCGCGG CCGCCGCGGC CGCCTCGTCG
    TCGTCGTCGT CCTCGGCCGC TGCTGCCTCG CACTCCCCCG GCGCTGCCGG CCTCCCCGCC
    TCCTGCTCGG CCTCGGCGTC GCTGTGCACC CGGAGCCTGG ACAGGAAGAC GCTGCTTCTG
    AAGCACCGGC AGACGCTGCA GCTGCAGCCG TCGGACCGGG ACTGGGTGAG GCACCAGCTC
    CAGCGCGGCT GCGTGCACGT CTTCGACCGC CACATGGCCT CGACCTACCT GCGCCCGGTG
    CTCTGCACAC TGGACACCAC GGCCGGCGAG GTGGCCGCCC GCCTGCTGCA GCTGGGCCAC
    AAAGGCGGCG GCGTGGTGAA GGTGCTGGGC CAGGGGCCCG GAGCCGCCGC CGCCCGGGAG
    CCCGCTGAAC CGCCCCCCGA GGCCGGCCCC CGGCTGGCGC CCCCGGAGCC GCGGGACTCG
    GAGGTACCGC CCGCGAGGAG CGCGCCGGGT GCCGTCGGGG GGCCTCCGCG CGCGCCCCCC
    GCCGACCTAC CCCTGCCCGT CGGCGGCCCG GGCGGGTGGT CGCGCCGCGC CAGCCCAGCG
    CCCTCGGACT CCAGCCCCGG CGAGCCGTTC GTTGGGGGCC CTGTCTCTTC GCCCCGCGCC
    CCACGGCCTG TGGTCTCCGA CACCGAGAGC TTCAGTCTGA GTCCCAGCGC CGAGAGCGTG
    TCTGACCGGT TGGACCCCTA CAGCAGCGGC GGCGGCTCCT CGTCGTCGGA AGAGCTCGAG
    GCCGACGCAG CCTCGGCCCC GACGGGGGTC CCGGGCCAGC CCCGCCGTCC CGGCCACCCC
    GCGCAGCCCC TCCCGCTTCC CCAGACGGCT TCCTCGCCTC AGCCGCAGCA GAAAGCCCCG
    AGGGCCATTG ACAGCCCGGG CGGGGCCGTC CGCGAGGGGT CGTGCGAGGA GAGGGCAGCG
    GCAGCCGTGG CCCCGGGAGG CCTCCAGTCT ACCCCCGGGA GGAGCGGGGT GACCGCGGAG
    AAGGCGCCTC CGCCGCCCCC GCCGCCCACC CTGTACGTGC AGCTCCACGG AGAGACCACC
    CGGCGCTTGG AGGCGGAGGA GAAGCCATTG CAGATCCAAA ATGACTACCT CTTCCAACTG
    GGATTTGGGG AGCTGTGGAG GGTGCAGGAG GAAGGCATGG ACTCGGAGAT TGGCTGCCTC
    ATCCGCTTCT ATGCAGGAAA ACCTCACAGC ACGGGTAGCT CTGAACGGAT TCAGCTCTCA
    GGAATGTATA ATGTCCGTAA AGGCAAGATG CAGTTGCCAG TGAACCGATG GACAAGACGC
    CAAGTCATCC TATGTGGGAC CTGCCTGATA GTATCATCTG TGAAAGACAG CTTGACCGGA
    AAGATGCATG TTCTGCCACT AATTGGTGGA AAAGTAGAAG AAGTGAAAAA GCACCAACAC
    TGTTTAGCAT TTAGCTCCTC TGGACCCCAA AGCCAGACTT ACTACATTTG CTTTGATACT
    TTCACAGAAT ACTTAAGGTG GCTGCGACAA GTCTCCAAGG TTGCATCCCA GCGCATTAGC
    TCAGTGGACC TCTCATGTTG TAGCCTGGAA CATCTGCCTG CCAACCTCTT CTACAGCCAA
    GACCTCACTC ATCTCAATTT AAAACAAAAC TTCCTAAGGC AGAACCCTAG CCTTCCAGCT
    GCCAGGGGGC TTAATGAACT GCAAAGGTTC ACCAAGTTGA AGAGTCTTAA CCTTTCCAAT
    AATCATTTAG GGGACTTCCC ACTGGCAGTC TGCAGTATTC CAACCCTGGC AGAGCTGAAC
    GTGTCCTGCA ATGCCCTGCG ATCAGTCCCG GCAGCTGTTG GAGTGATGCA CAACTTACAG
    ACATTTTTGT TGGATGGAAA CTTTCTCCAA TCCCTTCCTG CTGAGTTGGA GAACATGAAG
    CAGCTTAGTT ATCTGGGTCT TTCTTTCAAT GAATTTACTG ACATTCCCGA AGTATTGGAG
    AAATTGACTG CTGTGGATAA ACTTTGTATG TCTGGAAACT GTATGGAGAC CCTTAGGCTA
    CAGGCTTTAA GAAAAATGCC TCACATTAAA CATGTGGATC TAAGGTTGAA CGTAATTAGG
    AAGCTGATAG CAGATGAAGT GGACTTTCTA CAGCATGTTA CTCAGCTTGA CCTACGAGAC
    AATAAGCTTG GTGATCTAGA TGCTATGATT TTCAACAACA TTGAAGTTTT ACACTGTGAA
    AGGAATCAAC TGGTCACATT AGACATCTGT GGCTATTTCC TAAAAGCGCT CTATGCCTCT
    TCTAATGAAC TTGTTCAACT TGATGTTTAC CCAGTTCCAA ATTATCTGTC CTACATGGAT
    GTTTCAAGGA ACCGCTTAGA AAATGTGCCT GAGTGGGTAT GTGAAAGCCG AAAGCTAGAA
    GTTTTGGATA TTGGCCATAA TCAAATATGT GAACTTCCTG CCCGCTTATT TTGTAATAGC
    AGTCTCCGGA AACTACTGGC AGGACACAAC CAGTTGGCAA GGCTGCCTGA AAGGCTAGAA
    AGAACCTCGG TGGAGGTCTT GGATGTGCAA CACAACCAGC TCCTTGAGCT CCCGCCTAAC
    CTTCTGATGA AGGCTGACAG TAAAATGGCG AAACTGGAGG AACTTGAAGA AATTGATCTC
    AGTGGGAATA AGCTGAAAGC CATCCCAACA ACGATCATGA ATTGCAGGCG CATGCACACC
    GTGATTGCTC ACTCCAACTG CATCGAGGTC TTTCCCGAAG TTATGCAGCT CCCAGAGATC
    AAGTGTGTGG ACCTGAGCTG TAATGAGCTA AGTGAAGTCA CATTACCAGA AAACCTGCCT
    CCCAAACTGC AGGAGCTAGA CCTGACTGGA AACCCGCGCC TTGTCCTTGA TCACAAAACC
    CTGGAACTAC TGAATAATAT CCGCTGTTTC AAGATTGATC AGCCTTCTAC AGGAGACGCT
    TCCGGAGCCC CAGCTGTATG GAGTCATGGT TACACTGAAG CTTCGGGGGT AAAAAACAAG
    TTGTGTGTCG CAGCCCTGTC GGTGAATAAC TTCTGTGACA ACCGCGAAGC CCTGTATGGT
    GTGTTTGACG GAGACCGGAA TGTGGAGGTG CCCTACCTTC TCCAGTGCAC TATGAGTGAC
    ATTTTGGCTG AAGAGCTGCA AAAAACAAAA AACGAAGAAG AATACATGGT CAATACATTC
    ATTGTCATGC AAAGGAAACT TGGAACTGCT GGGCAGAAGC TTGGTGGTGC CGCTGTCCTT
    TGTCATATCA AGCATGACCC TGTGGATCCA GGAGGATCCT TCACCTTGAC CTCTGCTAAT
    GTGGGCAAGT GCCAAACAGT TCTCTGTCGA AATGGAAAGC CGCTGCCTCT GTCCAGATCT
    TACATCATGA GCTGTGAAGA AGAGCTGAAG AGGATTAAAC AGCACAAGGC CATTATCACT
    GAGGATGGCA AGGTGAACGG AGTGACTGAG TCCACGCGCA TCCTGGGCTA CACCTTCCTC
    CATCCCAGTG TGGTGCCTCG CCCCCACGTG CAGTCCGTGC TCCTGACCCC CCAGGATGAG
    TTCTTCATCC TAGGCAGTAA GGGGTTGTGG GACAGCCTGT CCGTCGAGGA GGCCGTGGAG
    GCCGTGCGCA ATGTGCCCGA CGCCCTGGCT GCTGCCAAGA AGCTGTGTAC CCTGGCCCAG
    AGCTACGGCT GCCACGACAG CATCAGCGCT GTGGTGGTGC AGCTCAGTGT CACTGAGGAC
    AGCTTCTGCT GCTGCGAGCT CAGCGCCAGT GGGGCTGTGC CACCACCCAG TCCTGGCATC
    TTTCCTCCCT CAGTGAACAT GGTGATCAAG GATCGGCCCT CAGATGGGCT GGGCGTGCCA
    TCCTCCAGCA GCGGCATGGC TTCCGAGATT AGCAGTGAGC TCTCCACTTC TGAGATGAGC
    AGCGAGGTGG GGTCAACAGC CTCCGATGAG CCCCCGCCCG GAGCCCTAAG CGAGAACAGC
    CCTGCCTACC CCAGTGAGCA GCGCTGCATG CTCCACCCCA TCTGTCTGTC CAACTCCTTC
    CAGCGCCAGC TATCCAGCGC CACGTTCTCT AGCGCCTTCT CCGACAACGG CCTTGACAGT
    GACGATGAGG AGCCCATCGA GGGCGTCTTC ACCAACGGCA GCCGGGTGGA GGTGGAGGTG
    GACATCCACT GCAGCCGGGC CAAGGAGAAG GAGAAACAGC AGCACCTGCT TCAGGTGCCA
    GCAGAGGCCA GCGATGAGGG CATTGTCATC AGCACCAACG AGGATGAGCC AGGTCTGCCC
    AGGAAGGCAG ACTTCTCTGC CGTTGGGACC ATTGGGCGCC GGAGGGCCAA TGGCTCTGTT
    GCGCCCCAGG AAAGGAGCCA CAATGTGATA GAGGTGGCTA CAGACGCACC TCTTCGAAAG
    CCTGGAGGCT ATTTTGCTGC CCCGGCTCAG CCGGATCCTG ATGATCAGTT TATCATACCC
    CCGGAGCTGG AAGAGGAGGT CAAAGAAATC ATGAAGCATC ACCAGGAGCA ACAGCAGCAG
    CAGCAGCAGC AGCCGCCACC ACCCCCTCAG CTCCAGCCGC AGCTGCCGCG GCACTACCAG
    CTGGACCAGC TGCCAGATTA TTACGACACG CCACTATGA

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

    RefSeq XP_016789326.1
    CDS215..5173
    Translation

    Target ORF information:

    RefSeq Version XM_016933837.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes PH domain and leucine rich repeat protein phosphatase 1 (PHLPP1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016933837.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGAGCCCG CCGCCGCGGC CACGGTACAG CGACTCCCCG AGCTCGGCAG GGAGGACCGA 
    GCTTCGGCTC CGGCGGCCGC CGCTGCGGCA GCAGCAGCAG CAGCAGCGGC GGCCGCGGCG
    GCTCTGGCGG CGGCGGCCGG GGGCGGCCGG AGTCCGGAGC CCGCGCTGAC CCCGGCGGCC
    CCGAGCGGCG GGAACGGCAG CGGCGGCGGG GCGCGGGAAG AGGCCCCAGG CGAGGCGCCG
    CCGGGGCCGC TGCCGGGCAG AGCAGGGGGT GCCGGGCGCA GGAGGCGGCG TGGGGCGCCC
    CAGCCCATTG CCGGCGGGGC TGCCTCCGTA CCCGGGGCCG GCGGCGGCGC CAACTCCCTC
    CTGCTGAGGA GAGGGCGGCT GAAGAGGAAT CTGTCCGCGG CCGCCGCGGC CGCCTCGTCG
    TCGTCGTCGT CCTCGGCCGC TGCTGCCTCG CACTCCCCCG GCGCTGCCGG CCTCCCCGCC
    TCCTGCTCGG CCTCGGCGTC GCTGTGCACC CGGAGCCTGG ACAGGAAGAC GCTGCTTCTG
    AAGCACCGGC AGACGCTGCA GCTGCAGCCG TCGGACCGGG ACTGGGTGAG GCACCAGCTC
    CAGCGCGGCT GCGTGCACGT CTTCGACCGC CACATGGCCT CGACCTACCT GCGCCCGGTG
    CTCTGCACAC TGGACACCAC GGCCGGCGAG GTGGCCGCCC GCCTGCTGCA GCTGGGCCAC
    AAAGGCGGCG GCGTGGTGAA GGTGCTGGGC CAGGGGCCCG GAGCCGCCGC CGCCCGGGAG
    CCCGCTGAAC CGCCCCCCGA GGCCGGCCCC CGGCTGGCGC CCCCGGAGCC GCGGGACTCG
    GAGGTACCGC CCGCGAGGAG CGCGCCGGGT GCCGTCGGGG GGCCTCCGCG CGCGCCCCCC
    GCCGACCTAC CCCTGCCCGT CGGCGGCCCG GGCGGGTGGT CGCGCCGCGC CAGCCCAGCG
    CCCTCGGACT CCAGCCCCGG CGAGCCGTTC GTTGGGGGCC CTGTCTCTTC GCCCCGCGCC
    CCACGGCCTG TGGTCTCCGA CACCGAGAGC TTCAGTCTGA GTCCCAGCGC CGAGAGCGTG
    TCTGACCGGT TGGACCCCTA CAGCAGCGGC GGCGGCTCCT CGTCGTCGGA AGAGCTCGAG
    GCCGACGCAG CCTCGGCCCC GACGGGGGTC CCGGGCCAGC CCCGCCGTCC CGGCCACCCC
    GCGCAGCCCC TCCCGCTTCC CCAGACGGCT TCCTCGCCTC AGCCGCAGCA GAAAGCCCCG
    AGGGCCATTG ACAGCCCGGG CGGGGCCGTC CGCGAGGGGT CGTGCGAGGA GAGGGCAGCG
    GCAGCCGTGG CCCCGGGAGG CCTCCAGTCT ACCCCCGGGA GGAGCGGGGT GACCGCGGAG
    AAGGCGCCTC CGCCGCCCCC GCCGCCCACC CTGTACGTGC AGCTCCACGG AGAGACCACC
    CGGCGCTTGG AGGCGGAGGA GAAGCCATTG CAGATCCAAA ATGACTACCT CTTCCAACTG
    GGATTTGGGG AGCTGTGGAG GGTGCAGGAG GAAGGCATGG ACTCGGAGAT TGGCTGCCTC
    ATCCGCTTCT ATGCAGGAAA ACCTCACAGC ACGGGTAGCT CTGAACGGAT TCAGCTCTCA
    GGAATGTATA ATGTCCGTAA AGGCAAGATG CAGTTGCCAG TGAACCGATG GACAAGACGC
    CAAGTCATCC TATGTGGGAC CTGCCTGATA GTATCATCTG TGAAAGACAG CTTGACCGGA
    AAGATGCATG TTCTGCCACT AATTGGTGGA AAAGTAGAAG AAGTGAAAAA GCACCAACAC
    TGTTTAGCAT TTAGCTCCTC TGGACCCCAA AGCCAGACTT ACTACATTTG CTTTGATACT
    TTCACAGAAT ACTTAAGGTG GCTGCGACAA GTCTCCAAGG TTGCATCCCA GCGCATTAGC
    TCAGTGGACC TCTCATGTTG TAGCCTGGAA CATCTGCCTG CCAACCTCTT CTACAGCCAA
    GACCTCACTC ATCTCAATTT AAAACAAAAC TTCCTAAGGC AGAACCCTAG CCTTCCAGCT
    GCCAGGGGGC TTAATGAACT GCAAAGGTTC ACCAAGTTGA AGAGTCTTAA CCTTTCCAAT
    AATCATTTAG GGGACTTCCC ACTGGCAGTC TGCAGTATTC CAACCCTGGC AGAGCTGAAC
    GTGTCCTGCA ATGCCCTGCG ATCAGTCCCG GCAGCTGTTG GAGTGATGCA CAACTTACAG
    ACATTTTTGT TGGATGGAAA CTTTCTCCAA TCCCTTCCTG CTGAGTTGGA GAACATGAAG
    CAGCTTAGTT ATCTGGGTCT TTCTTTCAAT GAATTTACTG ACATTCCCGA AGTATTGGAG
    AAATTGACTG CTGTGGATAA ACTTTGTATG TCTGGAAACT GTATGGAGAC CCTTAGGCTA
    CAGGCTTTAA GAAAAATGCC TCACATTAAA CATGTGGATC TAAGGTTGAA CGTAATTAGG
    AAGCTGATAG CAGATGAAGT GGACTTTCTA CAGCATGTTA CTCAGCTTGA CCTACGAGAC
    AATAAGCTTG GTGATCTAGA TGCTATGATT TTCAACAACA TTGAAGTTTT ACACTGTGAA
    AGGAATCAAC TGGTCACATT AGACATCTGT GGCTATTTCC TAAAAGCGCT CTATGCCTCT
    TCTAATGAAC TTGTTCAACT TGATGTTTAC CCAGTTCCAA ATTATCTGTC CTACATGGAT
    GTTTCAAGGA ACCGCTTAGA AAATGTGCCT GAGTGGGTAT GTGAAAGCCG AAAGCTAGAA
    GTTTTGGATA TTGGCCATAA TCAAATATGT GAACTTCCTG CCCGCTTATT TTGTAATAGC
    AGTCTCCGGA AACTACTGGC AGGACACAAC CAGTTGGCAA GGCTGCCTGA AAGGCTAGAA
    AGAACCTCGG TGGAGGTCTT GGATGTGCAA CACAACCAGC TCCTTGAGCT CCCGCCTAAC
    CTTCTGATGA AGGCTGACAG TAAAATGGCG AAACTGGAGG AACTTGAAGA AATTGATCTC
    AGTGGGAATA AGCTGAAAGC CATCCCAACA ACGATCATGA ATTGCAGGCG CATGCACACC
    GTGATTGCTC ACTCCAACTG CATCGAGGTC TTTCCCGAAG TTATGCAGCT CCCAGAGATC
    AAGTGTGTGG ACCTGAGCTG TAATGAGCTA AGTGAAGTCA CATTACCAGA AAACCTGCCT
    CCCAAACTGC AGGAGCTAGA CCTGACTGGA AACCCGCGCC TTGTCCTTGA TCACAAAACC
    CTGGAACTAC TGAATAATAT CCGCTGTTTC AAGATTGATC AGCCTTCTAC AGGAGACGCT
    TCCGGAGCCC CAGCTGTATG GAGTCATGGT TACACTGAAG CTTCGGGGGT AAAAAACAAG
    TTGTGTGTCG CAGCCCTGTC GGTGAATAAC TTCTGTGACA ACCGCGAAGC CCTGTATGGT
    GTGTTTGACG GAGACCGGAA TGTGGAGGTG CCCTACCTTC TCCAGTGCAC TATGAGTGAC
    ATTTTGGCTG AAGAGCTGCA AAAAACAAAA AACGAAGAAG AATACATGGT CAATACATTC
    ATTGTCATGC AAAGGAAACT TGGAACTGCT GGGCAGAAGC TTGGTGGTGC CGCTGTCCTT
    TGTCATATCA AGCATGACCC TGTGGATCCA GGAGGATCCT TCACCTTGAC CTCTGCTAAT
    GTGGGCAAGT GCCAAACAGT TCTCTGTCGA AATGGAAAGC CGCTGCCTCT GTCCAGATCT
    TACATCATGA GCTGTGAAGA AGAGCTGAAG AGGATTAAAC AGCACAAGGC CATTATCACT
    GAGGATGGCA AGGTGAACGG AGTGACTGAG TCCACGCGCA TCCTGGGCTA CACCTTCCTC
    CATCCCAGTG TGGTGCCTCG CCCCCACGTG CAGTCCGTGC TCCTGACCCC CCAGGATGAG
    TTCTTCATCC TAGGCAGTAA GGGGTTGTGG GACAGCCTGT CCGTCGAGGA GGCCGTGGAG
    GCCGTGCGCA ATGTGCCCGA CGCCCTGGCT GCTGCCAAGA AGCTGTGTAC CCTGGCCCAG
    AGCTACGGCT GCCACGACAG CATCAGCGCT GTGGTGGTGC AGCTCAGTGT CACTGAGGAC
    AGCTTCTGCT GCTGCGAGCT CAGCGCCAGT GGGGCTGTGC CACCACCCAG TCCTGGCATC
    TTTCCTCCCT CAGTGAACAT GGTGATCAAG GATCGGCCCT CAGATGGGCT GGGCGTGCCA
    TCCTCCAGCA GCGGCATGGC TTCCGAGATT AGCAGTGAGC TCTCCACTTC TGAGATGAGC
    AGCGAGGTGG GGTCAACAGC CTCCGATGAG CCCCCGCCCG GAGCCCTAAG CGAGAACAGC
    CCTGCCTACC CCAGTGAGCA GCGCTGCATG CTCCACCCCA TCTGTCTGTC CAACTCCTTC
    CAGCGCCAGC TATCCAGCGC CACGTTCTCT AGCGCCTTCT CCGACAACGG CCTTGACAGT
    GACGATGAGG AGCCCATCGA GGGCGTCTTC ACCAACGGCA GCCGGGTGGA GGTGGAGGTG
    GACATCCACT GCAGCCGGGC CAAGGAGAAG GAGAAACAGC AGCACCTGCT TCAGGTGCCA
    GCAGAGGCCA GCGATGAGGG CATTGTCATC AGCACCAACG AGGATGAGCC AGGTCTGCCC
    AGGAAGGCAG ACTTCTCTGC CGTTGGGACC ATTGGGCGCC GGAGGGCCAA TGGCTCTGTT
    GCGCCCCAGG AAAGGAGCCA CAATGTGATA GAGGTGGCTA CAGACGCACC TCTTCGAAAG
    CCTGGAGGCT ATTTTGCTGC CCCGGCTCAG CCGGATCCTG ATGATCAGTT TATCATACCC
    CCGGAGCTGG AAGAGGAGGT CAAAGAAATC ATGAAGCATC ACCAGGAGCA ACAGCAGCAG
    CAGCAGCAGC AGCCGCCACC ACCCCCTCAG CTCCAGCCGC AGCTGCCGCG GCACTACCAG
    CTGGACCAGC TGCCAGATTA TTACGACACG CCACTATGA

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