CEMIP2 cDNA ORF clone, Pan troglodytes(chimpanzee)

The following CEMIP2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CEMIP2 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
OPc89003 XM_016960954.1
Latest version!
Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OPc12448 XM_003312134.4
Latest version!
Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc12447 XM_009456723.3
Latest version!
Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OPc12447 XM_024345713.1
Latest version!
Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OPc12447 XM_001141007.5
Latest version!
Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
OPc12447 XM_009456723.2 Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OPc12447 XM_001141007.4 Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OPc12448 XM_003312134.3 Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
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 OPc89003
    Clone ID Related Accession (Same CDS sequence) XM_016960954.1
    Accession Version XM_016960954.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3735bp)
    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 transmembrane protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006476.4) 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 :: 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
    ATGCTTCGTC TGACCTCAGA TGCCACCGTG CATTCTATAG TCATTCAGGA TGGAGGACTG 
    CTTGTATTTG GGGACAATAA AGATGGATCC AGAAATATTA CTTTGAGGAC TCATTACATC
    CTGATCCAGG ATGGTGGGGC GCTTCATATT GGAGCAGAAA AATGCCGCTA TAAATCCAAA
    GCGACAATTA CCTTGTATGG CAAGTCAGAT GAAGGTGAAA GTATGCCAAC ATTTGGCAAA
    AAGTTTATTG GTGTGGAAGC TGGCGGGACA CTGGAGTTAC ATGGGGCACG GAAGGCATCG
    TGGACGTTGT TGGCAAGGAC CCTGAATTCC TCAGGCTTGC CCTTTGGGTC CTATACATTT
    GAAAAGGACT TTTCCCGGGG CCTCAATGTG AGGGTCATTG ACCAAGACAC GGCCAAAATT
    TTGGAAAGTG AGAGATTTGA TACCCATGAA TACCACAATG AGAGCAGGCG GCTTCAGGAG
    TTTCTGAGAT TCCAGGATCC AGGTCGGATT GTTGCCATAG CTGTCGGGGA TTCAGCCGCT
    AAAAGTCTCT TACAAGGAAC CATCCAGATG ATCCAGGAAC GGTTGGGAAG TGAACTGATC
    CAAGGACTGG GCTACAGGCA AGCTTGGGCT TTAGTTGGTG TCATTGATGG TGGAAGCACT
    TCTTGCAATG AATCCGTGAG AAACTATGAA AACCATAGCA GTGGCGGGAA GGCTCTTGCC
    CAAAGAGAAT TTTATACCGT GGATGGCCAG AAGTTCTCTG TGACAGCTTA TAGTGAATGG
    ATCGAAGGCG TTTCTCTTTC AGGTTTCCGG GTAGAGGTTG TAGATGGAGT GAAGCTAAAT
    TTGCTAGATG ATGTTAGTAG TTGGAAACCT GGAGACCAGA TTGTGGTCGC AAGCACAGAC
    TATTCCATGT ACCAAGCAGA GGAGTTCACT CTTCTTCCCT GTTCTGAATG CAGCCATTTT
    CAGGTCAAAG TCAAAGAAAC CCCTCAGTTC CTGCACATGG GTGAGATCAT AGACGGTGTA
    GACATGAGAG CTGAGGTTGG AATTCTTACC CGGAATATTG TGATCCAAGG AGAAGTGGAG
    GACTCGTGCT ACGCAGAAAA TCAGTGCCAA TTTTTTGATT ATGATACCTT TGGGGGACAC
    ATTATGATAA TGAAAAATTT TACTTCAGTC CATCTTTCTT ATGTGGAATT GAAACACATG
    GGTCAGCAGC AGATGGGGCG ATACCCTGTT CATTTTCACC TGTGCGGTGA CGTGGATTAT
    AAAGGAGGAT ACAGACATGC AACATTTGTG GACGGCCTGT CTATTCATCA CAGCTTCTCA
    AGGTGCATCA CTGTGCATGG GACAAATGGC TTGCTAATAA AAGACACCAT TGGATTTGAC
    ACACTAGGTC ACTGTTTCTT TTTGGAAGAT GGTATTGAAC ACAGGAATAC TTTGTTCCAC
    AATCTGGGAC TCCTCACCAA GCCGGGTACT CTCCTGCCCA CCGATAGGAA CAACTCCATG
    TGTACCACCA TGCGAGATAA AGTGTTTGGA AATTACATTC CTGTGCCTGC TACTGACTGT
    ATGGCTGTTT CGACTTTCTG GATTGCTCAT CCCAACAATA ATCTGATTAA TAATGCAGCT
    GCAGGCTCAC AGGATGCTGG AATATGGTAT TTATTCCACA AGGAACCAAC TGGGGAATCC
    AGTGGATTGC AGCTCTTGGC AAAACCAGAA CTCACTCCAT TGGGTATATT TTATAACAAC
    AGGGTCCATT CAAATTTTAA GGCTGGCTTA TTTATTGACA AAGGTGTCAA AACAACCAAC
    TCTAGTGCTG CTGACCCAAG GGAATACCTC TGTTTGGACA ATAGTGCAAG ATTTCGACCT
    CATCAGGATG CAAACCCCGA AAAACCACGT GTTGCTGCTC TAATTGACAG GCTCATTGCT
    TTTAAAAATA ACGATAATGG AGCTTGGGTC AGAGGAGGAG ATATTATCGT TCAAAATTCA
    GCATTTGCAG ATAATGGAAT AGGACTGACC TTTGCCAGTG ATGGAAGCTT CCCAAGTGAT
    GAAGGTTCCA GCCAAGAGGT ATCTGAATCT CTCTTTGTTG GGGAGAGCAG GAATTACGGC
    TTTCAGGGTG GTCAGAACAA GTATGTAGGC ACTGGAGGAA TAGACCAGAA GCCTCGGACA
    TTACCCAGGA ACAGGACATT CCCAATTAGA GGCTTTCAGA TTTATGATGG GCCCATTCAT
    CTCACAAGGA GCACTTTCAA AAAATATGTG CCAACTCCAG ATAGGTACAG CAGTGCAATT
    GGCTTCCTCA TGAAGAATTC CTGGCAGATA ACCCCCAGGA ATAATATCTC CCTCGTGAAG
    TTTGGTCCAC ATGTCTCTCT GAATGTCTTT TTTGGAAAGC CTGGTCCCTG GTTTGAAGAT
    TGTGAGATGG ATGGTGATAA GAACTCCATA TTCCATGACA TTGATGGCTC TGTGACAGGA
    TACAAGGATG CTTATGTGGG AAGAATGGAC AACTACCTGA TCCGCCATCC AAGCTGTGTA
    AATGTGTCTA AGTGGAATGC AGTGATCTGC AGTGGGACCT ATGCACAGGT CTATGTACAG
    ACATGGAGCA CTCAGAATCT TTCTATGACC ATTACACGAG ATGAGTATCC GTCCAACCCT
    ATGGTGCTCC GAGGTATTAA TCAGAAGGCT GCCTTTCCAC AGTACCAGCC TGTCGTCATG
    CTGGAGAAGG GATATACCAT CCACTGGAAT GGGCCGGCAC CACGGACTAC ATTTCTATAC
    CTCGTCAACT TCAACAAGAA TGACTGGATT CGAGTTGGCC TTTGCTATCC ATCAAACACA
    AGTTTTCAAG TTACCTTTGG CTATTTGCAG CGGCAGAATG GCTCATTATC CAAAATCGAA
    GAATATGAGC CTGTGCATTC ACTGGAAGAA CTGCAAAGAA AGCAATCCGA GAGGAAATTC
    TATTTTGACT CCAGCACGGG GTTACTGTTT TTGTATCTCA AAGCCAAAAG CCACAGGCAT
    GGCCACAGTT ACTGTTCATC TCAGGGATGT GAAAGAGTCA AGATCCAGGC AGCCACAGAC
    TCAAAGGACA TCAGTAACTG CATGGCCAAA GCATACCCAC AGTACTACAG AAAGCCGTCA
    GTGGTCAAGC GGATGCCGGC CATGCTCACT GGACTCTGTC AAGGCTGTGG CACTCGGCAG
    GTGGTGTTTA CTAGTGATCC TCATAAAAGT TACCTCCCTG TGCAATTCCA GTCACCTGAT
    AAAGCAGAAA CCCAGCGTGG AGACCCGTCT GTTATTTCTG TCAATGGCAC TGACTTTACC
    TTCCGAAGTG CAGGCGTCCT CCTCCTTGTT GTGGATCCGT GCAGCGTTCC ATTCCGCTTG
    ACGGAAAAAA AGGTTTTTCC TCTTGCTGAT GTCAGTCGCA TTGAAGAGTA TTTAAAAACA
    GGCATCCCTC CAAGGTCCAT TGTTCTGTTG AGCACAAGAG GAGAAATAAA GCAGTTGAAC
    ATTTCACACT TACTAGTACC TCTGGGATTA GCCAAACCAG CTCATCTTTA TGACAAAGGG
    AGTACCATAT TTTTGGGATT CAGTGGAAAC TTTAAACCAT CATGGACTAA GCTATTTACC
    AGTCCTGCTG GACAGGGCCT TGGGGTGCTT GAACAATTCA TACCTTTGCA GCTGGACGAA
    TATGGTTGTC CCAGAGCCAC CACTGTCCAC AGAAGAGACC TGGAACTGCT AAAGCAAGCT
    TCAAAAGCAC ATTAG

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

    RefSeq XP_016816443.1
    CDS260..3994
    Translation

    Target ORF information:

    RefSeq Version XM_016960954.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016960954.1

    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
    ATGCTTCGTC TGACCTCAGA TGCCACCGTG CATTCTATAG TCATTCAGGA TGGAGGACTG 
    CTTGTATTTG GGGACAATAA AGATGGATCC AGAAATATTA CTTTGAGGAC TCATTACATC
    CTGATCCAGG ATGGTGGGGC GCTTCATATT GGAGCAGAAA AATGCCGCTA TAAATCCAAA
    GCGACAATTA CCTTGTATGG CAAGTCAGAT GAAGGTGAAA GTATGCCAAC ATTTGGCAAA
    AAGTTTATTG GTGTGGAAGC TGGCGGGACA CTGGAGTTAC ATGGGGCACG GAAGGCATCG
    TGGACGTTGT TGGCAAGGAC CCTGAATTCC TCAGGCTTGC CCTTTGGGTC CTATACATTT
    GAAAAGGACT TTTCCCGGGG CCTCAATGTG AGGGTCATTG ACCAAGACAC GGCCAAAATT
    TTGGAAAGTG AGAGATTTGA TACCCATGAA TACCACAATG AGAGCAGGCG GCTTCAGGAG
    TTTCTGAGAT TCCAGGATCC AGGTCGGATT GTTGCCATAG CTGTCGGGGA TTCAGCCGCT
    AAAAGTCTCT TACAAGGAAC CATCCAGATG ATCCAGGAAC GGTTGGGAAG TGAACTGATC
    CAAGGACTGG GCTACAGGCA AGCTTGGGCT TTAGTTGGTG TCATTGATGG TGGAAGCACT
    TCTTGCAATG AATCCGTGAG AAACTATGAA AACCATAGCA GTGGCGGGAA GGCTCTTGCC
    CAAAGAGAAT TTTATACCGT GGATGGCCAG AAGTTCTCTG TGACAGCTTA TAGTGAATGG
    ATCGAAGGCG TTTCTCTTTC AGGTTTCCGG GTAGAGGTTG TAGATGGAGT GAAGCTAAAT
    TTGCTAGATG ATGTTAGTAG TTGGAAACCT GGAGACCAGA TTGTGGTCGC AAGCACAGAC
    TATTCCATGT ACCAAGCAGA GGAGTTCACT CTTCTTCCCT GTTCTGAATG CAGCCATTTT
    CAGGTCAAAG TCAAAGAAAC CCCTCAGTTC CTGCACATGG GTGAGATCAT AGACGGTGTA
    GACATGAGAG CTGAGGTTGG AATTCTTACC CGGAATATTG TGATCCAAGG AGAAGTGGAG
    GACTCGTGCT ACGCAGAAAA TCAGTGCCAA TTTTTTGATT ATGATACCTT TGGGGGACAC
    ATTATGATAA TGAAAAATTT TACTTCAGTC CATCTTTCTT ATGTGGAATT GAAACACATG
    GGTCAGCAGC AGATGGGGCG ATACCCTGTT CATTTTCACC TGTGCGGTGA CGTGGATTAT
    AAAGGAGGAT ACAGACATGC AACATTTGTG GACGGCCTGT CTATTCATCA CAGCTTCTCA
    AGGTGCATCA CTGTGCATGG GACAAATGGC TTGCTAATAA AAGACACCAT TGGATTTGAC
    ACACTAGGTC ACTGTTTCTT TTTGGAAGAT GGTATTGAAC ACAGGAATAC TTTGTTCCAC
    AATCTGGGAC TCCTCACCAA GCCGGGTACT CTCCTGCCCA CCGATAGGAA CAACTCCATG
    TGTACCACCA TGCGAGATAA AGTGTTTGGA AATTACATTC CTGTGCCTGC TACTGACTGT
    ATGGCTGTTT CGACTTTCTG GATTGCTCAT CCCAACAATA ATCTGATTAA TAATGCAGCT
    GCAGGCTCAC AGGATGCTGG AATATGGTAT TTATTCCACA AGGAACCAAC TGGGGAATCC
    AGTGGATTGC AGCTCTTGGC AAAACCAGAA CTCACTCCAT TGGGTATATT TTATAACAAC
    AGGGTCCATT CAAATTTTAA GGCTGGCTTA TTTATTGACA AAGGTGTCAA AACAACCAAC
    TCTAGTGCTG CTGACCCAAG GGAATACCTC TGTTTGGACA ATAGTGCAAG ATTTCGACCT
    CATCAGGATG CAAACCCCGA AAAACCACGT GTTGCTGCTC TAATTGACAG GCTCATTGCT
    TTTAAAAATA ACGATAATGG AGCTTGGGTC AGAGGAGGAG ATATTATCGT TCAAAATTCA
    GCATTTGCAG ATAATGGAAT AGGACTGACC TTTGCCAGTG ATGGAAGCTT CCCAAGTGAT
    GAAGGTTCCA GCCAAGAGGT ATCTGAATCT CTCTTTGTTG GGGAGAGCAG GAATTACGGC
    TTTCAGGGTG GTCAGAACAA GTATGTAGGC ACTGGAGGAA TAGACCAGAA GCCTCGGACA
    TTACCCAGGA ACAGGACATT CCCAATTAGA GGCTTTCAGA TTTATGATGG GCCCATTCAT
    CTCACAAGGA GCACTTTCAA AAAATATGTG CCAACTCCAG ATAGGTACAG CAGTGCAATT
    GGCTTCCTCA TGAAGAATTC CTGGCAGATA ACCCCCAGGA ATAATATCTC CCTCGTGAAG
    TTTGGTCCAC ATGTCTCTCT GAATGTCTTT TTTGGAAAGC CTGGTCCCTG GTTTGAAGAT
    TGTGAGATGG ATGGTGATAA GAACTCCATA TTCCATGACA TTGATGGCTC TGTGACAGGA
    TACAAGGATG CTTATGTGGG AAGAATGGAC AACTACCTGA TCCGCCATCC AAGCTGTGTA
    AATGTGTCTA AGTGGAATGC AGTGATCTGC AGTGGGACCT ATGCACAGGT CTATGTACAG
    ACATGGAGCA CTCAGAATCT TTCTATGACC ATTACACGAG ATGAGTATCC GTCCAACCCT
    ATGGTGCTCC GAGGTATTAA TCAGAAGGCT GCCTTTCCAC AGTACCAGCC TGTCGTCATG
    CTGGAGAAGG GATATACCAT CCACTGGAAT GGGCCGGCAC CACGGACTAC ATTTCTATAC
    CTCGTCAACT TCAACAAGAA TGACTGGATT CGAGTTGGCC TTTGCTATCC ATCAAACACA
    AGTTTTCAAG TTACCTTTGG CTATTTGCAG CGGCAGAATG GCTCATTATC CAAAATCGAA
    GAATATGAGC CTGTGCATTC ACTGGAAGAA CTGCAAAGAA AGCAATCCGA GAGGAAATTC
    TATTTTGACT CCAGCACGGG GTTACTGTTT TTGTATCTCA AAGCCAAAAG CCACAGGCAT
    GGCCACAGTT ACTGTTCATC TCAGGGATGT GAAAGAGTCA AGATCCAGGC AGCCACAGAC
    TCAAAGGACA TCAGTAACTG CATGGCCAAA GCATACCCAC AGTACTACAG AAAGCCGTCA
    GTGGTCAAGC GGATGCCGGC CATGCTCACT GGACTCTGTC AAGGCTGTGG CACTCGGCAG
    GTGGTGTTTA CTAGTGATCC TCATAAAAGT TACCTCCCTG TGCAATTCCA GTCACCTGAT
    AAAGCAGAAA CCCAGCGTGG AGACCCGTCT GTTATTTCTG TCAATGGCAC TGACTTTACC
    TTCCGAAGTG CAGGCGTCCT CCTCCTTGTT GTGGATCCGT GCAGCGTTCC ATTCCGCTTG
    ACGGAAAAAA AGGTTTTTCC TCTTGCTGAT GTCAGTCGCA TTGAAGAGTA TTTAAAAACA
    GGCATCCCTC CAAGGTCCAT TGTTCTGTTG AGCACAAGAG GAGAAATAAA GCAGTTGAAC
    ATTTCACACT TACTAGTACC TCTGGGATTA GCCAAACCAG CTCATCTTTA TGACAAAGGG
    AGTACCATAT TTTTGGGATT CAGTGGAAAC TTTAAACCAT CATGGACTAA GCTATTTACC
    AGTCCTGCTG GACAGGGCCT TGGGGTGCTT GAACAATTCA TACCTTTGCA GCTGGACGAA
    TATGGTTGTC CCAGAGCCAC CACTGTCCAC AGAAGAGACC TGGAACTGCT AAAGCAAGCT
    TCAAAAGCAC ATTAG

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

    CloneID OPc12448
    Clone ID Related Accession (Same CDS sequence) XM_003312134.3 , XM_003312134.4
    Accession Version XM_003312134.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3963bp)
    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 transmembrane protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006476.4) 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_003312134.2. ##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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGAAACCC CTCAGTTCCT GCACATGGGT GAGATCATAG ACGGTGTAGA CATGAGAGCT
    GAGGTTGGAA TTCTTACCCG GAATATTGTG ATCCAAGGAG AAGTGGAGGA CTCGTGCTAC
    GCAGAAAATC AGTGCCAATT TTTTGATTAT GATACCTTTG GGGGACACAT TATGATAATG
    AAAAATTTTA CTTCAGTCCA TCTTTCTTAT GTGGAATTGA AACACATGGG TCAGCAGCAG
    ATGGGGCGAT ACCCTGTTCA TTTTCACCTG TGCGGTGACG TGGATTATAA AGGAGGATAC
    AGACATGCAA CATTTGTGGA CGGCCTGTCT ATTCATCACA GCTTCTCAAG GTGCATCACT
    GTGCATGGGA CAAATGGCTT GCTAATAAAA GACACCATTG GATTTGACAC ACTAGGTCAC
    TGTTTCTTTT TGGAAGATGG TATTGAACAC AGGAATACTT TGTTCCACAA TCTGGGACTC
    CTCACCAAGC CGGGTACTCT CCTGCCCACC GATAGGAACA ACTCCATGTG TACCACCATG
    CGAGATAAAG TGTTTGGAAA TTACATTCCT GTGCCTGCTA CTGACTGTAT GGCTGTTTCG
    ACTTTCTGGA TTGCTCATCC CAACAATAAT CTGATTAATA ATGCAGCTGC AGGCTCACAG
    GATGCTGGAA TATGGTATTT ATTCCACAAG GAACCAACTG GGGAATCCAG TGGATTGCAG
    CTCTTGGCAA AACCAGAACT CACTCCATTG GGTATATTTT ATAACAACAG GGTCCATTCA
    AATTTTAAGG CTGGCTTATT TATTGACAAA GGTGTCAAAA CAACCAACTC TAGTGCTGCT
    GACCCAAGGG AATACCTCTG TTTGGACAAT AGTGCAAGAT TTCGACCTCA TCAGGATGCA
    AACCCCGAAA AACCACGTGT TGCTGCTCTA ATTGACAGGC TCATTGCTTT TAAAAATAAC
    GATAATGGAG CTTGGGTCAG AGGAGGAGAT ATTATCGTTC AAAATTCAGC ATTTGCAGAT
    AATGGAATAG GACTGACCTT TGCCAGTGAT GGAAGCTTCC CAAGTGATGA AGGTTCCAGC
    CAAGAGGTAT CTGAATCTCT CTTTGTTGGG GAGAGCAGGA ATTACGGCTT TCAGGGTGGT
    CAGAACAAGT ATGTAGGCAC TGGAGGAATA GACCAGAAGC CTCGGACATT ACCCAGGAAC
    AGGACATTCC CAATTAGAGG CTTTCAGATT TATGATGGGC CCATTCATCT CACAAGGAGC
    ACTTTCAAAA AATATGTGCC AACTCCAGAT AGGTACAGCA GTGCAATTGG CTTCCTCATG
    AAGAATTCCT GGCAGATAAC CCCCAGGAAT AATATCTCCC TCGTGAAGTT TGGTCCACAT
    GTCTCTCTGA ATGTCTTTTT TGGAAAGCCT GGTCCCTGGT TTGAAGATTG TGAGATGGAT
    GGTGATAAGA ACTCCATATT CCATGACATT GATGGCTCTG TGACAGGATA CAAGGATGCT
    TATGTGGGAA GAATGGACAA CTACCTGATC CGCCATCCAA GCTGTGTAAA TGTGTCTAAG
    TGGAATGCAG TGATCTGCAG TGGGACCTAT GCACAGGTCT ATGTACAGAC ATGGAGCACT
    CAGAATCTTT CTATGACCAT TACACGAGAT GAGTATCCGT CCAACCCTAT GGTGCTCCGA
    GGTATTAATC AGAAGGCTGC CTTTCCACAG TACCAGCCTG TCGTCATGCT GGAGAAGGGA
    TATACCATCC ACTGGAATGG GCCGGCACCA CGGACTACAT TTCTATACCT CGTCAACTTC
    AACAAGAATG ACTGGATTCG AGTTGGCCTT TGCTATCCAT CAAACACAAG TTTTCAAGTT
    ACCTTTGGCT ATTTGCAGCG GCAGAATGGC TCATTATCCA AAATCGAAGA ATATGAGCCT
    GTGCATTCAC TGGAAGAACT GCAAAGAAAG CAATCCGAGA GGAAATTCTA TTTTGACTCC
    AGCACGGGGT TACTGTTTTT GTATCTCAAA GCCAAAAGCC ACAGGCATGG CCACAGTTAC
    TGTTCATCTC AGGGATGTGA AAGAGTCAAG ATCCAGGCAG CCACAGACTC AAAGGACATC
    AGTAACTGCA TGGCCAAAGC ATACCCACAG TACTACAGAA AGCCGTCAGT GGTCAAGCGG
    ATGCCGGCCA TGCTCACTGG ACTCTGTCAA GGCTGTGGCA CTCGGCAGGT GGTGTTTACT
    AGTGATCCTC ATAAAAGTTA CCTCCCTGTG CAATTCCAGT CACCTGATAA AGCAGAAACC
    CAGCGTGGAG ACCCGTCTGT TATTTCTGTC AATGGCACTG ACTTTACCTT CCGAAGTGCA
    GGCGTCCTCC TCCTTGTTGT GGATCCGTGC AGCGTTCCAT TCCGCTTGAC GGAAAAAAAG
    GTTTTTCCTC TTGCTGATGT CAGTCGCATT GAAGAGTATT TAAAAACAGG CATCCCTCCA
    AGGTCCATTG TTCTGTTGAG CACAAGAGGA GAAATAAAGC AGTTGAACAT TTCACACTTA
    CTAGTACCTC TGGGATTAGC CAAACCAGCT CATCTTTATG ACAAAGGGAG TACCATATTT
    TTGGGATTCA GTGGAAACTT TAAACCATCA TGGACTAAGC TATTTACCAG TCCTGCTGGA
    CAGGGCCTTG GGGTGCTTGA ACAATTCATA CCTTTGCAGC TGGACGAATA TGGTTGTCCC
    AGAGCCACCA CTGTCCACAG AAGAGACCTG GAACTGCTAA AGCAAGCTTC AAAAGCACAT
    TAG

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

    RefSeq XP_003312182.1
    CDS559..4521
    Translation

    Target ORF information:

    RefSeq Version XM_003312134.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003312134.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGAAACCC CTCAGTTCCT GCACATGGGT GAGATCATAG ACGGTGTAGA CATGAGAGCT
    GAGGTTGGAA TTCTTACCCG GAATATTGTG ATCCAAGGAG AAGTGGAGGA CTCGTGCTAC
    GCAGAAAATC AGTGCCAATT TTTTGATTAT GATACCTTTG GGGGACACAT TATGATAATG
    AAAAATTTTA CTTCAGTCCA TCTTTCTTAT GTGGAATTGA AACACATGGG TCAGCAGCAG
    ATGGGGCGAT ACCCTGTTCA TTTTCACCTG TGCGGTGACG TGGATTATAA AGGAGGATAC
    AGACATGCAA CATTTGTGGA CGGCCTGTCT ATTCATCACA GCTTCTCAAG GTGCATCACT
    GTGCATGGGA CAAATGGCTT GCTAATAAAA GACACCATTG GATTTGACAC ACTAGGTCAC
    TGTTTCTTTT TGGAAGATGG TATTGAACAC AGGAATACTT TGTTCCACAA TCTGGGACTC
    CTCACCAAGC CGGGTACTCT CCTGCCCACC GATAGGAACA ACTCCATGTG TACCACCATG
    CGAGATAAAG TGTTTGGAAA TTACATTCCT GTGCCTGCTA CTGACTGTAT GGCTGTTTCG
    ACTTTCTGGA TTGCTCATCC CAACAATAAT CTGATTAATA ATGCAGCTGC AGGCTCACAG
    GATGCTGGAA TATGGTATTT ATTCCACAAG GAACCAACTG GGGAATCCAG TGGATTGCAG
    CTCTTGGCAA AACCAGAACT CACTCCATTG GGTATATTTT ATAACAACAG GGTCCATTCA
    AATTTTAAGG CTGGCTTATT TATTGACAAA GGTGTCAAAA CAACCAACTC TAGTGCTGCT
    GACCCAAGGG AATACCTCTG TTTGGACAAT AGTGCAAGAT TTCGACCTCA TCAGGATGCA
    AACCCCGAAA AACCACGTGT TGCTGCTCTA ATTGACAGGC TCATTGCTTT TAAAAATAAC
    GATAATGGAG CTTGGGTCAG AGGAGGAGAT ATTATCGTTC AAAATTCAGC ATTTGCAGAT
    AATGGAATAG GACTGACCTT TGCCAGTGAT GGAAGCTTCC CAAGTGATGA AGGTTCCAGC
    CAAGAGGTAT CTGAATCTCT CTTTGTTGGG GAGAGCAGGA ATTACGGCTT TCAGGGTGGT
    CAGAACAAGT ATGTAGGCAC TGGAGGAATA GACCAGAAGC CTCGGACATT ACCCAGGAAC
    AGGACATTCC CAATTAGAGG CTTTCAGATT TATGATGGGC CCATTCATCT CACAAGGAGC
    ACTTTCAAAA AATATGTGCC AACTCCAGAT AGGTACAGCA GTGCAATTGG CTTCCTCATG
    AAGAATTCCT GGCAGATAAC CCCCAGGAAT AATATCTCCC TCGTGAAGTT TGGTCCACAT
    GTCTCTCTGA ATGTCTTTTT TGGAAAGCCT GGTCCCTGGT TTGAAGATTG TGAGATGGAT
    GGTGATAAGA ACTCCATATT CCATGACATT GATGGCTCTG TGACAGGATA CAAGGATGCT
    TATGTGGGAA GAATGGACAA CTACCTGATC CGCCATCCAA GCTGTGTAAA TGTGTCTAAG
    TGGAATGCAG TGATCTGCAG TGGGACCTAT GCACAGGTCT ATGTACAGAC ATGGAGCACT
    CAGAATCTTT CTATGACCAT TACACGAGAT GAGTATCCGT CCAACCCTAT GGTGCTCCGA
    GGTATTAATC AGAAGGCTGC CTTTCCACAG TACCAGCCTG TCGTCATGCT GGAGAAGGGA
    TATACCATCC ACTGGAATGG GCCGGCACCA CGGACTACAT TTCTATACCT CGTCAACTTC
    AACAAGAATG ACTGGATTCG AGTTGGCCTT TGCTATCCAT CAAACACAAG TTTTCAAGTT
    ACCTTTGGCT ATTTGCAGCG GCAGAATGGC TCATTATCCA AAATCGAAGA ATATGAGCCT
    GTGCATTCAC TGGAAGAACT GCAAAGAAAG CAATCCGAGA GGAAATTCTA TTTTGACTCC
    AGCACGGGGT TACTGTTTTT GTATCTCAAA GCCAAAAGCC ACAGGCATGG CCACAGTTAC
    TGTTCATCTC AGGGATGTGA AAGAGTCAAG ATCCAGGCAG CCACAGACTC AAAGGACATC
    AGTAACTGCA TGGCCAAAGC ATACCCACAG TACTACAGAA AGCCGTCAGT GGTCAAGCGG
    ATGCCGGCCA TGCTCACTGG ACTCTGTCAA GGCTGTGGCA CTCGGCAGGT GGTGTTTACT
    AGTGATCCTC ATAAAAGTTA CCTCCCTGTG CAATTCCAGT CACCTGATAA AGCAGAAACC
    CAGCGTGGAG ACCCGTCTGT TATTTCTGTC AATGGCACTG ACTTTACCTT CCGAAGTGCA
    GGCGTCCTCC TCCTTGTTGT GGATCCGTGC AGCGTTCCAT TCCGCTTGAC GGAAAAAAAG
    GTTTTTCCTC TTGCTGATGT CAGTCGCATT GAAGAGTATT TAAAAACAGG CATCCCTCCA
    AGGTCCATTG TTCTGTTGAG CACAAGAGGA GAAATAAAGC AGTTGAACAT TTCACACTTA
    CTAGTACCTC TGGGATTAGC CAAACCAGCT CATCTTTATG ACAAAGGGAG TACCATATTT
    TTGGGATTCA GTGGAAACTT TAAACCATCA TGGACTAAGC TATTTACCAG TCCTGCTGGA
    CAGGGCCTTG GGGTGCTTGA ACAATTCATA CCTTTGCAGC TGGACGAATA TGGTTGTCCC
    AGAGCCACCA CTGTCCACAG AAGAGACCTG GAACTGCTAA AGCAAGCTTC AAAAGCACAT
    TAG

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

    CloneID OPc12448
    Clone ID Related Accession (Same CDS sequence) XM_003312134.3 , XM_003312134.4
    Accession Version XM_003312134.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3963bp)
    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 cell surface hyaluronidase isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036888.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_003312134.3. ##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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGAAACCC CTCAGTTCCT GCACATGGGT GAGATCATAG ACGGTGTAGA CATGAGAGCT
    GAGGTTGGAA TTCTTACCCG GAATATTGTG ATCCAAGGAG AAGTGGAGGA CTCGTGCTAC
    GCAGAAAATC AGTGCCAATT TTTTGATTAT GATACCTTTG GGGGACACAT TATGATAATG
    AAAAATTTTA CTTCAGTCCA TCTTTCTTAT GTGGAATTGA AACACATGGG TCAGCAGCAG
    ATGGGGCGAT ACCCTGTTCA TTTTCACCTG TGCGGTGACG TGGATTATAA AGGAGGATAC
    AGACATGCAA CATTTGTGGA CGGCCTGTCT ATTCATCACA GCTTCTCAAG GTGCATCACT
    GTGCATGGGA CAAATGGCTT GCTAATAAAA GACACCATTG GATTTGACAC ACTAGGTCAC
    TGTTTCTTTT TGGAAGATGG TATTGAACAC AGGAATACTT TGTTCCACAA TCTGGGACTC
    CTCACCAAGC CGGGTACTCT CCTGCCCACC GATAGGAACA ACTCCATGTG TACCACCATG
    CGAGATAAAG TGTTTGGAAA TTACATTCCT GTGCCTGCTA CTGACTGTAT GGCTGTTTCG
    ACTTTCTGGA TTGCTCATCC CAACAATAAT CTGATTAATA ATGCAGCTGC AGGCTCACAG
    GATGCTGGAA TATGGTATTT ATTCCACAAG GAACCAACTG GGGAATCCAG TGGATTGCAG
    CTCTTGGCAA AACCAGAACT CACTCCATTG GGTATATTTT ATAACAACAG GGTCCATTCA
    AATTTTAAGG CTGGCTTATT TATTGACAAA GGTGTCAAAA CAACCAACTC TAGTGCTGCT
    GACCCAAGGG AATACCTCTG TTTGGACAAT AGTGCAAGAT TTCGACCTCA TCAGGATGCA
    AACCCCGAAA AACCACGTGT TGCTGCTCTA ATTGACAGGC TCATTGCTTT TAAAAATAAC
    GATAATGGAG CTTGGGTCAG AGGAGGAGAT ATTATCGTTC AAAATTCAGC ATTTGCAGAT
    AATGGAATAG GACTGACCTT TGCCAGTGAT GGAAGCTTCC CAAGTGATGA AGGTTCCAGC
    CAAGAGGTAT CTGAATCTCT CTTTGTTGGG GAGAGCAGGA ATTACGGCTT TCAGGGTGGT
    CAGAACAAGT ATGTAGGCAC TGGAGGAATA GACCAGAAGC CTCGGACATT ACCCAGGAAC
    AGGACATTCC CAATTAGAGG CTTTCAGATT TATGATGGGC CCATTCATCT CACAAGGAGC
    ACTTTCAAAA AATATGTGCC AACTCCAGAT AGGTACAGCA GTGCAATTGG CTTCCTCATG
    AAGAATTCCT GGCAGATAAC CCCCAGGAAT AATATCTCCC TCGTGAAGTT TGGTCCACAT
    GTCTCTCTGA ATGTCTTTTT TGGAAAGCCT GGTCCCTGGT TTGAAGATTG TGAGATGGAT
    GGTGATAAGA ACTCCATATT CCATGACATT GATGGCTCTG TGACAGGATA CAAGGATGCT
    TATGTGGGAA GAATGGACAA CTACCTGATC CGCCATCCAA GCTGTGTAAA TGTGTCTAAG
    TGGAATGCAG TGATCTGCAG TGGGACCTAT GCACAGGTCT ATGTACAGAC ATGGAGCACT
    CAGAATCTTT CTATGACCAT TACACGAGAT GAGTATCCGT CCAACCCTAT GGTGCTCCGA
    GGTATTAATC AGAAGGCTGC CTTTCCACAG TACCAGCCTG TCGTCATGCT GGAGAAGGGA
    TATACCATCC ACTGGAATGG GCCGGCACCA CGGACTACAT TTCTATACCT CGTCAACTTC
    AACAAGAATG ACTGGATTCG AGTTGGCCTT TGCTATCCAT CAAACACAAG TTTTCAAGTT
    ACCTTTGGCT ATTTGCAGCG GCAGAATGGC TCATTATCCA AAATCGAAGA ATATGAGCCT
    GTGCATTCAC TGGAAGAACT GCAAAGAAAG CAATCCGAGA GGAAATTCTA TTTTGACTCC
    AGCACGGGGT TACTGTTTTT GTATCTCAAA GCCAAAAGCC ACAGGCATGG CCACAGTTAC
    TGTTCATCTC AGGGATGTGA AAGAGTCAAG ATCCAGGCAG CCACAGACTC AAAGGACATC
    AGTAACTGCA TGGCCAAAGC ATACCCACAG TACTACAGAA AGCCGTCAGT GGTCAAGCGG
    ATGCCGGCCA TGCTCACTGG ACTCTGTCAA GGCTGTGGCA CTCGGCAGGT GGTGTTTACT
    AGTGATCCTC ATAAAAGTTA CCTCCCTGTG CAATTCCAGT CACCTGATAA AGCAGAAACC
    CAGCGTGGAG ACCCGTCTGT TATTTCTGTC AATGGCACTG ACTTTACCTT CCGAAGTGCA
    GGCGTCCTCC TCCTTGTTGT GGATCCGTGC AGCGTTCCAT TCCGCTTGAC GGAAAAAAAG
    GTTTTTCCTC TTGCTGATGT CAGTCGCATT GAAGAGTATT TAAAAACAGG CATCCCTCCA
    AGGTCCATTG TTCTGTTGAG CACAAGAGGA GAAATAAAGC AGTTGAACAT TTCACACTTA
    CTAGTACCTC TGGGATTAGC CAAACCAGCT CATCTTTATG ACAAAGGGAG TACCATATTT
    TTGGGATTCA GTGGAAACTT TAAACCATCA TGGACTAAGC TATTTACCAG TCCTGCTGGA
    CAGGGCCTTG GGGTGCTTGA ACAATTCATA CCTTTGCAGC TGGACGAATA TGGTTGTCCC
    AGAGCCACCA CTGTCCACAG AAGAGACCTG GAACTGCTAA AGCAAGCTTC AAAAGCACAT
    TAG

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

    RefSeq XP_003312182.1
    CDS553..4515
    Translation

    Target ORF information:

    RefSeq Version XM_003312134.4
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003312134.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGAAACCC CTCAGTTCCT GCACATGGGT GAGATCATAG ACGGTGTAGA CATGAGAGCT
    GAGGTTGGAA TTCTTACCCG GAATATTGTG ATCCAAGGAG AAGTGGAGGA CTCGTGCTAC
    GCAGAAAATC AGTGCCAATT TTTTGATTAT GATACCTTTG GGGGACACAT TATGATAATG
    AAAAATTTTA CTTCAGTCCA TCTTTCTTAT GTGGAATTGA AACACATGGG TCAGCAGCAG
    ATGGGGCGAT ACCCTGTTCA TTTTCACCTG TGCGGTGACG TGGATTATAA AGGAGGATAC
    AGACATGCAA CATTTGTGGA CGGCCTGTCT ATTCATCACA GCTTCTCAAG GTGCATCACT
    GTGCATGGGA CAAATGGCTT GCTAATAAAA GACACCATTG GATTTGACAC ACTAGGTCAC
    TGTTTCTTTT TGGAAGATGG TATTGAACAC AGGAATACTT TGTTCCACAA TCTGGGACTC
    CTCACCAAGC CGGGTACTCT CCTGCCCACC GATAGGAACA ACTCCATGTG TACCACCATG
    CGAGATAAAG TGTTTGGAAA TTACATTCCT GTGCCTGCTA CTGACTGTAT GGCTGTTTCG
    ACTTTCTGGA TTGCTCATCC CAACAATAAT CTGATTAATA ATGCAGCTGC AGGCTCACAG
    GATGCTGGAA TATGGTATTT ATTCCACAAG GAACCAACTG GGGAATCCAG TGGATTGCAG
    CTCTTGGCAA AACCAGAACT CACTCCATTG GGTATATTTT ATAACAACAG GGTCCATTCA
    AATTTTAAGG CTGGCTTATT TATTGACAAA GGTGTCAAAA CAACCAACTC TAGTGCTGCT
    GACCCAAGGG AATACCTCTG TTTGGACAAT AGTGCAAGAT TTCGACCTCA TCAGGATGCA
    AACCCCGAAA AACCACGTGT TGCTGCTCTA ATTGACAGGC TCATTGCTTT TAAAAATAAC
    GATAATGGAG CTTGGGTCAG AGGAGGAGAT ATTATCGTTC AAAATTCAGC ATTTGCAGAT
    AATGGAATAG GACTGACCTT TGCCAGTGAT GGAAGCTTCC CAAGTGATGA AGGTTCCAGC
    CAAGAGGTAT CTGAATCTCT CTTTGTTGGG GAGAGCAGGA ATTACGGCTT TCAGGGTGGT
    CAGAACAAGT ATGTAGGCAC TGGAGGAATA GACCAGAAGC CTCGGACATT ACCCAGGAAC
    AGGACATTCC CAATTAGAGG CTTTCAGATT TATGATGGGC CCATTCATCT CACAAGGAGC
    ACTTTCAAAA AATATGTGCC AACTCCAGAT AGGTACAGCA GTGCAATTGG CTTCCTCATG
    AAGAATTCCT GGCAGATAAC CCCCAGGAAT AATATCTCCC TCGTGAAGTT TGGTCCACAT
    GTCTCTCTGA ATGTCTTTTT TGGAAAGCCT GGTCCCTGGT TTGAAGATTG TGAGATGGAT
    GGTGATAAGA ACTCCATATT CCATGACATT GATGGCTCTG TGACAGGATA CAAGGATGCT
    TATGTGGGAA GAATGGACAA CTACCTGATC CGCCATCCAA GCTGTGTAAA TGTGTCTAAG
    TGGAATGCAG TGATCTGCAG TGGGACCTAT GCACAGGTCT ATGTACAGAC ATGGAGCACT
    CAGAATCTTT CTATGACCAT TACACGAGAT GAGTATCCGT CCAACCCTAT GGTGCTCCGA
    GGTATTAATC AGAAGGCTGC CTTTCCACAG TACCAGCCTG TCGTCATGCT GGAGAAGGGA
    TATACCATCC ACTGGAATGG GCCGGCACCA CGGACTACAT TTCTATACCT CGTCAACTTC
    AACAAGAATG ACTGGATTCG AGTTGGCCTT TGCTATCCAT CAAACACAAG TTTTCAAGTT
    ACCTTTGGCT ATTTGCAGCG GCAGAATGGC TCATTATCCA AAATCGAAGA ATATGAGCCT
    GTGCATTCAC TGGAAGAACT GCAAAGAAAG CAATCCGAGA GGAAATTCTA TTTTGACTCC
    AGCACGGGGT TACTGTTTTT GTATCTCAAA GCCAAAAGCC ACAGGCATGG CCACAGTTAC
    TGTTCATCTC AGGGATGTGA AAGAGTCAAG ATCCAGGCAG CCACAGACTC AAAGGACATC
    AGTAACTGCA TGGCCAAAGC ATACCCACAG TACTACAGAA AGCCGTCAGT GGTCAAGCGG
    ATGCCGGCCA TGCTCACTGG ACTCTGTCAA GGCTGTGGCA CTCGGCAGGT GGTGTTTACT
    AGTGATCCTC ATAAAAGTTA CCTCCCTGTG CAATTCCAGT CACCTGATAA AGCAGAAACC
    CAGCGTGGAG ACCCGTCTGT TATTTCTGTC AATGGCACTG ACTTTACCTT CCGAAGTGCA
    GGCGTCCTCC TCCTTGTTGT GGATCCGTGC AGCGTTCCAT TCCGCTTGAC GGAAAAAAAG
    GTTTTTCCTC TTGCTGATGT CAGTCGCATT GAAGAGTATT TAAAAACAGG CATCCCTCCA
    AGGTCCATTG TTCTGTTGAG CACAAGAGGA GAAATAAAGC AGTTGAACAT TTCACACTTA
    CTAGTACCTC TGGGATTAGC CAAACCAGCT CATCTTTATG ACAAAGGGAG TACCATATTT
    TTGGGATTCA GTGGAAACTT TAAACCATCA TGGACTAAGC TATTTACCAG TCCTGCTGGA
    CAGGGCCTTG GGGTGCTTGA ACAATTCATA CCTTTGCAGC TGGACGAATA TGGTTGTCCC
    AGAGCCACCA CTGTCCACAG AAGAGACCTG GAACTGCTAA AGCAAGCTTC AAAAGCACAT
    TAG

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

    CloneID OPc12447
    Clone ID Related Accession (Same CDS sequence) XM_001141007.5 , XM_009456723.3 , XM_009456723.2 , XM_001141007.4 , XM_024345713.1
    Accession Version XM_001141007.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 cell surface hyaluronidase isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036888.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_001141007.4. ##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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    RefSeq XP_001141007.1
    CDS548..4699
    Translation

    Target ORF information:

    RefSeq Version XM_001141007.5
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001141007.5

    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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    CloneID OPc12447
    Clone ID Related Accession (Same CDS sequence) XM_001141007.5 , XM_009456723.3 , XM_009456723.2 , XM_001141007.4 , XM_024345713.1
    Accession Version XM_009456723.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 cell surface hyaluronidase isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036888.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_009456723.2. ##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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    RefSeq XP_009454998.1
    CDS109..4260
    Translation

    Target ORF information:

    RefSeq Version XM_009456723.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009456723.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    CloneID OPc12447
    Clone ID Related Accession (Same CDS sequence) XM_001141007.5 , XM_009456723.3 , XM_009456723.2 , XM_001141007.4 , XM_024345713.1
    Accession Version XM_009456723.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 transmembrane protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006476.4) 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_009456723.1. ##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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    RefSeq XP_009454998.1
    CDS112..4263
    Translation

    Target ORF information:

    RefSeq Version XM_009456723.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009456723.2

    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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    CloneID OPc12447
    Clone ID Related Accession (Same CDS sequence) XM_001141007.5 , XM_009456723.3 , XM_009456723.2 , XM_001141007.4 , XM_024345713.1
    Accession Version XM_001141007.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 transmembrane protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006476.4) 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_001141007.3. ##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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    RefSeq XP_001141007.1
    CDS554..4705
    Translation

    Target ORF information:

    RefSeq Version XM_001141007.4
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes transmembrane protein 2 (TMEM2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001141007.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    CloneID OPc12447
    Clone ID Related Accession (Same CDS sequence) XM_001141007.5 , XM_009456723.3 , XM_009456723.2 , XM_001141007.4 , XM_024345713.1
    Accession Version XM_024345713.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 cell surface hyaluronidase isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036888.1) 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 :: 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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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

    RefSeq XP_024201481.1
    CDS1356..5507
    Translation

    Target ORF information:

    RefSeq Version XM_024345713.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell migration inducing hyaluronidase 2 (CEMIP2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024345713.1

    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
    ATGTATGCCA CTGATTCCAG GGGACACTCC CCTGCTTTCC TCCAACCTCA GAATGGAAAC 
    AGTCGTCACC CATCTGGCTA TGTTCCAGGG AAGGTTGTCC CATTGCGTCC CCCTCCTCCT
    CCAAAGAGTC AAGCTTCAGC CAAATTTACC TCCATCAGAC GAGAAGACCG GGCAACCTTC
    GCATTCTCAC CTGAAGAACA GCAAGCCCAG AGAGAAAGTC AAAAGCAAAA GAGACACAAA
    AATACTTTCA TTTGTTTTGC TATTACTAGT TTCTCATTTT TTATTGCACT TGCAATCATT
    TTAGGAATAT CCTCAAAATA TGCTCCAGAT GAAAATTGCC CAGATCAAAA TCCTCGTCTC
    AGGAATTGGG ATCCAGGACA AGATTCTGCA AAGCAAGTTG TTATCAAGGA GGGAGATATG
    CTTCGTCTGA CCTCAGATGC CACCGTGCAT TCTATAGTCA TTCAGGATGG AGGACTGCTT
    GTATTTGGGG ACAATAAAGA TGGATCCAGA AATATTACTT TGAGGACTCA TTACATCCTG
    ATCCAGGATG GTGGGGCGCT TCATATTGGA GCAGAAAAAT GCCGCTATAA ATCCAAAGCG
    ACAATTACCT TGTATGGCAA GTCAGATGAA GGTGAAAGTA TGCCAACATT TGGCAAAAAG
    TTTATTGGTG TGGAAGCTGG CGGGACACTG GAGTTACATG GGGCACGGAA GGCATCGTGG
    ACGTTGTTGG CAAGGACCCT GAATTCCTCA GGCTTGCCCT TTGGGTCCTA TACATTTGAA
    AAGGACTTTT CCCGGGGCCT CAATGTGAGG GTCATTGACC AAGACACGGC CAAAATTTTG
    GAAAGTGAGA GATTTGATAC CCATGAATAC CACAATGAGA GCAGGCGGCT TCAGGAGTTT
    CTGAGATTCC AGGATCCAGG TCGGATTGTT GCCATAGCTG TCGGGGATTC AGCCGCTAAA
    AGTCTCTTAC AAGGAACCAT CCAGATGATC CAGGAACGGT TGGGAAGTGA ACTGATCCAA
    GGACTGGGCT ACAGGCAAGC TTGGGCTTTA GTTGGTGTCA TTGATGGTGG AAGCACTTCT
    TGCAATGAAT CCGTGAGAAA CTATGAAAAC CATAGCAGTG GCGGGAAGGC TCTTGCCCAA
    AGAGAATTTT ATACCGTGGA TGGCCAGAAG TTCTCTGTGA CAGCTTATAG TGAATGGATC
    GAAGGCGTTT CTCTTTCAGG TTTCCGGGTA GAGGTTGTAG ATGGAGTGAA GCTAAATTTG
    CTAGATGATG TTAGTAGTTG GAAACCTGGA GACCAGATTG TGGTCGCAAG CACAGACTAT
    TCCATGTACC AAGCAGAGGA GTTCACTCTT CTTCCCTGTT CTGAATGCAG CCATTTTCAG
    GTCAAAGTCA AAGAAACCCC TCAGTTCCTG CACATGGGTG AGATCATAGA CGGTGTAGAC
    ATGAGAGCTG AGGTTGGAAT TCTTACCCGG AATATTGTGA TCCAAGGAGA AGTGGAGGAC
    TCGTGCTACG CAGAAAATCA GTGCCAATTT TTTGATTATG ATACCTTTGG GGGACACATT
    ATGATAATGA AAAATTTTAC TTCAGTCCAT CTTTCTTATG TGGAATTGAA ACACATGGGT
    CAGCAGCAGA TGGGGCGATA CCCTGTTCAT TTTCACCTGT GCGGTGACGT GGATTATAAA
    GGAGGATACA GACATGCAAC ATTTGTGGAC GGCCTGTCTA TTCATCACAG CTTCTCAAGG
    TGCATCACTG TGCATGGGAC AAATGGCTTG CTAATAAAAG ACACCATTGG ATTTGACACA
    CTAGGTCACT GTTTCTTTTT GGAAGATGGT ATTGAACACA GGAATACTTT GTTCCACAAT
    CTGGGACTCC TCACCAAGCC GGGTACTCTC CTGCCCACCG ATAGGAACAA CTCCATGTGT
    ACCACCATGC GAGATAAAGT GTTTGGAAAT TACATTCCTG TGCCTGCTAC TGACTGTATG
    GCTGTTTCGA CTTTCTGGAT TGCTCATCCC AACAATAATC TGATTAATAA TGCAGCTGCA
    GGCTCACAGG ATGCTGGAAT ATGGTATTTA TTCCACAAGG AACCAACTGG GGAATCCAGT
    GGATTGCAGC TCTTGGCAAA ACCAGAACTC ACTCCATTGG GTATATTTTA TAACAACAGG
    GTCCATTCAA ATTTTAAGGC TGGCTTATTT ATTGACAAAG GTGTCAAAAC AACCAACTCT
    AGTGCTGCTG ACCCAAGGGA ATACCTCTGT TTGGACAATA GTGCAAGATT TCGACCTCAT
    CAGGATGCAA ACCCCGAAAA ACCACGTGTT GCTGCTCTAA TTGACAGGCT CATTGCTTTT
    AAAAATAACG ATAATGGAGC TTGGGTCAGA GGAGGAGATA TTATCGTTCA AAATTCAGCA
    TTTGCAGATA ATGGAATAGG ACTGACCTTT GCCAGTGATG GAAGCTTCCC AAGTGATGAA
    GGTTCCAGCC AAGAGGTATC TGAATCTCTC TTTGTTGGGG AGAGCAGGAA TTACGGCTTT
    CAGGGTGGTC AGAACAAGTA TGTAGGCACT GGAGGAATAG ACCAGAAGCC TCGGACATTA
    CCCAGGAACA GGACATTCCC AATTAGAGGC TTTCAGATTT ATGATGGGCC CATTCATCTC
    ACAAGGAGCA CTTTCAAAAA ATATGTGCCA ACTCCAGATA GGTACAGCAG TGCAATTGGC
    TTCCTCATGA AGAATTCCTG GCAGATAACC CCCAGGAATA ATATCTCCCT CGTGAAGTTT
    GGTCCACATG TCTCTCTGAA TGTCTTTTTT GGAAAGCCTG GTCCCTGGTT TGAAGATTGT
    GAGATGGATG GTGATAAGAA CTCCATATTC CATGACATTG ATGGCTCTGT GACAGGATAC
    AAGGATGCTT ATGTGGGAAG AATGGACAAC TACCTGATCC GCCATCCAAG CTGTGTAAAT
    GTGTCTAAGT GGAATGCAGT GATCTGCAGT GGGACCTATG CACAGGTCTA TGTACAGACA
    TGGAGCACTC AGAATCTTTC TATGACCATT ACACGAGATG AGTATCCGTC CAACCCTATG
    GTGCTCCGAG GTATTAATCA GAAGGCTGCC TTTCCACAGT ACCAGCCTGT CGTCATGCTG
    GAGAAGGGAT ATACCATCCA CTGGAATGGG CCGGCACCAC GGACTACATT TCTATACCTC
    GTCAACTTCA ACAAGAATGA CTGGATTCGA GTTGGCCTTT GCTATCCATC AAACACAAGT
    TTTCAAGTTA CCTTTGGCTA TTTGCAGCGG CAGAATGGCT CATTATCCAA AATCGAAGAA
    TATGAGCCTG TGCATTCACT GGAAGAACTG CAAAGAAAGC AATCCGAGAG GAAATTCTAT
    TTTGACTCCA GCACGGGGTT ACTGTTTTTG TATCTCAAAG CCAAAAGCCA CAGGCATGGC
    CACAGTTACT GTTCATCTCA GGGATGTGAA AGAGTCAAGA TCCAGGCAGC CACAGACTCA
    AAGGACATCA GTAACTGCAT GGCCAAAGCA TACCCACAGT ACTACAGAAA GCCGTCAGTG
    GTCAAGCGGA TGCCGGCCAT GCTCACTGGA CTCTGTCAAG GCTGTGGCAC TCGGCAGGTG
    GTGTTTACTA GTGATCCTCA TAAAAGTTAC CTCCCTGTGC AATTCCAGTC ACCTGATAAA
    GCAGAAACCC AGCGTGGAGA CCCGTCTGTT ATTTCTGTCA ATGGCACTGA CTTTACCTTC
    CGAAGTGCAG GCGTCCTCCT CCTTGTTGTG GATCCGTGCA GCGTTCCATT CCGCTTGACG
    GAAAAAAAGG TTTTTCCTCT TGCTGATGTC AGTCGCATTG AAGAGTATTT AAAAACAGGC
    ATCCCTCCAA GGTCCATTGT TCTGTTGAGC ACAAGAGGAG AAATAAAGCA GTTGAACATT
    TCACACTTAC TAGTACCTCT GGGATTAGCC AAACCAGCTC ATCTTTATGA CAAAGGGAGT
    ACCATATTTT TGGGATTCAG TGGAAACTTT AAACCATCAT GGACTAAGCT ATTTACCAGT
    CCTGCTGGAC AGGGCCTTGG GGTGCTTGAA CAATTCATAC CTTTGCAGCT GGACGAATAT
    GGTTGTCCCA GAGCCACCAC TGTCCACAGA AGAGACCTGG AACTGCTAAA GCAAGCTTCA
    AAAGCACATT AG

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