CEMIP cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following CEMIP gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CEMIP 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
OMb36555 XM_015142863.1
Latest version!
Macaca mulatta cell migration inducing protein, hyaluronan binding (CEMIP), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb36556 XM_015142864.1
Latest version!
Macaca mulatta cell migration inducing protein, hyaluronan binding (CEMIP), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb89461 XM_015142863.2
Latest version!
Macaca mulatta cell migration inducing hyaluronidase 1 (CEMIP), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb89462 XM_015142864.2
Latest version!
Macaca mulatta cell migration inducing hyaluronidase 1 (CEMIP), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMb36555
    Clone ID Related Accession (Same CDS sequence) XM_015142863.1
    Accession Version XM_015142863.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4131bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product cell migration-inducing and hyaluronan-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805017.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGTCTGACT CTGTGTGCTT CTCTTTCAGG GAGCACGCTG CCAGGATGGG AGCTGCTGGG 
    AGGCAGGACT TCTCCTTCAA GGCTATGCTG ACAATCAGCT GGCTTACACT GACCTGCTTC
    CCTGGGGCCA CATCCACAGT GGCTGCTGGG TGCCCTGACC AGAGCCCTGA GTTGCAACCC
    TGGAACCCTG GCCATGACCA AGACTACCAT GTGCATATCA GCCAGGGCAA GACACTGCTG
    CTCACCTCTT CTGCCACAGT CTATTCCATC CACATCTCAG AGGGAGGCAA GCTAGTCATT
    AAAGACCACA ATGAGCCAAT TGTTTTGCGA ACCCGGCACA TCCTGATTGA CAACGGAGGA
    GAGCTGCATG CTGGGAGTGC CCTCTGCCCT TTCCAGGGCA ATTTCACCAT CATTTTGTAC
    GGAAGGGCTG ATGAAGGTAT TCAGCCAGAT CCTTACTATG GTCTGAAGTA CATTGGGGTC
    GGTAGAGGAG GCACTCTTGA GTTGCATGGA CAGAAAAAGC TCTCCTGGAC ATTTCTGAAC
    AAGACCCTCC ACCCAGGTGG CATGGCAGAA GGAGGCTATT TTTTTGAAAG GAGCTGGGGC
    CACCGTGGAG TTATTGTTCA CGTCATCAAC CCCAAATCAG GCACAGTCAT CCATTCTGAC
    CGGTTTGACA CCTATAGATC CAAGAAAGAG AGTGAACGTC TGGTCCAGTA TTTGAACGCG
    GTGCCCGATG GCAGGATCCT TTCTGTTGCA GTGAATGATG AAGGTTCTCG AAATCTGGAT
    GACATGGCCA GGAAGGCAAT GACCAAATTG GGAAGCAAAC ACTTCCTGCA CCTTGGATTT
    AGACACCCTT GGAGTTTTCT AACTGTGAAA GGAAATCCAT CTTCTTCAGT GGAAGACCAT
    ATTGAATATC ATGGACATCG AGGCTCTGCT GCTGCCCGGG TATTCAAATT GTTCCAGACC
    GAGCATGGAG AATATTTCAA TGTTTCTTTG TCCAGCGAGT GGGTTCAAGA TGTGGAGTGG
    ACGGAGTGGT TCGATCATGA TAAAGCATCT CAGACTAAAG GTGGGGATAA AATTTCAGAC
    CTCTGGAAAG CTCACCCAGG AAAAATCTGC AATCGTCCCA TTGATATACA GGCCACTACA
    ATGGATGGAG TTAACCTCAG CACCGAGGTT GTCTACAAAA AAGGCCAGGA TTATAGGTTT
    GCTTGCTATG ACCGGGGCAG AGCCTGCCGG AGCTACCGTG TACGGTTCCT CTGTGGGAAG
    CCTGTGAGGC CCAAACTCAC AGTCACCATT GACACCAATG TGAACAGCAC CATTCTGAAC
    CTGGAGGATA ATGTACAGTC ATGGAAGCCT GGAGATACCT TGGTCATTGC CAGTACTGAT
    TACTCCATGT ACCAGGCAGA AGAGTTCCAG GTTCTTCCCT GCAGATCCTG CGCTCCCAAC
    CAGGTCAAAG TGGCAGGGAA ACCAATGTAC CTGCACATCG GGGAGGAGAT AGATGGCGTG
    GACATGCGGG CAGAGGTTGG GCTTCTGAGC CGGAACATAA TAGTGATGGG GGAGATGGAG
    GACAAATGCT ACCCCTACAG AAACCACATC TGCAATTTCT TTGACTTCGA TACCTTTGGG
    GGCCACATCA AGTTTGCTCT GGGATTTAAG GCAGCACACC TGGAGGGCAT GGAGCTGAAG
    CATATGGGAC AGCAGCTGAT GGGTCAGTAC CCGATTCACT TCCACCTGGC CGGTGATGTA
    GATGAAAGGG GAGGCTATAA CCCACCCACA TACATCAGGG ACCTCTCCAT CCATCATACA
    TTCTCTCGCT GCGTCACAGT CCATGGCTCC AATGGCTTGT TGACCAAGGA CGTTGTAGGC
    TATAACTCTT TGGGCCACTG CTTCTTCACG GAAGATGGGC CAGAGGAACG CAACACTTTT
    GACCACTGTC TTGGCCTCCT TGTCAAGTCC GGAACCCTCC TCCCCTCAGA CCGTGACAGC
    AAGATGTGCA AGATGATCAC AGAGGACTCC TATCCGGGGT ACATCCCCAA GCCCAGGCAA
    GACTGCAATG CTGTGTCCAC CTTCTGGATG GCCAATCCCA ACAACAACCT CATAAACTGT
    GCTGCTGCAG GATCTGAGGA AACTGGATTT TGGTTTATTT TTCACCACGT ACCAACGGGC
    CCCTCCGTGG GAATGTACTC CCCAGGTTAT TCAGAGCACA TTCCACTGGG AAAATTCTAT
    AACAACCGAG CACATTCCAA CTACCGGGCT GGCATGATCA TAGACAACGG AGTCAAAACC
    ACTGAGGCCT CTGCCAAGGA CAAGCGGCCC TTCCTCTCGA TCATCTCTGC CAGATATAGC
    CCTCACCAGG ATGCTGACCC GCTGAAGCCT CGGGAGCCAG CCATCATCAA GCACTTCATT
    GCCTACAAGA ACCAGGACCA TGGGGCCTGG CTGCGCGGTG GGGATGTGTG GCTGGACAGC
    TGCCGGTTTG CTGACAATGG CATCGGCCTA ACCCTGGCCA GTGGTGGAAC TTTCCCATAT
    GATGACGGCT CCAAGCAAGA GATAAAGAAC AGTTTGTTTG TTGGCGAGAG CGGCAACGTG
    GGGACAGAAA TGATGGACAA TAGGATCTGG GGCCCTGGTG GCTTGGACCA TAGTGGAAGG
    ACCCTCCCTA TAGGCCAGAA TTTTCCGATT AGAGGAATTC AGTTCTATGA TGGCCCCATC
    AACATCCAAA ACTGCACTTT CCGAAAGTTT GTGGCCCTGG AGGGCCGGCA CACCAGCGCC
    CTGGCCTTCC GCCTGAATAA TGCCTGGCAG AGCTGCCCCC ATAACAACGT GACCGGCATT
    GCCTTTGAGG ACGTTCCGAT TACTTCCAGA GTGTTCTTCG GAGAGCCTGG GCCCTGGTTC
    AACCAGCTGG ACATGGATGG GGATAAGACA TCTGTGTTCC ATGACGTCGA TGGTTCCGTG
    TCCGAGTACC CTGGCTCCTA CCTCACGAAG GATGACAACT GGCTGGTCCG GCACCCAGAC
    TGCATCAATG TTCCCGACTG GAGAGGGGCC ATTTGCAGTG GGCGCTATGC ACAGATGTAC
    ATTCAAGCCT ACAAGACCAG TAACCTGCGA ATGAAGATCA TCAAGAATGA CTTCCCCAGC
    CACCCTCTCT ACCTGGAGGG GGCGCTCACC AGGAGCACCC ATTACCAGCA GTACCAGCCG
    GTTGTCACCC TGCAGAAGGG CTACACCATC CACTGGGACC AGACGGCCCC CGCCGAACTC
    GCCATCTGGC TCATCAACTT CAACAAGGGC GACTGGATCC GAGTGGGGCT CTGCTACCCG
    AGAGGCACCA CCTTCTCCAT CCTCTCGGAT GTTCACAATC GCCTGCTGAA GCAAACGTCC
    AAGACAGGTG TCTTTGTGAG GACCTTGCAG ATGGACAAAG TGGAGCAGAG CTATCCTGGC
    AGGAGCCACT ACTACTGGGA CGAAGACTCA GGGCTGTTGT TCCTGAAGCT GAAAGCTCAG
    AACGAGAGAG AGAAGTTTGC TTTCTGCTCC ATGAAAGGCT GTGAGAGGAT AAAGATTAAA
    GCTCTGATCC CAAAGAACGC AGGCGTCAGT GACTGCACAG CCACAGCCTA CCCCAAGTTC
    ACCGAGAGGG CTGTCGTGGA CGTGCCAATG CCCAAGAAGC TCCTTGGTTC TCAGCTGAAA
    ACAAAGGACC ATTTCTTGGA GGTGAAGATG GAGAGTTCCA AGCAGCACTT CTTCCACCTT
    TGGAACGACT TTGCTTACAT TGAAGTGGAT GGGAAGAAGT ACCCCAGCTC GGAGGATGGC
    ATCCAGGTGG TGGTGATTGA CGGGAGCCAA GGGCGCATGG TGAGCCACAT GAGCTTCAGG
    AACTCCATTC TGCAGGGCAT ACCGTGGCAG CTTTTCAACT ATGTGGCGAC CATCCCTGAC
    AATTCCATAG TGCTCATGGT ATCAAAGGGA AGATATGTCT CCAGAGGCCC ATGGACCAGA
    GTGCTGGAAA AGCTTGGGGC AGACAGGGGT CTCAAGTTGA AAGAGCAAAT GGCATTCGTT
    GGCTTCAAAG GCAGCTTCCG GCCCATCTGG GTGACTCTGG ACACTGAGGA TCACAAAGCC
    AAAATCTTCC AAGTTGTGCC TATCCCTGTG GTGAAGAAGA AGAAGTTGTG A

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

    RefSeq XP_014998349.1
    CDS998..5128
    Translation

    Target ORF information:

    RefSeq Version XM_015142863.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta cell migration inducing protein, hyaluronan binding (CEMIP), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015142863.1

    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
    ATGTCTGACT CTGTGTGCTT CTCTTTCAGG GAGCACGCTG CCAGGATGGG AGCTGCTGGG 
    AGGCAGGACT TCTCCTTCAA GGCTATGCTG ACAATCAGCT GGCTTACACT GACCTGCTTC
    CCTGGGGCCA CATCCACAGT GGCTGCTGGG TGCCCTGACC AGAGCCCTGA GTTGCAACCC
    TGGAACCCTG GCCATGACCA AGACTACCAT GTGCATATCA GCCAGGGCAA GACACTGCTG
    CTCACCTCTT CTGCCACAGT CTATTCCATC CACATCTCAG AGGGAGGCAA GCTAGTCATT
    AAAGACCACA ATGAGCCAAT TGTTTTGCGA ACCCGGCACA TCCTGATTGA CAACGGAGGA
    GAGCTGCATG CTGGGAGTGC CCTCTGCCCT TTCCAGGGCA ATTTCACCAT CATTTTGTAC
    GGAAGGGCTG ATGAAGGTAT TCAGCCAGAT CCTTACTATG GTCTGAAGTA CATTGGGGTC
    GGTAGAGGAG GCACTCTTGA GTTGCATGGA CAGAAAAAGC TCTCCTGGAC ATTTCTGAAC
    AAGACCCTCC ACCCAGGTGG CATGGCAGAA GGAGGCTATT TTTTTGAAAG GAGCTGGGGC
    CACCGTGGAG TTATTGTTCA CGTCATCAAC CCCAAATCAG GCACAGTCAT CCATTCTGAC
    CGGTTTGACA CCTATAGATC CAAGAAAGAG AGTGAACGTC TGGTCCAGTA TTTGAACGCG
    GTGCCCGATG GCAGGATCCT TTCTGTTGCA GTGAATGATG AAGGTTCTCG AAATCTGGAT
    GACATGGCCA GGAAGGCAAT GACCAAATTG GGAAGCAAAC ACTTCCTGCA CCTTGGATTT
    AGACACCCTT GGAGTTTTCT AACTGTGAAA GGAAATCCAT CTTCTTCAGT GGAAGACCAT
    ATTGAATATC ATGGACATCG AGGCTCTGCT GCTGCCCGGG TATTCAAATT GTTCCAGACC
    GAGCATGGAG AATATTTCAA TGTTTCTTTG TCCAGCGAGT GGGTTCAAGA TGTGGAGTGG
    ACGGAGTGGT TCGATCATGA TAAAGCATCT CAGACTAAAG GTGGGGATAA AATTTCAGAC
    CTCTGGAAAG CTCACCCAGG AAAAATCTGC AATCGTCCCA TTGATATACA GGCCACTACA
    ATGGATGGAG TTAACCTCAG CACCGAGGTT GTCTACAAAA AAGGCCAGGA TTATAGGTTT
    GCTTGCTATG ACCGGGGCAG AGCCTGCCGG AGCTACCGTG TACGGTTCCT CTGTGGGAAG
    CCTGTGAGGC CCAAACTCAC AGTCACCATT GACACCAATG TGAACAGCAC CATTCTGAAC
    CTGGAGGATA ATGTACAGTC ATGGAAGCCT GGAGATACCT TGGTCATTGC CAGTACTGAT
    TACTCCATGT ACCAGGCAGA AGAGTTCCAG GTTCTTCCCT GCAGATCCTG CGCTCCCAAC
    CAGGTCAAAG TGGCAGGGAA ACCAATGTAC CTGCACATCG GGGAGGAGAT AGATGGCGTG
    GACATGCGGG CAGAGGTTGG GCTTCTGAGC CGGAACATAA TAGTGATGGG GGAGATGGAG
    GACAAATGCT ACCCCTACAG AAACCACATC TGCAATTTCT TTGACTTCGA TACCTTTGGG
    GGCCACATCA AGTTTGCTCT GGGATTTAAG GCAGCACACC TGGAGGGCAT GGAGCTGAAG
    CATATGGGAC AGCAGCTGAT GGGTCAGTAC CCGATTCACT TCCACCTGGC CGGTGATGTA
    GATGAAAGGG GAGGCTATAA CCCACCCACA TACATCAGGG ACCTCTCCAT CCATCATACA
    TTCTCTCGCT GCGTCACAGT CCATGGCTCC AATGGCTTGT TGACCAAGGA CGTTGTAGGC
    TATAACTCTT TGGGCCACTG CTTCTTCACG GAAGATGGGC CAGAGGAACG CAACACTTTT
    GACCACTGTC TTGGCCTCCT TGTCAAGTCC GGAACCCTCC TCCCCTCAGA CCGTGACAGC
    AAGATGTGCA AGATGATCAC AGAGGACTCC TATCCGGGGT ACATCCCCAA GCCCAGGCAA
    GACTGCAATG CTGTGTCCAC CTTCTGGATG GCCAATCCCA ACAACAACCT CATAAACTGT
    GCTGCTGCAG GATCTGAGGA AACTGGATTT TGGTTTATTT TTCACCACGT ACCAACGGGC
    CCCTCCGTGG GAATGTACTC CCCAGGTTAT TCAGAGCACA TTCCACTGGG AAAATTCTAT
    AACAACCGAG CACATTCCAA CTACCGGGCT GGCATGATCA TAGACAACGG AGTCAAAACC
    ACTGAGGCCT CTGCCAAGGA CAAGCGGCCC TTCCTCTCGA TCATCTCTGC CAGATATAGC
    CCTCACCAGG ATGCTGACCC GCTGAAGCCT CGGGAGCCAG CCATCATCAA GCACTTCATT
    GCCTACAAGA ACCAGGACCA TGGGGCCTGG CTGCGCGGTG GGGATGTGTG GCTGGACAGC
    TGCCGGTTTG CTGACAATGG CATCGGCCTA ACCCTGGCCA GTGGTGGAAC TTTCCCATAT
    GATGACGGCT CCAAGCAAGA GATAAAGAAC AGTTTGTTTG TTGGCGAGAG CGGCAACGTG
    GGGACAGAAA TGATGGACAA TAGGATCTGG GGCCCTGGTG GCTTGGACCA TAGTGGAAGG
    ACCCTCCCTA TAGGCCAGAA TTTTCCGATT AGAGGAATTC AGTTCTATGA TGGCCCCATC
    AACATCCAAA ACTGCACTTT CCGAAAGTTT GTGGCCCTGG AGGGCCGGCA CACCAGCGCC
    CTGGCCTTCC GCCTGAATAA TGCCTGGCAG AGCTGCCCCC ATAACAACGT GACCGGCATT
    GCCTTTGAGG ACGTTCCGAT TACTTCCAGA GTGTTCTTCG GAGAGCCTGG GCCCTGGTTC
    AACCAGCTGG ACATGGATGG GGATAAGACA TCTGTGTTCC ATGACGTCGA TGGTTCCGTG
    TCCGAGTACC CTGGCTCCTA CCTCACGAAG GATGACAACT GGCTGGTCCG GCACCCAGAC
    TGCATCAATG TTCCCGACTG GAGAGGGGCC ATTTGCAGTG GGCGCTATGC ACAGATGTAC
    ATTCAAGCCT ACAAGACCAG TAACCTGCGA ATGAAGATCA TCAAGAATGA CTTCCCCAGC
    CACCCTCTCT ACCTGGAGGG GGCGCTCACC AGGAGCACCC ATTACCAGCA GTACCAGCCG
    GTTGTCACCC TGCAGAAGGG CTACACCATC CACTGGGACC AGACGGCCCC CGCCGAACTC
    GCCATCTGGC TCATCAACTT CAACAAGGGC GACTGGATCC GAGTGGGGCT CTGCTACCCG
    AGAGGCACCA CCTTCTCCAT CCTCTCGGAT GTTCACAATC GCCTGCTGAA GCAAACGTCC
    AAGACAGGTG TCTTTGTGAG GACCTTGCAG ATGGACAAAG TGGAGCAGAG CTATCCTGGC
    AGGAGCCACT ACTACTGGGA CGAAGACTCA GGGCTGTTGT TCCTGAAGCT GAAAGCTCAG
    AACGAGAGAG AGAAGTTTGC TTTCTGCTCC ATGAAAGGCT GTGAGAGGAT AAAGATTAAA
    GCTCTGATCC CAAAGAACGC AGGCGTCAGT GACTGCACAG CCACAGCCTA CCCCAAGTTC
    ACCGAGAGGG CTGTCGTGGA CGTGCCAATG CCCAAGAAGC TCCTTGGTTC TCAGCTGAAA
    ACAAAGGACC ATTTCTTGGA GGTGAAGATG GAGAGTTCCA AGCAGCACTT CTTCCACCTT
    TGGAACGACT TTGCTTACAT TGAAGTGGAT GGGAAGAAGT ACCCCAGCTC GGAGGATGGC
    ATCCAGGTGG TGGTGATTGA CGGGAGCCAA GGGCGCATGG TGAGCCACAT GAGCTTCAGG
    AACTCCATTC TGCAGGGCAT ACCGTGGCAG CTTTTCAACT ATGTGGCGAC CATCCCTGAC
    AATTCCATAG TGCTCATGGT ATCAAAGGGA AGATATGTCT CCAGAGGCCC ATGGACCAGA
    GTGCTGGAAA AGCTTGGGGC AGACAGGGGT CTCAAGTTGA AAGAGCAAAT GGCATTCGTT
    GGCTTCAAAG GCAGCTTCCG GCCCATCTGG GTGACTCTGG ACACTGAGGA TCACAAAGCC
    AAAATCTTCC AAGTTGTGCC TATCCCTGTG GTGAAGAAGA AGAAGTTGTG A

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

    CloneID OMb36556
    Clone ID Related Accession (Same CDS sequence) XM_015142864.1
    Accession Version XM_015142864.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4086bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product cell migration-inducing and hyaluronan-binding protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805017.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGGAGCTG CTGGGAGGCA GGACTTCTCC TTCAAGGCTA TGCTGACAAT CAGCTGGCTT 
    ACACTGACCT GCTTCCCTGG GGCCACATCC ACAGTGGCTG CTGGGTGCCC TGACCAGAGC
    CCTGAGTTGC AACCCTGGAA CCCTGGCCAT GACCAAGACT ACCATGTGCA TATCAGCCAG
    GGCAAGACAC TGCTGCTCAC CTCTTCTGCC ACAGTCTATT CCATCCACAT CTCAGAGGGA
    GGCAAGCTAG TCATTAAAGA CCACAATGAG CCAATTGTTT TGCGAACCCG GCACATCCTG
    ATTGACAACG GAGGAGAGCT GCATGCTGGG AGTGCCCTCT GCCCTTTCCA GGGCAATTTC
    ACCATCATTT TGTACGGAAG GGCTGATGAA GGTATTCAGC CAGATCCTTA CTATGGTCTG
    AAGTACATTG GGGTCGGTAG AGGAGGCACT CTTGAGTTGC ATGGACAGAA AAAGCTCTCC
    TGGACATTTC TGAACAAGAC CCTCCACCCA GGTGGCATGG CAGAAGGAGG CTATTTTTTT
    GAAAGGAGCT GGGGCCACCG TGGAGTTATT GTTCACGTCA TCAACCCCAA ATCAGGCACA
    GTCATCCATT CTGACCGGTT TGACACCTAT AGATCCAAGA AAGAGAGTGA ACGTCTGGTC
    CAGTATTTGA ACGCGGTGCC CGATGGCAGG ATCCTTTCTG TTGCAGTGAA TGATGAAGGT
    TCTCGAAATC TGGATGACAT GGCCAGGAAG GCAATGACCA AATTGGGAAG CAAACACTTC
    CTGCACCTTG GATTTAGACA CCCTTGGAGT TTTCTAACTG TGAAAGGAAA TCCATCTTCT
    TCAGTGGAAG ACCATATTGA ATATCATGGA CATCGAGGCT CTGCTGCTGC CCGGGTATTC
    AAATTGTTCC AGACCGAGCA TGGAGAATAT TTCAATGTTT CTTTGTCCAG CGAGTGGGTT
    CAAGATGTGG AGTGGACGGA GTGGTTCGAT CATGATAAAG CATCTCAGAC TAAAGGTGGG
    GATAAAATTT CAGACCTCTG GAAAGCTCAC CCAGGAAAAA TCTGCAATCG TCCCATTGAT
    ATACAGGCCA CTACAATGGA TGGAGTTAAC CTCAGCACCG AGGTTGTCTA CAAAAAAGGC
    CAGGATTATA GGTTTGCTTG CTATGACCGG GGCAGAGCCT GCCGGAGCTA CCGTGTACGG
    TTCCTCTGTG GGAAGCCTGT GAGGCCCAAA CTCACAGTCA CCATTGACAC CAATGTGAAC
    AGCACCATTC TGAACCTGGA GGATAATGTA CAGTCATGGA AGCCTGGAGA TACCTTGGTC
    ATTGCCAGTA CTGATTACTC CATGTACCAG GCAGAAGAGT TCCAGGTTCT TCCCTGCAGA
    TCCTGCGCTC CCAACCAGGT CAAAGTGGCA GGGAAACCAA TGTACCTGCA CATCGGGGAG
    GAGATAGATG GCGTGGACAT GCGGGCAGAG GTTGGGCTTC TGAGCCGGAA CATAATAGTG
    ATGGGGGAGA TGGAGGACAA ATGCTACCCC TACAGAAACC ACATCTGCAA TTTCTTTGAC
    TTCGATACCT TTGGGGGCCA CATCAAGTTT GCTCTGGGAT TTAAGGCAGC ACACCTGGAG
    GGCATGGAGC TGAAGCATAT GGGACAGCAG CTGATGGGTC AGTACCCGAT TCACTTCCAC
    CTGGCCGGTG ATGTAGATGA AAGGGGAGGC TATAACCCAC CCACATACAT CAGGGACCTC
    TCCATCCATC ATACATTCTC TCGCTGCGTC ACAGTCCATG GCTCCAATGG CTTGTTGACC
    AAGGACGTTG TAGGCTATAA CTCTTTGGGC CACTGCTTCT TCACGGAAGA TGGGCCAGAG
    GAACGCAACA CTTTTGACCA CTGTCTTGGC CTCCTTGTCA AGTCCGGAAC CCTCCTCCCC
    TCAGACCGTG ACAGCAAGAT GTGCAAGATG ATCACAGAGG ACTCCTATCC GGGGTACATC
    CCCAAGCCCA GGCAAGACTG CAATGCTGTG TCCACCTTCT GGATGGCCAA TCCCAACAAC
    AACCTCATAA ACTGTGCTGC TGCAGGATCT GAGGAAACTG GATTTTGGTT TATTTTTCAC
    CACGTACCAA CGGGCCCCTC CGTGGGAATG TACTCCCCAG GTTATTCAGA GCACATTCCA
    CTGGGAAAAT TCTATAACAA CCGAGCACAT TCCAACTACC GGGCTGGCAT GATCATAGAC
    AACGGAGTCA AAACCACTGA GGCCTCTGCC AAGGACAAGC GGCCCTTCCT CTCGATCATC
    TCTGCCAGAT ATAGCCCTCA CCAGGATGCT GACCCGCTGA AGCCTCGGGA GCCAGCCATC
    ATCAAGCACT TCATTGCCTA CAAGAACCAG GACCATGGGG CCTGGCTGCG CGGTGGGGAT
    GTGTGGCTGG ACAGCTGCCG GTTTGCTGAC AATGGCATCG GCCTAACCCT GGCCAGTGGT
    GGAACTTTCC CATATGATGA CGGCTCCAAG CAAGAGATAA AGAACAGTTT GTTTGTTGGC
    GAGAGCGGCA ACGTGGGGAC AGAAATGATG GACAATAGGA TCTGGGGCCC TGGTGGCTTG
    GACCATAGTG GAAGGACCCT CCCTATAGGC CAGAATTTTC CGATTAGAGG AATTCAGTTC
    TATGATGGCC CCATCAACAT CCAAAACTGC ACTTTCCGAA AGTTTGTGGC CCTGGAGGGC
    CGGCACACCA GCGCCCTGGC CTTCCGCCTG AATAATGCCT GGCAGAGCTG CCCCCATAAC
    AACGTGACCG GCATTGCCTT TGAGGACGTT CCGATTACTT CCAGAGTGTT CTTCGGAGAG
    CCTGGGCCCT GGTTCAACCA GCTGGACATG GATGGGGATA AGACATCTGT GTTCCATGAC
    GTCGATGGTT CCGTGTCCGA GTACCCTGGC TCCTACCTCA CGAAGGATGA CAACTGGCTG
    GTCCGGCACC CAGACTGCAT CAATGTTCCC GACTGGAGAG GGGCCATTTG CAGTGGGCGC
    TATGCACAGA TGTACATTCA AGCCTACAAG ACCAGTAACC TGCGAATGAA GATCATCAAG
    AATGACTTCC CCAGCCACCC TCTCTACCTG GAGGGGGCGC TCACCAGGAG CACCCATTAC
    CAGCAGTACC AGCCGGTTGT CACCCTGCAG AAGGGCTACA CCATCCACTG GGACCAGACG
    GCCCCCGCCG AACTCGCCAT CTGGCTCATC AACTTCAACA AGGGCGACTG GATCCGAGTG
    GGGCTCTGCT ACCCGAGAGG CACCACCTTC TCCATCCTCT CGGATGTTCA CAATCGCCTG
    CTGAAGCAAA CGTCCAAGAC AGGTGTCTTT GTGAGGACCT TGCAGATGGA CAAAGTGGAG
    CAGAGCTATC CTGGCAGGAG CCACTACTAC TGGGACGAAG ACTCAGGGCT GTTGTTCCTG
    AAGCTGAAAG CTCAGAACGA GAGAGAGAAG TTTGCTTTCT GCTCCATGAA AGGCTGTGAG
    AGGATAAAGA TTAAAGCTCT GATCCCAAAG AACGCAGGCG TCAGTGACTG CACAGCCACA
    GCCTACCCCA AGTTCACCGA GAGGGCTGTC GTGGACGTGC CAATGCCCAA GAAGCTCCTT
    GGTTCTCAGC TGAAAACAAA GGACCATTTC TTGGAGGTGA AGATGGAGAG TTCCAAGCAG
    CACTTCTTCC ACCTTTGGAA CGACTTTGCT TACATTGAAG TGGATGGGAA GAAGTACCCC
    AGCTCGGAGG ATGGCATCCA GGTGGTGGTG ATTGACGGGA GCCAAGGGCG CATGGTGAGC
    CACATGAGCT TCAGGAACTC CATTCTGCAG GGCATACCGT GGCAGCTTTT CAACTATGTG
    GCGACCATCC CTGACAATTC CATAGTGCTC ATGGTATCAA AGGGAAGATA TGTCTCCAGA
    GGCCCATGGA CCAGAGTGCT GGAAAAGCTT GGGGCAGACA GGGGTCTCAA GTTGAAAGAG
    CAAATGGCAT TCGTTGGCTT CAAAGGCAGC TTCCGGCCCA TCTGGGTGAC TCTGGACACT
    GAGGATCACA AAGCCAAAAT CTTCCAAGTT GTGCCTATCC CTGTGGTGAA GAAGAAGAAG
    TTGTGA

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

    RefSeq XP_014998350.1
    CDS344..4429
    Translation

    Target ORF information:

    RefSeq Version XM_015142864.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta cell migration inducing protein, hyaluronan binding (CEMIP), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015142864.1

    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
    ATGGGAGCTG CTGGGAGGCA GGACTTCTCC TTCAAGGCTA TGCTGACAAT CAGCTGGCTT 
    ACACTGACCT GCTTCCCTGG GGCCACATCC ACAGTGGCTG CTGGGTGCCC TGACCAGAGC
    CCTGAGTTGC AACCCTGGAA CCCTGGCCAT GACCAAGACT ACCATGTGCA TATCAGCCAG
    GGCAAGACAC TGCTGCTCAC CTCTTCTGCC ACAGTCTATT CCATCCACAT CTCAGAGGGA
    GGCAAGCTAG TCATTAAAGA CCACAATGAG CCAATTGTTT TGCGAACCCG GCACATCCTG
    ATTGACAACG GAGGAGAGCT GCATGCTGGG AGTGCCCTCT GCCCTTTCCA GGGCAATTTC
    ACCATCATTT TGTACGGAAG GGCTGATGAA GGTATTCAGC CAGATCCTTA CTATGGTCTG
    AAGTACATTG GGGTCGGTAG AGGAGGCACT CTTGAGTTGC ATGGACAGAA AAAGCTCTCC
    TGGACATTTC TGAACAAGAC CCTCCACCCA GGTGGCATGG CAGAAGGAGG CTATTTTTTT
    GAAAGGAGCT GGGGCCACCG TGGAGTTATT GTTCACGTCA TCAACCCCAA ATCAGGCACA
    GTCATCCATT CTGACCGGTT TGACACCTAT AGATCCAAGA AAGAGAGTGA ACGTCTGGTC
    CAGTATTTGA ACGCGGTGCC CGATGGCAGG ATCCTTTCTG TTGCAGTGAA TGATGAAGGT
    TCTCGAAATC TGGATGACAT GGCCAGGAAG GCAATGACCA AATTGGGAAG CAAACACTTC
    CTGCACCTTG GATTTAGACA CCCTTGGAGT TTTCTAACTG TGAAAGGAAA TCCATCTTCT
    TCAGTGGAAG ACCATATTGA ATATCATGGA CATCGAGGCT CTGCTGCTGC CCGGGTATTC
    AAATTGTTCC AGACCGAGCA TGGAGAATAT TTCAATGTTT CTTTGTCCAG CGAGTGGGTT
    CAAGATGTGG AGTGGACGGA GTGGTTCGAT CATGATAAAG CATCTCAGAC TAAAGGTGGG
    GATAAAATTT CAGACCTCTG GAAAGCTCAC CCAGGAAAAA TCTGCAATCG TCCCATTGAT
    ATACAGGCCA CTACAATGGA TGGAGTTAAC CTCAGCACCG AGGTTGTCTA CAAAAAAGGC
    CAGGATTATA GGTTTGCTTG CTATGACCGG GGCAGAGCCT GCCGGAGCTA CCGTGTACGG
    TTCCTCTGTG GGAAGCCTGT GAGGCCCAAA CTCACAGTCA CCATTGACAC CAATGTGAAC
    AGCACCATTC TGAACCTGGA GGATAATGTA CAGTCATGGA AGCCTGGAGA TACCTTGGTC
    ATTGCCAGTA CTGATTACTC CATGTACCAG GCAGAAGAGT TCCAGGTTCT TCCCTGCAGA
    TCCTGCGCTC CCAACCAGGT CAAAGTGGCA GGGAAACCAA TGTACCTGCA CATCGGGGAG
    GAGATAGATG GCGTGGACAT GCGGGCAGAG GTTGGGCTTC TGAGCCGGAA CATAATAGTG
    ATGGGGGAGA TGGAGGACAA ATGCTACCCC TACAGAAACC ACATCTGCAA TTTCTTTGAC
    TTCGATACCT TTGGGGGCCA CATCAAGTTT GCTCTGGGAT TTAAGGCAGC ACACCTGGAG
    GGCATGGAGC TGAAGCATAT GGGACAGCAG CTGATGGGTC AGTACCCGAT TCACTTCCAC
    CTGGCCGGTG ATGTAGATGA AAGGGGAGGC TATAACCCAC CCACATACAT CAGGGACCTC
    TCCATCCATC ATACATTCTC TCGCTGCGTC ACAGTCCATG GCTCCAATGG CTTGTTGACC
    AAGGACGTTG TAGGCTATAA CTCTTTGGGC CACTGCTTCT TCACGGAAGA TGGGCCAGAG
    GAACGCAACA CTTTTGACCA CTGTCTTGGC CTCCTTGTCA AGTCCGGAAC CCTCCTCCCC
    TCAGACCGTG ACAGCAAGAT GTGCAAGATG ATCACAGAGG ACTCCTATCC GGGGTACATC
    CCCAAGCCCA GGCAAGACTG CAATGCTGTG TCCACCTTCT GGATGGCCAA TCCCAACAAC
    AACCTCATAA ACTGTGCTGC TGCAGGATCT GAGGAAACTG GATTTTGGTT TATTTTTCAC
    CACGTACCAA CGGGCCCCTC CGTGGGAATG TACTCCCCAG GTTATTCAGA GCACATTCCA
    CTGGGAAAAT TCTATAACAA CCGAGCACAT TCCAACTACC GGGCTGGCAT GATCATAGAC
    AACGGAGTCA AAACCACTGA GGCCTCTGCC AAGGACAAGC GGCCCTTCCT CTCGATCATC
    TCTGCCAGAT ATAGCCCTCA CCAGGATGCT GACCCGCTGA AGCCTCGGGA GCCAGCCATC
    ATCAAGCACT TCATTGCCTA CAAGAACCAG GACCATGGGG CCTGGCTGCG CGGTGGGGAT
    GTGTGGCTGG ACAGCTGCCG GTTTGCTGAC AATGGCATCG GCCTAACCCT GGCCAGTGGT
    GGAACTTTCC CATATGATGA CGGCTCCAAG CAAGAGATAA AGAACAGTTT GTTTGTTGGC
    GAGAGCGGCA ACGTGGGGAC AGAAATGATG GACAATAGGA TCTGGGGCCC TGGTGGCTTG
    GACCATAGTG GAAGGACCCT CCCTATAGGC CAGAATTTTC CGATTAGAGG AATTCAGTTC
    TATGATGGCC CCATCAACAT CCAAAACTGC ACTTTCCGAA AGTTTGTGGC CCTGGAGGGC
    CGGCACACCA GCGCCCTGGC CTTCCGCCTG AATAATGCCT GGCAGAGCTG CCCCCATAAC
    AACGTGACCG GCATTGCCTT TGAGGACGTT CCGATTACTT CCAGAGTGTT CTTCGGAGAG
    CCTGGGCCCT GGTTCAACCA GCTGGACATG GATGGGGATA AGACATCTGT GTTCCATGAC
    GTCGATGGTT CCGTGTCCGA GTACCCTGGC TCCTACCTCA CGAAGGATGA CAACTGGCTG
    GTCCGGCACC CAGACTGCAT CAATGTTCCC GACTGGAGAG GGGCCATTTG CAGTGGGCGC
    TATGCACAGA TGTACATTCA AGCCTACAAG ACCAGTAACC TGCGAATGAA GATCATCAAG
    AATGACTTCC CCAGCCACCC TCTCTACCTG GAGGGGGCGC TCACCAGGAG CACCCATTAC
    CAGCAGTACC AGCCGGTTGT CACCCTGCAG AAGGGCTACA CCATCCACTG GGACCAGACG
    GCCCCCGCCG AACTCGCCAT CTGGCTCATC AACTTCAACA AGGGCGACTG GATCCGAGTG
    GGGCTCTGCT ACCCGAGAGG CACCACCTTC TCCATCCTCT CGGATGTTCA CAATCGCCTG
    CTGAAGCAAA CGTCCAAGAC AGGTGTCTTT GTGAGGACCT TGCAGATGGA CAAAGTGGAG
    CAGAGCTATC CTGGCAGGAG CCACTACTAC TGGGACGAAG ACTCAGGGCT GTTGTTCCTG
    AAGCTGAAAG CTCAGAACGA GAGAGAGAAG TTTGCTTTCT GCTCCATGAA AGGCTGTGAG
    AGGATAAAGA TTAAAGCTCT GATCCCAAAG AACGCAGGCG TCAGTGACTG CACAGCCACA
    GCCTACCCCA AGTTCACCGA GAGGGCTGTC GTGGACGTGC CAATGCCCAA GAAGCTCCTT
    GGTTCTCAGC TGAAAACAAA GGACCATTTC TTGGAGGTGA AGATGGAGAG TTCCAAGCAG
    CACTTCTTCC ACCTTTGGAA CGACTTTGCT TACATTGAAG TGGATGGGAA GAAGTACCCC
    AGCTCGGAGG ATGGCATCCA GGTGGTGGTG ATTGACGGGA GCCAAGGGCG CATGGTGAGC
    CACATGAGCT TCAGGAACTC CATTCTGCAG GGCATACCGT GGCAGCTTTT CAACTATGTG
    GCGACCATCC CTGACAATTC CATAGTGCTC ATGGTATCAA AGGGAAGATA TGTCTCCAGA
    GGCCCATGGA CCAGAGTGCT GGAAAAGCTT GGGGCAGACA GGGGTCTCAA GTTGAAAGAG
    CAAATGGCAT TCGTTGGCTT CAAAGGCAGC TTCCGGCCCA TCTGGGTGAC TCTGGACACT
    GAGGATCACA AAGCCAAAAT CTTCCAAGTT GTGCCTATCC CTGTGGTGAA GAAGAAGAAG
    TTGTGA

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

    CloneID OMb89461
    Clone ID Related Accession (Same CDS sequence) XM_015142863.2
    Accession Version XM_015142863.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4131bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product cell migration-inducing and hyaluronan-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041760.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015142863.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGTCTGACT CTGTGTGCTT CTCTTTCAGG GAGCACGCTG CCAGGATGGG AGCTGCTGGG 
    AGGCAGGACT TCTCCTTCAA GGCTATGCTG ACAATCAGCT GGCTTACACT GACCTGCTTC
    CCTGGGGCCA CATCCACAGT GGCTGCTGGG TGCCCTGACC AGAGCCCTGA GTTGCAACCC
    TGGAACCCTG GCCATGACCA AGACTACCAT GTGCATATCA GCCAGGGCAA GACACTGCTG
    CTCACCTCTT CTGCCACAGT CTATTCCATC CACATCTCAG AGGGAGGCAA GCTAGTCATT
    AAAGACCACA ATGAGCCAAT TGTTTTGCGA ACCCGGCACA TCCTGATTGA CAACGGAGGA
    GAGCTGCATG CTGGGAGTGC CCTCTGCCCT TTCCAGGGCA ATTTCACCAT CATTTTGTAC
    GGAAGGGCTG ATGAAGGTAT TCAGCCAGAT CCTTACTATG GTCTGAAGTA CATTGGGGTC
    GGTAGAGGAG GCACTCTTGA GTTGCATGGA CAGAAAAAGC TCTCCTGGAC ATTTCTGAAC
    AAGACCCTCC ACCCAGGTGG CATGGCAGAA GGAGGCTATT TTTTTGAAAG GAGCTGGGGC
    CACCGTGGAG TTATTGTTCA CGTCATCAAC CCCAAATCAG GCACAGTCAT CCATTCTGAC
    CGGTTTGACA CCTATAGATC CAAGAAAGAG AGTGAACGTC TGGTCCAGTA TTTGAACGCG
    GTGCCCGATG GCAGGATCCT TTCTGTTGCA GTGAATGATG AAGGTTCTCG AAATCTGGAT
    GACATGGCCA GGAAGGCAAT GACCAAATTG GGAAGCAAAC ACTTCCTGCA CCTTGGATTT
    AGACACCCTT GGAGTTTTCT AACTGTGAAA GGAAATCCAT CTTCTTCAGT GGAAGACCAT
    ATTGAATATC ATGGACATCG AGGCTCTGCT GCTGCCCGGG TATTCAAATT GTTCCAGACC
    GAGCATGGAG AATATTTCAA TGTTTCTTTG TCCAGCGAGT GGGTTCAAGA TGTGGAGTGG
    ACGGAGTGGT TCGATCATGA TAAAGCATCT CAGACTAAAG GTGGGGATAA AATTTCAGAC
    CTCTGGAAAG CTCACCCAGG AAAAATCTGC AATCGTCCCA TTGATATACA GGCCACTACA
    ATGGATGGAG TTAACCTCAG CACCGAGGTT GTCTACAAAA AAGGCCAGGA TTATAGGTTT
    GCTTGCTATG ACCGGGGCAG AGCCTGCCGG AGCTACCGTG TACGGTTCCT CTGTGGGAAG
    CCTGTGAGGC CCAAACTCAC AGTCACCATT GACACCAATG TGAACAGCAC CATTCTGAAC
    CTGGAGGATA ATGTACAGTC ATGGAAGCCT GGAGATACCT TGGTCATTGC CAGTACTGAT
    TACTCCATGT ACCAGGCAGA AGAGTTCCAG GTTCTTCCCT GCAGATCCTG CGCTCCCAAC
    CAGGTCAAAG TGGCAGGGAA ACCAATGTAC CTGCATATCG GGGAGGAGAT AGATGGCGTG
    GACATGCGGG CAGAGGTTGG GCTTCTGAGC CGGAACATAA TAGTGATGGG GGAGATGGAG
    GACAAATGCT ACCCCTACAG AAACCACATC TGCAATTTCT TTGACTTCGA TACCTTTGGG
    GGCCACATCA AGTTTGCTCT GGGATTTAAG GCAGCACACC TGGAGGGCAT GGAGCTGAAG
    CATATGGGAC AGCAGCTGAT GGGTCAGTAC CCGATTCACT TCCACCTGGC CGGTGATGTA
    GATGAAAGGG GAGGCTATAA CCCACCCACA TACATCAGGG ACCTCTCCAT CCATCATACA
    TTCTCTCGCT GCGTCACAGT CCATGGCTCC AATGGCTTGT TGACCAAGGA CGTTGTGGGC
    TATAACTCTT TGGGCCACTG CTTCTTCACG GAAGATGGGC CAGAGGAACG CAACACTTTT
    GACCACTGTC TTGGCCTCCT TGTCAAGTCC GGAACCCTCC TCCCCTCAGA CCGTGACAGC
    AAGATGTGCA AGATGATCAC AGAGGACTCC TATCCGGGGT ACATCCCCAA GCCCAGGCAA
    GACTGCAATG CTGTGTCCAC CTTCTGGATG GCCAATCCCA ACAACAACCT CATAAACTGT
    GCTGCTGCAG GATCTGAGGA AACTGGATTT TGGTTTATTT TTCACCACGT ACCAACGGGC
    CCCTCCGTGG GAATGTACTC CCCAGGTTAT TCAGAGCACA TTCCACTGGG AAAATTCTAT
    AACAACCGAG CACATTCCAA CTACCGGGCT GGCATGATCA TAGACAACGG AGTCAAAACC
    ACTGAGGCCT CTGCCAAGGA CAAGCGGCCC TTCCTCTCGA TCATCTCTGC CAGATATAGC
    CCTCACCAGG ATGCTGACCC GCTGAAGCCT CGGGAGCCAG CCATCATCAA GCACTTCATT
    GCCTACAAGA ACCAGGACCA TGGGGCCTGG CTGCGCGGTG GGGATGTGTG GCTGGACAGC
    TGCCGGTTTG CTGACAATGG CATCGGCCTA ACCCTGGCCA GTGGTGGAAC TTTCCCATAT
    GATGACGGCT CCAAGCAAGA GATAAAGAAC AGTTTGTTTG TTGGCGAGAG CGGCAACGTG
    GGGACAGAAA TGATGGACAA TAGGATCTGG GGCCCCGGTG GCTTGGACCA TAGTGGAAGG
    ACCCTCCCTA TAGGCCAGAA TTTTCCGATT AGAGGAATTC AGTTCTATGA TGGCCCCATC
    AACATCCAAA ACTGCACTTT CCGAAAGTTT GTGGCCCTGG AGGGCCGGCA CACCAGCGCC
    CTGGCCTTCC GCCTGAATAA TGCCTGGCAG AGCTGCCCCC ATAACAACGT GACCGGCATT
    GCCTTTGAGG ACGTTCCGAT TACTTCCAGA GTGTTCTTCG GAGAGCCTGG GCCCTGGTTC
    AACCAGCTGG ACATGGATGG GGATAAGACA TCTGTGTTCC ATGACGTCGA TGGTTCCGTG
    TCCGAGTACC CTGGCTCCTA CCTCACGAAG GATGACAACT GGCTGGTCCG GCACCCAGAC
    TGCATCAATG TTCCCGACTG GAGAGGGGCC ATTTGCAGTG GGCGCTATGC ACAGATGTAC
    ATTCAAGCCT ACAAGACCAG TAACCTGCGA ATGAAGATCA TCAAGAATGA CTTCCCCAGC
    CACCCTCTCT ACCTGGAGGG GGCGCTCACC AGGAGCACCC ATTACCAGCA GTACCAGCCG
    GTTGTCACCC TGCAGAAGGG CTACACCATC CACTGGGACC AGACGGCCCC CGCCGAACTC
    GCCATCTGGC TCATCAACTT CAACAAGGGC GACTGGATCC GAGTGGGGCT CTGCTACCCG
    AGAGGCACCA CCTTCTCCAT CCTCTCGGAT GTTCACAATC GCCTGCTGAA GCAAACGTCC
    AAGACAGGTG TCTTTGTGAG GACCTTGCAG ATGGACAAAG TGGAGCAGAG CTATCCTGGC
    AGGAGCCACT ACTACTGGGA CGAAGACTCA GGGCTGTTGT TCCTGAAGCT GAAAGCTCAG
    AACGAGAGAG AGAAGTTTGC TTTCTGCTCC ATGAAAGGCT GTGAGAGGAT AAAGATTAAA
    GCTCTGATCC CAAAGAACGC AGGCGTCAGT GACTGCACAG CCACAGCCTA CCCCAAGTTC
    ACCGAGAGGG CTGTCGTGGA CGTGCCAATG CCCAAGAAGC TCCTTGGTTC TCAGCTGAAA
    ACAAAGGACC ATTTCTTGGA GGTGAAGATG GAGAGTTCCA AGCAGCACTT CTTCCACCTT
    TGGAACGACT TTGCTTACAT TGAAGTGGAT GGGAAGAAGT ACCCCAGCTC GGAGGATGGC
    ATCCAGGTGG TGGTGATTGA CGGGAGCCAA GGGCGCATGG TGAGCCACAT GAGCTTCAGG
    AACTCCATTC TGCAGGGCAT ACCGTGGCAG CTTTTCAACT ATGTGGCGAC CATCCCTGAC
    AATTCCATAG TGCTCATGGT ATCAAAGGGA AGATATGTCT CCAGAGGCCC ATGGACCAGA
    GTGCTGGAAA AGCTTGGGGC AGACAGGGGT CTCAAGTTGA AAGAGCAAAT GGCATTCGTT
    GGCTTCAAAG GCAGCTTCCG GCCCATCTGG GTGACTCTGG ACACTGAGGA TCACAAAGCC
    AAAATCTTCC AAGTTGTGCC TATCCCTGTG GTGAAGAAGA AGAAGTTGTG A

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

    RefSeq XP_014998349.1
    CDS998..5128
    Translation

    Target ORF information:

    RefSeq Version XM_015142863.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta cell migration inducing hyaluronidase 1 (CEMIP), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015142863.2

    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
    ATGTCTGACT CTGTGTGCTT CTCTTTCAGG GAGCACGCTG CCAGGATGGG AGCTGCTGGG 
    AGGCAGGACT TCTCCTTCAA GGCTATGCTG ACAATCAGCT GGCTTACACT GACCTGCTTC
    CCTGGGGCCA CATCCACAGT GGCTGCTGGG TGCCCTGACC AGAGCCCTGA GTTGCAACCC
    TGGAACCCTG GCCATGACCA AGACTACCAT GTGCATATCA GCCAGGGCAA GACACTGCTG
    CTCACCTCTT CTGCCACAGT CTATTCCATC CACATCTCAG AGGGAGGCAA GCTAGTCATT
    AAAGACCACA ATGAGCCAAT TGTTTTGCGA ACCCGGCACA TCCTGATTGA CAACGGAGGA
    GAGCTGCATG CTGGGAGTGC CCTCTGCCCT TTCCAGGGCA ATTTCACCAT CATTTTGTAC
    GGAAGGGCTG ATGAAGGTAT TCAGCCAGAT CCTTACTATG GTCTGAAGTA CATTGGGGTC
    GGTAGAGGAG GCACTCTTGA GTTGCATGGA CAGAAAAAGC TCTCCTGGAC ATTTCTGAAC
    AAGACCCTCC ACCCAGGTGG CATGGCAGAA GGAGGCTATT TTTTTGAAAG GAGCTGGGGC
    CACCGTGGAG TTATTGTTCA CGTCATCAAC CCCAAATCAG GCACAGTCAT CCATTCTGAC
    CGGTTTGACA CCTATAGATC CAAGAAAGAG AGTGAACGTC TGGTCCAGTA TTTGAACGCG
    GTGCCCGATG GCAGGATCCT TTCTGTTGCA GTGAATGATG AAGGTTCTCG AAATCTGGAT
    GACATGGCCA GGAAGGCAAT GACCAAATTG GGAAGCAAAC ACTTCCTGCA CCTTGGATTT
    AGACACCCTT GGAGTTTTCT AACTGTGAAA GGAAATCCAT CTTCTTCAGT GGAAGACCAT
    ATTGAATATC ATGGACATCG AGGCTCTGCT GCTGCCCGGG TATTCAAATT GTTCCAGACC
    GAGCATGGAG AATATTTCAA TGTTTCTTTG TCCAGCGAGT GGGTTCAAGA TGTGGAGTGG
    ACGGAGTGGT TCGATCATGA TAAAGCATCT CAGACTAAAG GTGGGGATAA AATTTCAGAC
    CTCTGGAAAG CTCACCCAGG AAAAATCTGC AATCGTCCCA TTGATATACA GGCCACTACA
    ATGGATGGAG TTAACCTCAG CACCGAGGTT GTCTACAAAA AAGGCCAGGA TTATAGGTTT
    GCTTGCTATG ACCGGGGCAG AGCCTGCCGG AGCTACCGTG TACGGTTCCT CTGTGGGAAG
    CCTGTGAGGC CCAAACTCAC AGTCACCATT GACACCAATG TGAACAGCAC CATTCTGAAC
    CTGGAGGATA ATGTACAGTC ATGGAAGCCT GGAGATACCT TGGTCATTGC CAGTACTGAT
    TACTCCATGT ACCAGGCAGA AGAGTTCCAG GTTCTTCCCT GCAGATCCTG CGCTCCCAAC
    CAGGTCAAAG TGGCAGGGAA ACCAATGTAC CTGCATATCG GGGAGGAGAT AGATGGCGTG
    GACATGCGGG CAGAGGTTGG GCTTCTGAGC CGGAACATAA TAGTGATGGG GGAGATGGAG
    GACAAATGCT ACCCCTACAG AAACCACATC TGCAATTTCT TTGACTTCGA TACCTTTGGG
    GGCCACATCA AGTTTGCTCT GGGATTTAAG GCAGCACACC TGGAGGGCAT GGAGCTGAAG
    CATATGGGAC AGCAGCTGAT GGGTCAGTAC CCGATTCACT TCCACCTGGC CGGTGATGTA
    GATGAAAGGG GAGGCTATAA CCCACCCACA TACATCAGGG ACCTCTCCAT CCATCATACA
    TTCTCTCGCT GCGTCACAGT CCATGGCTCC AATGGCTTGT TGACCAAGGA CGTTGTGGGC
    TATAACTCTT TGGGCCACTG CTTCTTCACG GAAGATGGGC CAGAGGAACG CAACACTTTT
    GACCACTGTC TTGGCCTCCT TGTCAAGTCC GGAACCCTCC TCCCCTCAGA CCGTGACAGC
    AAGATGTGCA AGATGATCAC AGAGGACTCC TATCCGGGGT ACATCCCCAA GCCCAGGCAA
    GACTGCAATG CTGTGTCCAC CTTCTGGATG GCCAATCCCA ACAACAACCT CATAAACTGT
    GCTGCTGCAG GATCTGAGGA AACTGGATTT TGGTTTATTT TTCACCACGT ACCAACGGGC
    CCCTCCGTGG GAATGTACTC CCCAGGTTAT TCAGAGCACA TTCCACTGGG AAAATTCTAT
    AACAACCGAG CACATTCCAA CTACCGGGCT GGCATGATCA TAGACAACGG AGTCAAAACC
    ACTGAGGCCT CTGCCAAGGA CAAGCGGCCC TTCCTCTCGA TCATCTCTGC CAGATATAGC
    CCTCACCAGG ATGCTGACCC GCTGAAGCCT CGGGAGCCAG CCATCATCAA GCACTTCATT
    GCCTACAAGA ACCAGGACCA TGGGGCCTGG CTGCGCGGTG GGGATGTGTG GCTGGACAGC
    TGCCGGTTTG CTGACAATGG CATCGGCCTA ACCCTGGCCA GTGGTGGAAC TTTCCCATAT
    GATGACGGCT CCAAGCAAGA GATAAAGAAC AGTTTGTTTG TTGGCGAGAG CGGCAACGTG
    GGGACAGAAA TGATGGACAA TAGGATCTGG GGCCCCGGTG GCTTGGACCA TAGTGGAAGG
    ACCCTCCCTA TAGGCCAGAA TTTTCCGATT AGAGGAATTC AGTTCTATGA TGGCCCCATC
    AACATCCAAA ACTGCACTTT CCGAAAGTTT GTGGCCCTGG AGGGCCGGCA CACCAGCGCC
    CTGGCCTTCC GCCTGAATAA TGCCTGGCAG AGCTGCCCCC ATAACAACGT GACCGGCATT
    GCCTTTGAGG ACGTTCCGAT TACTTCCAGA GTGTTCTTCG GAGAGCCTGG GCCCTGGTTC
    AACCAGCTGG ACATGGATGG GGATAAGACA TCTGTGTTCC ATGACGTCGA TGGTTCCGTG
    TCCGAGTACC CTGGCTCCTA CCTCACGAAG GATGACAACT GGCTGGTCCG GCACCCAGAC
    TGCATCAATG TTCCCGACTG GAGAGGGGCC ATTTGCAGTG GGCGCTATGC ACAGATGTAC
    ATTCAAGCCT ACAAGACCAG TAACCTGCGA ATGAAGATCA TCAAGAATGA CTTCCCCAGC
    CACCCTCTCT ACCTGGAGGG GGCGCTCACC AGGAGCACCC ATTACCAGCA GTACCAGCCG
    GTTGTCACCC TGCAGAAGGG CTACACCATC CACTGGGACC AGACGGCCCC CGCCGAACTC
    GCCATCTGGC TCATCAACTT CAACAAGGGC GACTGGATCC GAGTGGGGCT CTGCTACCCG
    AGAGGCACCA CCTTCTCCAT CCTCTCGGAT GTTCACAATC GCCTGCTGAA GCAAACGTCC
    AAGACAGGTG TCTTTGTGAG GACCTTGCAG ATGGACAAAG TGGAGCAGAG CTATCCTGGC
    AGGAGCCACT ACTACTGGGA CGAAGACTCA GGGCTGTTGT TCCTGAAGCT GAAAGCTCAG
    AACGAGAGAG AGAAGTTTGC TTTCTGCTCC ATGAAAGGCT GTGAGAGGAT AAAGATTAAA
    GCTCTGATCC CAAAGAACGC AGGCGTCAGT GACTGCACAG CCACAGCCTA CCCCAAGTTC
    ACCGAGAGGG CTGTCGTGGA CGTGCCAATG CCCAAGAAGC TCCTTGGTTC TCAGCTGAAA
    ACAAAGGACC ATTTCTTGGA GGTGAAGATG GAGAGTTCCA AGCAGCACTT CTTCCACCTT
    TGGAACGACT TTGCTTACAT TGAAGTGGAT GGGAAGAAGT ACCCCAGCTC GGAGGATGGC
    ATCCAGGTGG TGGTGATTGA CGGGAGCCAA GGGCGCATGG TGAGCCACAT GAGCTTCAGG
    AACTCCATTC TGCAGGGCAT ACCGTGGCAG CTTTTCAACT ATGTGGCGAC CATCCCTGAC
    AATTCCATAG TGCTCATGGT ATCAAAGGGA AGATATGTCT CCAGAGGCCC ATGGACCAGA
    GTGCTGGAAA AGCTTGGGGC AGACAGGGGT CTCAAGTTGA AAGAGCAAAT GGCATTCGTT
    GGCTTCAAAG GCAGCTTCCG GCCCATCTGG GTGACTCTGG ACACTGAGGA TCACAAAGCC
    AAAATCTTCC AAGTTGTGCC TATCCCTGTG GTGAAGAAGA AGAAGTTGTG A

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

    CloneID OMb89462
    Clone ID Related Accession (Same CDS sequence) XM_015142864.2
    Accession Version XM_015142864.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4086bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product cell migration-inducing and hyaluronan-binding protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041760.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015142864.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGGAGCTG CTGGGAGGCA GGACTTCTCC TTCAAGGCTA TGCTGACAAT CAGCTGGCTT 
    ACACTGACCT GCTTCCCTGG GGCCACATCC ACAGTGGCTG CTGGGTGCCC TGACCAGAGC
    CCTGAGTTGC AACCCTGGAA CCCTGGCCAT GACCAAGACT ACCATGTGCA TATCAGCCAG
    GGCAAGACAC TGCTGCTCAC CTCTTCTGCC ACAGTCTATT CCATCCACAT CTCAGAGGGA
    GGCAAGCTAG TCATTAAAGA CCACAATGAG CCAATTGTTT TGCGAACCCG GCACATCCTG
    ATTGACAACG GAGGAGAGCT GCATGCTGGG AGTGCCCTCT GCCCTTTCCA GGGCAATTTC
    ACCATCATTT TGTACGGAAG GGCTGATGAA GGTATTCAGC CAGATCCTTA CTATGGTCTG
    AAGTACATTG GGGTCGGTAG AGGAGGCACT CTTGAGTTGC ATGGACAGAA AAAGCTCTCC
    TGGACATTTC TGAACAAGAC CCTCCACCCA GGTGGCATGG CAGAAGGAGG CTATTTTTTT
    GAAAGGAGCT GGGGCCACCG TGGAGTTATT GTTCACGTCA TCAACCCCAA ATCAGGCACA
    GTCATCCATT CTGACCGGTT TGACACCTAT AGATCCAAGA AAGAGAGTGA ACGTCTGGTC
    CAGTATTTGA ACGCGGTGCC CGATGGCAGG ATCCTTTCTG TTGCAGTGAA TGATGAAGGT
    TCTCGAAATC TGGATGACAT GGCCAGGAAG GCAATGACCA AATTGGGAAG CAAACACTTC
    CTGCACCTTG GATTTAGACA CCCTTGGAGT TTTCTAACTG TGAAAGGAAA TCCATCTTCT
    TCAGTGGAAG ACCATATTGA ATATCATGGA CATCGAGGCT CTGCTGCTGC CCGGGTATTC
    AAATTGTTCC AGACCGAGCA TGGAGAATAT TTCAATGTTT CTTTGTCCAG CGAGTGGGTT
    CAAGATGTGG AGTGGACGGA GTGGTTCGAT CATGATAAAG CATCTCAGAC TAAAGGTGGG
    GATAAAATTT CAGACCTCTG GAAAGCTCAC CCAGGAAAAA TCTGCAATCG TCCCATTGAT
    ATACAGGCCA CTACAATGGA TGGAGTTAAC CTCAGCACCG AGGTTGTCTA CAAAAAAGGC
    CAGGATTATA GGTTTGCTTG CTATGACCGG GGCAGAGCCT GCCGGAGCTA CCGTGTACGG
    TTCCTCTGTG GGAAGCCTGT GAGGCCCAAA CTCACAGTCA CCATTGACAC CAATGTGAAC
    AGCACCATTC TGAACCTGGA GGATAATGTA CAGTCATGGA AGCCTGGAGA TACCTTGGTC
    ATTGCCAGTA CTGATTACTC CATGTACCAG GCAGAAGAGT TCCAGGTTCT TCCCTGCAGA
    TCCTGCGCTC CCAACCAGGT CAAAGTGGCA GGGAAACCAA TGTACCTGCA TATCGGGGAG
    GAGATAGATG GCGTGGACAT GCGGGCAGAG GTTGGGCTTC TGAGCCGGAA CATAATAGTG
    ATGGGGGAGA TGGAGGACAA ATGCTACCCC TACAGAAACC ACATCTGCAA TTTCTTTGAC
    TTCGATACCT TTGGGGGCCA CATCAAGTTT GCTCTGGGAT TTAAGGCAGC ACACCTGGAG
    GGCATGGAGC TGAAGCATAT GGGACAGCAG CTGATGGGTC AGTACCCGAT TCACTTCCAC
    CTGGCCGGTG ATGTAGATGA AAGGGGAGGC TATAACCCAC CCACATACAT CAGGGACCTC
    TCCATCCATC ATACATTCTC TCGCTGCGTC ACAGTCCATG GCTCCAATGG CTTGTTGACC
    AAGGACGTTG TGGGCTATAA CTCTTTGGGC CACTGCTTCT TCACGGAAGA TGGGCCAGAG
    GAACGCAACA CTTTTGACCA CTGTCTTGGC CTCCTTGTCA AGTCCGGAAC CCTCCTCCCC
    TCAGACCGTG ACAGCAAGAT GTGCAAGATG ATCACAGAGG ACTCCTATCC GGGGTACATC
    CCCAAGCCCA GGCAAGACTG CAATGCTGTG TCCACCTTCT GGATGGCCAA TCCCAACAAC
    AACCTCATAA ACTGTGCTGC TGCAGGATCT GAGGAAACTG GATTTTGGTT TATTTTTCAC
    CACGTACCAA CGGGCCCCTC CGTGGGAATG TACTCCCCAG GTTATTCAGA GCACATTCCA
    CTGGGAAAAT TCTATAACAA CCGAGCACAT TCCAACTACC GGGCTGGCAT GATCATAGAC
    AACGGAGTCA AAACCACTGA GGCCTCTGCC AAGGACAAGC GGCCCTTCCT CTCGATCATC
    TCTGCCAGAT ATAGCCCTCA CCAGGATGCT GACCCGCTGA AGCCTCGGGA GCCAGCCATC
    ATCAAGCACT TCATTGCCTA CAAGAACCAG GACCATGGGG CCTGGCTGCG CGGTGGGGAT
    GTGTGGCTGG ACAGCTGCCG GTTTGCTGAC AATGGCATCG GCCTAACCCT GGCCAGTGGT
    GGAACTTTCC CATATGATGA CGGCTCCAAG CAAGAGATAA AGAACAGTTT GTTTGTTGGC
    GAGAGCGGCA ACGTGGGGAC AGAAATGATG GACAATAGGA TCTGGGGCCC CGGTGGCTTG
    GACCATAGTG GAAGGACCCT CCCTATAGGC CAGAATTTTC CGATTAGAGG AATTCAGTTC
    TATGATGGCC CCATCAACAT CCAAAACTGC ACTTTCCGAA AGTTTGTGGC CCTGGAGGGC
    CGGCACACCA GCGCCCTGGC CTTCCGCCTG AATAATGCCT GGCAGAGCTG CCCCCATAAC
    AACGTGACCG GCATTGCCTT TGAGGACGTT CCGATTACTT CCAGAGTGTT CTTCGGAGAG
    CCTGGGCCCT GGTTCAACCA GCTGGACATG GATGGGGATA AGACATCTGT GTTCCATGAC
    GTCGATGGTT CCGTGTCCGA GTACCCTGGC TCCTACCTCA CGAAGGATGA CAACTGGCTG
    GTCCGGCACC CAGACTGCAT CAATGTTCCC GACTGGAGAG GGGCCATTTG CAGTGGGCGC
    TATGCACAGA TGTACATTCA AGCCTACAAG ACCAGTAACC TGCGAATGAA GATCATCAAG
    AATGACTTCC CCAGCCACCC TCTCTACCTG GAGGGGGCGC TCACCAGGAG CACCCATTAC
    CAGCAGTACC AGCCGGTTGT CACCCTGCAG AAGGGCTACA CCATCCACTG GGACCAGACG
    GCCCCCGCCG AACTCGCCAT CTGGCTCATC AACTTCAACA AGGGCGACTG GATCCGAGTG
    GGGCTCTGCT ACCCGAGAGG CACCACCTTC TCCATCCTCT CGGATGTTCA CAATCGCCTG
    CTGAAGCAAA CGTCCAAGAC AGGTGTCTTT GTGAGGACCT TGCAGATGGA CAAAGTGGAG
    CAGAGCTATC CTGGCAGGAG CCACTACTAC TGGGACGAAG ACTCAGGGCT GTTGTTCCTG
    AAGCTGAAAG CTCAGAACGA GAGAGAGAAG TTTGCTTTCT GCTCCATGAA AGGCTGTGAG
    AGGATAAAGA TTAAAGCTCT GATCCCAAAG AACGCAGGCG TCAGTGACTG CACAGCCACA
    GCCTACCCCA AGTTCACCGA GAGGGCTGTC GTGGACGTGC CAATGCCCAA GAAGCTCCTT
    GGTTCTCAGC TGAAAACAAA GGACCATTTC TTGGAGGTGA AGATGGAGAG TTCCAAGCAG
    CACTTCTTCC ACCTTTGGAA CGACTTTGCT TACATTGAAG TGGATGGGAA GAAGTACCCC
    AGCTCGGAGG ATGGCATCCA GGTGGTGGTG ATTGACGGGA GCCAAGGGCG CATGGTGAGC
    CACATGAGCT TCAGGAACTC CATTCTGCAG GGCATACCGT GGCAGCTTTT CAACTATGTG
    GCGACCATCC CTGACAATTC CATAGTGCTC ATGGTATCAA AGGGAAGATA TGTCTCCAGA
    GGCCCATGGA CCAGAGTGCT GGAAAAGCTT GGGGCAGACA GGGGTCTCAA GTTGAAAGAG
    CAAATGGCAT TCGTTGGCTT CAAAGGCAGC TTCCGGCCCA TCTGGGTGAC TCTGGACACT
    GAGGATCACA AAGCCAAAAT CTTCCAAGTT GTGCCTATCC CTGTGGTGAA GAAGAAGAAG
    TTGTGA

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

    RefSeq XP_014998350.1
    CDS285..4370
    Translation

    Target ORF information:

    RefSeq Version XM_015142864.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta cell migration inducing hyaluronidase 1 (CEMIP), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015142864.2

    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
    ATGGGAGCTG CTGGGAGGCA GGACTTCTCC TTCAAGGCTA TGCTGACAAT CAGCTGGCTT 
    ACACTGACCT GCTTCCCTGG GGCCACATCC ACAGTGGCTG CTGGGTGCCC TGACCAGAGC
    CCTGAGTTGC AACCCTGGAA CCCTGGCCAT GACCAAGACT ACCATGTGCA TATCAGCCAG
    GGCAAGACAC TGCTGCTCAC CTCTTCTGCC ACAGTCTATT CCATCCACAT CTCAGAGGGA
    GGCAAGCTAG TCATTAAAGA CCACAATGAG CCAATTGTTT TGCGAACCCG GCACATCCTG
    ATTGACAACG GAGGAGAGCT GCATGCTGGG AGTGCCCTCT GCCCTTTCCA GGGCAATTTC
    ACCATCATTT TGTACGGAAG GGCTGATGAA GGTATTCAGC CAGATCCTTA CTATGGTCTG
    AAGTACATTG GGGTCGGTAG AGGAGGCACT CTTGAGTTGC ATGGACAGAA AAAGCTCTCC
    TGGACATTTC TGAACAAGAC CCTCCACCCA GGTGGCATGG CAGAAGGAGG CTATTTTTTT
    GAAAGGAGCT GGGGCCACCG TGGAGTTATT GTTCACGTCA TCAACCCCAA ATCAGGCACA
    GTCATCCATT CTGACCGGTT TGACACCTAT AGATCCAAGA AAGAGAGTGA ACGTCTGGTC
    CAGTATTTGA ACGCGGTGCC CGATGGCAGG ATCCTTTCTG TTGCAGTGAA TGATGAAGGT
    TCTCGAAATC TGGATGACAT GGCCAGGAAG GCAATGACCA AATTGGGAAG CAAACACTTC
    CTGCACCTTG GATTTAGACA CCCTTGGAGT TTTCTAACTG TGAAAGGAAA TCCATCTTCT
    TCAGTGGAAG ACCATATTGA ATATCATGGA CATCGAGGCT CTGCTGCTGC CCGGGTATTC
    AAATTGTTCC AGACCGAGCA TGGAGAATAT TTCAATGTTT CTTTGTCCAG CGAGTGGGTT
    CAAGATGTGG AGTGGACGGA GTGGTTCGAT CATGATAAAG CATCTCAGAC TAAAGGTGGG
    GATAAAATTT CAGACCTCTG GAAAGCTCAC CCAGGAAAAA TCTGCAATCG TCCCATTGAT
    ATACAGGCCA CTACAATGGA TGGAGTTAAC CTCAGCACCG AGGTTGTCTA CAAAAAAGGC
    CAGGATTATA GGTTTGCTTG CTATGACCGG GGCAGAGCCT GCCGGAGCTA CCGTGTACGG
    TTCCTCTGTG GGAAGCCTGT GAGGCCCAAA CTCACAGTCA CCATTGACAC CAATGTGAAC
    AGCACCATTC TGAACCTGGA GGATAATGTA CAGTCATGGA AGCCTGGAGA TACCTTGGTC
    ATTGCCAGTA CTGATTACTC CATGTACCAG GCAGAAGAGT TCCAGGTTCT TCCCTGCAGA
    TCCTGCGCTC CCAACCAGGT CAAAGTGGCA GGGAAACCAA TGTACCTGCA TATCGGGGAG
    GAGATAGATG GCGTGGACAT GCGGGCAGAG GTTGGGCTTC TGAGCCGGAA CATAATAGTG
    ATGGGGGAGA TGGAGGACAA ATGCTACCCC TACAGAAACC ACATCTGCAA TTTCTTTGAC
    TTCGATACCT TTGGGGGCCA CATCAAGTTT GCTCTGGGAT TTAAGGCAGC ACACCTGGAG
    GGCATGGAGC TGAAGCATAT GGGACAGCAG CTGATGGGTC AGTACCCGAT TCACTTCCAC
    CTGGCCGGTG ATGTAGATGA AAGGGGAGGC TATAACCCAC CCACATACAT CAGGGACCTC
    TCCATCCATC ATACATTCTC TCGCTGCGTC ACAGTCCATG GCTCCAATGG CTTGTTGACC
    AAGGACGTTG TGGGCTATAA CTCTTTGGGC CACTGCTTCT TCACGGAAGA TGGGCCAGAG
    GAACGCAACA CTTTTGACCA CTGTCTTGGC CTCCTTGTCA AGTCCGGAAC CCTCCTCCCC
    TCAGACCGTG ACAGCAAGAT GTGCAAGATG ATCACAGAGG ACTCCTATCC GGGGTACATC
    CCCAAGCCCA GGCAAGACTG CAATGCTGTG TCCACCTTCT GGATGGCCAA TCCCAACAAC
    AACCTCATAA ACTGTGCTGC TGCAGGATCT GAGGAAACTG GATTTTGGTT TATTTTTCAC
    CACGTACCAA CGGGCCCCTC CGTGGGAATG TACTCCCCAG GTTATTCAGA GCACATTCCA
    CTGGGAAAAT TCTATAACAA CCGAGCACAT TCCAACTACC GGGCTGGCAT GATCATAGAC
    AACGGAGTCA AAACCACTGA GGCCTCTGCC AAGGACAAGC GGCCCTTCCT CTCGATCATC
    TCTGCCAGAT ATAGCCCTCA CCAGGATGCT GACCCGCTGA AGCCTCGGGA GCCAGCCATC
    ATCAAGCACT TCATTGCCTA CAAGAACCAG GACCATGGGG CCTGGCTGCG CGGTGGGGAT
    GTGTGGCTGG ACAGCTGCCG GTTTGCTGAC AATGGCATCG GCCTAACCCT GGCCAGTGGT
    GGAACTTTCC CATATGATGA CGGCTCCAAG CAAGAGATAA AGAACAGTTT GTTTGTTGGC
    GAGAGCGGCA ACGTGGGGAC AGAAATGATG GACAATAGGA TCTGGGGCCC CGGTGGCTTG
    GACCATAGTG GAAGGACCCT CCCTATAGGC CAGAATTTTC CGATTAGAGG AATTCAGTTC
    TATGATGGCC CCATCAACAT CCAAAACTGC ACTTTCCGAA AGTTTGTGGC CCTGGAGGGC
    CGGCACACCA GCGCCCTGGC CTTCCGCCTG AATAATGCCT GGCAGAGCTG CCCCCATAAC
    AACGTGACCG GCATTGCCTT TGAGGACGTT CCGATTACTT CCAGAGTGTT CTTCGGAGAG
    CCTGGGCCCT GGTTCAACCA GCTGGACATG GATGGGGATA AGACATCTGT GTTCCATGAC
    GTCGATGGTT CCGTGTCCGA GTACCCTGGC TCCTACCTCA CGAAGGATGA CAACTGGCTG
    GTCCGGCACC CAGACTGCAT CAATGTTCCC GACTGGAGAG GGGCCATTTG CAGTGGGCGC
    TATGCACAGA TGTACATTCA AGCCTACAAG ACCAGTAACC TGCGAATGAA GATCATCAAG
    AATGACTTCC CCAGCCACCC TCTCTACCTG GAGGGGGCGC TCACCAGGAG CACCCATTAC
    CAGCAGTACC AGCCGGTTGT CACCCTGCAG AAGGGCTACA CCATCCACTG GGACCAGACG
    GCCCCCGCCG AACTCGCCAT CTGGCTCATC AACTTCAACA AGGGCGACTG GATCCGAGTG
    GGGCTCTGCT ACCCGAGAGG CACCACCTTC TCCATCCTCT CGGATGTTCA CAATCGCCTG
    CTGAAGCAAA CGTCCAAGAC AGGTGTCTTT GTGAGGACCT TGCAGATGGA CAAAGTGGAG
    CAGAGCTATC CTGGCAGGAG CCACTACTAC TGGGACGAAG ACTCAGGGCT GTTGTTCCTG
    AAGCTGAAAG CTCAGAACGA GAGAGAGAAG TTTGCTTTCT GCTCCATGAA AGGCTGTGAG
    AGGATAAAGA TTAAAGCTCT GATCCCAAAG AACGCAGGCG TCAGTGACTG CACAGCCACA
    GCCTACCCCA AGTTCACCGA GAGGGCTGTC GTGGACGTGC CAATGCCCAA GAAGCTCCTT
    GGTTCTCAGC TGAAAACAAA GGACCATTTC TTGGAGGTGA AGATGGAGAG TTCCAAGCAG
    CACTTCTTCC ACCTTTGGAA CGACTTTGCT TACATTGAAG TGGATGGGAA GAAGTACCCC
    AGCTCGGAGG ATGGCATCCA GGTGGTGGTG ATTGACGGGA GCCAAGGGCG CATGGTGAGC
    CACATGAGCT TCAGGAACTC CATTCTGCAG GGCATACCGT GGCAGCTTTT CAACTATGTG
    GCGACCATCC CTGACAATTC CATAGTGCTC ATGGTATCAA AGGGAAGATA TGTCTCCAGA
    GGCCCATGGA CCAGAGTGCT GGAAAAGCTT GGGGCAGACA GGGGTCTCAA GTTGAAAGAG
    CAAATGGCAT TCGTTGGCTT CAAAGGCAGC TTCCGGCCCA TCTGGGTGAC TCTGGACACT
    GAGGATCACA AAGCCAAAAT CTTCCAAGTT GTGCCTATCC CTGTGGTGAA GAAGAAGAAG
    TTGTGA

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