cemip cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

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
OXa55180 XM_002932256.5
Latest version!
Xenopus tropicalis cell migration inducing hyaluronidase 1 (cemip), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa55181 XM_012959546.3
Latest version!
Xenopus tropicalis cell migration inducing hyaluronidase 1 (cemip), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa07276 XM_002932256.4
Latest version!
Xenopus tropicalis cell migration inducing protein, hyaluronan binding (cemip), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa35267 XM_012959546.2
Latest version!
Xenopus tropicalis cell migration inducing protein, hyaluronan binding (cemip), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OXa55180
    Clone ID Related Accession (Same CDS sequence) XM_002932256.5
    Accession Version XM_002932256.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4134bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030679.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002932256.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGTATGGCA GAGTGTTCCC CCTGAACCCT GCACAGGAAT CTGGAATTCT GCTATTCACA 
    AGCAAAAATA TGGGCTTGCG TGATGTTAAT AGAATTTTGT GTGTGATGAT ATGCGCATTG
    TTTGCTACGC TTGGGCACAC AGGTACATGT CCTGAAGATG ATCCTCAGCT CCAGCCCTGG
    AGCCCTGGCC ACAATGAAGA CAATTACGTG ACCATCAATG GAACCACAAA GCTTCTTCTC
    ACTTCATCTG CCACTGTGCA CTCCGTGCAT ATCACTGGAG GAGGGAAACT TGTCATTAAA
    GCCACTGATA ACCCTATAAT CCTGCACACA AGATCTATAC TGGTGGAGCA TGGAGGGGAG
    CTGCACATAG GGAGTGAGGA CTGTCCTTTC CAAGGTCATT TTACCATCGT CCTTTATGGA
    AGGTCAGATG ATGTTGAGCC ACCTCATGAT TATTTTGGCC AAAAATTCAT TGGAGCCGGA
    GTAGGAGGAA CTCTTGAAAT TCATGGGGAG AAAAAGCTAT CCTGGACATT TCTGAACAAG
    ACTCTGCATC CTGGGGGAAT GAGCGAAGGA GGATATTACT TTGAGAAGAG TTGGGGTCAC
    CGTGGAATAA TTATTCATAC AATTAGCCCA AAGACAGGGG AAGTGATTCA TTCTGACAGG
    TTTGACACAT ACAAATCCCG AGATGAGAGT ATCCGCTTGA CTCACTATCT CAAATCCATC
    TCAGATGGGA CTATCCTGTC CATTGCTGTG AATGATGAGG GCTCCCGGCA CTTGGATGAC
    TTAACAAGGA AAGCCATAAC AAGACTGGGC AGCCAGCATT TTCTGCATCT TGGATTCCGG
    CACCCTTGGT GTTTTATTAC TGTTAAAGGA GACCCATCAA GTGCTGTGGA AGACCATGTT
    GAATACCAAG GAAGCAGGGG CTCTGCAGTG GCCACAGCAC ACAAACTATT TCGAGCCGAA
    AATGGTGAAG CCTTTAACGT GTCTTTAACC AGTGAGTGGA TTCAGGATGT GGAATGGACA
    GAGTGGTTTG ACAAGTATGA CAACACAATG TACCGTGACT GGGAGAAACT TTCTGAATTG
    AGGGCTGTTT ATCCTGGGAA GATCTGCACA CACCCTGTTG ACATCCAGGT AAATGCCATT
    GATGGCACCA GTATTCCAGT ACAAGTGGTC TATAAAGGTG GACATGATTA TAGGTTTGAG
    TGTCAGAAGA ATGACCAGAT CAGTTTACAG TGCCCAAACT ACAAAGTCCG GTTCCTTTGT
    GGAAAACCTG CGAGACCCCG GCTGATAGTG TCGATAGATA CCAATGTGAA TAGCACCATC
    CTGCATTTGG CAGACAACGC TCGCTCTTGG AAAGCAGGAG ATGTCATTGT TGTGGCCAGT
    ACTGATTACT CCATGCACCA GACTGAAGAA TTCACTTTGA TGCCCTGCAG AGCCTGCTCT
    CCTAATCAGG TCAAAGTGGA AGGTAAAGCC AAGTACCTTC ACATCGGTGA GCATATGGAT
    GGTGTTGATA TGAGGGCAGA AGTGGGACTT CTCAGCAGGA ACATAGTGAT TTATGGAAAA
    ATGGAGCAGA CCTGTTATAA CTCTTCTGTA TGCAAATACT TCAACTTTGA CACATTTGGA
    GGCCATCTCA AGGTTAGACG TGGTTTCAAG GCTGTACATC TTGAAGGAAT GGAGGTCAGA
    CACATGGGAC AGCAGACGAT GGGACACTAC CCTATCCACT TCCACACCGC CGGCAATGTG
    GATGAAAAAG GAGGCTATTT CCCACCCACC TACGTGAAAG ATATCTCAAT CCATCACACT
    TTTTCTCGCT GCATCACTGT TCATGGCTCT AATGGCTTAC TGGTCAAAGA CATTGTGGGT
    TATGACAGCC TGGGGCACTG CTTCTTCACA GAGGATGGAC CTGAGGAACG TAACACCTTT
    GACCATTGTT TAGGTCTTCT TACCAAACCT GCAACTCTCC TACCATCAGA CAGAGATAAT
    ACAATGTGCA AAAACATCTT GGATGGTTCA TACCCAGGAT ATGTAGCCAG ACCCAGGCAG
    GACTGCAATG CTGTCTCCAC CTTCTGGATG GCGAACCCCA ACAACAACCT TATCAACTGC
    TCAGCTGCAG GGTCTGAAGA AACTGGATTC TGGTTTGTTT TCCATCATGT GCCTACTGGA
    CCATCTGAAG GATTGTACCC TCCGGGGCAC TCAGAACACA CCCCACTAGG AAAATTCCTT
    AACAACAGAG CTCATTCCAA CTACAGGGCT GGAATGATCA TTGACAATGG AGTTAAGACT
    ACTGAAGCCA ATGACAAAGA TAAAAGACCA ATTCTCACAC TGGTTGGAGC AAGGTATGGG
    CCACATCAGG ATGCTGATCC TCTCAAGCCA CGAGTACCTG CAAGAATCCA GCATTTTATT
    GCTTACAAGA ACCAAGACCA TGGAGCCTGG CTGCGGGGAG GCGATGTTTG GCTGGATAAC
    TGCCAATTTT CGGATAATGG CATTGGATTA ACACTTGCCA GTGGGGGAAC ATTCCCAGAT
    GATGATGGAT CCAAGCAACA AATTAAAAAC AGTATATTTG TTGGTGAGAG TAACAATGTG
    GGGACAGAAA TGGCAGACAA CTCAGTTTGG GGACCAGGGG GCATTGACCA CAGCGGAAGA
    ACTCTCCCAA GGGGCCAAAA CTTCCCAATC CGTGGAATTC AGATCTATGA TGGGCCAATT
    AACATTGAGA ACTGCACCTT CCGAAAATTC GTATCTCTGG AAGGACGTCA CACCAGCGCA
    ATTGGATTCC GATTCAACAA TTCCTGGCAA AGCTGCCCCA AGAATAATAT GACTAATATT
    ATATTTCAGG ATGTGCCTAT TTCATCCAGA GTTTTCTTTG GGGAACCTGG CCCGTGGTTT
    TATAAGATGA ACATGGATGG GGACAAGACA ACAGTTTTAC ATGATTTGGA TGGTTCGGTA
    TCAGAATATC CTGGGGCGTA CCTGGTGAAG GAGGATAATT GGTTGTTGAG ACACCCTGAC
    TGCCTTAATG TGCCTGATTG GAAGGGAGCC ATCTGCAGTG GAAACTATGC ACAAGTCTAC
    ATCCAGGCCC GAAGACCAGC TGACCTAGAA ATGAAGATTA TTAAAGATGA GTATCCAGAT
    CATCCAATGC ATCTGGAGGG AGCTTTGGCT AAAACCCATC ATTATCAGCA ATACCAGCCT
    GTGATTACTC TCCAGAAAGG CTACACAGTG CACTGGGATA AAACTGCCCC AGAGGAGCTC
    ACAATCTGGC TTATCAATTT CCAGAGGCAA AACTGGATTC AAATAGGATT TTGTTATCCT
    AAAGGGACAA CATTTTCCAT CCTCTCAGAC ATCCACAATC GTCTCACAAA GCAAACCTAC
    AAAACAGCAA CCTTTGTACG AACCTTCCAG ATGGATAAAA TCTACCAGGC CCACCCCGGC
    AGGGGTTATT ATTACTGGGA TGAAGAGTCA GGGCTTCTGT TCATTACTCT GAAGGCACAA
    AATGAAAAGG AGAAATTTGC CTACTGCTCT GTGAAAGGCT GCGAGAGGAT AAAGATCAAA
    GCTTTAATCC CAAAGGGTGC AGGCGTCAGT GATTGCCAAG CATTGGCCTA TCCAAAATAT
    GCTCAGACTC CAGTGGTGGA TGTGCCAATG CCAAGGAAGC TGAACCCAAG CCATCTGTCA
    TCCTCTAGTG ATCACTTTCT GGAGGTAAAA GTTGAGACTT ACAACACCAG ATACTTCCAT
    TTGAACGATG ACTTTGCCTA CGTTGAGGTG GACGGTGCAA AGTTTTTTAT GCAGGATGAT
    GGGATTGAAG TTGTTGTAAT TGATGGTTAC AGTGGGAAAG TTGTGGACAG TACAAGCTTC
    AGAACCTCCA TTCTGCAAGG AATTCCAGCA CAATTCAATA ACTACGTCAC AAATATCAAG
    GACGACTCGG TGGTGGTCAT TGTCTCCAAG GGAAGGCTGT ATCCCAAAGG CCCATGGGTG
    AAGGTTCTGG GCAGACTTGG GATTGAGGCA GATATAAAGC TGAAAGAGAA AATGGCCTTT
    GTAGGCTATA AGGGACACTT TCGTCCTGTT TGGATCAAGC TGGTTACCAA CAATGAAGCA
    GCAAAAATCC TTCAAGCCAT TCCATTCCCT GTGAAAAAGA AAATGAAATT ATAA

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

    RefSeq XP_002932302.3
    CDS1092..5225
    Translation

    Target ORF information:

    RefSeq Version XM_002932256.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002932256.5

    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
    ATGTATGGCA GAGTGTTCCC CCTGAACCCT GCACAGGAAT CTGGAATTCT GCTATTCACA 
    AGCAAAAATA TGGGCTTGCG TGATGTTAAT AGAATTTTGT GTGTGATGAT ATGCGCATTG
    TTTGCTACGC TTGGGCACAC AGGTACATGT CCTGAAGATG ATCCTCAGCT CCAGCCCTGG
    AGCCCTGGCC ACAATGAAGA CAATTACGTG ACCATCAATG GAACCACAAA GCTTCTTCTC
    ACTTCATCTG CCACTGTGCA CTCCGTGCAT ATCACTGGAG GAGGGAAACT TGTCATTAAA
    GCCACTGATA ACCCTATAAT CCTGCACACA AGATCTATAC TGGTGGAGCA TGGAGGGGAG
    CTGCACATAG GGAGTGAGGA CTGTCCTTTC CAAGGTCATT TTACCATCGT CCTTTATGGA
    AGGTCAGATG ATGTTGAGCC ACCTCATGAT TATTTTGGCC AAAAATTCAT TGGAGCCGGA
    GTAGGAGGAA CTCTTGAAAT TCATGGGGAG AAAAAGCTAT CCTGGACATT TCTGAACAAG
    ACTCTGCATC CTGGGGGAAT GAGCGAAGGA GGATATTACT TTGAGAAGAG TTGGGGTCAC
    CGTGGAATAA TTATTCATAC AATTAGCCCA AAGACAGGGG AAGTGATTCA TTCTGACAGG
    TTTGACACAT ACAAATCCCG AGATGAGAGT ATCCGCTTGA CTCACTATCT CAAATCCATC
    TCAGATGGGA CTATCCTGTC CATTGCTGTG AATGATGAGG GCTCCCGGCA CTTGGATGAC
    TTAACAAGGA AAGCCATAAC AAGACTGGGC AGCCAGCATT TTCTGCATCT TGGATTCCGG
    CACCCTTGGT GTTTTATTAC TGTTAAAGGA GACCCATCAA GTGCTGTGGA AGACCATGTT
    GAATACCAAG GAAGCAGGGG CTCTGCAGTG GCCACAGCAC ACAAACTATT TCGAGCCGAA
    AATGGTGAAG CCTTTAACGT GTCTTTAACC AGTGAGTGGA TTCAGGATGT GGAATGGACA
    GAGTGGTTTG ACAAGTATGA CAACACAATG TACCGTGACT GGGAGAAACT TTCTGAATTG
    AGGGCTGTTT ATCCTGGGAA GATCTGCACA CACCCTGTTG ACATCCAGGT AAATGCCATT
    GATGGCACCA GTATTCCAGT ACAAGTGGTC TATAAAGGTG GACATGATTA TAGGTTTGAG
    TGTCAGAAGA ATGACCAGAT CAGTTTACAG TGCCCAAACT ACAAAGTCCG GTTCCTTTGT
    GGAAAACCTG CGAGACCCCG GCTGATAGTG TCGATAGATA CCAATGTGAA TAGCACCATC
    CTGCATTTGG CAGACAACGC TCGCTCTTGG AAAGCAGGAG ATGTCATTGT TGTGGCCAGT
    ACTGATTACT CCATGCACCA GACTGAAGAA TTCACTTTGA TGCCCTGCAG AGCCTGCTCT
    CCTAATCAGG TCAAAGTGGA AGGTAAAGCC AAGTACCTTC ACATCGGTGA GCATATGGAT
    GGTGTTGATA TGAGGGCAGA AGTGGGACTT CTCAGCAGGA ACATAGTGAT TTATGGAAAA
    ATGGAGCAGA CCTGTTATAA CTCTTCTGTA TGCAAATACT TCAACTTTGA CACATTTGGA
    GGCCATCTCA AGGTTAGACG TGGTTTCAAG GCTGTACATC TTGAAGGAAT GGAGGTCAGA
    CACATGGGAC AGCAGACGAT GGGACACTAC CCTATCCACT TCCACACCGC CGGCAATGTG
    GATGAAAAAG GAGGCTATTT CCCACCCACC TACGTGAAAG ATATCTCAAT CCATCACACT
    TTTTCTCGCT GCATCACTGT TCATGGCTCT AATGGCTTAC TGGTCAAAGA CATTGTGGGT
    TATGACAGCC TGGGGCACTG CTTCTTCACA GAGGATGGAC CTGAGGAACG TAACACCTTT
    GACCATTGTT TAGGTCTTCT TACCAAACCT GCAACTCTCC TACCATCAGA CAGAGATAAT
    ACAATGTGCA AAAACATCTT GGATGGTTCA TACCCAGGAT ATGTAGCCAG ACCCAGGCAG
    GACTGCAATG CTGTCTCCAC CTTCTGGATG GCGAACCCCA ACAACAACCT TATCAACTGC
    TCAGCTGCAG GGTCTGAAGA AACTGGATTC TGGTTTGTTT TCCATCATGT GCCTACTGGA
    CCATCTGAAG GATTGTACCC TCCGGGGCAC TCAGAACACA CCCCACTAGG AAAATTCCTT
    AACAACAGAG CTCATTCCAA CTACAGGGCT GGAATGATCA TTGACAATGG AGTTAAGACT
    ACTGAAGCCA ATGACAAAGA TAAAAGACCA ATTCTCACAC TGGTTGGAGC AAGGTATGGG
    CCACATCAGG ATGCTGATCC TCTCAAGCCA CGAGTACCTG CAAGAATCCA GCATTTTATT
    GCTTACAAGA ACCAAGACCA TGGAGCCTGG CTGCGGGGAG GCGATGTTTG GCTGGATAAC
    TGCCAATTTT CGGATAATGG CATTGGATTA ACACTTGCCA GTGGGGGAAC ATTCCCAGAT
    GATGATGGAT CCAAGCAACA AATTAAAAAC AGTATATTTG TTGGTGAGAG TAACAATGTG
    GGGACAGAAA TGGCAGACAA CTCAGTTTGG GGACCAGGGG GCATTGACCA CAGCGGAAGA
    ACTCTCCCAA GGGGCCAAAA CTTCCCAATC CGTGGAATTC AGATCTATGA TGGGCCAATT
    AACATTGAGA ACTGCACCTT CCGAAAATTC GTATCTCTGG AAGGACGTCA CACCAGCGCA
    ATTGGATTCC GATTCAACAA TTCCTGGCAA AGCTGCCCCA AGAATAATAT GACTAATATT
    ATATTTCAGG ATGTGCCTAT TTCATCCAGA GTTTTCTTTG GGGAACCTGG CCCGTGGTTT
    TATAAGATGA ACATGGATGG GGACAAGACA ACAGTTTTAC ATGATTTGGA TGGTTCGGTA
    TCAGAATATC CTGGGGCGTA CCTGGTGAAG GAGGATAATT GGTTGTTGAG ACACCCTGAC
    TGCCTTAATG TGCCTGATTG GAAGGGAGCC ATCTGCAGTG GAAACTATGC ACAAGTCTAC
    ATCCAGGCCC GAAGACCAGC TGACCTAGAA ATGAAGATTA TTAAAGATGA GTATCCAGAT
    CATCCAATGC ATCTGGAGGG AGCTTTGGCT AAAACCCATC ATTATCAGCA ATACCAGCCT
    GTGATTACTC TCCAGAAAGG CTACACAGTG CACTGGGATA AAACTGCCCC AGAGGAGCTC
    ACAATCTGGC TTATCAATTT CCAGAGGCAA AACTGGATTC AAATAGGATT TTGTTATCCT
    AAAGGGACAA CATTTTCCAT CCTCTCAGAC ATCCACAATC GTCTCACAAA GCAAACCTAC
    AAAACAGCAA CCTTTGTACG AACCTTCCAG ATGGATAAAA TCTACCAGGC CCACCCCGGC
    AGGGGTTATT ATTACTGGGA TGAAGAGTCA GGGCTTCTGT TCATTACTCT GAAGGCACAA
    AATGAAAAGG AGAAATTTGC CTACTGCTCT GTGAAAGGCT GCGAGAGGAT AAAGATCAAA
    GCTTTAATCC CAAAGGGTGC AGGCGTCAGT GATTGCCAAG CATTGGCCTA TCCAAAATAT
    GCTCAGACTC CAGTGGTGGA TGTGCCAATG CCAAGGAAGC TGAACCCAAG CCATCTGTCA
    TCCTCTAGTG ATCACTTTCT GGAGGTAAAA GTTGAGACTT ACAACACCAG ATACTTCCAT
    TTGAACGATG ACTTTGCCTA CGTTGAGGTG GACGGTGCAA AGTTTTTTAT GCAGGATGAT
    GGGATTGAAG TTGTTGTAAT TGATGGTTAC AGTGGGAAAG TTGTGGACAG TACAAGCTTC
    AGAACCTCCA TTCTGCAAGG AATTCCAGCA CAATTCAATA ACTACGTCAC AAATATCAAG
    GACGACTCGG TGGTGGTCAT TGTCTCCAAG GGAAGGCTGT ATCCCAAAGG CCCATGGGTG
    AAGGTTCTGG GCAGACTTGG GATTGAGGCA GATATAAAGC TGAAAGAGAA AATGGCCTTT
    GTAGGCTATA AGGGACACTT TCGTCCTGTT TGGATCAAGC TGGTTACCAA CAATGAAGCA
    GCAAAAATCC TTCAAGCCAT TCCATTCCCT GTGAAAAAGA AAATGAAATT ATAA

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

    CloneID OXa55181
    Clone ID Related Accession (Same CDS sequence) XM_012959546.3
    Accession Version XM_012959546.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4065bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030679.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012959546.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGGCTTGC GTGATGTTAA TAGAATTTTG TGTGTGATGA TATGCGCATT GTTTGCTACG 
    CTTGGGCACA CAGGTACATG TCCTGAAGAT GATCCTCAGC TCCAGCCCTG GAGCCCTGGC
    CACAATGAAG ACAATTACGT GACCATCAAT GGAACCACAA AGCTTCTTCT CACTTCATCT
    GCCACTGTGC ACTCCGTGCA TATCACTGGA GGAGGGAAAC TTGTCATTAA AGCCACTGAT
    AACCCTATAA TCCTGCACAC AAGATCTATA CTGGTGGAGC ATGGAGGGGA GCTGCACATA
    GGGAGTGAGG ACTGTCCTTT CCAAGGTCAT TTTACCATCG TCCTTTATGG AAGGTCAGAT
    GATGTTGAGC CACCTCATGA TTATTTTGGC CAAAAATTCA TTGGAGCCGG AGTAGGAGGA
    ACTCTTGAAA TTCATGGGGA GAAAAAGCTA TCCTGGACAT TTCTGAACAA GACTCTGCAT
    CCTGGGGGAA TGAGCGAAGG AGGATATTAC TTTGAGAAGA GTTGGGGTCA CCGTGGAATA
    ATTATTCATA CAATTAGCCC AAAGACAGGG GAAGTGATTC ATTCTGACAG GTTTGACACA
    TACAAATCCC GAGATGAGAG TATCCGCTTG ACTCACTATC TCAAATCCAT CTCAGATGGG
    ACTATCCTGT CCATTGCTGT GAATGATGAG GGCTCCCGGC ACTTGGATGA CTTAACAAGG
    AAAGCCATAA CAAGACTGGG CAGCCAGCAT TTTCTGCATC TTGGATTCCG GCACCCTTGG
    TGTTTTATTA CTGTTAAAGG AGACCCATCA AGTGCTGTGG AAGACCATGT TGAATACCAA
    GGAAGCAGGG GCTCTGCAGT GGCCACAGCA CACAAACTAT TTCGAGCCGA AAATGGTGAA
    GCCTTTAACG TGTCTTTAAC CAGTGAGTGG ATTCAGGATG TGGAATGGAC AGAGTGGTTT
    GACAAGTATG ACAACACAAT GTACCGTGAC TGGGAGAAAC TTTCTGAATT GAGGGCTGTT
    TATCCTGGGA AGATCTGCAC ACACCCTGTT GACATCCAGG TAAATGCCAT TGATGGCACC
    AGTATTCCAG TACAAGTGGT CTATAAAGGT GGACATGATT ATAGGTTTGA GTGTCAGAAG
    AATGACCAGA TCAGTTTACA GTGCCCAAAC TACAAAGTCC GGTTCCTTTG TGGAAAACCT
    GCGAGACCCC GGCTGATAGT GTCGATAGAT ACCAATGTGA ATAGCACCAT CCTGCATTTG
    GCAGACAACG CTCGCTCTTG GAAAGCAGGA GATGTCATTG TTGTGGCCAG TACTGATTAC
    TCCATGCACC AGACTGAAGA ATTCACTTTG ATGCCCTGCA GAGCCTGCTC TCCTAATCAG
    GTCAAAGTGG AAGGTAAAGC CAAGTACCTT CACATCGGTG AGCATATGGA TGGTGTTGAT
    ATGAGGGCAG AAGTGGGACT TCTCAGCAGG AACATAGTGA TTTATGGAAA AATGGAGCAG
    ACCTGTTATA ACTCTTCTGT ATGCAAATAC TTCAACTTTG ACACATTTGG AGGCCATCTC
    AAGGTTAGAC GTGGTTTCAA GGCTGTACAT CTTGAAGGAA TGGAGGTCAG ACACATGGGA
    CAGCAGACGA TGGGACACTA CCCTATCCAC TTCCACACCG CCGGCAATGT GGATGAAAAA
    GGAGGCTATT TCCCACCCAC CTACGTGAAA GATATCTCAA TCCATCACAC TTTTTCTCGC
    TGCATCACTG TTCATGGCTC TAATGGCTTA CTGGTCAAAG ACATTGTGGG TTATGACAGC
    CTGGGGCACT GCTTCTTCAC AGAGGATGGA CCTGAGGAAC GTAACACCTT TGACCATTGT
    TTAGGTCTTC TTACCAAACC TGCAACTCTC CTACCATCAG ACAGAGATAA TACAATGTGC
    AAAAACATCT TGGATGGTTC ATACCCAGGA TATGTAGCCA GACCCAGGCA GGACTGCAAT
    GCTGTCTCCA CCTTCTGGAT GGCGAACCCC AACAACAACC TTATCAACTG CTCAGCTGCA
    GGGTCTGAAG AAACTGGATT CTGGTTTGTT TTCCATCATG TGCCTACTGG ACCATCTGAA
    GGATTGTACC CTCCGGGGCA CTCAGAACAC ACCCCACTAG GAAAATTCCT TAACAACAGA
    GCTCATTCCA ACTACAGGGC TGGAATGATC ATTGACAATG GAGTTAAGAC TACTGAAGCC
    AATGACAAAG ATAAAAGACC AATTCTCACA CTGGTTGGAG CAAGGTATGG GCCACATCAG
    GATGCTGATC CTCTCAAGCC ACGAGTACCT GCAAGAATCC AGCATTTTAT TGCTTACAAG
    AACCAAGACC ATGGAGCCTG GCTGCGGGGA GGCGATGTTT GGCTGGATAA CTGCCAATTT
    TCGGATAATG GCATTGGATT AACACTTGCC AGTGGGGGAA CATTCCCAGA TGATGATGGA
    TCCAAGCAAC AAATTAAAAA CAGTATATTT GTTGGTGAGA GTAACAATGT GGGGACAGAA
    ATGGCAGACA ACTCAGTTTG GGGACCAGGG GGCATTGACC ACAGCGGAAG AACTCTCCCA
    AGGGGCCAAA ACTTCCCAAT CCGTGGAATT CAGATCTATG ATGGGCCAAT TAACATTGAG
    AACTGCACCT TCCGAAAATT CGTATCTCTG GAAGGACGTC ACACCAGCGC AATTGGATTC
    CGATTCAACA ATTCCTGGCA AAGCTGCCCC AAGAATAATA TGACTAATAT TATATTTCAG
    GATGTGCCTA TTTCATCCAG AGTTTTCTTT GGGGAACCTG GCCCGTGGTT TTATAAGATG
    AACATGGATG GGGACAAGAC AACAGTTTTA CATGATTTGG ATGGTTCGGT ATCAGAATAT
    CCTGGGGCGT ACCTGGTGAA GGAGGATAAT TGGTTGTTGA GACACCCTGA CTGCCTTAAT
    GTGCCTGATT GGAAGGGAGC CATCTGCAGT GGAAACTATG CACAAGTCTA CATCCAGGCC
    CGAAGACCAG CTGACCTAGA AATGAAGATT ATTAAAGATG AGTATCCAGA TCATCCAATG
    CATCTGGAGG GAGCTTTGGC TAAAACCCAT CATTATCAGC AATACCAGCC TGTGATTACT
    CTCCAGAAAG GCTACACAGT GCACTGGGAT AAAACTGCCC CAGAGGAGCT CACAATCTGG
    CTTATCAATT TCCAGAGGCA AAACTGGATT CAAATAGGAT TTTGTTATCC TAAAGGGACA
    ACATTTTCCA TCCTCTCAGA CATCCACAAT CGTCTCACAA AGCAAACCTA CAAAACAGCA
    ACCTTTGTAC GAACCTTCCA GATGGATAAA ATCTACCAGG CCCACCCCGG CAGGGGTTAT
    TATTACTGGG ATGAAGAGTC AGGGCTTCTG TTCATTACTC TGAAGGCACA AAATGAAAAG
    GAGAAATTTG CCTACTGCTC TGTGAAAGGC TGCGAGAGGA TAAAGATCAA AGCTTTAATC
    CCAAAGGGTG CAGGCGTCAG TGATTGCCAA GCATTGGCCT ATCCAAAATA TGCTCAGACT
    CCAGTGGTGG ATGTGCCAAT GCCAAGGAAG CTGAACCCAA GCCATCTGTC ATCCTCTAGT
    GATCACTTTC TGGAGGTAAA AGTTGAGACT TACAACACCA GATACTTCCA TTTGAACGAT
    GACTTTGCCT ACGTTGAGGT GGACGGTGCA AAGTTTTTTA TGCAGGATGA TGGGATTGAA
    GTTGTTGTAA TTGATGGTTA CAGTGGGAAA GTTGTGGACA GTACAAGCTT CAGAACCTCC
    ATTCTGCAAG GAATTCCAGC ACAATTCAAT AACTACGTCA CAAATATCAA GGACGACTCG
    GTGGTGGTCA TTGTCTCCAA GGGAAGGCTG TATCCCAAAG GCCCATGGGT GAAGGTTCTG
    GGCAGACTTG GGATTGAGGC AGATATAAAG CTGAAAGAGA AAATGGCCTT TGTAGGCTAT
    AAGGGACACT TTCGTCCTGT TTGGATCAAG CTGGTTACCA ACAATGAAGC AGCAAAAATC
    CTTCAAGCCA TTCCATTCCC TGTGAAAAAG AAAATGAAAT TATAA

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

    RefSeq XP_012815000.2
    CDS266..4330
    Translation

    Target ORF information:

    RefSeq Version XM_012959546.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012959546.3

    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
    ATGGGCTTGC GTGATGTTAA TAGAATTTTG TGTGTGATGA TATGCGCATT GTTTGCTACG 
    CTTGGGCACA CAGGTACATG TCCTGAAGAT GATCCTCAGC TCCAGCCCTG GAGCCCTGGC
    CACAATGAAG ACAATTACGT GACCATCAAT GGAACCACAA AGCTTCTTCT CACTTCATCT
    GCCACTGTGC ACTCCGTGCA TATCACTGGA GGAGGGAAAC TTGTCATTAA AGCCACTGAT
    AACCCTATAA TCCTGCACAC AAGATCTATA CTGGTGGAGC ATGGAGGGGA GCTGCACATA
    GGGAGTGAGG ACTGTCCTTT CCAAGGTCAT TTTACCATCG TCCTTTATGG AAGGTCAGAT
    GATGTTGAGC CACCTCATGA TTATTTTGGC CAAAAATTCA TTGGAGCCGG AGTAGGAGGA
    ACTCTTGAAA TTCATGGGGA GAAAAAGCTA TCCTGGACAT TTCTGAACAA GACTCTGCAT
    CCTGGGGGAA TGAGCGAAGG AGGATATTAC TTTGAGAAGA GTTGGGGTCA CCGTGGAATA
    ATTATTCATA CAATTAGCCC AAAGACAGGG GAAGTGATTC ATTCTGACAG GTTTGACACA
    TACAAATCCC GAGATGAGAG TATCCGCTTG ACTCACTATC TCAAATCCAT CTCAGATGGG
    ACTATCCTGT CCATTGCTGT GAATGATGAG GGCTCCCGGC ACTTGGATGA CTTAACAAGG
    AAAGCCATAA CAAGACTGGG CAGCCAGCAT TTTCTGCATC TTGGATTCCG GCACCCTTGG
    TGTTTTATTA CTGTTAAAGG AGACCCATCA AGTGCTGTGG AAGACCATGT TGAATACCAA
    GGAAGCAGGG GCTCTGCAGT GGCCACAGCA CACAAACTAT TTCGAGCCGA AAATGGTGAA
    GCCTTTAACG TGTCTTTAAC CAGTGAGTGG ATTCAGGATG TGGAATGGAC AGAGTGGTTT
    GACAAGTATG ACAACACAAT GTACCGTGAC TGGGAGAAAC TTTCTGAATT GAGGGCTGTT
    TATCCTGGGA AGATCTGCAC ACACCCTGTT GACATCCAGG TAAATGCCAT TGATGGCACC
    AGTATTCCAG TACAAGTGGT CTATAAAGGT GGACATGATT ATAGGTTTGA GTGTCAGAAG
    AATGACCAGA TCAGTTTACA GTGCCCAAAC TACAAAGTCC GGTTCCTTTG TGGAAAACCT
    GCGAGACCCC GGCTGATAGT GTCGATAGAT ACCAATGTGA ATAGCACCAT CCTGCATTTG
    GCAGACAACG CTCGCTCTTG GAAAGCAGGA GATGTCATTG TTGTGGCCAG TACTGATTAC
    TCCATGCACC AGACTGAAGA ATTCACTTTG ATGCCCTGCA GAGCCTGCTC TCCTAATCAG
    GTCAAAGTGG AAGGTAAAGC CAAGTACCTT CACATCGGTG AGCATATGGA TGGTGTTGAT
    ATGAGGGCAG AAGTGGGACT TCTCAGCAGG AACATAGTGA TTTATGGAAA AATGGAGCAG
    ACCTGTTATA ACTCTTCTGT ATGCAAATAC TTCAACTTTG ACACATTTGG AGGCCATCTC
    AAGGTTAGAC GTGGTTTCAA GGCTGTACAT CTTGAAGGAA TGGAGGTCAG ACACATGGGA
    CAGCAGACGA TGGGACACTA CCCTATCCAC TTCCACACCG CCGGCAATGT GGATGAAAAA
    GGAGGCTATT TCCCACCCAC CTACGTGAAA GATATCTCAA TCCATCACAC TTTTTCTCGC
    TGCATCACTG TTCATGGCTC TAATGGCTTA CTGGTCAAAG ACATTGTGGG TTATGACAGC
    CTGGGGCACT GCTTCTTCAC AGAGGATGGA CCTGAGGAAC GTAACACCTT TGACCATTGT
    TTAGGTCTTC TTACCAAACC TGCAACTCTC CTACCATCAG ACAGAGATAA TACAATGTGC
    AAAAACATCT TGGATGGTTC ATACCCAGGA TATGTAGCCA GACCCAGGCA GGACTGCAAT
    GCTGTCTCCA CCTTCTGGAT GGCGAACCCC AACAACAACC TTATCAACTG CTCAGCTGCA
    GGGTCTGAAG AAACTGGATT CTGGTTTGTT TTCCATCATG TGCCTACTGG ACCATCTGAA
    GGATTGTACC CTCCGGGGCA CTCAGAACAC ACCCCACTAG GAAAATTCCT TAACAACAGA
    GCTCATTCCA ACTACAGGGC TGGAATGATC ATTGACAATG GAGTTAAGAC TACTGAAGCC
    AATGACAAAG ATAAAAGACC AATTCTCACA CTGGTTGGAG CAAGGTATGG GCCACATCAG
    GATGCTGATC CTCTCAAGCC ACGAGTACCT GCAAGAATCC AGCATTTTAT TGCTTACAAG
    AACCAAGACC ATGGAGCCTG GCTGCGGGGA GGCGATGTTT GGCTGGATAA CTGCCAATTT
    TCGGATAATG GCATTGGATT AACACTTGCC AGTGGGGGAA CATTCCCAGA TGATGATGGA
    TCCAAGCAAC AAATTAAAAA CAGTATATTT GTTGGTGAGA GTAACAATGT GGGGACAGAA
    ATGGCAGACA ACTCAGTTTG GGGACCAGGG GGCATTGACC ACAGCGGAAG AACTCTCCCA
    AGGGGCCAAA ACTTCCCAAT CCGTGGAATT CAGATCTATG ATGGGCCAAT TAACATTGAG
    AACTGCACCT TCCGAAAATT CGTATCTCTG GAAGGACGTC ACACCAGCGC AATTGGATTC
    CGATTCAACA ATTCCTGGCA AAGCTGCCCC AAGAATAATA TGACTAATAT TATATTTCAG
    GATGTGCCTA TTTCATCCAG AGTTTTCTTT GGGGAACCTG GCCCGTGGTT TTATAAGATG
    AACATGGATG GGGACAAGAC AACAGTTTTA CATGATTTGG ATGGTTCGGT ATCAGAATAT
    CCTGGGGCGT ACCTGGTGAA GGAGGATAAT TGGTTGTTGA GACACCCTGA CTGCCTTAAT
    GTGCCTGATT GGAAGGGAGC CATCTGCAGT GGAAACTATG CACAAGTCTA CATCCAGGCC
    CGAAGACCAG CTGACCTAGA AATGAAGATT ATTAAAGATG AGTATCCAGA TCATCCAATG
    CATCTGGAGG GAGCTTTGGC TAAAACCCAT CATTATCAGC AATACCAGCC TGTGATTACT
    CTCCAGAAAG GCTACACAGT GCACTGGGAT AAAACTGCCC CAGAGGAGCT CACAATCTGG
    CTTATCAATT TCCAGAGGCA AAACTGGATT CAAATAGGAT TTTGTTATCC TAAAGGGACA
    ACATTTTCCA TCCTCTCAGA CATCCACAAT CGTCTCACAA AGCAAACCTA CAAAACAGCA
    ACCTTTGTAC GAACCTTCCA GATGGATAAA ATCTACCAGG CCCACCCCGG CAGGGGTTAT
    TATTACTGGG ATGAAGAGTC AGGGCTTCTG TTCATTACTC TGAAGGCACA AAATGAAAAG
    GAGAAATTTG CCTACTGCTC TGTGAAAGGC TGCGAGAGGA TAAAGATCAA AGCTTTAATC
    CCAAAGGGTG CAGGCGTCAG TGATTGCCAA GCATTGGCCT ATCCAAAATA TGCTCAGACT
    CCAGTGGTGG ATGTGCCAAT GCCAAGGAAG CTGAACCCAA GCCATCTGTC ATCCTCTAGT
    GATCACTTTC TGGAGGTAAA AGTTGAGACT TACAACACCA GATACTTCCA TTTGAACGAT
    GACTTTGCCT ACGTTGAGGT GGACGGTGCA AAGTTTTTTA TGCAGGATGA TGGGATTGAA
    GTTGTTGTAA TTGATGGTTA CAGTGGGAAA GTTGTGGACA GTACAAGCTT CAGAACCTCC
    ATTCTGCAAG GAATTCCAGC ACAATTCAAT AACTACGTCA CAAATATCAA GGACGACTCG
    GTGGTGGTCA TTGTCTCCAA GGGAAGGCTG TATCCCAAAG GCCCATGGGT GAAGGTTCTG
    GGCAGACTTG GGATTGAGGC AGATATAAAG CTGAAAGAGA AAATGGCCTT TGTAGGCTAT
    AAGGGACACT TTCGTCCTGT TTGGATCAAG CTGGTTACCA ACAATGAAGC AGCAAAAATC
    CTTCAAGCCA TTCCATTCCC TGTGAAAAAG AAAATGAAAT TATAA

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

    CloneID OXa07276
    Clone ID Related Accession (Same CDS sequence) XM_002932256.4
    Accession Version XM_002932256.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4134bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030679.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002932256.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGTATGGCA GAGTGTTCCC CCTGAACCCT GCACAGGAAT CTGGAATTCT GCTATTCACA 
    AGCAAAAATA TGGGCTTGCG TGATGTTAAT AGAATTTTGT GTGTGATGAT CTGCGCATTG
    TTTGCTACGC TTGGGCACAC AGGTACATGT CCTGAAGATG ATCCTCAGCT CCAGCCCTGG
    AGCCCTGGCC ACAATGAAGA CAATTACGTG ACCATCAATG GAACCACAAA GCTTCTTCTC
    ACTTCATCTG CCACTGTGCA CTCCGTGCAT ATCACTGGAG GAGGGAAACT TGTCATTAAA
    GCCACTGATA ACCCTATAAT CCTGCACACA AGATCTATAC TGGTGGAGCA TGGAGGGGAG
    CTGCACATAG GGAGTGAGGA CTGTCCTTTC CAAGGTCATT TTACCATCGT CCTTTATGGA
    AGGTCAGATG ATGTTGAGCC ACCTCATGAT TATTTTGGCC AAAAATTCAT TGGAGCCGGA
    GTAGGAGGAA CTCTTGAAAT TCATGGGGAG AAAAAGCTAT CCTGGACATT TCTGAACAAG
    ACTCTGCATC CTGGGGGAAT GAGCGAAGGA GGATATTACT TTGAGAAGAG TTGGGGTCAC
    CGTGGAATAA TTATTCATAC AATTAGCCCA AAGACAGGGG AAGTGATTCA TTCTGACAGG
    TTTGACACAT ACAAATCCCG AGATGAGAGT ATCCGCTTGA CTCACTATCT CAAATCCATC
    TCAGATGGGA CTATCCTGTC CATTGCTGTG AATGATGAGG GCTCCCGGCA CTTGGATGAC
    TTAACAAGGA AAGCCATAAC AAGACTGGGC AGCCAGCATT TTCTGCATCT TGGATTCCGG
    CACCCTTGGT GTTTTATTAC TGTTAAAGGA GACCCATCAA GTGCTGTGGA AGACCATGTT
    GAATACCAAG GAAGCAGGGG CTCTGCAGTG GCCACAGCAC ACAAACTATT TCGAGCCGAA
    AATGGTGAAG CCTTTAACGT GTCTTTAACC AGTGAGTGGA TTCAGGATGT GGAATGGACA
    GAGTGGTTTG ACAAGTATGA CAACACAATG TACCGTGACT GGGAGAAACT TTCTGAATTG
    AGGGCTGTTT ATCCTGGGAA GATCTGCACA CACCCTGTTG ACATCCAGGT AAATGCCATT
    GATGGCACCA GTATTCCAGT ACAAGTGGTC TATAAAGGTG GACATGATTA TAGGTTTGAG
    TGTCAGAAGA ATGACCAGAT CAGTTTACAG TGCCCAAACT ACAAAGTCCG GTTCCTTTGT
    GGAAAACCTG CGAGACCCCG GCTGATAGTG TCGATAGATA CCAATGTGAA TAGCACCATC
    CTGCATTTGG CAGACAACGC TCGCTCTTGG AAAGCAGGAG ATGTCATTGT TGTGGCCAGT
    ACTGATTACT CCATGCACCA GACTGAAGAA TTCACTTTGA TGCCCTGCAG AGCCTGCTCT
    CCTAATCAGG TCAAAGTGGA AGGTAAAGCC AAGTACCTTC ACATCGGTGA GCATATGGAT
    GGTGTTGATA TGAGGGCAGA AGTGGGACTT CTCAGCAGGA ACATAGTGAT TTATGGAAAA
    ATGGAGCAGA CCTGTTATAA CTCTTCTGTA TGCAAATACT TCAACTTTGA CACATTTGGA
    GGCCATCTCA AGGTTAGACG TGGTTTCAAG GCTGTACATC TTGAAGGAAT GGAGGTCAGA
    CACATGGGAC AGCAGACGAT GGGACACTAC CCTATCCACT TCCACACCGC CGGCAATGTG
    GATGAAAAAG GAGGCTATTT CCCACCCACC TACGTGAAAG ATATCTCAAT CCATCACACT
    TTTTCTCGCT GCATCACTGT TCATGGCTCT AATGGCTTAC TGGTCAAAGA CATTGTGGGT
    TATGACAGCC TGGGGCACTG CTTCTTCACA GAGGATGGAC CTGAGGAACG TAACACCTTT
    GACCATTGTT TAGGTCTTCT TACCAAACCT GCAACTCTCC TACCATCAGA CAGAGATAAT
    ACAATGTGCA AAAACATCTT GGATGGTTCA TACCCAGGAT ATGTAGCCAG ACCCAGGCAG
    GACTGCAATG CTGTCTCCAC CTTCTGGATG GCGAACCCCA ACAACAACCT TATCAACTGC
    TCAGCTGCAG GGTCTGAAGA AACTGGATTC TGGTTTGTTT TCCATCATGT GCCTACTGGA
    CCTTCTGAAG GATTGTACCC TCCGGGGCAC TCAGAACACA GCCCACTAGG AAAATTCCTT
    AACAACAGAG CTCATTCCAA CTACAGGGCT GGAATGATCA TTGACAATGG AGTTAAGACT
    ACTGAAGCCA ATGACAAAGA TAAAAGACCA ATTCTCACAC TGGTTGGAGC AAGGTATGGG
    CCACATCAGG ATGCTGATCC TCTCAAGCCA CGAGTACCTG CAAGAATCCA GCATTTTATT
    GCTTACAAGA ACCAAGACCA TGGAGCCTGG CTGCGGGGAG GCGATGTTTG GCTGGATAAC
    TGCCAATTTT CGGATAATGG CATTGGATTA ACACTTGCCA GTGGGGGAAC ATTCCCAGAT
    GATGATGGAT CCAAGCAACA AATTAAAAAC AGTATATTTG TTGGTGAGAG TAACAATGTG
    GGGACAGAAA TGGCAGACAA CTCAGTTTGG GGACCAGGGG GCATTGACCA CAGCGGAAGA
    ACTCTCCCAA GGGGCCAAAA CTTCCCAATC CGTGGAATTC AGATCTATGA TGGGCCAATT
    AACATTGAGA ACTGCACCTT CCGAAAATTC GTATCTCTGG AAGGACGTCA CACCAGCGCA
    ATTGGATTCC GATTCAACAA TTCCTGGCAA AGCTGCCCCA AGAATAATAT GACTAATATT
    ATATTTCAGG ATGTGCCTAT TTCATCCAGA GTTTTCTTTG GGGAACCTGG CCCGTGGTTT
    TATAAGATGA ACATGGATGG GGACAAGACA ACAGTTTTAC ATGATTTGGA TGGTTCGGTA
    TCAGAATATC CTGGGGCGTA CCTGGTGAAG GAGGATAATT GGTTGTTGAG ACACCCTGAC
    TGCCTTAATG TGCCTGATTG GAAGGGAGCC ATCTGCAGTG GAAACTATGC ACAAGTCTAC
    ATCCAGGCCC GAAGACCAGC TGACCTAGAA ATGAAGATTA TTAAAGATGA GTATCCAGAT
    CATCCAATGC ATCTGGAGGG AGCTTTGGCT AAAACCCATC ATTATCAGCA ATACCAGCCT
    GTGATTACTC TCCAGAAAGG CTACACAGTG CACTGGGATA AAACTGCCCC AGAGGAGCTC
    ACAATCTGGC TTATCAATTT CCAGAGGCAA AACTGGATTC AAATAGGATT TTGTTATCCT
    AAAGGGACAA CATTTTCCAT CCTCTCAGAC ATCCACAATC GTCTCACAAA GCAAACCTAC
    AAAACAGCAA CCTTTGTACG AACCTTCCAG ATGGATAAAA TCTACCAGGC CCACCCCGGC
    AGGGGTTATT ATTACTGGGA TGAAGAGTCA GGGCTTCTGT TCATTACTCT GAAGGCACAA
    AATGAAAAGG AGAAATTTGC CTACTGCTCT GTGAAAGGCT GCGAGAGGAT AAAGATCAAA
    GCTTTAATCC CAAAGGGTGC AGGCGTCAGT GATTGCCAAG CATTGGCCTA TCCAAAATAT
    GCTCAGACTC CAGTGGTGGA TGTGCCAATG CCAAGGAAGC TGAACCCAAG CCATCTGTCA
    TCCTCTAGTG ATCACTTTCT GGAGGTAAAA GTTGAGACTT ACAACACCAG ATACTTCCAT
    TTGAACGATG ACTTTGCCTA CGTTGAGGTG GACGGTGCAA AGTTTTTTAT GCAGGATGAT
    GGGATTGAAG TTGTTGTAAT TGATGGTTAC AGTGGGAAAG TTGTGGACAG TACAAGCTTC
    AGAACCTCCA TTCTGCAAGG AATTCCAGCA CAATTCAATA ACTACGTCAC AAATATCAAG
    GACGACTCGG TGGTGGTCAT TGTCTCCAAG GGAAGGCTGT ATCCCAAAGG CCCATGGGTG
    AAGGTTCTGG GGAGACTTGG GATTGAGGCA GATATAAAGC TGAAAGAGAA AATGGCCTTT
    GTAGGCTATA AGGGACACTT TCGTCCTGTT TGGATCAAGC TGGTTACCAA CAATGAAGCA
    GCAAAAATCC TTCAAGCCAT TCCATTCCCT GTGAAAAAGA AAATGAAATT ATAA

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

    RefSeq XP_002932302.2
    CDS1092..5225
    Translation

    Target ORF information:

    RefSeq Version XM_002932256.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002932256.4

    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
    ATGTATGGCA GAGTGTTCCC CCTGAACCCT GCACAGGAAT CTGGAATTCT GCTATTCACA 
    AGCAAAAATA TGGGCTTGCG TGATGTTAAT AGAATTTTGT GTGTGATGAT CTGCGCATTG
    TTTGCTACGC TTGGGCACAC AGGTACATGT CCTGAAGATG ATCCTCAGCT CCAGCCCTGG
    AGCCCTGGCC ACAATGAAGA CAATTACGTG ACCATCAATG GAACCACAAA GCTTCTTCTC
    ACTTCATCTG CCACTGTGCA CTCCGTGCAT ATCACTGGAG GAGGGAAACT TGTCATTAAA
    GCCACTGATA ACCCTATAAT CCTGCACACA AGATCTATAC TGGTGGAGCA TGGAGGGGAG
    CTGCACATAG GGAGTGAGGA CTGTCCTTTC CAAGGTCATT TTACCATCGT CCTTTATGGA
    AGGTCAGATG ATGTTGAGCC ACCTCATGAT TATTTTGGCC AAAAATTCAT TGGAGCCGGA
    GTAGGAGGAA CTCTTGAAAT TCATGGGGAG AAAAAGCTAT CCTGGACATT TCTGAACAAG
    ACTCTGCATC CTGGGGGAAT GAGCGAAGGA GGATATTACT TTGAGAAGAG TTGGGGTCAC
    CGTGGAATAA TTATTCATAC AATTAGCCCA AAGACAGGGG AAGTGATTCA TTCTGACAGG
    TTTGACACAT ACAAATCCCG AGATGAGAGT ATCCGCTTGA CTCACTATCT CAAATCCATC
    TCAGATGGGA CTATCCTGTC CATTGCTGTG AATGATGAGG GCTCCCGGCA CTTGGATGAC
    TTAACAAGGA AAGCCATAAC AAGACTGGGC AGCCAGCATT TTCTGCATCT TGGATTCCGG
    CACCCTTGGT GTTTTATTAC TGTTAAAGGA GACCCATCAA GTGCTGTGGA AGACCATGTT
    GAATACCAAG GAAGCAGGGG CTCTGCAGTG GCCACAGCAC ACAAACTATT TCGAGCCGAA
    AATGGTGAAG CCTTTAACGT GTCTTTAACC AGTGAGTGGA TTCAGGATGT GGAATGGACA
    GAGTGGTTTG ACAAGTATGA CAACACAATG TACCGTGACT GGGAGAAACT TTCTGAATTG
    AGGGCTGTTT ATCCTGGGAA GATCTGCACA CACCCTGTTG ACATCCAGGT AAATGCCATT
    GATGGCACCA GTATTCCAGT ACAAGTGGTC TATAAAGGTG GACATGATTA TAGGTTTGAG
    TGTCAGAAGA ATGACCAGAT CAGTTTACAG TGCCCAAACT ACAAAGTCCG GTTCCTTTGT
    GGAAAACCTG CGAGACCCCG GCTGATAGTG TCGATAGATA CCAATGTGAA TAGCACCATC
    CTGCATTTGG CAGACAACGC TCGCTCTTGG AAAGCAGGAG ATGTCATTGT TGTGGCCAGT
    ACTGATTACT CCATGCACCA GACTGAAGAA TTCACTTTGA TGCCCTGCAG AGCCTGCTCT
    CCTAATCAGG TCAAAGTGGA AGGTAAAGCC AAGTACCTTC ACATCGGTGA GCATATGGAT
    GGTGTTGATA TGAGGGCAGA AGTGGGACTT CTCAGCAGGA ACATAGTGAT TTATGGAAAA
    ATGGAGCAGA CCTGTTATAA CTCTTCTGTA TGCAAATACT TCAACTTTGA CACATTTGGA
    GGCCATCTCA AGGTTAGACG TGGTTTCAAG GCTGTACATC TTGAAGGAAT GGAGGTCAGA
    CACATGGGAC AGCAGACGAT GGGACACTAC CCTATCCACT TCCACACCGC CGGCAATGTG
    GATGAAAAAG GAGGCTATTT CCCACCCACC TACGTGAAAG ATATCTCAAT CCATCACACT
    TTTTCTCGCT GCATCACTGT TCATGGCTCT AATGGCTTAC TGGTCAAAGA CATTGTGGGT
    TATGACAGCC TGGGGCACTG CTTCTTCACA GAGGATGGAC CTGAGGAACG TAACACCTTT
    GACCATTGTT TAGGTCTTCT TACCAAACCT GCAACTCTCC TACCATCAGA CAGAGATAAT
    ACAATGTGCA AAAACATCTT GGATGGTTCA TACCCAGGAT ATGTAGCCAG ACCCAGGCAG
    GACTGCAATG CTGTCTCCAC CTTCTGGATG GCGAACCCCA ACAACAACCT TATCAACTGC
    TCAGCTGCAG GGTCTGAAGA AACTGGATTC TGGTTTGTTT TCCATCATGT GCCTACTGGA
    CCTTCTGAAG GATTGTACCC TCCGGGGCAC TCAGAACACA GCCCACTAGG AAAATTCCTT
    AACAACAGAG CTCATTCCAA CTACAGGGCT GGAATGATCA TTGACAATGG AGTTAAGACT
    ACTGAAGCCA ATGACAAAGA TAAAAGACCA ATTCTCACAC TGGTTGGAGC AAGGTATGGG
    CCACATCAGG ATGCTGATCC TCTCAAGCCA CGAGTACCTG CAAGAATCCA GCATTTTATT
    GCTTACAAGA ACCAAGACCA TGGAGCCTGG CTGCGGGGAG GCGATGTTTG GCTGGATAAC
    TGCCAATTTT CGGATAATGG CATTGGATTA ACACTTGCCA GTGGGGGAAC ATTCCCAGAT
    GATGATGGAT CCAAGCAACA AATTAAAAAC AGTATATTTG TTGGTGAGAG TAACAATGTG
    GGGACAGAAA TGGCAGACAA CTCAGTTTGG GGACCAGGGG GCATTGACCA CAGCGGAAGA
    ACTCTCCCAA GGGGCCAAAA CTTCCCAATC CGTGGAATTC AGATCTATGA TGGGCCAATT
    AACATTGAGA ACTGCACCTT CCGAAAATTC GTATCTCTGG AAGGACGTCA CACCAGCGCA
    ATTGGATTCC GATTCAACAA TTCCTGGCAA AGCTGCCCCA AGAATAATAT GACTAATATT
    ATATTTCAGG ATGTGCCTAT TTCATCCAGA GTTTTCTTTG GGGAACCTGG CCCGTGGTTT
    TATAAGATGA ACATGGATGG GGACAAGACA ACAGTTTTAC ATGATTTGGA TGGTTCGGTA
    TCAGAATATC CTGGGGCGTA CCTGGTGAAG GAGGATAATT GGTTGTTGAG ACACCCTGAC
    TGCCTTAATG TGCCTGATTG GAAGGGAGCC ATCTGCAGTG GAAACTATGC ACAAGTCTAC
    ATCCAGGCCC GAAGACCAGC TGACCTAGAA ATGAAGATTA TTAAAGATGA GTATCCAGAT
    CATCCAATGC ATCTGGAGGG AGCTTTGGCT AAAACCCATC ATTATCAGCA ATACCAGCCT
    GTGATTACTC TCCAGAAAGG CTACACAGTG CACTGGGATA AAACTGCCCC AGAGGAGCTC
    ACAATCTGGC TTATCAATTT CCAGAGGCAA AACTGGATTC AAATAGGATT TTGTTATCCT
    AAAGGGACAA CATTTTCCAT CCTCTCAGAC ATCCACAATC GTCTCACAAA GCAAACCTAC
    AAAACAGCAA CCTTTGTACG AACCTTCCAG ATGGATAAAA TCTACCAGGC CCACCCCGGC
    AGGGGTTATT ATTACTGGGA TGAAGAGTCA GGGCTTCTGT TCATTACTCT GAAGGCACAA
    AATGAAAAGG AGAAATTTGC CTACTGCTCT GTGAAAGGCT GCGAGAGGAT AAAGATCAAA
    GCTTTAATCC CAAAGGGTGC AGGCGTCAGT GATTGCCAAG CATTGGCCTA TCCAAAATAT
    GCTCAGACTC CAGTGGTGGA TGTGCCAATG CCAAGGAAGC TGAACCCAAG CCATCTGTCA
    TCCTCTAGTG ATCACTTTCT GGAGGTAAAA GTTGAGACTT ACAACACCAG ATACTTCCAT
    TTGAACGATG ACTTTGCCTA CGTTGAGGTG GACGGTGCAA AGTTTTTTAT GCAGGATGAT
    GGGATTGAAG TTGTTGTAAT TGATGGTTAC AGTGGGAAAG TTGTGGACAG TACAAGCTTC
    AGAACCTCCA TTCTGCAAGG AATTCCAGCA CAATTCAATA ACTACGTCAC AAATATCAAG
    GACGACTCGG TGGTGGTCAT TGTCTCCAAG GGAAGGCTGT ATCCCAAAGG CCCATGGGTG
    AAGGTTCTGG GGAGACTTGG GATTGAGGCA GATATAAAGC TGAAAGAGAA AATGGCCTTT
    GTAGGCTATA AGGGACACTT TCGTCCTGTT TGGATCAAGC TGGTTACCAA CAATGAAGCA
    GCAAAAATCC TTCAAGCCAT TCCATTCCCT GTGAAAAAGA AAATGAAATT ATAA

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

    CloneID OXa35267
    Clone ID Related Accession (Same CDS sequence) XM_012959546.2
    Accession Version XM_012959546.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4065bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030679.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012959546.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGGCTTGC GTGATGTTAA TAGAATTTTG TGTGTGATGA TCTGCGCATT GTTTGCTACG 
    CTTGGGCACA CAGGTACATG TCCTGAAGAT GATCCTCAGC TCCAGCCCTG GAGCCCTGGC
    CACAATGAAG ACAATTACGT GACCATCAAT GGAACCACAA AGCTTCTTCT CACTTCATCT
    GCCACTGTGC ACTCCGTGCA TATCACTGGA GGAGGGAAAC TTGTCATTAA AGCCACTGAT
    AACCCTATAA TCCTGCACAC AAGATCTATA CTGGTGGAGC ATGGAGGGGA GCTGCACATA
    GGGAGTGAGG ACTGTCCTTT CCAAGGTCAT TTTACCATCG TCCTTTATGG AAGGTCAGAT
    GATGTTGAGC CACCTCATGA TTATTTTGGC CAAAAATTCA TTGGAGCCGG AGTAGGAGGA
    ACTCTTGAAA TTCATGGGGA GAAAAAGCTA TCCTGGACAT TTCTGAACAA GACTCTGCAT
    CCTGGGGGAA TGAGCGAAGG AGGATATTAC TTTGAGAAGA GTTGGGGTCA CCGTGGAATA
    ATTATTCATA CAATTAGCCC AAAGACAGGG GAAGTGATTC ATTCTGACAG GTTTGACACA
    TACAAATCCC GAGATGAGAG TATCCGCTTG ACTCACTATC TCAAATCCAT CTCAGATGGG
    ACTATCCTGT CCATTGCTGT GAATGATGAG GGCTCCCGGC ACTTGGATGA CTTAACAAGG
    AAAGCCATAA CAAGACTGGG CAGCCAGCAT TTTCTGCATC TTGGATTCCG GCACCCTTGG
    TGTTTTATTA CTGTTAAAGG AGACCCATCA AGTGCTGTGG AAGACCATGT TGAATACCAA
    GGAAGCAGGG GCTCTGCAGT GGCCACAGCA CACAAACTAT TTCGAGCCGA AAATGGTGAA
    GCCTTTAACG TGTCTTTAAC CAGTGAGTGG ATTCAGGATG TGGAATGGAC AGAGTGGTTT
    GACAAGTATG ACAACACAAT GTACCGTGAC TGGGAGAAAC TTTCTGAATT GAGGGCTGTT
    TATCCTGGGA AGATCTGCAC ACACCCTGTT GACATCCAGG TAAATGCCAT TGATGGCACC
    AGTATTCCAG TACAAGTGGT CTATAAAGGT GGACATGATT ATAGGTTTGA GTGTCAGAAG
    AATGACCAGA TCAGTTTACA GTGCCCAAAC TACAAAGTCC GGTTCCTTTG TGGAAAACCT
    GCGAGACCCC GGCTGATAGT GTCGATAGAT ACCAATGTGA ATAGCACCAT CCTGCATTTG
    GCAGACAACG CTCGCTCTTG GAAAGCAGGA GATGTCATTG TTGTGGCCAG TACTGATTAC
    TCCATGCACC AGACTGAAGA ATTCACTTTG ATGCCCTGCA GAGCCTGCTC TCCTAATCAG
    GTCAAAGTGG AAGGTAAAGC CAAGTACCTT CACATCGGTG AGCATATGGA TGGTGTTGAT
    ATGAGGGCAG AAGTGGGACT TCTCAGCAGG AACATAGTGA TTTATGGAAA AATGGAGCAG
    ACCTGTTATA ACTCTTCTGT ATGCAAATAC TTCAACTTTG ACACATTTGG AGGCCATCTC
    AAGGTTAGAC GTGGTTTCAA GGCTGTACAT CTTGAAGGAA TGGAGGTCAG ACACATGGGA
    CAGCAGACGA TGGGACACTA CCCTATCCAC TTCCACACCG CCGGCAATGT GGATGAAAAA
    GGAGGCTATT TCCCACCCAC CTACGTGAAA GATATCTCAA TCCATCACAC TTTTTCTCGC
    TGCATCACTG TTCATGGCTC TAATGGCTTA CTGGTCAAAG ACATTGTGGG TTATGACAGC
    CTGGGGCACT GCTTCTTCAC AGAGGATGGA CCTGAGGAAC GTAACACCTT TGACCATTGT
    TTAGGTCTTC TTACCAAACC TGCAACTCTC CTACCATCAG ACAGAGATAA TACAATGTGC
    AAAAACATCT TGGATGGTTC ATACCCAGGA TATGTAGCCA GACCCAGGCA GGACTGCAAT
    GCTGTCTCCA CCTTCTGGAT GGCGAACCCC AACAACAACC TTATCAACTG CTCAGCTGCA
    GGGTCTGAAG AAACTGGATT CTGGTTTGTT TTCCATCATG TGCCTACTGG ACCTTCTGAA
    GGATTGTACC CTCCGGGGCA CTCAGAACAC AGCCCACTAG GAAAATTCCT TAACAACAGA
    GCTCATTCCA ACTACAGGGC TGGAATGATC ATTGACAATG GAGTTAAGAC TACTGAAGCC
    AATGACAAAG ATAAAAGACC AATTCTCACA CTGGTTGGAG CAAGGTATGG GCCACATCAG
    GATGCTGATC CTCTCAAGCC ACGAGTACCT GCAAGAATCC AGCATTTTAT TGCTTACAAG
    AACCAAGACC ATGGAGCCTG GCTGCGGGGA GGCGATGTTT GGCTGGATAA CTGCCAATTT
    TCGGATAATG GCATTGGATT AACACTTGCC AGTGGGGGAA CATTCCCAGA TGATGATGGA
    TCCAAGCAAC AAATTAAAAA CAGTATATTT GTTGGTGAGA GTAACAATGT GGGGACAGAA
    ATGGCAGACA ACTCAGTTTG GGGACCAGGG GGCATTGACC ACAGCGGAAG AACTCTCCCA
    AGGGGCCAAA ACTTCCCAAT CCGTGGAATT CAGATCTATG ATGGGCCAAT TAACATTGAG
    AACTGCACCT TCCGAAAATT CGTATCTCTG GAAGGACGTC ACACCAGCGC AATTGGATTC
    CGATTCAACA ATTCCTGGCA AAGCTGCCCC AAGAATAATA TGACTAATAT TATATTTCAG
    GATGTGCCTA TTTCATCCAG AGTTTTCTTT GGGGAACCTG GCCCGTGGTT TTATAAGATG
    AACATGGATG GGGACAAGAC AACAGTTTTA CATGATTTGG ATGGTTCGGT ATCAGAATAT
    CCTGGGGCGT ACCTGGTGAA GGAGGATAAT TGGTTGTTGA GACACCCTGA CTGCCTTAAT
    GTGCCTGATT GGAAGGGAGC CATCTGCAGT GGAAACTATG CACAAGTCTA CATCCAGGCC
    CGAAGACCAG CTGACCTAGA AATGAAGATT ATTAAAGATG AGTATCCAGA TCATCCAATG
    CATCTGGAGG GAGCTTTGGC TAAAACCCAT CATTATCAGC AATACCAGCC TGTGATTACT
    CTCCAGAAAG GCTACACAGT GCACTGGGAT AAAACTGCCC CAGAGGAGCT CACAATCTGG
    CTTATCAATT TCCAGAGGCA AAACTGGATT CAAATAGGAT TTTGTTATCC TAAAGGGACA
    ACATTTTCCA TCCTCTCAGA CATCCACAAT CGTCTCACAA AGCAAACCTA CAAAACAGCA
    ACCTTTGTAC GAACCTTCCA GATGGATAAA ATCTACCAGG CCCACCCCGG CAGGGGTTAT
    TATTACTGGG ATGAAGAGTC AGGGCTTCTG TTCATTACTC TGAAGGCACA AAATGAAAAG
    GAGAAATTTG CCTACTGCTC TGTGAAAGGC TGCGAGAGGA TAAAGATCAA AGCTTTAATC
    CCAAAGGGTG CAGGCGTCAG TGATTGCCAA GCATTGGCCT ATCCAAAATA TGCTCAGACT
    CCAGTGGTGG ATGTGCCAAT GCCAAGGAAG CTGAACCCAA GCCATCTGTC ATCCTCTAGT
    GATCACTTTC TGGAGGTAAA AGTTGAGACT TACAACACCA GATACTTCCA TTTGAACGAT
    GACTTTGCCT ACGTTGAGGT GGACGGTGCA AAGTTTTTTA TGCAGGATGA TGGGATTGAA
    GTTGTTGTAA TTGATGGTTA CAGTGGGAAA GTTGTGGACA GTACAAGCTT CAGAACCTCC
    ATTCTGCAAG GAATTCCAGC ACAATTCAAT AACTACGTCA CAAATATCAA GGACGACTCG
    GTGGTGGTCA TTGTCTCCAA GGGAAGGCTG TATCCCAAAG GCCCATGGGT GAAGGTTCTG
    GGGAGACTTG GGATTGAGGC AGATATAAAG CTGAAAGAGA AAATGGCCTT TGTAGGCTAT
    AAGGGACACT TTCGTCCTGT TTGGATCAAG CTGGTTACCA ACAATGAAGC AGCAAAAATC
    CTTCAAGCCA TTCCATTCCC TGTGAAAAAG AAAATGAAAT TATAA

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

    RefSeq XP_012815000.1
    CDS322..4386
    Translation

    Target ORF information:

    RefSeq Version XM_012959546.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012959546.2

    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
    ATGGGCTTGC GTGATGTTAA TAGAATTTTG TGTGTGATGA TCTGCGCATT GTTTGCTACG 
    CTTGGGCACA CAGGTACATG TCCTGAAGAT GATCCTCAGC TCCAGCCCTG GAGCCCTGGC
    CACAATGAAG ACAATTACGT GACCATCAAT GGAACCACAA AGCTTCTTCT CACTTCATCT
    GCCACTGTGC ACTCCGTGCA TATCACTGGA GGAGGGAAAC TTGTCATTAA AGCCACTGAT
    AACCCTATAA TCCTGCACAC AAGATCTATA CTGGTGGAGC ATGGAGGGGA GCTGCACATA
    GGGAGTGAGG ACTGTCCTTT CCAAGGTCAT TTTACCATCG TCCTTTATGG AAGGTCAGAT
    GATGTTGAGC CACCTCATGA TTATTTTGGC CAAAAATTCA TTGGAGCCGG AGTAGGAGGA
    ACTCTTGAAA TTCATGGGGA GAAAAAGCTA TCCTGGACAT TTCTGAACAA GACTCTGCAT
    CCTGGGGGAA TGAGCGAAGG AGGATATTAC TTTGAGAAGA GTTGGGGTCA CCGTGGAATA
    ATTATTCATA CAATTAGCCC AAAGACAGGG GAAGTGATTC ATTCTGACAG GTTTGACACA
    TACAAATCCC GAGATGAGAG TATCCGCTTG ACTCACTATC TCAAATCCAT CTCAGATGGG
    ACTATCCTGT CCATTGCTGT GAATGATGAG GGCTCCCGGC ACTTGGATGA CTTAACAAGG
    AAAGCCATAA CAAGACTGGG CAGCCAGCAT TTTCTGCATC TTGGATTCCG GCACCCTTGG
    TGTTTTATTA CTGTTAAAGG AGACCCATCA AGTGCTGTGG AAGACCATGT TGAATACCAA
    GGAAGCAGGG GCTCTGCAGT GGCCACAGCA CACAAACTAT TTCGAGCCGA AAATGGTGAA
    GCCTTTAACG TGTCTTTAAC CAGTGAGTGG ATTCAGGATG TGGAATGGAC AGAGTGGTTT
    GACAAGTATG ACAACACAAT GTACCGTGAC TGGGAGAAAC TTTCTGAATT GAGGGCTGTT
    TATCCTGGGA AGATCTGCAC ACACCCTGTT GACATCCAGG TAAATGCCAT TGATGGCACC
    AGTATTCCAG TACAAGTGGT CTATAAAGGT GGACATGATT ATAGGTTTGA GTGTCAGAAG
    AATGACCAGA TCAGTTTACA GTGCCCAAAC TACAAAGTCC GGTTCCTTTG TGGAAAACCT
    GCGAGACCCC GGCTGATAGT GTCGATAGAT ACCAATGTGA ATAGCACCAT CCTGCATTTG
    GCAGACAACG CTCGCTCTTG GAAAGCAGGA GATGTCATTG TTGTGGCCAG TACTGATTAC
    TCCATGCACC AGACTGAAGA ATTCACTTTG ATGCCCTGCA GAGCCTGCTC TCCTAATCAG
    GTCAAAGTGG AAGGTAAAGC CAAGTACCTT CACATCGGTG AGCATATGGA TGGTGTTGAT
    ATGAGGGCAG AAGTGGGACT TCTCAGCAGG AACATAGTGA TTTATGGAAA AATGGAGCAG
    ACCTGTTATA ACTCTTCTGT ATGCAAATAC TTCAACTTTG ACACATTTGG AGGCCATCTC
    AAGGTTAGAC GTGGTTTCAA GGCTGTACAT CTTGAAGGAA TGGAGGTCAG ACACATGGGA
    CAGCAGACGA TGGGACACTA CCCTATCCAC TTCCACACCG CCGGCAATGT GGATGAAAAA
    GGAGGCTATT TCCCACCCAC CTACGTGAAA GATATCTCAA TCCATCACAC TTTTTCTCGC
    TGCATCACTG TTCATGGCTC TAATGGCTTA CTGGTCAAAG ACATTGTGGG TTATGACAGC
    CTGGGGCACT GCTTCTTCAC AGAGGATGGA CCTGAGGAAC GTAACACCTT TGACCATTGT
    TTAGGTCTTC TTACCAAACC TGCAACTCTC CTACCATCAG ACAGAGATAA TACAATGTGC
    AAAAACATCT TGGATGGTTC ATACCCAGGA TATGTAGCCA GACCCAGGCA GGACTGCAAT
    GCTGTCTCCA CCTTCTGGAT GGCGAACCCC AACAACAACC TTATCAACTG CTCAGCTGCA
    GGGTCTGAAG AAACTGGATT CTGGTTTGTT TTCCATCATG TGCCTACTGG ACCTTCTGAA
    GGATTGTACC CTCCGGGGCA CTCAGAACAC AGCCCACTAG GAAAATTCCT TAACAACAGA
    GCTCATTCCA ACTACAGGGC TGGAATGATC ATTGACAATG GAGTTAAGAC TACTGAAGCC
    AATGACAAAG ATAAAAGACC AATTCTCACA CTGGTTGGAG CAAGGTATGG GCCACATCAG
    GATGCTGATC CTCTCAAGCC ACGAGTACCT GCAAGAATCC AGCATTTTAT TGCTTACAAG
    AACCAAGACC ATGGAGCCTG GCTGCGGGGA GGCGATGTTT GGCTGGATAA CTGCCAATTT
    TCGGATAATG GCATTGGATT AACACTTGCC AGTGGGGGAA CATTCCCAGA TGATGATGGA
    TCCAAGCAAC AAATTAAAAA CAGTATATTT GTTGGTGAGA GTAACAATGT GGGGACAGAA
    ATGGCAGACA ACTCAGTTTG GGGACCAGGG GGCATTGACC ACAGCGGAAG AACTCTCCCA
    AGGGGCCAAA ACTTCCCAAT CCGTGGAATT CAGATCTATG ATGGGCCAAT TAACATTGAG
    AACTGCACCT TCCGAAAATT CGTATCTCTG GAAGGACGTC ACACCAGCGC AATTGGATTC
    CGATTCAACA ATTCCTGGCA AAGCTGCCCC AAGAATAATA TGACTAATAT TATATTTCAG
    GATGTGCCTA TTTCATCCAG AGTTTTCTTT GGGGAACCTG GCCCGTGGTT TTATAAGATG
    AACATGGATG GGGACAAGAC AACAGTTTTA CATGATTTGG ATGGTTCGGT ATCAGAATAT
    CCTGGGGCGT ACCTGGTGAA GGAGGATAAT TGGTTGTTGA GACACCCTGA CTGCCTTAAT
    GTGCCTGATT GGAAGGGAGC CATCTGCAGT GGAAACTATG CACAAGTCTA CATCCAGGCC
    CGAAGACCAG CTGACCTAGA AATGAAGATT ATTAAAGATG AGTATCCAGA TCATCCAATG
    CATCTGGAGG GAGCTTTGGC TAAAACCCAT CATTATCAGC AATACCAGCC TGTGATTACT
    CTCCAGAAAG GCTACACAGT GCACTGGGAT AAAACTGCCC CAGAGGAGCT CACAATCTGG
    CTTATCAATT TCCAGAGGCA AAACTGGATT CAAATAGGAT TTTGTTATCC TAAAGGGACA
    ACATTTTCCA TCCTCTCAGA CATCCACAAT CGTCTCACAA AGCAAACCTA CAAAACAGCA
    ACCTTTGTAC GAACCTTCCA GATGGATAAA ATCTACCAGG CCCACCCCGG CAGGGGTTAT
    TATTACTGGG ATGAAGAGTC AGGGCTTCTG TTCATTACTC TGAAGGCACA AAATGAAAAG
    GAGAAATTTG CCTACTGCTC TGTGAAAGGC TGCGAGAGGA TAAAGATCAA AGCTTTAATC
    CCAAAGGGTG CAGGCGTCAG TGATTGCCAA GCATTGGCCT ATCCAAAATA TGCTCAGACT
    CCAGTGGTGG ATGTGCCAAT GCCAAGGAAG CTGAACCCAA GCCATCTGTC ATCCTCTAGT
    GATCACTTTC TGGAGGTAAA AGTTGAGACT TACAACACCA GATACTTCCA TTTGAACGAT
    GACTTTGCCT ACGTTGAGGT GGACGGTGCA AAGTTTTTTA TGCAGGATGA TGGGATTGAA
    GTTGTTGTAA TTGATGGTTA CAGTGGGAAA GTTGTGGACA GTACAAGCTT CAGAACCTCC
    ATTCTGCAAG GAATTCCAGC ACAATTCAAT AACTACGTCA CAAATATCAA GGACGACTCG
    GTGGTGGTCA TTGTCTCCAA GGGAAGGCTG TATCCCAAAG GCCCATGGGT GAAGGTTCTG
    GGGAGACTTG GGATTGAGGC AGATATAAAG CTGAAAGAGA AAATGGCCTT TGTAGGCTAT
    AAGGGACACT TTCGTCCTGT TTGGATCAAG CTGGTTACCA ACAATGAAGC AGCAAAAATC
    CTTCAAGCCA TTCCATTCCC TGTGAAAAAG AAAATGAAAT TATAA

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

feedback

Do you like the current new website?

Hate

Dislike

Neutral

Like

Love

*