col18a1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following col18a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col18a1 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
OXa66572 XM_012970906.3
Latest version!
Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa66573 XM_012970907.3
Latest version!
Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa66569 XM_012970903.3
Latest version!
Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa66570 XM_012970904.3
Latest version!
Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa66571 XM_012970905.2
Latest version!
Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa21931 XM_012970907.2
Latest version!
Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OXa26097 XM_012970903.2
Latest version!
Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OXa26098 XM_012970904.2
Latest version!
Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OXa26099 XM_012970905.1
Latest version!
Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OXa26100 XM_012970906.2
Latest version!
Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OXa46789 XM_018097368.1
Latest version!
Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

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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 OXa66572
    Clone ID Related Accession (Same CDS sequence) XM_012970906.3
    Accession Version XM_012970906.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3933bp)
    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 collagen alpha-1(XVIII) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012970906.2. ##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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGT GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCAGGCAAGG TGTAGCTGGA
    CTTCCGGGCC CAAGGGGACC CAAAGGAGAG GCGGGCTTGA ACGGTATCCC AGGAACCTTT
    GGAGTAAAGG GAGAAAAGGG AGAGCCTGGA ATTATTATGG GACCAGATAG CACCATTTAC
    ACTGATCTAT CTAAAGGAGA GAAGGGTGAC GAAGGACCAA GGGGACCAGC AGGAGCTGCG
    GGACCATTTG GACAAAAGGG AGAAATCGGG TTCCCAGGAC GCCCTGGACG TCCTGGTATG
    AATGGACTGA AAGGGGAGAA AGGAGAACCT AGTGGTGCAA GTGGTGGCTT TGGACTGAGG
    GGGCCACCTG GTCCTCCTGG CCCACCCGGT CCTCCTGGCA GTGTGGTGTA TGGAGATCCA
    AATAACCCAG GAGCCCAAGT ATATCCAGGT CATAAAGGGG AGAGAGGATT TCCTGGACCC
    AAAGGTGATG TTGGTCCTGC TGGCCCACCA GGCTCTTTCC CATATGATTT AAGTACCTTT
    GCCTCGATTT TAAGGAGAGA AGCTGGACTC AAAGGAGAGA AGGGCGAATC TGGGGGTGGT
    TCCCATGGAC AGGGGATCCC AGGGCCACCT GGAAACCCTG GATATCCAGG ACTGCCGGGA
    GCTAAAGGAG ACAGTGTTCA AGGTCCTCCA GGCCCAGCCG GCCCACCAGG ACCTTCTGGA
    ATCGGTTATG AAGGAAGGCA AGGTCCACCA GGGCCCCCAG GTCCTCCAGG CCTGCCAGGT
    TCCTCCTCTT ATCCTGGGCC TCACAGGCAA ACCATCAGCA TACCTGGACC TCCTGGCCCA
    CCAGGCCCAC CAGGGCTCCC AGGAACATCA GGAGGATTAT CTGGGGCTAC TGTGCTACAG
    ACCTATCAGA CTATGATCAA CTTAGCCCAC AGGCTGCAGG AAGGGACAAT TGTGCTGGTC
    CAGGAGAGGT CGGAACTGTA TGTGCGTGTG AGAGAAGGCT TCCGAAAAAT TCTTCTTGGT
    GAATATACAA CATCCTCTGG CCCTGGACAG GATAATGAAG TTGCTGCGGA GCAGGCCCCT
    GTAGTTCCAT ATCCACACCG TAACAAAGAT TCTGATTACC TCCAGTCTAC AGAGGAGAAC
    AGCAACAATC CAAATGTGCC CTCAGGTGCC CGACCCTGGA GCGATCCTCG GTTACCAGAA
    CCACCAAGAG TAAACCCACC ACCACCCCCA GACCATCACC ACCATGGAAA CCCTCGTCCA
    TTGGAACCAT CCCCAGTGCA CACACACCAA GAGTTTAATC CTGTGCTTCA CCTTGTGGCC
    CTGAACACTC CACTGAGTGG CAGCATGAAA TCCATCCGCG GAGTGGACTT CCAGTGCTTT
    GAGCAAGCCC GTAAAGCTGG ACTACATGGC ACATTTAGAG CGTTTTTGTC TTCCCGACTT
    CAAGACCTGT ACAGCATTGT ACGCAGAGCT GATCGACAAT CTGTGCAAAT TGTTAATCTT
    AGGGATGAAG TGTTATTTGA CAACTGGGAG TCCCTGTTCT CTGGTTCTGA GGCTCAGATG
    AGGCCTGGTG CGAGTATCTT CTCTTTTGAT GGAAAAGATG TTGCAACAGA TCCTACATGG
    CCACAGAAGA TGGTTTGGCA TGGGTCTGAC TCGAAGGGAC GGCGGCTTAC TGAAAGCTAT
    TGCGAGACCT GGCGCACAGA TGAAGGTGCA GTAACTGGTC AGGCATCATC GCTGACGAGC
    GGGAAACTCT TAGAACAGCG CCCACAGAGT TGCAACAAGA ACTTCATTGT TTTGTGTATT
    GAGAACAGCT TCATGACCAA TAACCGGAAG TAG

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

    RefSeq XP_012826360.2
    CDS177..4109
    Translation

    Target ORF information:

    RefSeq Version XM_012970906.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970906.3

    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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGT GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCAGGCAAGG TGTAGCTGGA
    CTTCCGGGCC CAAGGGGACC CAAAGGAGAG GCGGGCTTGA ACGGTATCCC AGGAACCTTT
    GGAGTAAAGG GAGAAAAGGG AGAGCCTGGA ATTATTATGG GACCAGATAG CACCATTTAC
    ACTGATCTAT CTAAAGGAGA GAAGGGTGAC GAAGGACCAA GGGGACCAGC AGGAGCTGCG
    GGACCATTTG GACAAAAGGG AGAAATCGGG TTCCCAGGAC GCCCTGGACG TCCTGGTATG
    AATGGACTGA AAGGGGAGAA AGGAGAACCT AGTGGTGCAA GTGGTGGCTT TGGACTGAGG
    GGGCCACCTG GTCCTCCTGG CCCACCCGGT CCTCCTGGCA GTGTGGTGTA TGGAGATCCA
    AATAACCCAG GAGCCCAAGT ATATCCAGGT CATAAAGGGG AGAGAGGATT TCCTGGACCC
    AAAGGTGATG TTGGTCCTGC TGGCCCACCA GGCTCTTTCC CATATGATTT AAGTACCTTT
    GCCTCGATTT TAAGGAGAGA AGCTGGACTC AAAGGAGAGA AGGGCGAATC TGGGGGTGGT
    TCCCATGGAC AGGGGATCCC AGGGCCACCT GGAAACCCTG GATATCCAGG ACTGCCGGGA
    GCTAAAGGAG ACAGTGTTCA AGGTCCTCCA GGCCCAGCCG GCCCACCAGG ACCTTCTGGA
    ATCGGTTATG AAGGAAGGCA AGGTCCACCA GGGCCCCCAG GTCCTCCAGG CCTGCCAGGT
    TCCTCCTCTT ATCCTGGGCC TCACAGGCAA ACCATCAGCA TACCTGGACC TCCTGGCCCA
    CCAGGCCCAC CAGGGCTCCC AGGAACATCA GGAGGATTAT CTGGGGCTAC TGTGCTACAG
    ACCTATCAGA CTATGATCAA CTTAGCCCAC AGGCTGCAGG AAGGGACAAT TGTGCTGGTC
    CAGGAGAGGT CGGAACTGTA TGTGCGTGTG AGAGAAGGCT TCCGAAAAAT TCTTCTTGGT
    GAATATACAA CATCCTCTGG CCCTGGACAG GATAATGAAG TTGCTGCGGA GCAGGCCCCT
    GTAGTTCCAT ATCCACACCG TAACAAAGAT TCTGATTACC TCCAGTCTAC AGAGGAGAAC
    AGCAACAATC CAAATGTGCC CTCAGGTGCC CGACCCTGGA GCGATCCTCG GTTACCAGAA
    CCACCAAGAG TAAACCCACC ACCACCCCCA GACCATCACC ACCATGGAAA CCCTCGTCCA
    TTGGAACCAT CCCCAGTGCA CACACACCAA GAGTTTAATC CTGTGCTTCA CCTTGTGGCC
    CTGAACACTC CACTGAGTGG CAGCATGAAA TCCATCCGCG GAGTGGACTT CCAGTGCTTT
    GAGCAAGCCC GTAAAGCTGG ACTACATGGC ACATTTAGAG CGTTTTTGTC TTCCCGACTT
    CAAGACCTGT ACAGCATTGT ACGCAGAGCT GATCGACAAT CTGTGCAAAT TGTTAATCTT
    AGGGATGAAG TGTTATTTGA CAACTGGGAG TCCCTGTTCT CTGGTTCTGA GGCTCAGATG
    AGGCCTGGTG CGAGTATCTT CTCTTTTGAT GGAAAAGATG TTGCAACAGA TCCTACATGG
    CCACAGAAGA TGGTTTGGCA TGGGTCTGAC TCGAAGGGAC GGCGGCTTAC TGAAAGCTAT
    TGCGAGACCT GGCGCACAGA TGAAGGTGCA GTAACTGGTC AGGCATCATC GCTGACGAGC
    GGGAAACTCT TAGAACAGCG CCCACAGAGT TGCAACAAGA ACTTCATTGT TTTGTGTATT
    GAGAACAGCT TCATGACCAA TAACCGGAAG TAG

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

    CloneID OXa66573
    Clone ID Related Accession (Same CDS sequence) XM_012970907.3
    Accession Version XM_012970907.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    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 collagen alpha-1(XVIII) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012970907.2. ##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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGT GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCCCAAGGGG ACCCAAAGGA
    GAGGCGGGCT TGAACGGTAT CCCAGGAACC TTTGGAGTAA AGGGAGAAAA GGGAGAGCCT
    GGAATTATTA TGGGACCAGA TAGCACCATT TACACTGATC TATCTAAAGG AGAGAAGGGT
    GACGAAGGAC CAAGGGGACC AGCAGGAGCT GCGGGACCAT TTGGACAAAA GGGAGAAATC
    GGGTTCCCAG GACGCCCTGG ACGTCCTGGT ATGAATGGAC TGAAAGGGGA GAAAGGAGAA
    CCTAGTGGTG CAAGTGGTGG CTTTGGACTG AGGGGGCCAC CTGGTCCTCC TGGCCCACCC
    GGTCCTCCTG GCAGTGTGGT GTATGGAGAT CCAAATAACC CAGGAGCCCA AGTATATCCA
    GGTCATAAAG GGGAGAGAGG ATTTCCTGGA CCCAAAGGTG ATGTTGGTCC TGCTGGCCCA
    CCAGGCTCTT TCCCATATGA TTTAAGTACC TTTGCCTCGA TTTTAAGGAG AGAAGCTGGA
    CTCAAAGGAG AGAAGGGCGA ATCTGGGGGT GGTTCCCATG GACAGGGGAT CCCAGGGCCA
    CCTGGAAACC CTGGATATCC AGGACTGCCG GGAGCTAAAG GAGACAGTGT TCAAGGTCCT
    CCAGGCCCAG CCGGCCCACC AGGACCTTCT GGAATCGGTT ATGAAGGAAG GCAAGGTCCA
    CCAGGGCCCC CAGGTCCTCC AGGCCTGCCA GGTTCCTCCT CTTATCCTGG GCCTCACAGG
    CAAACCATCA GCATACCTGG ACCTCCTGGC CCACCAGGCC CACCAGGGCT CCCAGGAACA
    TCAGGAGGAT TATCTGGGGC TACTGTGCTA CAGACCTATC AGACTATGAT CAACTTAGCC
    CACAGGCTGC AGGAAGGGAC AATTGTGCTG GTCCAGGAGA GGTCGGAACT GTATGTGCGT
    GTGAGAGAAG GCTTCCGAAA AATTCTTCTT GGTGAATATA CAACATCCTC TGGCCCTGGA
    CAGGATAATG AAGTTGCTGC GGAGCAGGCC CCTGTAGTTC CATATCCACA CCGTAACAAA
    GATTCTGATT ACCTCCAGTC TACAGAGGAG AACAGCAACA ATCCAAATGT GCCCTCAGGT
    GCCCGACCCT GGAGCGATCC TCGGTTACCA GAACCACCAA GAGTAAACCC ACCACCACCC
    CCAGACCATC ACCACCATGG AAACCCTCGT CCATTGGAAC CATCCCCAGT GCACACACAC
    CAAGAGTTTA ATCCTGTGCT TCACCTTGTG GCCCTGAACA CTCCACTGAG TGGCAGCATG
    AAATCCATCC GCGGAGTGGA CTTCCAGTGC TTTGAGCAAG CCCGTAAAGC TGGACTACAT
    GGCACATTTA GAGCGTTTTT GTCTTCCCGA CTTCAAGACC TGTACAGCAT TGTACGCAGA
    GCTGATCGAC AATCTGTGCA AATTGTTAAT CTTAGGGATG AAGTGTTATT TGACAACTGG
    GAGTCCCTGT TCTCTGGTTC TGAGGCTCAG ATGAGGCCTG GTGCGAGTAT CTTCTCTTTT
    GATGGAAAAG ATGTTGCAAC AGATCCTACA TGGCCACAGA AGATGGTTTG GCATGGGTCT
    GACTCGAAGG GACGGCGGCT TACTGAAAGC TATTGCGAGA CCTGGCGCAC AGATGAAGGT
    GCAGTAACTG GTCAGGCATC ATCGCTGACG AGCGGGAAAC TCTTAGAACA GCGCCCACAG
    AGTTGCAACA AGAACTTCAT TGTTTTGTGT ATTGAGAACA GCTTCATGAC CAATAACCGG
    AAGTAG

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

    RefSeq XP_012826361.2
    CDS177..4082
    Translation

    Target ORF information:

    RefSeq Version XM_012970907.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970907.3

    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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGT GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCCCAAGGGG ACCCAAAGGA
    GAGGCGGGCT TGAACGGTAT CCCAGGAACC TTTGGAGTAA AGGGAGAAAA GGGAGAGCCT
    GGAATTATTA TGGGACCAGA TAGCACCATT TACACTGATC TATCTAAAGG AGAGAAGGGT
    GACGAAGGAC CAAGGGGACC AGCAGGAGCT GCGGGACCAT TTGGACAAAA GGGAGAAATC
    GGGTTCCCAG GACGCCCTGG ACGTCCTGGT ATGAATGGAC TGAAAGGGGA GAAAGGAGAA
    CCTAGTGGTG CAAGTGGTGG CTTTGGACTG AGGGGGCCAC CTGGTCCTCC TGGCCCACCC
    GGTCCTCCTG GCAGTGTGGT GTATGGAGAT CCAAATAACC CAGGAGCCCA AGTATATCCA
    GGTCATAAAG GGGAGAGAGG ATTTCCTGGA CCCAAAGGTG ATGTTGGTCC TGCTGGCCCA
    CCAGGCTCTT TCCCATATGA TTTAAGTACC TTTGCCTCGA TTTTAAGGAG AGAAGCTGGA
    CTCAAAGGAG AGAAGGGCGA ATCTGGGGGT GGTTCCCATG GACAGGGGAT CCCAGGGCCA
    CCTGGAAACC CTGGATATCC AGGACTGCCG GGAGCTAAAG GAGACAGTGT TCAAGGTCCT
    CCAGGCCCAG CCGGCCCACC AGGACCTTCT GGAATCGGTT ATGAAGGAAG GCAAGGTCCA
    CCAGGGCCCC CAGGTCCTCC AGGCCTGCCA GGTTCCTCCT CTTATCCTGG GCCTCACAGG
    CAAACCATCA GCATACCTGG ACCTCCTGGC CCACCAGGCC CACCAGGGCT CCCAGGAACA
    TCAGGAGGAT TATCTGGGGC TACTGTGCTA CAGACCTATC AGACTATGAT CAACTTAGCC
    CACAGGCTGC AGGAAGGGAC AATTGTGCTG GTCCAGGAGA GGTCGGAACT GTATGTGCGT
    GTGAGAGAAG GCTTCCGAAA AATTCTTCTT GGTGAATATA CAACATCCTC TGGCCCTGGA
    CAGGATAATG AAGTTGCTGC GGAGCAGGCC CCTGTAGTTC CATATCCACA CCGTAACAAA
    GATTCTGATT ACCTCCAGTC TACAGAGGAG AACAGCAACA ATCCAAATGT GCCCTCAGGT
    GCCCGACCCT GGAGCGATCC TCGGTTACCA GAACCACCAA GAGTAAACCC ACCACCACCC
    CCAGACCATC ACCACCATGG AAACCCTCGT CCATTGGAAC CATCCCCAGT GCACACACAC
    CAAGAGTTTA ATCCTGTGCT TCACCTTGTG GCCCTGAACA CTCCACTGAG TGGCAGCATG
    AAATCCATCC GCGGAGTGGA CTTCCAGTGC TTTGAGCAAG CCCGTAAAGC TGGACTACAT
    GGCACATTTA GAGCGTTTTT GTCTTCCCGA CTTCAAGACC TGTACAGCAT TGTACGCAGA
    GCTGATCGAC AATCTGTGCA AATTGTTAAT CTTAGGGATG AAGTGTTATT TGACAACTGG
    GAGTCCCTGT TCTCTGGTTC TGAGGCTCAG ATGAGGCCTG GTGCGAGTAT CTTCTCTTTT
    GATGGAAAAG ATGTTGCAAC AGATCCTACA TGGCCACAGA AGATGGTTTG GCATGGGTCT
    GACTCGAAGG GACGGCGGCT TACTGAAAGC TATTGCGAGA CCTGGCGCAC AGATGAAGGT
    GCAGTAACTG GTCAGGCATC ATCGCTGACG AGCGGGAAAC TCTTAGAACA GCGCCCACAG
    AGTTGCAACA AGAACTTCAT TGTTTTGTGT ATTGAGAACA GCTTCATGAC CAATAACCGG
    AAGTAG

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

    CloneID OXa66569
    Clone ID Related Accession (Same CDS sequence) XM_012970903.3
    Accession Version XM_012970903.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 collagen alpha-1(XVIII) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) 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_012970903.2. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTTCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGTCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG TGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCAGGCAAG GTGTAGCTGG ACTTCCGGGC CCAAGGGGAC CCAAAGGAGA GGCGGGCTTG
    AACGGTATCC CAGGAACCTT TGGAGTAAAG GGAGAAAAGG GAGAGCCTGG AATTATTATG
    GGACCAGATA GCACCATTTA CACTGATCTA TCTAAAGGAG AGAAGGGTGA CGAAGGACCA
    AGGGGACCAG CAGGAGCTGC GGGACCATTT GGACAAAAGG GAGAAATCGG GTTCCCAGGA
    CGCCCTGGAC GTCCTGGTAT GAATGGACTG AAAGGGGAGA AAGGAGAACC TAGTGGTGCA
    AGTGGTGGCT TTGGACTGAG GGGGCCACCT GGTCCTCCTG GCCCACCCGG TCCTCCTGGC
    AGTGTGGTGT ATGGAGATCC AAATAACCCA GGAGCCCAAG TATATCCAGG TCATAAAGGG
    GAGAGAGGAT TTCCTGGACC CAAAGGTGAT GTTGGTCCTG CTGGCCCACC AGGCTCTTTC
    CCATATGATT TAAGTACCTT TGCCTCGATT TTAAGGAGAG AAGCTGGACT CAAAGGAGAG
    AAGGGCGAAT CTGGGGGTGG TTCCCATGGA CAGGGGATCC CAGGGCCACC TGGAAACCCT
    GGATATCCAG GACTGCCGGG AGCTAAAGGA GACAGTGTTC AAGGTCCTCC AGGCCCAGCC
    GGCCCACCAG GACCTTCTGG AATCGGTTAT GAAGGAAGGC AAGGTCCACC AGGGCCCCCA
    GGTCCTCCAG GCCTGCCAGG TTCCTCCTCT TATCCTGGGC CTCACAGGCA AACCATCAGC
    ATACCTGGAC CTCCTGGCCC ACCAGGCCCA CCAGGGCTCC CAGGAACATC AGGAGGATTA
    TCTGGGGCTA CTGTGCTACA GACCTATCAG ACTATGATCA ACTTAGCCCA CAGGCTGCAG
    GAAGGGACAA TTGTGCTGGT CCAGGAGAGG TCGGAACTGT ATGTGCGTGT GAGAGAAGGC
    TTCCGAAAAA TTCTTCTTGG TGAATATACA ACATCCTCTG GCCCTGGACA GGATAATGAA
    GTTGCTGCGG AGCAGGCCCC TGTAGTTCCA TATCCACACC GTAACAAAGA TTCTGATTAC
    CTCCAGTCTA CAGAGGAGAA CAGCAACAAT CCAAATGTGC CCTCAGGTGC CCGACCCTGG
    AGCGATCCTC GGTTACCAGA ACCACCAAGA GTAAACCCAC CACCACCCCC AGACCATCAC
    CACCATGGAA ACCCTCGTCC ATTGGAACCA TCCCCAGTGC ACACACACCA AGAGTTTAAT
    CCTGTGCTTC ACCTTGTGGC CCTGAACACT CCACTGAGTG GCAGCATGAA ATCCATCCGC
    GGAGTGGACT TCCAGTGCTT TGAGCAAGCC CGTAAAGCTG GACTACATGG CACATTTAGA
    GCGTTTTTGT CTTCCCGACT TCAAGACCTG TACAGCATTG TACGCAGAGC TGATCGACAA
    TCTGTGCAAA TTGTTAATCT TAGGGATGAA GTGTTATTTG ACAACTGGGA GTCCCTGTTC
    TCTGGTTCTG AGGCTCAGAT GAGGCCTGGT GCGAGTATCT TCTCTTTTGA TGGAAAAGAT
    GTTGCAACAG ATCCTACATG GCCACAGAAG ATGGTTTGGC ATGGGTCTGA CTCGAAGGGA
    CGGCGGCTTA CTGAAAGCTA TTGCGAGACC TGGCGCACAG ATGAAGGTGC AGTAACTGGT
    CAGGCATCAT CGCTGACGAG CGGGAAACTC TTAGAACAGC GCCCACAGAG TTGCAACAAG
    AACTTCATTG TTTTGTGTAT TGAGAACAGC TTCATGACCA ATAACCGGAA GTAG

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

    RefSeq XP_012826357.2
    CDS56..4849
    Translation

    Target ORF information:

    RefSeq Version XM_012970903.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970903.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTTCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGTCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG TGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCAGGCAAG GTGTAGCTGG ACTTCCGGGC CCAAGGGGAC CCAAAGGAGA GGCGGGCTTG
    AACGGTATCC CAGGAACCTT TGGAGTAAAG GGAGAAAAGG GAGAGCCTGG AATTATTATG
    GGACCAGATA GCACCATTTA CACTGATCTA TCTAAAGGAG AGAAGGGTGA CGAAGGACCA
    AGGGGACCAG CAGGAGCTGC GGGACCATTT GGACAAAAGG GAGAAATCGG GTTCCCAGGA
    CGCCCTGGAC GTCCTGGTAT GAATGGACTG AAAGGGGAGA AAGGAGAACC TAGTGGTGCA
    AGTGGTGGCT TTGGACTGAG GGGGCCACCT GGTCCTCCTG GCCCACCCGG TCCTCCTGGC
    AGTGTGGTGT ATGGAGATCC AAATAACCCA GGAGCCCAAG TATATCCAGG TCATAAAGGG
    GAGAGAGGAT TTCCTGGACC CAAAGGTGAT GTTGGTCCTG CTGGCCCACC AGGCTCTTTC
    CCATATGATT TAAGTACCTT TGCCTCGATT TTAAGGAGAG AAGCTGGACT CAAAGGAGAG
    AAGGGCGAAT CTGGGGGTGG TTCCCATGGA CAGGGGATCC CAGGGCCACC TGGAAACCCT
    GGATATCCAG GACTGCCGGG AGCTAAAGGA GACAGTGTTC AAGGTCCTCC AGGCCCAGCC
    GGCCCACCAG GACCTTCTGG AATCGGTTAT GAAGGAAGGC AAGGTCCACC AGGGCCCCCA
    GGTCCTCCAG GCCTGCCAGG TTCCTCCTCT TATCCTGGGC CTCACAGGCA AACCATCAGC
    ATACCTGGAC CTCCTGGCCC ACCAGGCCCA CCAGGGCTCC CAGGAACATC AGGAGGATTA
    TCTGGGGCTA CTGTGCTACA GACCTATCAG ACTATGATCA ACTTAGCCCA CAGGCTGCAG
    GAAGGGACAA TTGTGCTGGT CCAGGAGAGG TCGGAACTGT ATGTGCGTGT GAGAGAAGGC
    TTCCGAAAAA TTCTTCTTGG TGAATATACA ACATCCTCTG GCCCTGGACA GGATAATGAA
    GTTGCTGCGG AGCAGGCCCC TGTAGTTCCA TATCCACACC GTAACAAAGA TTCTGATTAC
    CTCCAGTCTA CAGAGGAGAA CAGCAACAAT CCAAATGTGC CCTCAGGTGC CCGACCCTGG
    AGCGATCCTC GGTTACCAGA ACCACCAAGA GTAAACCCAC CACCACCCCC AGACCATCAC
    CACCATGGAA ACCCTCGTCC ATTGGAACCA TCCCCAGTGC ACACACACCA AGAGTTTAAT
    CCTGTGCTTC ACCTTGTGGC CCTGAACACT CCACTGAGTG GCAGCATGAA ATCCATCCGC
    GGAGTGGACT TCCAGTGCTT TGAGCAAGCC CGTAAAGCTG GACTACATGG CACATTTAGA
    GCGTTTTTGT CTTCCCGACT TCAAGACCTG TACAGCATTG TACGCAGAGC TGATCGACAA
    TCTGTGCAAA TTGTTAATCT TAGGGATGAA GTGTTATTTG ACAACTGGGA GTCCCTGTTC
    TCTGGTTCTG AGGCTCAGAT GAGGCCTGGT GCGAGTATCT TCTCTTTTGA TGGAAAAGAT
    GTTGCAACAG ATCCTACATG GCCACAGAAG ATGGTTTGGC ATGGGTCTGA CTCGAAGGGA
    CGGCGGCTTA CTGAAAGCTA TTGCGAGACC TGGCGCACAG ATGAAGGTGC AGTAACTGGT
    CAGGCATCAT CGCTGACGAG CGGGAAACTC TTAGAACAGC GCCCACAGAG TTGCAACAAG
    AACTTCATTG TTTTGTGTAT TGAGAACAGC TTCATGACCA ATAACCGGAA GTAG

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

    CloneID OXa66570
    Clone ID Related Accession (Same CDS sequence) XM_012970904.3
    Accession Version XM_012970904.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4767bp)
    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 collagen alpha-1(XVIII) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) 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_012970904.2. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTTCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGTCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG TGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCCCAAGGG GACCCAAAGG AGAGGCGGGC TTGAACGGTA TCCCAGGAAC CTTTGGAGTA
    AAGGGAGAAA AGGGAGAGCC TGGAATTATT ATGGGACCAG ATAGCACCAT TTACACTGAT
    CTATCTAAAG GAGAGAAGGG TGACGAAGGA CCAAGGGGAC CAGCAGGAGC TGCGGGACCA
    TTTGGACAAA AGGGAGAAAT CGGGTTCCCA GGACGCCCTG GACGTCCTGG TATGAATGGA
    CTGAAAGGGG AGAAAGGAGA ACCTAGTGGT GCAAGTGGTG GCTTTGGACT GAGGGGGCCA
    CCTGGTCCTC CTGGCCCACC CGGTCCTCCT GGCAGTGTGG TGTATGGAGA TCCAAATAAC
    CCAGGAGCCC AAGTATATCC AGGTCATAAA GGGGAGAGAG GATTTCCTGG ACCCAAAGGT
    GATGTTGGTC CTGCTGGCCC ACCAGGCTCT TTCCCATATG ATTTAAGTAC CTTTGCCTCG
    ATTTTAAGGA GAGAAGCTGG ACTCAAAGGA GAGAAGGGCG AATCTGGGGG TGGTTCCCAT
    GGACAGGGGA TCCCAGGGCC ACCTGGAAAC CCTGGATATC CAGGACTGCC GGGAGCTAAA
    GGAGACAGTG TTCAAGGTCC TCCAGGCCCA GCCGGCCCAC CAGGACCTTC TGGAATCGGT
    TATGAAGGAA GGCAAGGTCC ACCAGGGCCC CCAGGTCCTC CAGGCCTGCC AGGTTCCTCC
    TCTTATCCTG GGCCTCACAG GCAAACCATC AGCATACCTG GACCTCCTGG CCCACCAGGC
    CCACCAGGGC TCCCAGGAAC ATCAGGAGGA TTATCTGGGG CTACTGTGCT ACAGACCTAT
    CAGACTATGA TCAACTTAGC CCACAGGCTG CAGGAAGGGA CAATTGTGCT GGTCCAGGAG
    AGGTCGGAAC TGTATGTGCG TGTGAGAGAA GGCTTCCGAA AAATTCTTCT TGGTGAATAT
    ACAACATCCT CTGGCCCTGG ACAGGATAAT GAAGTTGCTG CGGAGCAGGC CCCTGTAGTT
    CCATATCCAC ACCGTAACAA AGATTCTGAT TACCTCCAGT CTACAGAGGA GAACAGCAAC
    AATCCAAATG TGCCCTCAGG TGCCCGACCC TGGAGCGATC CTCGGTTACC AGAACCACCA
    AGAGTAAACC CACCACCACC CCCAGACCAT CACCACCATG GAAACCCTCG TCCATTGGAA
    CCATCCCCAG TGCACACACA CCAAGAGTTT AATCCTGTGC TTCACCTTGT GGCCCTGAAC
    ACTCCACTGA GTGGCAGCAT GAAATCCATC CGCGGAGTGG ACTTCCAGTG CTTTGAGCAA
    GCCCGTAAAG CTGGACTACA TGGCACATTT AGAGCGTTTT TGTCTTCCCG ACTTCAAGAC
    CTGTACAGCA TTGTACGCAG AGCTGATCGA CAATCTGTGC AAATTGTTAA TCTTAGGGAT
    GAAGTGTTAT TTGACAACTG GGAGTCCCTG TTCTCTGGTT CTGAGGCTCA GATGAGGCCT
    GGTGCGAGTA TCTTCTCTTT TGATGGAAAA GATGTTGCAA CAGATCCTAC ATGGCCACAG
    AAGATGGTTT GGCATGGGTC TGACTCGAAG GGACGGCGGC TTACTGAAAG CTATTGCGAG
    ACCTGGCGCA CAGATGAAGG TGCAGTAACT GGTCAGGCAT CATCGCTGAC GAGCGGGAAA
    CTCTTAGAAC AGCGCCCACA GAGTTGCAAC AAGAACTTCA TTGTTTTGTG TATTGAGAAC
    AGCTTCATGA CCAATAACCG GAAGTAG

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

    RefSeq XP_012826358.2
    CDS56..4822
    Translation

    Target ORF information:

    RefSeq Version XM_012970904.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970904.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTTCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGTCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG TGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCCCAAGGG GACCCAAAGG AGAGGCGGGC TTGAACGGTA TCCCAGGAAC CTTTGGAGTA
    AAGGGAGAAA AGGGAGAGCC TGGAATTATT ATGGGACCAG ATAGCACCAT TTACACTGAT
    CTATCTAAAG GAGAGAAGGG TGACGAAGGA CCAAGGGGAC CAGCAGGAGC TGCGGGACCA
    TTTGGACAAA AGGGAGAAAT CGGGTTCCCA GGACGCCCTG GACGTCCTGG TATGAATGGA
    CTGAAAGGGG AGAAAGGAGA ACCTAGTGGT GCAAGTGGTG GCTTTGGACT GAGGGGGCCA
    CCTGGTCCTC CTGGCCCACC CGGTCCTCCT GGCAGTGTGG TGTATGGAGA TCCAAATAAC
    CCAGGAGCCC AAGTATATCC AGGTCATAAA GGGGAGAGAG GATTTCCTGG ACCCAAAGGT
    GATGTTGGTC CTGCTGGCCC ACCAGGCTCT TTCCCATATG ATTTAAGTAC CTTTGCCTCG
    ATTTTAAGGA GAGAAGCTGG ACTCAAAGGA GAGAAGGGCG AATCTGGGGG TGGTTCCCAT
    GGACAGGGGA TCCCAGGGCC ACCTGGAAAC CCTGGATATC CAGGACTGCC GGGAGCTAAA
    GGAGACAGTG TTCAAGGTCC TCCAGGCCCA GCCGGCCCAC CAGGACCTTC TGGAATCGGT
    TATGAAGGAA GGCAAGGTCC ACCAGGGCCC CCAGGTCCTC CAGGCCTGCC AGGTTCCTCC
    TCTTATCCTG GGCCTCACAG GCAAACCATC AGCATACCTG GACCTCCTGG CCCACCAGGC
    CCACCAGGGC TCCCAGGAAC ATCAGGAGGA TTATCTGGGG CTACTGTGCT ACAGACCTAT
    CAGACTATGA TCAACTTAGC CCACAGGCTG CAGGAAGGGA CAATTGTGCT GGTCCAGGAG
    AGGTCGGAAC TGTATGTGCG TGTGAGAGAA GGCTTCCGAA AAATTCTTCT TGGTGAATAT
    ACAACATCCT CTGGCCCTGG ACAGGATAAT GAAGTTGCTG CGGAGCAGGC CCCTGTAGTT
    CCATATCCAC ACCGTAACAA AGATTCTGAT TACCTCCAGT CTACAGAGGA GAACAGCAAC
    AATCCAAATG TGCCCTCAGG TGCCCGACCC TGGAGCGATC CTCGGTTACC AGAACCACCA
    AGAGTAAACC CACCACCACC CCCAGACCAT CACCACCATG GAAACCCTCG TCCATTGGAA
    CCATCCCCAG TGCACACACA CCAAGAGTTT AATCCTGTGC TTCACCTTGT GGCCCTGAAC
    ACTCCACTGA GTGGCAGCAT GAAATCCATC CGCGGAGTGG ACTTCCAGTG CTTTGAGCAA
    GCCCGTAAAG CTGGACTACA TGGCACATTT AGAGCGTTTT TGTCTTCCCG ACTTCAAGAC
    CTGTACAGCA TTGTACGCAG AGCTGATCGA CAATCTGTGC AAATTGTTAA TCTTAGGGAT
    GAAGTGTTAT TTGACAACTG GGAGTCCCTG TTCTCTGGTT CTGAGGCTCA GATGAGGCCT
    GGTGCGAGTA TCTTCTCTTT TGATGGAAAA GATGTTGCAA CAGATCCTAC ATGGCCACAG
    AAGATGGTTT GGCATGGGTC TGACTCGAAG GGACGGCGGC TTACTGAAAG CTATTGCGAG
    ACCTGGCGCA CAGATGAAGG TGCAGTAACT GGTCAGGCAT CATCGCTGAC GAGCGGGAAA
    CTCTTAGAAC AGCGCCCACA GAGTTGCAAC AAGAACTTCA TTGTTTTGTG TATTGAGAAC
    AGCTTCATGA CCAATAACCG GAAGTAG

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

    CloneID OXa66571
    Clone ID Related Accession (Same CDS sequence) XM_012970905.2
    Accession Version XM_012970905.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 collagen alpha-1(XVIII) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) 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_012970905.1. ##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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCGCATTT CCATTCCACA AGTAACCTCT CTTTCCAGTG GCCTATCCCA TGATGTGTTA 
    AATTCATCCC AGTTGAATGG GAATAACATA GGCAAACAGA GCACTTACAC CACCAATCAG
    GTTTATAAGA GCCCTGAGCT CCTGAAACAT TCTGGGATAG CTGCCACTCT TCATGGTGTT
    TCTGCACCTA ACAATTATGT CACTAGTCTA ACGGGACATC CCCATCCATC TGAAACTGAT
    TTACTAACCA GCACTAAATC TCCCATTCCA TCTTTTAGCC ATAATAGCTC CAGGACTGCT
    TTTATCTTGC CCAGATTGAC TCCATCAAAT TCTCGCTGCT TGCCTACCCC TACCAGCCTC
    TCATTCTGCA AAAGATTAGG AATTGACTCC TTTCTGCTCC CCAATTATCT GAACCATAGT
    ACTGTGCTGG AAATTCAGGC AGCTTTGCAT GATTGGGAGG GGCTGTTTAA ATCTCAGTGC
    CACCGCTACC TGGAATCGTT TTTCTGCTTG CTTCTGGCAC CAAGTTGTAA TGCTGGCACT
    GTGGCACCTC CGCTGGTGCC ATGCCGTCAG TTTTGTGAGG TGCTGCAGGA TGCCTGCTGG
    AATCTTCTGG AGGGATCACA TCTCCCAGTG TCATGTGACT CTCTTCCTGG GAAGAATTCT
    GGGGTTTCTT GTCTTTATAT TCATTTTTAT GCAGGTCCTA AGACACAAGT TTCCGCTTCT
    TCGGAGCTGA CAGACAACTT CAACCCAGAA GTTGGCCTCT TGCAGTTGAT TGGAGAACCT
    GTACCTGAAC AGATCACCAA GGTCTTTGGG CCCGACAAGA CTCCCGCCTA TGTATTTGGT
    AAAGAAGCCA ATACAGGCCA GGTGGCCCAA TACCATCTGC CCAACCCTAT GTATAGGGAC
    TTCTCTCTCC TCTTCCATGT CCAGCCAACC ACAGACAAGG CCGGCATCCT CTTTGCCATC
    ACAGATGCCT CTCAGTCTAT TGTGTATATC GGGGTGAAGC TTTCTGAAGT CAAGGATGGG
    AAGCAAGACA TCATCTTCTA CTATACAGAG CCTGGCTCAC AGGATTCCTA TGTAGCTGCC
    ACCTTCAATG TCCCATCACT GGTGAATCGT TGGTCTCGCT TTGCAATCAG TGTGGAGGAA
    GAAGAAGTTG TGCTGTTTAT GGATTGTGAT GAGCTGGAAA GGGTGCGCTT CGAGAGATCA
    CCTGATGAGA TGGAACTAGA AGATGGCTCT GGGCTCTTTG TTGCTCAAGC AGGTGGCGCT
    GATCCAGACA GATATCAGGG TGTAATAGCA GATCTAAAGA TCGTAGCCGA TCCAAGAGCC
    GCAGAACATC AGTGTGAGGA GGATGGAGAT GACTCTGATG GGATCTCTGG AGATTTTGGC
    AGTGGCATTG CGGACAATGA TTTGGTGACT TCTCCTCCTG TGATAATCAA AGTGCAGCCT
    CCTATAACTG TCCCTCCCAT ACAGAGGACC CCTGTGGAGA AAGAGATTGT TCAGACAGGT
    CAAGGCCAGC AAGGGGTAAA AGGAGAGAAG GGTGATCGTG GAGAGAAGGG TGAGAGGGGA
    CTGACTGGCC CTAAGGGAGA CGGTGGGAAT GCAAGTCCAA CTTCTGATTC CAAAGGAGAA
    AAGGGTCAGA AAGGAGAGGT CGGAGTGAAG GGAAGTGCAG GCTTTGGCTA TCCCGGGCCT
    AAAGGGCAGA AAGGAGATCC TGGAGACTTG GGACCAAGAG GACCACCAGG CCCACCTGGA
    CCATCTATAT TACAGAAAAG TGATGGAACT ACAGTGCAAC AGGTCACAGG ACCTCCAGGT
    CCTCAAGGCC CTGCGGGACC ACCAGGAAAA GAAGGGGAAC CAGGTGACCC TGGTGAAGAT
    GGAAAAACTG GCGAGGTTGG TCCCCAAGGA TTTCCAGGGA CCCCAGGAGA TTCTGGGCAG
    AAGGGAGACA AGGGTGATTC TGGTGTTGGT ATCAGAGGTG CTCCTGGGCC ACCAGGTCCG
    CCAGGCCCCC CTGGACCTTC TAGAACCGAC AAGCTGACAT TCATTGACAT GGAAGGTTCT
    GGATATGGTG GAGATTCGGA GCACATCAGG GGAGCCCCTG GTGTGCCTGG GCCCCCAGGT
    CCTCCAGGTG TACCAGGGTT ACCCGGAGTA CCCGGAACTT TTGGCATGAA CAACACAGGA
    TTGCCAGGTC CACCTGGATT GCCAGGTCTT CCCGGAAAGG AAGGAATTCC AGGTCCTCCT
    GGCCCCCCAG GACTCCCTGG AAAAGACGGG TTGTCTGGTA CACCTGGTGC TGCTGGATTA
    CGGGGTGAAG ATGGAGAGAT TGGTCTTCCA GGTGCTCCTG GAACAAAGGG TAGCACTGGT
    GAGCCAGGAC TACCTGGACC TCCTGGACAA TCTGGTTTAG CTGGACTTCC TGGACCAATG
    GGACCACGCG GGCTGCCAGG TCCTCCAGGA CCACCTGGGC CTGTGGGTCA TGGATCTGCA
    ATTGGCTTTG ATGACATGGA AGCCTCAGGG CTTGGATTTG GCTTGAGAGA AGGGACACAG
    GGGGTGCCTG GACTTCCCGG GGCAAAGGGA GAGCCAGGAC ATCCAGGGCT GCCAGGAGTG
    AAGGGAGATA GTGGTTTTCC AGGCCTTGAA GGAAGGCCGG GGTTGGATGG ATTCCCAGGT
    CCAGAGGGAT TAAAGGGTGA GAAAGGTGAA CGTGGTGAGC GGGGAGAATC TGGCCGTGAT
    GGTGTTGGTA TTCCAGGTCC ACCGGGACCT CCTGGTCAGG TGCTTTATTT ACCATCCGAT
    GACAAGACTA TTGTTGGTGC CATTCCTGGA CCAGAGGGCA GGCAAGGTGT AGCTGGACTT
    CCGGGCCCAA GGGGACCCAA AGGAGAGGCG GGCTTGAACG GTATCCCAGG AACCTTTGGA
    GTAAAGGGAG AAAAGGGAGA GCCTGGAATT ATTATGGGAC CAGATAGCAC CATTTACACT
    GATCTATCTA AAGGAGAGAA GGGTGACGAA GGACCAAGGG GACCAGCAGG AGCTGCGGGA
    CCATTTGGAC AAAAGGGAGA AATCGGGTTC CCAGGACGCC CTGGACGTCC TGGTATGAAT
    GGACTGAAAG GGGAGAAAGG AGAACCTAGT GGTGCAAGTG GTGGCTTTGG ACTGAGGGGG
    CCACCTGGTC CTCCTGGCCC ACCCGGTCCT CCTGGCAGTG TGGTGTATGG AGATCCAAAT
    AACCCAGGAG CCCAAGTATA TCCAGGTCAT AAAGGGGAGA GAGGATTTCC TGGACCCAAA
    GGTGATGTTG GTCCTGCTGG CCCACCAGGC TCTTTCCCAT ATGATTTAAG TACCTTTGCC
    TCGATTTTAA GGAGAGAAGC TGGACTCAAA GGAGAGAAGG GCGAATCTGG GGGTGGTTCC
    CATGGACAGG GGATCCCAGG GCCACCTGGA AACCCTGGAT ATCCAGGACT GCCGGGAGCT
    AAAGGAGACA GTGTTCAAGG TCCTCCAGGC CCAGCCGGCC CACCAGGACC TTCTGGAATC
    GGTTATGAAG GAAGGCAAGG TCCACCAGGG CCCCCAGGTC CTCCAGGCCT GCCAGGTTCC
    TCCTCTTATC CTGGGCCTCA CAGGCAAACC ATCAGCATAC CTGGACCTCC TGGCCCACCA
    GGCCCACCAG GGCTCCCAGG AACATCAGGA GGATTATCTG GGGCTACTGT GCTACAGACC
    TATCAGACTA TGATCAACTT AGCCCACAGG CTGCAGGAAG GGACAATTGT GCTGGTCCAG
    GAGAGGTCGG AACTGTATGT GCGTGTGAGA GAAGGCTTCC GAAAAATTCT TCTTGGTGAA
    TATACAACAT CCTCTGGCCC TGGACAGGAT AATGAAGTTG CTGCGGAGCA GGCCCCTGTA
    GTTCCATATC CACACCGTAA CAAAGATTCT GATTACCTCC AGTCTACAGA GGAGAACAGC
    AACAATCCAA ATGTGCCCTC AGGTGCCCGA CCCTGGAGCG ATCCTCGGTT ACCAGAACCA
    CCAAGAGTAA ACCCACCACC ACCCCCAGAC CATCACCACC ATGGAAACCC TCGTCCATTG
    GAACCATCCC CAGTGCACAC ACACCAAGAG TTTAATCCTG TGCTTCACCT TGTGGCCCTG
    AACACTCCAC TGAGTGGCAG CATGAAATCC ATCCGCGGAG TGGACTTCCA GTGCTTTGAG
    CAAGCCCGTA AAGCTGGACT ACATGGCACA TTTAGAGCGT TTTTGTCTTC CCGACTTCAA
    GACCTGTACA GCATTGTACG CAGAGCTGAT CGACAATCTG TGCAAATTGT TAATCTTAGG
    GATGAAGTGT TATTTGACAA CTGGGAGTCC CTGTTCTCTG GTTCTGAGGC TCAGATGAGG
    CCTGGTGCGA GTATCTTCTC TTTTGATGGA AAAGATGTTG CAACAGATCC TACATGGCCA
    CAGAAGATGG TTTGGCATGG GTCTGACTCG AAGGGACGGC GGCTTACTGA AAGCTATTGC
    GAGACCTGGC GCACAGATGA AGGTGCAGTA ACTGGTCAGG CATCATCGCT GACGAGCGGG
    AAACTCTTAG AACAGCGCCC ACAGAGTTGC AACAAGAACT TCATTGTTTT GTGTATTGAG
    AACAGCTTCA TGACCAATAA CCGGAAGTAG

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

    RefSeq XP_012826359.2
    CDS168..4757
    Translation

    Target ORF information:

    RefSeq Version XM_012970905.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen type XVIII alpha 1 (col18a1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970905.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCGCATTT CCATTCCACA AGTAACCTCT CTTTCCAGTG GCCTATCCCA TGATGTGTTA 
    AATTCATCCC AGTTGAATGG GAATAACATA GGCAAACAGA GCACTTACAC CACCAATCAG
    GTTTATAAGA GCCCTGAGCT CCTGAAACAT TCTGGGATAG CTGCCACTCT TCATGGTGTT
    TCTGCACCTA ACAATTATGT CACTAGTCTA ACGGGACATC CCCATCCATC TGAAACTGAT
    TTACTAACCA GCACTAAATC TCCCATTCCA TCTTTTAGCC ATAATAGCTC CAGGACTGCT
    TTTATCTTGC CCAGATTGAC TCCATCAAAT TCTCGCTGCT TGCCTACCCC TACCAGCCTC
    TCATTCTGCA AAAGATTAGG AATTGACTCC TTTCTGCTCC CCAATTATCT GAACCATAGT
    ACTGTGCTGG AAATTCAGGC AGCTTTGCAT GATTGGGAGG GGCTGTTTAA ATCTCAGTGC
    CACCGCTACC TGGAATCGTT TTTCTGCTTG CTTCTGGCAC CAAGTTGTAA TGCTGGCACT
    GTGGCACCTC CGCTGGTGCC ATGCCGTCAG TTTTGTGAGG TGCTGCAGGA TGCCTGCTGG
    AATCTTCTGG AGGGATCACA TCTCCCAGTG TCATGTGACT CTCTTCCTGG GAAGAATTCT
    GGGGTTTCTT GTCTTTATAT TCATTTTTAT GCAGGTCCTA AGACACAAGT TTCCGCTTCT
    TCGGAGCTGA CAGACAACTT CAACCCAGAA GTTGGCCTCT TGCAGTTGAT TGGAGAACCT
    GTACCTGAAC AGATCACCAA GGTCTTTGGG CCCGACAAGA CTCCCGCCTA TGTATTTGGT
    AAAGAAGCCA ATACAGGCCA GGTGGCCCAA TACCATCTGC CCAACCCTAT GTATAGGGAC
    TTCTCTCTCC TCTTCCATGT CCAGCCAACC ACAGACAAGG CCGGCATCCT CTTTGCCATC
    ACAGATGCCT CTCAGTCTAT TGTGTATATC GGGGTGAAGC TTTCTGAAGT CAAGGATGGG
    AAGCAAGACA TCATCTTCTA CTATACAGAG CCTGGCTCAC AGGATTCCTA TGTAGCTGCC
    ACCTTCAATG TCCCATCACT GGTGAATCGT TGGTCTCGCT TTGCAATCAG TGTGGAGGAA
    GAAGAAGTTG TGCTGTTTAT GGATTGTGAT GAGCTGGAAA GGGTGCGCTT CGAGAGATCA
    CCTGATGAGA TGGAACTAGA AGATGGCTCT GGGCTCTTTG TTGCTCAAGC AGGTGGCGCT
    GATCCAGACA GATATCAGGG TGTAATAGCA GATCTAAAGA TCGTAGCCGA TCCAAGAGCC
    GCAGAACATC AGTGTGAGGA GGATGGAGAT GACTCTGATG GGATCTCTGG AGATTTTGGC
    AGTGGCATTG CGGACAATGA TTTGGTGACT TCTCCTCCTG TGATAATCAA AGTGCAGCCT
    CCTATAACTG TCCCTCCCAT ACAGAGGACC CCTGTGGAGA AAGAGATTGT TCAGACAGGT
    CAAGGCCAGC AAGGGGTAAA AGGAGAGAAG GGTGATCGTG GAGAGAAGGG TGAGAGGGGA
    CTGACTGGCC CTAAGGGAGA CGGTGGGAAT GCAAGTCCAA CTTCTGATTC CAAAGGAGAA
    AAGGGTCAGA AAGGAGAGGT CGGAGTGAAG GGAAGTGCAG GCTTTGGCTA TCCCGGGCCT
    AAAGGGCAGA AAGGAGATCC TGGAGACTTG GGACCAAGAG GACCACCAGG CCCACCTGGA
    CCATCTATAT TACAGAAAAG TGATGGAACT ACAGTGCAAC AGGTCACAGG ACCTCCAGGT
    CCTCAAGGCC CTGCGGGACC ACCAGGAAAA GAAGGGGAAC CAGGTGACCC TGGTGAAGAT
    GGAAAAACTG GCGAGGTTGG TCCCCAAGGA TTTCCAGGGA CCCCAGGAGA TTCTGGGCAG
    AAGGGAGACA AGGGTGATTC TGGTGTTGGT ATCAGAGGTG CTCCTGGGCC ACCAGGTCCG
    CCAGGCCCCC CTGGACCTTC TAGAACCGAC AAGCTGACAT TCATTGACAT GGAAGGTTCT
    GGATATGGTG GAGATTCGGA GCACATCAGG GGAGCCCCTG GTGTGCCTGG GCCCCCAGGT
    CCTCCAGGTG TACCAGGGTT ACCCGGAGTA CCCGGAACTT TTGGCATGAA CAACACAGGA
    TTGCCAGGTC CACCTGGATT GCCAGGTCTT CCCGGAAAGG AAGGAATTCC AGGTCCTCCT
    GGCCCCCCAG GACTCCCTGG AAAAGACGGG TTGTCTGGTA CACCTGGTGC TGCTGGATTA
    CGGGGTGAAG ATGGAGAGAT TGGTCTTCCA GGTGCTCCTG GAACAAAGGG TAGCACTGGT
    GAGCCAGGAC TACCTGGACC TCCTGGACAA TCTGGTTTAG CTGGACTTCC TGGACCAATG
    GGACCACGCG GGCTGCCAGG TCCTCCAGGA CCACCTGGGC CTGTGGGTCA TGGATCTGCA
    ATTGGCTTTG ATGACATGGA AGCCTCAGGG CTTGGATTTG GCTTGAGAGA AGGGACACAG
    GGGGTGCCTG GACTTCCCGG GGCAAAGGGA GAGCCAGGAC ATCCAGGGCT GCCAGGAGTG
    AAGGGAGATA GTGGTTTTCC AGGCCTTGAA GGAAGGCCGG GGTTGGATGG ATTCCCAGGT
    CCAGAGGGAT TAAAGGGTGA GAAAGGTGAA CGTGGTGAGC GGGGAGAATC TGGCCGTGAT
    GGTGTTGGTA TTCCAGGTCC ACCGGGACCT CCTGGTCAGG TGCTTTATTT ACCATCCGAT
    GACAAGACTA TTGTTGGTGC CATTCCTGGA CCAGAGGGCA GGCAAGGTGT AGCTGGACTT
    CCGGGCCCAA GGGGACCCAA AGGAGAGGCG GGCTTGAACG GTATCCCAGG AACCTTTGGA
    GTAAAGGGAG AAAAGGGAGA GCCTGGAATT ATTATGGGAC CAGATAGCAC CATTTACACT
    GATCTATCTA AAGGAGAGAA GGGTGACGAA GGACCAAGGG GACCAGCAGG AGCTGCGGGA
    CCATTTGGAC AAAAGGGAGA AATCGGGTTC CCAGGACGCC CTGGACGTCC TGGTATGAAT
    GGACTGAAAG GGGAGAAAGG AGAACCTAGT GGTGCAAGTG GTGGCTTTGG ACTGAGGGGG
    CCACCTGGTC CTCCTGGCCC ACCCGGTCCT CCTGGCAGTG TGGTGTATGG AGATCCAAAT
    AACCCAGGAG CCCAAGTATA TCCAGGTCAT AAAGGGGAGA GAGGATTTCC TGGACCCAAA
    GGTGATGTTG GTCCTGCTGG CCCACCAGGC TCTTTCCCAT ATGATTTAAG TACCTTTGCC
    TCGATTTTAA GGAGAGAAGC TGGACTCAAA GGAGAGAAGG GCGAATCTGG GGGTGGTTCC
    CATGGACAGG GGATCCCAGG GCCACCTGGA AACCCTGGAT ATCCAGGACT GCCGGGAGCT
    AAAGGAGACA GTGTTCAAGG TCCTCCAGGC CCAGCCGGCC CACCAGGACC TTCTGGAATC
    GGTTATGAAG GAAGGCAAGG TCCACCAGGG CCCCCAGGTC CTCCAGGCCT GCCAGGTTCC
    TCCTCTTATC CTGGGCCTCA CAGGCAAACC ATCAGCATAC CTGGACCTCC TGGCCCACCA
    GGCCCACCAG GGCTCCCAGG AACATCAGGA GGATTATCTG GGGCTACTGT GCTACAGACC
    TATCAGACTA TGATCAACTT AGCCCACAGG CTGCAGGAAG GGACAATTGT GCTGGTCCAG
    GAGAGGTCGG AACTGTATGT GCGTGTGAGA GAAGGCTTCC GAAAAATTCT TCTTGGTGAA
    TATACAACAT CCTCTGGCCC TGGACAGGAT AATGAAGTTG CTGCGGAGCA GGCCCCTGTA
    GTTCCATATC CACACCGTAA CAAAGATTCT GATTACCTCC AGTCTACAGA GGAGAACAGC
    AACAATCCAA ATGTGCCCTC AGGTGCCCGA CCCTGGAGCG ATCCTCGGTT ACCAGAACCA
    CCAAGAGTAA ACCCACCACC ACCCCCAGAC CATCACCACC ATGGAAACCC TCGTCCATTG
    GAACCATCCC CAGTGCACAC ACACCAAGAG TTTAATCCTG TGCTTCACCT TGTGGCCCTG
    AACACTCCAC TGAGTGGCAG CATGAAATCC ATCCGCGGAG TGGACTTCCA GTGCTTTGAG
    CAAGCCCGTA AAGCTGGACT ACATGGCACA TTTAGAGCGT TTTTGTCTTC CCGACTTCAA
    GACCTGTACA GCATTGTACG CAGAGCTGAT CGACAATCTG TGCAAATTGT TAATCTTAGG
    GATGAAGTGT TATTTGACAA CTGGGAGTCC CTGTTCTCTG GTTCTGAGGC TCAGATGAGG
    CCTGGTGCGA GTATCTTCTC TTTTGATGGA AAAGATGTTG CAACAGATCC TACATGGCCA
    CAGAAGATGG TTTGGCATGG GTCTGACTCG AAGGGACGGC GGCTTACTGA AAGCTATTGC
    GAGACCTGGC GCACAGATGA AGGTGCAGTA ACTGGTCAGG CATCATCGCT GACGAGCGGG
    AAACTCTTAG AACAGCGCCC ACAGAGTTGC AACAAGAACT TCATTGTTTT GTGTATTGAG
    AACAGCTTCA TGACCAATAA CCGGAAGTAG

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

    CloneID OXa21931
    Clone ID Related Accession (Same CDS sequence) XM_012970907.2
    Accession Version XM_012970907.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    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 collagen alpha-1(XVIII) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012970907.1. ##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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGC GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCCCAAGGGG ACCCAAAGGA
    GAGGCGGGCT TGAACGGTAT CCCAGGAACC TTTGGAGTAA AGGGAGAGAA GGGAGAGCCT
    GGAATTATTA TGGGACCAGA TAGCACCATT TACACTGATT CATCTAAAGG AGAGAAGGGT
    GACGAAGGAC CAAGGGGACC AGCAGGAGCT GCGGGACCAT TTGGACAAAA GGGAGAAATC
    GGGTTCCCAG GACGCCCTGG ACGTCCTGGT ATGAATGGAC TGAAAGGGGA GAAAGGAGAA
    CCTAGTGGTG CAAGTGGTGG CTTTGGACTG AGGGGGCCAC CTGGTCCTCC TGGCCCACCC
    GGTCCTCCTG GCAGTGTGGT GTATGGCGAT CCAAATAACC CAGGAGCCCA AGTATATCCA
    GGTCATAAAG GGGAGAGAGG ATTTCCTGGA CCCAAAGGTG ATGTTGGTCC TGCTGGCCCA
    CCAGGCTCTT TCCCATATGA TTTAAGTACC TTTGCCTCGA TTTTAAGGAG AGAAGCTGGA
    CTCAAAGGAG AGAAGGGCGA ATCTGGGGGT GGTTCCCATG GACAGGGGAT CCCAGGGCCA
    CCTGGAAACC CTGGATATCC AGGACTGCCG GGAGCTAAAG GAGACAGTGT TCAAGGTCCT
    CCAGGCCCAG CCGGCCCACC AGGACCTTCT GGAATCGGTT ATGAAGGAAG GCAAGGTCCA
    CCAGGGCCCC CAGGTCCTCC AGGCCTGCCA GGTTCCTCCT CTTATCCTGG GCCTCACAGG
    CAAACCATCA GCATACCTGG ACCTCCTGGC CCACCAGGCC CACCAGGGCT CCCAGGAACA
    TCAGGAGGAT TATCTGGGGC TACTGTGCTA CAGACCTATC AGACTATGAT CAACTTAGCC
    CACAGGCTGC AGGAAGGGAC AATTGTGCTG GTCCAGGAGA GGTCGGAACT GTATGTGCGT
    GTGAGAGAAG GCTTCCGAAA AATTCTTCTT GGTGAATATA CAACATCCTC TGGCCCTGGA
    CAGGATAATG AAGTTGCTGC GGAGCAGGCC CCTGTAGTTC CATATCCACA CCGTAACAAA
    GATTCTGATT ACCTCCAGTC TACAGAGGAG AACAGCAACA ATCCAAATGT GCCCTCAGGT
    GCCCGACCCT GGAGCGATCC TCGGTTACCA GAACCACCAA GAGTAAACCC ACCACCACCC
    CCAGACCATC ACCACCATGG AAACCCTCGT CCATTGGAAC CATCCCCAGT GCACACACAC
    CAAGAGTTTA ATCCTGTGCT TCACCTTGTG GCCCTGAACA CTCCACTGAG TGGCAGCATG
    AAATCCATCC GCGGAGTGGA CTTCCAGTGC TTTGAGCAAG CCCGTAAAGC TGGACTACAT
    GGCACATTTA GAGCGTTTTT GTCTTCCCGA CTTCAAGACC TGTACAGCAT TGTACGCAGA
    GCTGATCGAC AATCTGTGCA AATTGTTAAT CTTAGGGATG AAGTGTTATT TGACAACTGG
    GAGTCCCTGT TCTCTGGTTC TGAGGCTCAG ATGAGGCCTG GTGCGAGTAT CTTCTCTTTT
    GATGGAAAAG ATGTTGCAAC AGATCCTACA TGGCCACAGA AGATGGTTTG GCATGGGTCT
    GACTCGAAGG GACGGCGGCT TACTGAAAGC TATTGCGAGA CCTGGCGCAC AGATGAAGGT
    GCAGTAACTG GTCAGGCATC ATCGCTGACG AGTGGGAAAC TCTTAGAACA GCGCCCACAG
    AGTTGCAACA AGAACTTCAT TGTTTTGTGT ATTGAGAACA GCTTCATGAC CAATAACCGG
    AAGTAG

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

    RefSeq XP_012826361.1
    CDS178..4083
    Translation

    Target ORF information:

    RefSeq Version XM_012970907.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970907.2

    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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGC GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCCCAAGGGG ACCCAAAGGA
    GAGGCGGGCT TGAACGGTAT CCCAGGAACC TTTGGAGTAA AGGGAGAGAA GGGAGAGCCT
    GGAATTATTA TGGGACCAGA TAGCACCATT TACACTGATT CATCTAAAGG AGAGAAGGGT
    GACGAAGGAC CAAGGGGACC AGCAGGAGCT GCGGGACCAT TTGGACAAAA GGGAGAAATC
    GGGTTCCCAG GACGCCCTGG ACGTCCTGGT ATGAATGGAC TGAAAGGGGA GAAAGGAGAA
    CCTAGTGGTG CAAGTGGTGG CTTTGGACTG AGGGGGCCAC CTGGTCCTCC TGGCCCACCC
    GGTCCTCCTG GCAGTGTGGT GTATGGCGAT CCAAATAACC CAGGAGCCCA AGTATATCCA
    GGTCATAAAG GGGAGAGAGG ATTTCCTGGA CCCAAAGGTG ATGTTGGTCC TGCTGGCCCA
    CCAGGCTCTT TCCCATATGA TTTAAGTACC TTTGCCTCGA TTTTAAGGAG AGAAGCTGGA
    CTCAAAGGAG AGAAGGGCGA ATCTGGGGGT GGTTCCCATG GACAGGGGAT CCCAGGGCCA
    CCTGGAAACC CTGGATATCC AGGACTGCCG GGAGCTAAAG GAGACAGTGT TCAAGGTCCT
    CCAGGCCCAG CCGGCCCACC AGGACCTTCT GGAATCGGTT ATGAAGGAAG GCAAGGTCCA
    CCAGGGCCCC CAGGTCCTCC AGGCCTGCCA GGTTCCTCCT CTTATCCTGG GCCTCACAGG
    CAAACCATCA GCATACCTGG ACCTCCTGGC CCACCAGGCC CACCAGGGCT CCCAGGAACA
    TCAGGAGGAT TATCTGGGGC TACTGTGCTA CAGACCTATC AGACTATGAT CAACTTAGCC
    CACAGGCTGC AGGAAGGGAC AATTGTGCTG GTCCAGGAGA GGTCGGAACT GTATGTGCGT
    GTGAGAGAAG GCTTCCGAAA AATTCTTCTT GGTGAATATA CAACATCCTC TGGCCCTGGA
    CAGGATAATG AAGTTGCTGC GGAGCAGGCC CCTGTAGTTC CATATCCACA CCGTAACAAA
    GATTCTGATT ACCTCCAGTC TACAGAGGAG AACAGCAACA ATCCAAATGT GCCCTCAGGT
    GCCCGACCCT GGAGCGATCC TCGGTTACCA GAACCACCAA GAGTAAACCC ACCACCACCC
    CCAGACCATC ACCACCATGG AAACCCTCGT CCATTGGAAC CATCCCCAGT GCACACACAC
    CAAGAGTTTA ATCCTGTGCT TCACCTTGTG GCCCTGAACA CTCCACTGAG TGGCAGCATG
    AAATCCATCC GCGGAGTGGA CTTCCAGTGC TTTGAGCAAG CCCGTAAAGC TGGACTACAT
    GGCACATTTA GAGCGTTTTT GTCTTCCCGA CTTCAAGACC TGTACAGCAT TGTACGCAGA
    GCTGATCGAC AATCTGTGCA AATTGTTAAT CTTAGGGATG AAGTGTTATT TGACAACTGG
    GAGTCCCTGT TCTCTGGTTC TGAGGCTCAG ATGAGGCCTG GTGCGAGTAT CTTCTCTTTT
    GATGGAAAAG ATGTTGCAAC AGATCCTACA TGGCCACAGA AGATGGTTTG GCATGGGTCT
    GACTCGAAGG GACGGCGGCT TACTGAAAGC TATTGCGAGA CCTGGCGCAC AGATGAAGGT
    GCAGTAACTG GTCAGGCATC ATCGCTGACG AGTGGGAAAC TCTTAGAACA GCGCCCACAG
    AGTTGCAACA AGAACTTCAT TGTTTTGTGT ATTGAGAACA GCTTCATGAC CAATAACCGG
    AAGTAG

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

    CloneID OXa26097
    Clone ID Related Accession (Same CDS sequence) XM_012970903.2
    Accession Version XM_012970903.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 collagen alpha-1(XVIII) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012970903.1. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTCCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGCCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG CGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCAGGCAAG GTGTAGCTGG ACTTCCGGGC CCAAGGGGAC CCAAAGGAGA GGCGGGCTTG
    AACGGTATCC CAGGAACCTT TGGAGTAAAG GGAGAGAAGG GAGAGCCTGG AATTATTATG
    GGACCAGATA GCACCATTTA CACTGATTCA TCTAAAGGAG AGAAGGGTGA CGAAGGACCA
    AGGGGACCAG CAGGAGCTGC GGGACCATTT GGACAAAAGG GAGAAATCGG GTTCCCAGGA
    CGCCCTGGAC GTCCTGGTAT GAATGGACTG AAAGGGGAGA AAGGAGAACC TAGTGGTGCA
    AGTGGTGGCT TTGGACTGAG GGGGCCACCT GGTCCTCCTG GCCCACCCGG TCCTCCTGGC
    AGTGTGGTGT ATGGCGATCC AAATAACCCA GGAGCCCAAG TATATCCAGG TCATAAAGGG
    GAGAGAGGAT TTCCTGGACC CAAAGGTGAT GTTGGTCCTG CTGGCCCACC AGGCTCTTTC
    CCATATGATT TAAGTACCTT TGCCTCGATT TTAAGGAGAG AAGCTGGACT CAAAGGAGAG
    AAGGGCGAAT CTGGGGGTGG TTCCCATGGA CAGGGGATCC CAGGGCCACC TGGAAACCCT
    GGATATCCAG GACTGCCGGG AGCTAAAGGA GACAGTGTTC AAGGTCCTCC AGGCCCAGCC
    GGCCCACCAG GACCTTCTGG AATCGGTTAT GAAGGAAGGC AAGGTCCACC AGGGCCCCCA
    GGTCCTCCAG GCCTGCCAGG TTCCTCCTCT TATCCTGGGC CTCACAGGCA AACCATCAGC
    ATACCTGGAC CTCCTGGCCC ACCAGGCCCA CCAGGGCTCC CAGGAACATC AGGAGGATTA
    TCTGGGGCTA CTGTGCTACA GACCTATCAG ACTATGATCA ACTTAGCCCA CAGGCTGCAG
    GAAGGGACAA TTGTGCTGGT CCAGGAGAGG TCGGAACTGT ATGTGCGTGT GAGAGAAGGC
    TTCCGAAAAA TTCTTCTTGG TGAATATACA ACATCCTCTG GCCCTGGACA GGATAATGAA
    GTTGCTGCGG AGCAGGCCCC TGTAGTTCCA TATCCACACC GTAACAAAGA TTCTGATTAC
    CTCCAGTCTA CAGAGGAGAA CAGCAACAAT CCAAATGTGC CCTCAGGTGC CCGACCCTGG
    AGCGATCCTC GGTTACCAGA ACCACCAAGA GTAAACCCAC CACCACCCCC AGACCATCAC
    CACCATGGAA ACCCTCGTCC ATTGGAACCA TCCCCAGTGC ACACACACCA AGAGTTTAAT
    CCTGTGCTTC ACCTTGTGGC CCTGAACACT CCACTGAGTG GCAGCATGAA ATCCATCCGC
    GGAGTGGACT TCCAGTGCTT TGAGCAAGCC CGTAAAGCTG GACTACATGG CACATTTAGA
    GCGTTTTTGT CTTCCCGACT TCAAGACCTG TACAGCATTG TACGCAGAGC TGATCGACAA
    TCTGTGCAAA TTGTTAATCT TAGGGATGAA GTGTTATTTG ACAACTGGGA GTCCCTGTTC
    TCTGGTTCTG AGGCTCAGAT GAGGCCTGGT GCGAGTATCT TCTCTTTTGA TGGAAAAGAT
    GTTGCAACAG ATCCTACATG GCCACAGAAG ATGGTTTGGC ATGGGTCTGA CTCGAAGGGA
    CGGCGGCTTA CTGAAAGCTA TTGCGAGACC TGGCGCACAG ATGAAGGTGC AGTAACTGGT
    CAGGCATCAT CGCTGACGAG TGGGAAACTC TTAGAACAGC GCCCACAGAG TTGCAACAAG
    AACTTCATTG TTTTGTGTAT TGAGAACAGC TTCATGACCA ATAACCGGAA GTAG

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

    RefSeq XP_012826357.1
    CDS56..4849
    Translation

    Target ORF information:

    RefSeq Version XM_012970903.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970903.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTCCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGCCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG CGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCAGGCAAG GTGTAGCTGG ACTTCCGGGC CCAAGGGGAC CCAAAGGAGA GGCGGGCTTG
    AACGGTATCC CAGGAACCTT TGGAGTAAAG GGAGAGAAGG GAGAGCCTGG AATTATTATG
    GGACCAGATA GCACCATTTA CACTGATTCA TCTAAAGGAG AGAAGGGTGA CGAAGGACCA
    AGGGGACCAG CAGGAGCTGC GGGACCATTT GGACAAAAGG GAGAAATCGG GTTCCCAGGA
    CGCCCTGGAC GTCCTGGTAT GAATGGACTG AAAGGGGAGA AAGGAGAACC TAGTGGTGCA
    AGTGGTGGCT TTGGACTGAG GGGGCCACCT GGTCCTCCTG GCCCACCCGG TCCTCCTGGC
    AGTGTGGTGT ATGGCGATCC AAATAACCCA GGAGCCCAAG TATATCCAGG TCATAAAGGG
    GAGAGAGGAT TTCCTGGACC CAAAGGTGAT GTTGGTCCTG CTGGCCCACC AGGCTCTTTC
    CCATATGATT TAAGTACCTT TGCCTCGATT TTAAGGAGAG AAGCTGGACT CAAAGGAGAG
    AAGGGCGAAT CTGGGGGTGG TTCCCATGGA CAGGGGATCC CAGGGCCACC TGGAAACCCT
    GGATATCCAG GACTGCCGGG AGCTAAAGGA GACAGTGTTC AAGGTCCTCC AGGCCCAGCC
    GGCCCACCAG GACCTTCTGG AATCGGTTAT GAAGGAAGGC AAGGTCCACC AGGGCCCCCA
    GGTCCTCCAG GCCTGCCAGG TTCCTCCTCT TATCCTGGGC CTCACAGGCA AACCATCAGC
    ATACCTGGAC CTCCTGGCCC ACCAGGCCCA CCAGGGCTCC CAGGAACATC AGGAGGATTA
    TCTGGGGCTA CTGTGCTACA GACCTATCAG ACTATGATCA ACTTAGCCCA CAGGCTGCAG
    GAAGGGACAA TTGTGCTGGT CCAGGAGAGG TCGGAACTGT ATGTGCGTGT GAGAGAAGGC
    TTCCGAAAAA TTCTTCTTGG TGAATATACA ACATCCTCTG GCCCTGGACA GGATAATGAA
    GTTGCTGCGG AGCAGGCCCC TGTAGTTCCA TATCCACACC GTAACAAAGA TTCTGATTAC
    CTCCAGTCTA CAGAGGAGAA CAGCAACAAT CCAAATGTGC CCTCAGGTGC CCGACCCTGG
    AGCGATCCTC GGTTACCAGA ACCACCAAGA GTAAACCCAC CACCACCCCC AGACCATCAC
    CACCATGGAA ACCCTCGTCC ATTGGAACCA TCCCCAGTGC ACACACACCA AGAGTTTAAT
    CCTGTGCTTC ACCTTGTGGC CCTGAACACT CCACTGAGTG GCAGCATGAA ATCCATCCGC
    GGAGTGGACT TCCAGTGCTT TGAGCAAGCC CGTAAAGCTG GACTACATGG CACATTTAGA
    GCGTTTTTGT CTTCCCGACT TCAAGACCTG TACAGCATTG TACGCAGAGC TGATCGACAA
    TCTGTGCAAA TTGTTAATCT TAGGGATGAA GTGTTATTTG ACAACTGGGA GTCCCTGTTC
    TCTGGTTCTG AGGCTCAGAT GAGGCCTGGT GCGAGTATCT TCTCTTTTGA TGGAAAAGAT
    GTTGCAACAG ATCCTACATG GCCACAGAAG ATGGTTTGGC ATGGGTCTGA CTCGAAGGGA
    CGGCGGCTTA CTGAAAGCTA TTGCGAGACC TGGCGCACAG ATGAAGGTGC AGTAACTGGT
    CAGGCATCAT CGCTGACGAG TGGGAAACTC TTAGAACAGC GCCCACAGAG TTGCAACAAG
    AACTTCATTG TTTTGTGTAT TGAGAACAGC TTCATGACCA ATAACCGGAA GTAG

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

    CloneID OXa26098
    Clone ID Related Accession (Same CDS sequence) XM_012970904.2
    Accession Version XM_012970904.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4767bp)
    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 collagen alpha-1(XVIII) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012970904.1. ##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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTCCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGCCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG CGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCCCAAGGG GACCCAAAGG AGAGGCGGGC TTGAACGGTA TCCCAGGAAC CTTTGGAGTA
    AAGGGAGAGA AGGGAGAGCC TGGAATTATT ATGGGACCAG ATAGCACCAT TTACACTGAT
    TCATCTAAAG GAGAGAAGGG TGACGAAGGA CCAAGGGGAC CAGCAGGAGC TGCGGGACCA
    TTTGGACAAA AGGGAGAAAT CGGGTTCCCA GGACGCCCTG GACGTCCTGG TATGAATGGA
    CTGAAAGGGG AGAAAGGAGA ACCTAGTGGT GCAAGTGGTG GCTTTGGACT GAGGGGGCCA
    CCTGGTCCTC CTGGCCCACC CGGTCCTCCT GGCAGTGTGG TGTATGGCGA TCCAAATAAC
    CCAGGAGCCC AAGTATATCC AGGTCATAAA GGGGAGAGAG GATTTCCTGG ACCCAAAGGT
    GATGTTGGTC CTGCTGGCCC ACCAGGCTCT TTCCCATATG ATTTAAGTAC CTTTGCCTCG
    ATTTTAAGGA GAGAAGCTGG ACTCAAAGGA GAGAAGGGCG AATCTGGGGG TGGTTCCCAT
    GGACAGGGGA TCCCAGGGCC ACCTGGAAAC CCTGGATATC CAGGACTGCC GGGAGCTAAA
    GGAGACAGTG TTCAAGGTCC TCCAGGCCCA GCCGGCCCAC CAGGACCTTC TGGAATCGGT
    TATGAAGGAA GGCAAGGTCC ACCAGGGCCC CCAGGTCCTC CAGGCCTGCC AGGTTCCTCC
    TCTTATCCTG GGCCTCACAG GCAAACCATC AGCATACCTG GACCTCCTGG CCCACCAGGC
    CCACCAGGGC TCCCAGGAAC ATCAGGAGGA TTATCTGGGG CTACTGTGCT ACAGACCTAT
    CAGACTATGA TCAACTTAGC CCACAGGCTG CAGGAAGGGA CAATTGTGCT GGTCCAGGAG
    AGGTCGGAAC TGTATGTGCG TGTGAGAGAA GGCTTCCGAA AAATTCTTCT TGGTGAATAT
    ACAACATCCT CTGGCCCTGG ACAGGATAAT GAAGTTGCTG CGGAGCAGGC CCCTGTAGTT
    CCATATCCAC ACCGTAACAA AGATTCTGAT TACCTCCAGT CTACAGAGGA GAACAGCAAC
    AATCCAAATG TGCCCTCAGG TGCCCGACCC TGGAGCGATC CTCGGTTACC AGAACCACCA
    AGAGTAAACC CACCACCACC CCCAGACCAT CACCACCATG GAAACCCTCG TCCATTGGAA
    CCATCCCCAG TGCACACACA CCAAGAGTTT AATCCTGTGC TTCACCTTGT GGCCCTGAAC
    ACTCCACTGA GTGGCAGCAT GAAATCCATC CGCGGAGTGG ACTTCCAGTG CTTTGAGCAA
    GCCCGTAAAG CTGGACTACA TGGCACATTT AGAGCGTTTT TGTCTTCCCG ACTTCAAGAC
    CTGTACAGCA TTGTACGCAG AGCTGATCGA CAATCTGTGC AAATTGTTAA TCTTAGGGAT
    GAAGTGTTAT TTGACAACTG GGAGTCCCTG TTCTCTGGTT CTGAGGCTCA GATGAGGCCT
    GGTGCGAGTA TCTTCTCTTT TGATGGAAAA GATGTTGCAA CAGATCCTAC ATGGCCACAG
    AAGATGGTTT GGCATGGGTC TGACTCGAAG GGACGGCGGC TTACTGAAAG CTATTGCGAG
    ACCTGGCGCA CAGATGAAGG TGCAGTAACT GGTCAGGCAT CATCGCTGAC GAGTGGGAAA
    CTCTTAGAAC AGCGCCCACA GAGTTGCAAC AAGAACTTCA TTGTTTTGTG TATTGAGAAC
    AGCTTCATGA CCAATAACCG GAAGTAG

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

    RefSeq XP_012826358.1
    CDS56..4822
    Translation

    Target ORF information:

    RefSeq Version XM_012970904.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970904.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTCCAG CGCGGCTTAG CCTTGGGGTC ACAGTGCTTG TGCTCCTCTT ACCTGCTCTA 
    TCCAATGGCC AGTTTTGGTC CTGGTTTACA GGGAGCAAAG AGACAACTGC GAGCCCCACA
    ACTCAACGTG TAACTCCAGG AACATCCTCA GTTCATAGTA CTGCTGTGCA GCATCACTCA
    CCTGATGCCT CGCCAACCAC ATTGCACCAT ATACCGGATG CACTACCCTC AGCGGAAAGT
    ACGTCAGCAC CTGCAGTGCA TCAGCCACCT GAAGAAGATA ACCTGCCTGA GACAACACCC
    TCTCACCTAG AGGCAGCCTC TGTGCCATCT TCAGAAAAAC CCACACCTTT TACAGAACAG
    TCACCCACAG CATCCTCCTC AGCCATACTC ATTCCCAGCA CAGTCATCCT AACCACAGAG
    GGCAAGAATG ACAGTACTGA GACAGCAGGA GTGACCAGAC CCCTCCAAAC GACAGAGTCC
    CCTACTACTT CCAGGAGGCA GGAGGAAAAG CAAATATGGA ACATATTCAG TGTGCAGAAA
    GGAAAGGAGA ACGTAGCGCC TGGGACTTTG GCCACAACAC CTGTAGCGAA GGATGAAACC
    AGTGCACCTT CTGTGTCAGA GGTTCCAATA TCTCAGAAGC CACAAAGTGA ACAAAACATT
    GCTGGTGTAG GGGCCGAGAT CTTAAATGTA GCAGAAGGAA TTAGGAACTT TGTGCATGGC
    TGGGAAGATA ACATTGCCAA CAGCACAAAG CAGACTCCTA CTCCTGACAC GGAGATGGTG
    ACTGCCACAA CAGCCCCAAG CCTTACTGTA AATGACACTG GCACCTTAAG CTACAACAAG
    ACAGAACCAA GCGAGAACAC TATGGCAAAC CATACGGAAG GTCCGGTGTC CGAGCCCCAT
    AAACTGATCT CATCCCACAA CAAGCCACTT CTACCAGACA ACTTCAACCC AGAAGTTGGC
    CTCTTGCAGT TGATTGGAGA ACCTGTACCT GAACAGATCA CCAAGGTCTT TGGGCCCGAC
    AAGACTCCCG CCTATGTATT TGGTAAAGAA GCCAATACAG GCCAGGTGGC CCAATACCAT
    CTGCCCAACC CTATGTATAG GGACTTCTCT CTCCTCTTCC ATGTCCAGCC AACCACAGAC
    AAGGCCGGCA TCCTCTTTGC CATCACAGAT GCCTCTCAGT CTATTGTGTA TATCGGGGTG
    AAGCTTTCTG AAGTCAAGGA TGGGAAGCAA GACATCATCT TCTACTATAC AGAGCCTGGC
    TCACAGGATT CCTATGTAGC TGCCACCTTC AATGTCCCAT CACTGGTGAA TCGTTGGTCT
    CGCTTTGCAA TCAGTGTGGA GGAAGAAGAA GTTGTGCTGT TTATGGATTG CGATGAGCTG
    GAAAGGGTGC GCTTCGAGAG ATCACCTGAT GAGATGGAAC TAGAAGATGG CTCTGGGCTC
    TTTGTTGCTC AAGCAGGTGG CGCTGATCCA GACAGATATC AGGGTGTAAT AGCAGATCTA
    AAGATCGTAG CCGATCCAAG AGCCGCAGAA CATCAGTGTG AGGAGGATGG AGATGACTCT
    GATGGGATCT CTGGAGATTT TGGCAGTGGC ATTGCGGACA ATGATTTGGT GACTTCTCCT
    CCTGTGATAA TCAAAGTGCA GCCTCCTATA ACTGTCCCTC CCATACAGAG GACCCCTGTG
    GAGAAAGAGA TTGTTCAGAC AGGTCAAGGC CAGCAAGGGG TAAAAGGAGA GAAGGGTGAT
    CGTGGAGAGA AGGGTGAGAG GGGACTGACT GGCCCTAAGG GAGACGGTGG GAATGCAAGT
    CCAACTTCTG ATTCCAAAGG AGAAAAGGGT CAGAAAGGAG AGGTCGGAGT GAAGGGAAGT
    GCAGGCTTTG GCTATCCCGG GCCTAAAGGG CAGAAAGGAG ATCCTGGAGA CTTGGGACCA
    AGAGGACCAC CAGGCCCACC TGGACCATCT ATATTACAGA AAAGTGATGG AACTACAGTG
    CAACAGGTCA CAGGACCTCC AGGTCCTCAA GGCCCTGCGG GACCACCAGG AAAAGAAGGG
    GAACCAGGTG ACCCTGGTGA AGATGGAAAA ACTGGCGAGG TTGGTCCCCA AGGATTTCCA
    GGGACCCCAG GAGATTCTGG GCAGAAGGGA GACAAGGGTG ATTCTGGTGT TGGTATCAGA
    GGTGCTCCTG GGCCACCAGG TCCGCCAGGC CCCCCTGGAC CTTCTAGAAC CGACAAGCTG
    ACATTCATTG ACATGGAAGG TTCTGGATAT GGTGGAGATT CGGAGCACAT CAGGGGAGCC
    CCTGGTGTGC CTGGGCCCCC AGGTCCTCCA GGTGTACCAG GGTTACCCGG AGTACCCGGA
    ACTTTTGGCA TGAACAACAC AGGATTGCCA GGTCCACCTG GATTGCCAGG TCTTCCCGGA
    AAGGAAGGAA TTCCAGGTCC TCCTGGCCCC CCAGGACTCC CTGGAAAAGA CGGGTTGTCT
    GGTACACCTG GTGCTGCTGG ATTACGGGGT GAAGATGGAG AGATTGGTCT TCCAGGTGCT
    CCTGGAACAA AGGGTAGCAC TGGTGAGCCA GGACTACCTG GACCTCCTGG ACAATCTGGT
    TTAGCTGGAC TTCCTGGACC AATGGGACCA CGCGGGCTGC CAGGTCCTCC AGGACCACCT
    GGGCCTGTGG GTCATGGATC TGCAATTGGC TTTGATGACA TGGAAGCCTC AGGGCTTGGA
    TTTGGCTTGA GAGAAGGGAC ACAGGGGGTG CCTGGACTTC CCGGGGCAAA GGGAGAGCCA
    GGACATCCAG GGCTGCCAGG AGTGAAGGGA GATAGTGGTT TTCCAGGCCT TGAAGGAAGG
    CCGGGGTTGG ATGGATTCCC AGGTCCAGAG GGATTAAAGG GTGAGAAAGG TGAACGTGGT
    GAGCGGGGAG AATCTGGCCG TGATGGTGTT GGTATTCCAG GTCCACCGGG ACCTCCTGGT
    CAGGTGCTTT ATTTACCATC CGATGACAAG ACTATTGTTG GTGCCATTCC TGGACCAGAG
    GGCCCAAGGG GACCCAAAGG AGAGGCGGGC TTGAACGGTA TCCCAGGAAC CTTTGGAGTA
    AAGGGAGAGA AGGGAGAGCC TGGAATTATT ATGGGACCAG ATAGCACCAT TTACACTGAT
    TCATCTAAAG GAGAGAAGGG TGACGAAGGA CCAAGGGGAC CAGCAGGAGC TGCGGGACCA
    TTTGGACAAA AGGGAGAAAT CGGGTTCCCA GGACGCCCTG GACGTCCTGG TATGAATGGA
    CTGAAAGGGG AGAAAGGAGA ACCTAGTGGT GCAAGTGGTG GCTTTGGACT GAGGGGGCCA
    CCTGGTCCTC CTGGCCCACC CGGTCCTCCT GGCAGTGTGG TGTATGGCGA TCCAAATAAC
    CCAGGAGCCC AAGTATATCC AGGTCATAAA GGGGAGAGAG GATTTCCTGG ACCCAAAGGT
    GATGTTGGTC CTGCTGGCCC ACCAGGCTCT TTCCCATATG ATTTAAGTAC CTTTGCCTCG
    ATTTTAAGGA GAGAAGCTGG ACTCAAAGGA GAGAAGGGCG AATCTGGGGG TGGTTCCCAT
    GGACAGGGGA TCCCAGGGCC ACCTGGAAAC CCTGGATATC CAGGACTGCC GGGAGCTAAA
    GGAGACAGTG TTCAAGGTCC TCCAGGCCCA GCCGGCCCAC CAGGACCTTC TGGAATCGGT
    TATGAAGGAA GGCAAGGTCC ACCAGGGCCC CCAGGTCCTC CAGGCCTGCC AGGTTCCTCC
    TCTTATCCTG GGCCTCACAG GCAAACCATC AGCATACCTG GACCTCCTGG CCCACCAGGC
    CCACCAGGGC TCCCAGGAAC ATCAGGAGGA TTATCTGGGG CTACTGTGCT ACAGACCTAT
    CAGACTATGA TCAACTTAGC CCACAGGCTG CAGGAAGGGA CAATTGTGCT GGTCCAGGAG
    AGGTCGGAAC TGTATGTGCG TGTGAGAGAA GGCTTCCGAA AAATTCTTCT TGGTGAATAT
    ACAACATCCT CTGGCCCTGG ACAGGATAAT GAAGTTGCTG CGGAGCAGGC CCCTGTAGTT
    CCATATCCAC ACCGTAACAA AGATTCTGAT TACCTCCAGT CTACAGAGGA GAACAGCAAC
    AATCCAAATG TGCCCTCAGG TGCCCGACCC TGGAGCGATC CTCGGTTACC AGAACCACCA
    AGAGTAAACC CACCACCACC CCCAGACCAT CACCACCATG GAAACCCTCG TCCATTGGAA
    CCATCCCCAG TGCACACACA CCAAGAGTTT AATCCTGTGC TTCACCTTGT GGCCCTGAAC
    ACTCCACTGA GTGGCAGCAT GAAATCCATC CGCGGAGTGG ACTTCCAGTG CTTTGAGCAA
    GCCCGTAAAG CTGGACTACA TGGCACATTT AGAGCGTTTT TGTCTTCCCG ACTTCAAGAC
    CTGTACAGCA TTGTACGCAG AGCTGATCGA CAATCTGTGC AAATTGTTAA TCTTAGGGAT
    GAAGTGTTAT TTGACAACTG GGAGTCCCTG TTCTCTGGTT CTGAGGCTCA GATGAGGCCT
    GGTGCGAGTA TCTTCTCTTT TGATGGAAAA GATGTTGCAA CAGATCCTAC ATGGCCACAG
    AAGATGGTTT GGCATGGGTC TGACTCGAAG GGACGGCGGC TTACTGAAAG CTATTGCGAG
    ACCTGGCGCA CAGATGAAGG TGCAGTAACT GGTCAGGCAT CATCGCTGAC GAGTGGGAAA
    CTCTTAGAAC AGCGCCCACA GAGTTGCAAC AAGAACTTCA TTGTTTTGTG TATTGAGAAC
    AGCTTCATGA CCAATAACCG GAAGTAG

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

    CloneID OXa26099
    Clone ID Related Accession (Same CDS sequence) XM_012970905.1
    Accession Version XM_012970905.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 collagen alpha-1(XVIII) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCGCATTT CCATTCCACA AGTAACCTCT CTTTCCAGTG GCCTATCCCA TGATGTGTTA 
    AATTCATCCC AGTTGAATGG GAATAACATA GGCAAACAGA GCACTTACAC CACCAATCAG
    GTTTATAAGA GCCCTGAGCT CCTGAAACAT TCTGGGATAG CTGCCACTCT TCATGGTGTT
    TCTGCACCTA ACAATTATGT CACTAGTCTA ACGGGACATC CCCATCCATC TGAAACTGAT
    TTACTAACCA GCACTAAATC TCCCATTCCA TCTTTTAGCC ATAATAGCTC CAGGACTGCT
    TTTATCTTGC CCAGATTGAC TCCATCAAAT TCTCGCTGCT TGCCTACCCC TACCAGCCTC
    TCATTCTGCA AAAGATTAGG AATTGACTCC TTTCTGCTCC CCAATTATCT GAACCATAGT
    ACTGTGCTGG AAATTCAGGC AGCTTTGCAT GATTGGGAGG GGCTGTTTAA ATCTCAGTGC
    CACCGCTACC TGGAATCGTT TTTCTGCTTG CTTCTGGCAC CAAGTTGTAA TGCTGGCACT
    GTGGCACCTC CGCTGGTGCC ATGCCGTCAG TTTTGTGAGG TGCTGCAGGA TGCCTGCTGG
    AATCTTCTGG AGGGATCACA TCTCCCAGTG TCATGTGACT CTCTTCCTGG GAAGAATTCT
    GGGGTTTCTT GTCTTTATAT TCATTTTTAT GCAGGTCCTA AGACACAAGT TTCCGCTTCT
    TCGGAGCTGA CAGACAACTT CAACCCAGAA GTTGGCCTCT TGCAGTTGAT TGGAGAACCT
    GTACCTGAAC AGATCACCAA GGTCTTTGGG CCCGACAAGA CTCCCGCCTA TGTATTTGGT
    AAAGAAGCCA ATACAGGCCA GGTGGCCCAA TACCATCTGC CCAACCCTAT GTATAGGGAC
    TTCTCTCTCC TCTTCCATGT CCAGCCAACC ACAGACAAGG CCGGCATCCT CTTTGCCATC
    ACAGATGCCT CTCAGTCTAT TGTGTATATC GGGGTGAAGC TTTCTGAAGT CAAGGATGGG
    AAGCAAGACA TCATCTTCTA CTATACAGAG CCTGGCTCAC AGGATTCCTA TGTAGCTGCC
    ACCTTCAATG TCCCATCACT GGTGAATCGT TGGTCTCGCT TTGCAATCAG TGTGGAGGAA
    GAAGAAGTTG TGCTGTTTAT GGATTGCGAT GAGCTGGAAA GGGTGCGCTT CGAGAGATCA
    CCTGATGAGA TGGAACTAGA AGATGGCTCT GGGCTCTTTG TTGCTCAAGC AGGTGGCGCT
    GATCCAGACA GATATCAGGG TGTAATAGCA GATCTAAAGA TCGTAGCCGA TCCAAGAGCC
    GCAGAACATC AGTGTGAGGA GGATGGAGAT GACTCTGATG GGATCTCTGG AGATTTTGGC
    AGTGGCATTG CGGACAATGA TTTGGTGACT TCTCCTCCTG TGATAATCAA AGTGCAGCCT
    CCTATAACTG TCCCTCCCAT ACAGAGGACC CCTGTGGAGA AAGAGATTGT TCAGACAGGT
    CAAGGCCAGC AAGGGGTAAA AGGAGAGAAG GGTGATCGTG GAGAGAAGGG TGAGAGGGGA
    CTGACTGGCC CTAAGGGAGA CGGTGGGAAT GCAAGTCCAA CTTCTGATTC CAAAGGAGAA
    AAGGGTCAGA AAGGAGAGGT CGGAGTGAAG GGAAGTGCAG GCTTTGGCTA TCCCGGGCCT
    AAAGGGCAGA AAGGAGATCC TGGAGACTTG GGACCAAGAG GACCACCAGG CCCACCTGGA
    CCATCTATAT TACAGAAAAG TGATGGAACT ACAGTGCAAC AGGTCACAGG ACCTCCAGGT
    CCTCAAGGCC CTGCGGGACC ACCAGGAAAA GAAGGGGAAC CAGGTGACCC TGGTGAAGAT
    GGAAAAACTG GCGAGGTTGG TCCCCAAGGA TTTCCAGGGA CCCCAGGAGA TTCTGGGCAG
    AAGGGAGACA AGGGTGATTC TGGTGTTGGT ATCAGAGGTG CTCCTGGGCC ACCAGGTCCG
    CCAGGCCCCC CTGGACCTTC TAGAACCGAC AAGCTGACAT TCATTGACAT GGAAGGTTCT
    GGATATGGTG GAGATTCGGA GCACATCAGG GGAGCCCCTG GTGTGCCTGG GCCCCCAGGT
    CCTCCAGGTG TACCAGGGTT ACCCGGAGTA CCCGGAACTT TTGGCATGAA CAACACAGGA
    TTGCCAGGTC CACCTGGATT GCCAGGTCTT CCCGGAAAGG AAGGAATTCC AGGTCCTCCT
    GGCCCCCCAG GACTCCCTGG AAAAGACGGG TTGTCTGGTA CACCTGGTGC TGCTGGATTA
    CGGGGTGAAG ATGGAGAGAT TGGTCTTCCA GGTGCTCCTG GAACAAAGGG TAGCACTGGT
    GAGCCAGGAC TACCTGGACC TCCTGGACAA TCTGGTTTAG CTGGACTTCC TGGACCAATG
    GGACCACGCG GGCTGCCAGG TCCTCCAGGA CCACCTGGGC CTGTGGGTCA TGGATCTGCA
    ATTGGCTTTG ATGACATGGA AGCCTCAGGG CTTGGATTTG GCTTGAGAGA AGGGACACAG
    GGGGTGCCTG GACTTCCCGG GGCAAAGGGA GAGCCAGGAC ATCCAGGGCT GCCAGGAGTG
    AAGGGAGATA GTGGTTTTCC AGGCCTTGAA GGAAGGCCGG GGTTGGATGG ATTCCCAGGT
    CCAGAGGGAT TAAAGGGTGA GAAAGGTGAA CGTGGTGAGC GGGGAGAATC TGGCCGTGAT
    GGTGTTGGTA TTCCAGGTCC ACCGGGACCT CCTGGTCAGG TGCTTTATTT ACCATCCGAT
    GACAAGACTA TTGTTGGTGC CATTCCTGGA CCAGAGGGCA GGCAAGGTGT AGCTGGACTT
    CCGGGCCCAA GGGGACCCAA AGGAGAGGCG GGCTTGAACG GTATCCCAGG AACCTTTGGA
    GTAAAGGGAG AGAAGGGAGA GCCTGGAATT ATTATGGGAC CAGATAGCAC CATTTACACT
    GATTCATCTA AAGGAGAGAA GGGTGACGAA GGACCAAGGG GACCAGCAGG AGCTGCGGGA
    CCATTTGGAC AAAAGGGAGA AATCGGGTTC CCAGGACGCC CTGGACGTCC TGGTATGAAT
    GGACTGAAAG GGGAGAAAGG AGAACCTAGT GGTGCAAGTG GTGGCTTTGG ACTGAGGGGG
    CCACCTGGTC CTCCTGGCCC ACCCGGTCCT CCTGGCAGTG TGGTGTATGG CGATCCAAAT
    AACCCAGGAG CCCAAGTATA TCCAGGTCAT AAAGGGGAGA GAGGATTTCC TGGACCCAAA
    GGTGATGTTG GTCCTGCTGG CCCACCAGGC TCTTTCCCAT ATGATTTAAG TACCTTTGCC
    TCGATTTTAA GGAGAGAAGC TGGACTCAAA GGAGAGAAGG GCGAATCTGG GGGTGGTTCC
    CATGGACAGG GGATCCCAGG GCCACCTGGA AACCCTGGAT ATCCAGGACT GCCGGGAGCT
    AAAGGAGACA GTGTTCAAGG TCCTCCAGGC CCAGCCGGCC CACCAGGACC TTCTGGAATC
    GGTTATGAAG GAAGGCAAGG TCCACCAGGG CCCCCAGGTC CTCCAGGCCT GCCAGGTTCC
    TCCTCTTATC CTGGGCCTCA CAGGCAAACC ATCAGCATAC CTGGACCTCC TGGCCCACCA
    GGCCCACCAG GGCTCCCAGG AACATCAGGA GGATTATCTG GGGCTACTGT GCTACAGACC
    TATCAGACTA TGATCAACTT AGCCCACAGG CTGCAGGAAG GGACAATTGT GCTGGTCCAG
    GAGAGGTCGG AACTGTATGT GCGTGTGAGA GAAGGCTTCC GAAAAATTCT TCTTGGTGAA
    TATACAACAT CCTCTGGCCC TGGACAGGAT AATGAAGTTG CTGCGGAGCA GGCCCCTGTA
    GTTCCATATC CACACCGTAA CAAAGATTCT GATTACCTCC AGTCTACAGA GGAGAACAGC
    AACAATCCAA ATGTGCCCTC AGGTGCCCGA CCCTGGAGCG ATCCTCGGTT ACCAGAACCA
    CCAAGAGTAA ACCCACCACC ACCCCCAGAC CATCACCACC ATGGAAACCC TCGTCCATTG
    GAACCATCCC CAGTGCACAC ACACCAAGAG TTTAATCCTG TGCTTCACCT TGTGGCCCTG
    AACACTCCAC TGAGTGGCAG CATGAAATCC ATCCGCGGAG TGGACTTCCA GTGCTTTGAG
    CAAGCCCGTA AAGCTGGACT ACATGGCACA TTTAGAGCGT TTTTGTCTTC CCGACTTCAA
    GACCTGTACA GCATTGTACG CAGAGCTGAT CGACAATCTG TGCAAATTGT TAATCTTAGG
    GATGAAGTGT TATTTGACAA CTGGGAGTCC CTGTTCTCTG GTTCTGAGGC TCAGATGAGG
    CCTGGTGCGA GTATCTTCTC TTTTGATGGA AAAGATGTTG CAACAGATCC TACATGGCCA
    CAGAAGATGG TTTGGCATGG GTCTGACTCG AAGGGACGGC GGCTTACTGA AAGCTATTGC
    GAGACCTGGC GCACAGATGA AGGTGCAGTA ACTGGTCAGG CATCATCGCT GACGAGTGGG
    AAACTCTTAG AACAGCGCCC ACAGAGTTGC AACAAGAACT TCATTGTTTT GTGTATTGAG
    AACAGCTTCA TGACCAATAA CCGGAAGTAG

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

    RefSeq XP_012826359.1
    CDS168..4757
    Translation

    Target ORF information:

    RefSeq Version XM_012970905.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970905.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCGCATTT CCATTCCACA AGTAACCTCT CTTTCCAGTG GCCTATCCCA TGATGTGTTA 
    AATTCATCCC AGTTGAATGG GAATAACATA GGCAAACAGA GCACTTACAC CACCAATCAG
    GTTTATAAGA GCCCTGAGCT CCTGAAACAT TCTGGGATAG CTGCCACTCT TCATGGTGTT
    TCTGCACCTA ACAATTATGT CACTAGTCTA ACGGGACATC CCCATCCATC TGAAACTGAT
    TTACTAACCA GCACTAAATC TCCCATTCCA TCTTTTAGCC ATAATAGCTC CAGGACTGCT
    TTTATCTTGC CCAGATTGAC TCCATCAAAT TCTCGCTGCT TGCCTACCCC TACCAGCCTC
    TCATTCTGCA AAAGATTAGG AATTGACTCC TTTCTGCTCC CCAATTATCT GAACCATAGT
    ACTGTGCTGG AAATTCAGGC AGCTTTGCAT GATTGGGAGG GGCTGTTTAA ATCTCAGTGC
    CACCGCTACC TGGAATCGTT TTTCTGCTTG CTTCTGGCAC CAAGTTGTAA TGCTGGCACT
    GTGGCACCTC CGCTGGTGCC ATGCCGTCAG TTTTGTGAGG TGCTGCAGGA TGCCTGCTGG
    AATCTTCTGG AGGGATCACA TCTCCCAGTG TCATGTGACT CTCTTCCTGG GAAGAATTCT
    GGGGTTTCTT GTCTTTATAT TCATTTTTAT GCAGGTCCTA AGACACAAGT TTCCGCTTCT
    TCGGAGCTGA CAGACAACTT CAACCCAGAA GTTGGCCTCT TGCAGTTGAT TGGAGAACCT
    GTACCTGAAC AGATCACCAA GGTCTTTGGG CCCGACAAGA CTCCCGCCTA TGTATTTGGT
    AAAGAAGCCA ATACAGGCCA GGTGGCCCAA TACCATCTGC CCAACCCTAT GTATAGGGAC
    TTCTCTCTCC TCTTCCATGT CCAGCCAACC ACAGACAAGG CCGGCATCCT CTTTGCCATC
    ACAGATGCCT CTCAGTCTAT TGTGTATATC GGGGTGAAGC TTTCTGAAGT CAAGGATGGG
    AAGCAAGACA TCATCTTCTA CTATACAGAG CCTGGCTCAC AGGATTCCTA TGTAGCTGCC
    ACCTTCAATG TCCCATCACT GGTGAATCGT TGGTCTCGCT TTGCAATCAG TGTGGAGGAA
    GAAGAAGTTG TGCTGTTTAT GGATTGCGAT GAGCTGGAAA GGGTGCGCTT CGAGAGATCA
    CCTGATGAGA TGGAACTAGA AGATGGCTCT GGGCTCTTTG TTGCTCAAGC AGGTGGCGCT
    GATCCAGACA GATATCAGGG TGTAATAGCA GATCTAAAGA TCGTAGCCGA TCCAAGAGCC
    GCAGAACATC AGTGTGAGGA GGATGGAGAT GACTCTGATG GGATCTCTGG AGATTTTGGC
    AGTGGCATTG CGGACAATGA TTTGGTGACT TCTCCTCCTG TGATAATCAA AGTGCAGCCT
    CCTATAACTG TCCCTCCCAT ACAGAGGACC CCTGTGGAGA AAGAGATTGT TCAGACAGGT
    CAAGGCCAGC AAGGGGTAAA AGGAGAGAAG GGTGATCGTG GAGAGAAGGG TGAGAGGGGA
    CTGACTGGCC CTAAGGGAGA CGGTGGGAAT GCAAGTCCAA CTTCTGATTC CAAAGGAGAA
    AAGGGTCAGA AAGGAGAGGT CGGAGTGAAG GGAAGTGCAG GCTTTGGCTA TCCCGGGCCT
    AAAGGGCAGA AAGGAGATCC TGGAGACTTG GGACCAAGAG GACCACCAGG CCCACCTGGA
    CCATCTATAT TACAGAAAAG TGATGGAACT ACAGTGCAAC AGGTCACAGG ACCTCCAGGT
    CCTCAAGGCC CTGCGGGACC ACCAGGAAAA GAAGGGGAAC CAGGTGACCC TGGTGAAGAT
    GGAAAAACTG GCGAGGTTGG TCCCCAAGGA TTTCCAGGGA CCCCAGGAGA TTCTGGGCAG
    AAGGGAGACA AGGGTGATTC TGGTGTTGGT ATCAGAGGTG CTCCTGGGCC ACCAGGTCCG
    CCAGGCCCCC CTGGACCTTC TAGAACCGAC AAGCTGACAT TCATTGACAT GGAAGGTTCT
    GGATATGGTG GAGATTCGGA GCACATCAGG GGAGCCCCTG GTGTGCCTGG GCCCCCAGGT
    CCTCCAGGTG TACCAGGGTT ACCCGGAGTA CCCGGAACTT TTGGCATGAA CAACACAGGA
    TTGCCAGGTC CACCTGGATT GCCAGGTCTT CCCGGAAAGG AAGGAATTCC AGGTCCTCCT
    GGCCCCCCAG GACTCCCTGG AAAAGACGGG TTGTCTGGTA CACCTGGTGC TGCTGGATTA
    CGGGGTGAAG ATGGAGAGAT TGGTCTTCCA GGTGCTCCTG GAACAAAGGG TAGCACTGGT
    GAGCCAGGAC TACCTGGACC TCCTGGACAA TCTGGTTTAG CTGGACTTCC TGGACCAATG
    GGACCACGCG GGCTGCCAGG TCCTCCAGGA CCACCTGGGC CTGTGGGTCA TGGATCTGCA
    ATTGGCTTTG ATGACATGGA AGCCTCAGGG CTTGGATTTG GCTTGAGAGA AGGGACACAG
    GGGGTGCCTG GACTTCCCGG GGCAAAGGGA GAGCCAGGAC ATCCAGGGCT GCCAGGAGTG
    AAGGGAGATA GTGGTTTTCC AGGCCTTGAA GGAAGGCCGG GGTTGGATGG ATTCCCAGGT
    CCAGAGGGAT TAAAGGGTGA GAAAGGTGAA CGTGGTGAGC GGGGAGAATC TGGCCGTGAT
    GGTGTTGGTA TTCCAGGTCC ACCGGGACCT CCTGGTCAGG TGCTTTATTT ACCATCCGAT
    GACAAGACTA TTGTTGGTGC CATTCCTGGA CCAGAGGGCA GGCAAGGTGT AGCTGGACTT
    CCGGGCCCAA GGGGACCCAA AGGAGAGGCG GGCTTGAACG GTATCCCAGG AACCTTTGGA
    GTAAAGGGAG AGAAGGGAGA GCCTGGAATT ATTATGGGAC CAGATAGCAC CATTTACACT
    GATTCATCTA AAGGAGAGAA GGGTGACGAA GGACCAAGGG GACCAGCAGG AGCTGCGGGA
    CCATTTGGAC AAAAGGGAGA AATCGGGTTC CCAGGACGCC CTGGACGTCC TGGTATGAAT
    GGACTGAAAG GGGAGAAAGG AGAACCTAGT GGTGCAAGTG GTGGCTTTGG ACTGAGGGGG
    CCACCTGGTC CTCCTGGCCC ACCCGGTCCT CCTGGCAGTG TGGTGTATGG CGATCCAAAT
    AACCCAGGAG CCCAAGTATA TCCAGGTCAT AAAGGGGAGA GAGGATTTCC TGGACCCAAA
    GGTGATGTTG GTCCTGCTGG CCCACCAGGC TCTTTCCCAT ATGATTTAAG TACCTTTGCC
    TCGATTTTAA GGAGAGAAGC TGGACTCAAA GGAGAGAAGG GCGAATCTGG GGGTGGTTCC
    CATGGACAGG GGATCCCAGG GCCACCTGGA AACCCTGGAT ATCCAGGACT GCCGGGAGCT
    AAAGGAGACA GTGTTCAAGG TCCTCCAGGC CCAGCCGGCC CACCAGGACC TTCTGGAATC
    GGTTATGAAG GAAGGCAAGG TCCACCAGGG CCCCCAGGTC CTCCAGGCCT GCCAGGTTCC
    TCCTCTTATC CTGGGCCTCA CAGGCAAACC ATCAGCATAC CTGGACCTCC TGGCCCACCA
    GGCCCACCAG GGCTCCCAGG AACATCAGGA GGATTATCTG GGGCTACTGT GCTACAGACC
    TATCAGACTA TGATCAACTT AGCCCACAGG CTGCAGGAAG GGACAATTGT GCTGGTCCAG
    GAGAGGTCGG AACTGTATGT GCGTGTGAGA GAAGGCTTCC GAAAAATTCT TCTTGGTGAA
    TATACAACAT CCTCTGGCCC TGGACAGGAT AATGAAGTTG CTGCGGAGCA GGCCCCTGTA
    GTTCCATATC CACACCGTAA CAAAGATTCT GATTACCTCC AGTCTACAGA GGAGAACAGC
    AACAATCCAA ATGTGCCCTC AGGTGCCCGA CCCTGGAGCG ATCCTCGGTT ACCAGAACCA
    CCAAGAGTAA ACCCACCACC ACCCCCAGAC CATCACCACC ATGGAAACCC TCGTCCATTG
    GAACCATCCC CAGTGCACAC ACACCAAGAG TTTAATCCTG TGCTTCACCT TGTGGCCCTG
    AACACTCCAC TGAGTGGCAG CATGAAATCC ATCCGCGGAG TGGACTTCCA GTGCTTTGAG
    CAAGCCCGTA AAGCTGGACT ACATGGCACA TTTAGAGCGT TTTTGTCTTC CCGACTTCAA
    GACCTGTACA GCATTGTACG CAGAGCTGAT CGACAATCTG TGCAAATTGT TAATCTTAGG
    GATGAAGTGT TATTTGACAA CTGGGAGTCC CTGTTCTCTG GTTCTGAGGC TCAGATGAGG
    CCTGGTGCGA GTATCTTCTC TTTTGATGGA AAAGATGTTG CAACAGATCC TACATGGCCA
    CAGAAGATGG TTTGGCATGG GTCTGACTCG AAGGGACGGC GGCTTACTGA AAGCTATTGC
    GAGACCTGGC GCACAGATGA AGGTGCAGTA ACTGGTCAGG CATCATCGCT GACGAGTGGG
    AAACTCTTAG AACAGCGCCC ACAGAGTTGC AACAAGAACT TCATTGTTTT GTGTATTGAG
    AACAGCTTCA TGACCAATAA CCGGAAGTAG

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

    CloneID OXa26100
    Clone ID Related Accession (Same CDS sequence) XM_012970906.2
    Accession Version XM_012970906.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3933bp)
    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 collagen alpha-1(XVIII) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012970906.1. ##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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGC GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCAGGCAAGG TGTAGCTGGA
    CTTCCGGGCC CAAGGGGACC CAAAGGAGAG GCGGGCTTGA ACGGTATCCC AGGAACCTTT
    GGAGTAAAGG GAGAGAAGGG AGAGCCTGGA ATTATTATGG GACCAGATAG CACCATTTAC
    ACTGATTCAT CTAAAGGAGA GAAGGGTGAC GAAGGACCAA GGGGACCAGC AGGAGCTGCG
    GGACCATTTG GACAAAAGGG AGAAATCGGG TTCCCAGGAC GCCCTGGACG TCCTGGTATG
    AATGGACTGA AAGGGGAGAA AGGAGAACCT AGTGGTGCAA GTGGTGGCTT TGGACTGAGG
    GGGCCACCTG GTCCTCCTGG CCCACCCGGT CCTCCTGGCA GTGTGGTGTA TGGCGATCCA
    AATAACCCAG GAGCCCAAGT ATATCCAGGT CATAAAGGGG AGAGAGGATT TCCTGGACCC
    AAAGGTGATG TTGGTCCTGC TGGCCCACCA GGCTCTTTCC CATATGATTT AAGTACCTTT
    GCCTCGATTT TAAGGAGAGA AGCTGGACTC AAAGGAGAGA AGGGCGAATC TGGGGGTGGT
    TCCCATGGAC AGGGGATCCC AGGGCCACCT GGAAACCCTG GATATCCAGG ACTGCCGGGA
    GCTAAAGGAG ACAGTGTTCA AGGTCCTCCA GGCCCAGCCG GCCCACCAGG ACCTTCTGGA
    ATCGGTTATG AAGGAAGGCA AGGTCCACCA GGGCCCCCAG GTCCTCCAGG CCTGCCAGGT
    TCCTCCTCTT ATCCTGGGCC TCACAGGCAA ACCATCAGCA TACCTGGACC TCCTGGCCCA
    CCAGGCCCAC CAGGGCTCCC AGGAACATCA GGAGGATTAT CTGGGGCTAC TGTGCTACAG
    ACCTATCAGA CTATGATCAA CTTAGCCCAC AGGCTGCAGG AAGGGACAAT TGTGCTGGTC
    CAGGAGAGGT CGGAACTGTA TGTGCGTGTG AGAGAAGGCT TCCGAAAAAT TCTTCTTGGT
    GAATATACAA CATCCTCTGG CCCTGGACAG GATAATGAAG TTGCTGCGGA GCAGGCCCCT
    GTAGTTCCAT ATCCACACCG TAACAAAGAT TCTGATTACC TCCAGTCTAC AGAGGAGAAC
    AGCAACAATC CAAATGTGCC CTCAGGTGCC CGACCCTGGA GCGATCCTCG GTTACCAGAA
    CCACCAAGAG TAAACCCACC ACCACCCCCA GACCATCACC ACCATGGAAA CCCTCGTCCA
    TTGGAACCAT CCCCAGTGCA CACACACCAA GAGTTTAATC CTGTGCTTCA CCTTGTGGCC
    CTGAACACTC CACTGAGTGG CAGCATGAAA TCCATCCGCG GAGTGGACTT CCAGTGCTTT
    GAGCAAGCCC GTAAAGCTGG ACTACATGGC ACATTTAGAG CGTTTTTGTC TTCCCGACTT
    CAAGACCTGT ACAGCATTGT ACGCAGAGCT GATCGACAAT CTGTGCAAAT TGTTAATCTT
    AGGGATGAAG TGTTATTTGA CAACTGGGAG TCCCTGTTCT CTGGTTCTGA GGCTCAGATG
    AGGCCTGGTG CGAGTATCTT CTCTTTTGAT GGAAAAGATG TTGCAACAGA TCCTACATGG
    CCACAGAAGA TGGTTTGGCA TGGGTCTGAC TCGAAGGGAC GGCGGCTTAC TGAAAGCTAT
    TGCGAGACCT GGCGCACAGA TGAAGGTGCA GTAACTGGTC AGGCATCATC GCTGACGAGT
    GGGAAACTCT TAGAACAGCG CCCACAGAGT TGCAACAAGA ACTTCATTGT TTTGTGTATT
    GAGAACAGCT TCATGACCAA TAACCGGAAG TAG

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

    RefSeq XP_012826360.1
    CDS178..4110
    Translation

    Target ORF information:

    RefSeq Version XM_012970906.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012970906.2

    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
    ATGATTCTCA GGTGTACGTG GGTCCTGTTG CTCTACGCAT CGTATCATGT TCTTCTGGTC 
    TCCTCCCAAG GCAAAGACAA CTTCAACCCA GAAGTTGGCC TCTTGCAGTT GATTGGAGAA
    CCTGTACCTG AACAGATCAC CAAGGTCTTT GGGCCCGACA AGACTCCCGC CTATGTATTT
    GGTAAAGAAG CCAATACAGG CCAGGTGGCC CAATACCATC TGCCCAACCC TATGTATAGG
    GACTTCTCTC TCCTCTTCCA TGTCCAGCCA ACCACAGACA AGGCCGGCAT CCTCTTTGCC
    ATCACAGATG CCTCTCAGTC TATTGTGTAT ATCGGGGTGA AGCTTTCTGA AGTCAAGGAT
    GGGAAGCAAG ACATCATCTT CTACTATACA GAGCCTGGCT CACAGGATTC CTATGTAGCT
    GCCACCTTCA ATGTCCCATC ACTGGTGAAT CGTTGGTCTC GCTTTGCAAT CAGTGTGGAG
    GAAGAAGAAG TTGTGCTGTT TATGGATTGC GATGAGCTGG AAAGGGTGCG CTTCGAGAGA
    TCACCTGATG AGATGGAACT AGAAGATGGC TCTGGGCTCT TTGTTGCTCA AGCAGGTGGC
    GCTGATCCAG ACAGATATCA GGGTGTAATA GCAGATCTAA AGATCGTAGC CGATCCAAGA
    GCCGCAGAAC ATCAGTGTGA GGAGGATGGA GATGACTCTG ATGGGATCTC TGGAGATTTT
    GGCAGTGGCA TTGCGGACAA TGATTTGGTG ACTTCTCCTC CTGTGATAAT CAAAGTGCAG
    CCTCCTATAA CTGTCCCTCC CATACAGAGG ACCCCTGTGG AGAAAGAGAT TGTTCAGACA
    GGTCAAGGCC AGCAAGGGGT AAAAGGAGAG AAGGGTGATC GTGGAGAGAA GGGTGAGAGG
    GGACTGACTG GCCCTAAGGG AGACGGTGGG AATGCAAGTC CAACTTCTGA TTCCAAAGGA
    GAAAAGGGTC AGAAAGGAGA GGTCGGAGTG AAGGGAAGTG CAGGCTTTGG CTATCCCGGG
    CCTAAAGGGC AGAAAGGAGA TCCTGGAGAC TTGGGACCAA GAGGACCACC AGGCCCACCT
    GGACCATCTA TATTACAGAA AAGTGATGGA ACTACAGTGC AACAGGTCAC AGGACCTCCA
    GGTCCTCAAG GCCCTGCGGG ACCACCAGGA AAAGAAGGGG AACCAGGTGA CCCTGGTGAA
    GATGGAAAAA CTGGCGAGGT TGGTCCCCAA GGATTTCCAG GGACCCCAGG AGATTCTGGG
    CAGAAGGGAG ACAAGGGTGA TTCTGGTGTT GGTATCAGAG GTGCTCCTGG GCCACCAGGT
    CCGCCAGGCC CCCCTGGACC TTCTAGAACC GACAAGCTGA CATTCATTGA CATGGAAGGT
    TCTGGATATG GTGGAGATTC GGAGCACATC AGGGGAGCCC CTGGTGTGCC TGGGCCCCCA
    GGTCCTCCAG GTGTACCAGG GTTACCCGGA GTACCCGGAA CTTTTGGCAT GAACAACACA
    GGATTGCCAG GTCCACCTGG ATTGCCAGGT CTTCCCGGAA AGGAAGGAAT TCCAGGTCCT
    CCTGGCCCCC CAGGACTCCC TGGAAAAGAC GGGTTGTCTG GTACACCTGG TGCTGCTGGA
    TTACGGGGTG AAGATGGAGA GATTGGTCTT CCAGGTGCTC CTGGAACAAA GGGTAGCACT
    GGTGAGCCAG GACTACCTGG ACCTCCTGGA CAATCTGGTT TAGCTGGACT TCCTGGACCA
    ATGGGACCAC GCGGGCTGCC AGGTCCTCCA GGACCACCTG GGCCTGTGGG TCATGGATCT
    GCAATTGGCT TTGATGACAT GGAAGCCTCA GGGCTTGGAT TTGGCTTGAG AGAAGGGACA
    CAGGGGGTGC CTGGACTTCC CGGGGCAAAG GGAGAGCCAG GACATCCAGG GCTGCCAGGA
    GTGAAGGGAG ATAGTGGTTT TCCAGGCCTT GAAGGAAGGC CGGGGTTGGA TGGATTCCCA
    GGTCCAGAGG GATTAAAGGG TGAGAAAGGT GAACGTGGTG AGCGGGGAGA ATCTGGCCGT
    GATGGTGTTG GTATTCCAGG TCCACCGGGA CCTCCTGGTC AGGTGCTTTA TTTACCATCC
    GATGACAAGA CTATTGTTGG TGCCATTCCT GGACCAGAGG GCAGGCAAGG TGTAGCTGGA
    CTTCCGGGCC CAAGGGGACC CAAAGGAGAG GCGGGCTTGA ACGGTATCCC AGGAACCTTT
    GGAGTAAAGG GAGAGAAGGG AGAGCCTGGA ATTATTATGG GACCAGATAG CACCATTTAC
    ACTGATTCAT CTAAAGGAGA GAAGGGTGAC GAAGGACCAA GGGGACCAGC AGGAGCTGCG
    GGACCATTTG GACAAAAGGG AGAAATCGGG TTCCCAGGAC GCCCTGGACG TCCTGGTATG
    AATGGACTGA AAGGGGAGAA AGGAGAACCT AGTGGTGCAA GTGGTGGCTT TGGACTGAGG
    GGGCCACCTG GTCCTCCTGG CCCACCCGGT CCTCCTGGCA GTGTGGTGTA TGGCGATCCA
    AATAACCCAG GAGCCCAAGT ATATCCAGGT CATAAAGGGG AGAGAGGATT TCCTGGACCC
    AAAGGTGATG TTGGTCCTGC TGGCCCACCA GGCTCTTTCC CATATGATTT AAGTACCTTT
    GCCTCGATTT TAAGGAGAGA AGCTGGACTC AAAGGAGAGA AGGGCGAATC TGGGGGTGGT
    TCCCATGGAC AGGGGATCCC AGGGCCACCT GGAAACCCTG GATATCCAGG ACTGCCGGGA
    GCTAAAGGAG ACAGTGTTCA AGGTCCTCCA GGCCCAGCCG GCCCACCAGG ACCTTCTGGA
    ATCGGTTATG AAGGAAGGCA AGGTCCACCA GGGCCCCCAG GTCCTCCAGG CCTGCCAGGT
    TCCTCCTCTT ATCCTGGGCC TCACAGGCAA ACCATCAGCA TACCTGGACC TCCTGGCCCA
    CCAGGCCCAC CAGGGCTCCC AGGAACATCA GGAGGATTAT CTGGGGCTAC TGTGCTACAG
    ACCTATCAGA CTATGATCAA CTTAGCCCAC AGGCTGCAGG AAGGGACAAT TGTGCTGGTC
    CAGGAGAGGT CGGAACTGTA TGTGCGTGTG AGAGAAGGCT TCCGAAAAAT TCTTCTTGGT
    GAATATACAA CATCCTCTGG CCCTGGACAG GATAATGAAG TTGCTGCGGA GCAGGCCCCT
    GTAGTTCCAT ATCCACACCG TAACAAAGAT TCTGATTACC TCCAGTCTAC AGAGGAGAAC
    AGCAACAATC CAAATGTGCC CTCAGGTGCC CGACCCTGGA GCGATCCTCG GTTACCAGAA
    CCACCAAGAG TAAACCCACC ACCACCCCCA GACCATCACC ACCATGGAAA CCCTCGTCCA
    TTGGAACCAT CCCCAGTGCA CACACACCAA GAGTTTAATC CTGTGCTTCA CCTTGTGGCC
    CTGAACACTC CACTGAGTGG CAGCATGAAA TCCATCCGCG GAGTGGACTT CCAGTGCTTT
    GAGCAAGCCC GTAAAGCTGG ACTACATGGC ACATTTAGAG CGTTTTTGTC TTCCCGACTT
    CAAGACCTGT ACAGCATTGT ACGCAGAGCT GATCGACAAT CTGTGCAAAT TGTTAATCTT
    AGGGATGAAG TGTTATTTGA CAACTGGGAG TCCCTGTTCT CTGGTTCTGA GGCTCAGATG
    AGGCCTGGTG CGAGTATCTT CTCTTTTGAT GGAAAAGATG TTGCAACAGA TCCTACATGG
    CCACAGAAGA TGGTTTGGCA TGGGTCTGAC TCGAAGGGAC GGCGGCTTAC TGAAAGCTAT
    TGCGAGACCT GGCGCACAGA TGAAGGTGCA GTAACTGGTC AGGCATCATC GCTGACGAGT
    GGGAAACTCT TAGAACAGCG CCCACAGAGT TGCAACAAGA ACTTCATTGT TTTGTGTATT
    GAGAACAGCT TCATGACCAA TAACCGGAAG TAG

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

    CloneID OXa46789
    Clone ID Related Accession (Same CDS sequence) XM_018097368.1
    Accession Version XM_018097368.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
    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 collagen alpha-1(XVIII) chain isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGTATAGGG ACTTCTCTCT CCTCTTCCAT GTCCAGCCAA CCACAGACAA GGCCGGCATC 
    CTCTTTGCCA TCACAGATGC CTCTCAGTCT ATTGTGTATA TCGGGGTGAA GCTTTCTGAA
    GTCAAGGATG GGAAGCAAGA CATCATCTTC TACTATACAG AGCCTGGCTC ACAGGATTCC
    TATGTAGCTG CCACCTTCAA TGTCCCATCA CTGGTGAATC GTTGGTCTCG CTTTGCAATC
    AGTGTGGAGG AAGAAGAAGT TGTGCTGTTT ATGGATTGCG ATGAGCTGGA AAGGGTGCGC
    TTCGAGAGAT CACCTGATGA GATGGAACTA GAAGATGGCT CTGGGCTCTT TGTTGCTCAA
    GCAGGTGGCG CTGATCCAGA CAGATATCAG GGTGTAATAG CAGATCTAAA GATCGTAGCC
    GATCCAAGAG CCGCAGAACA TCAGTGTGAG GAGGATGGAG ATGACTCTGA TGGGATCTCT
    GGAGATTTTG GCAGTGGCAT TGCGGACAAT GATTTGGTGA CTTCTCCTCC TGTGATAATC
    AAAGTGCAGC CTCCTATAAC TGTCCCTCCC ATACAGAGGA CCCCTGTGGA GAAAGAGATT
    GTTCAGACAG GTCAAGGCCA GCAAGGGGTA AAAGGAGAGA AGGGTGATCG TGGAGAGAAG
    GGTGAGAGGG GACTGACTGG CCCTAAGGGA GACGGTGGGA ATGCAAGTCC AACTTCTGAT
    TCCAAAGGAG AAAAGGGTCA GAAAGGAGAG GTCGGAGTGA AGGGAAGTGC AGGCTTTGGC
    TATCCCGGGC CTAAAGGGCA GAAAGGAGAT CCTGGAGACT TGGGACCAAG AGGACCACCA
    GGCCCACCTG GACCATCTAT ATTACAGAAA AGTGATGGAA CTACAGTGCA ACAGGTCACA
    GGACCTCCAG GTCCTCAAGG CCCTGCGGGA CCACCAGGAA AAGAAGGGGA ACCAGGTGAC
    CCTGGTGAAG ATGGAAAAAC TGGCGAGGTT GGTCCCCAAG GATTTCCAGG GACCCCAGGA
    GATTCTGGGC AGAAGGGAGA CAAGGGTGAT TCTGGTGTTG GTATCAGAGG TGCTCCTGGG
    CCACCAGGTC CGCCAGGCCC CCCTGGACCT TCTAGAACCG ACAAGCTGAC ATTCATTGAC
    ATGGAAGGTT CTGGATATGG TGGAGATTCG GAGCACATCA GGGGAGCCCC TGGTGTGCCT
    GGGCCCCCAG GTCCTCCAGG TGTACCAGGG TTACCCGGAG TACCCGGAAC TTTTGGCATG
    AACAACACAG GATTGCCAGG TCCACCTGGA TTGCCAGGTC TTCCCGGAAA GGAAGGAATT
    CCAGGTCCTC CTGGCCCCCC AGGACTCCCT GGAAAAGACG GGTTGTCTGG TACACCTGGT
    GCTGCTGGAT TACGGGGTGA AGATGGAGAG ATTGGTCTTC CAGGTGCTCC TGGAACAAAG
    GGTAGCACTG GTGAGCCAGG ACTACCTGGA CCTCCTGGAC AATCTGGTTT AGCTGGACTT
    CCTGGACCAA TGGGACCACG CGGGCTGCCA GGTCCTCCAG GACCACCTGG GCCTGTGGGT
    CATGGATCTG CAATTGGCTT TGATGACATG GAAGCCTCAG GGCTTGGATT TGGCTTGAGA
    GAAGGGACAC AGGGGGTGCC TGGACTTCCC GGGGCAAAGG GAGAGCCAGG ACATCCAGGG
    CTGCCAGGAG TGAAGGGAGA TAGTGGTTTT CCAGGCCTTG AAGGAAGGCC GGGGTTGGAT
    GGATTCCCAG GTCCAGAGGG ATTAAAGGGT GAGAAAGGTG AACGTGGTGA GCGGGGAGAA
    TCTGGCCGTG ATGGTGTTGG TATTCCAGGT CCACCGGGAC CTCCTGGTCA GGTGCTTTAT
    TTACCATCCG ATGACAAGAC TATTGTTGGT GCCATTCCTG GACCAGAGGG CAGGCAAGGT
    GTAGCTGGAC TTCCGGGCCC AAGGGGACCC AAAGGAGAGG CGGGCTTGAA CGGTATCCCA
    GGAACCTTTG GAGTAAAGGG AGAGAAGGGA GAGCCTGGAA TTATTATGGG ACCAGATAGC
    ACCATTTACA CTGATTCATC TAAAGGAGAG AAGGGTGACG AAGGACCAAG GGGACCAGCA
    GGAGCTGCGG GACCATTTGG ACAAAAGGGA GAAATCGGGT TCCCAGGACG CCCTGGACGT
    CCTGGTATGA ATGGACTGAA AGGGGAGAAA GGAGAACCTA GTGGTGCAAG TGGTGGCTTT
    GGACTGAGGG GGCCACCTGG TCCTCCTGGC CCACCCGGTC CTCCTGGCAG TGTGGTGTAT
    GGCGATCCAA ATAACCCAGG AGCCCAAGTA TATCCAGGTC ATAAAGGGGA GAGAGGATTT
    CCTGGACCCA AAGGTGATGT TGGTCCTGCT GGCCCACCAG GCTCTTTCCC ATATGATTTA
    AGTACCTTTG CCTCGATTTT AAGGAGAGAA GCTGGACTCA AAGGAGAGAA GGGCGAATCT
    GGGGGTGGTT CCCATGGACA GGGGATCCCA GGGCCACCTG GAAACCCTGG ATATCCAGGA
    CTGCCGGGAG CTAAAGGAGA CAGTGTTCAA GGTCCTCCAG GCCCAGCCGG CCCACCAGGA
    CCTTCTGGAA TCGGTTATGA AGGAAGGCAA GGTCCACCAG GGCCCCCAGG TCCTCCAGGC
    CTGCCAGGTT CCTCCTCTTA TCCTGGGCCT CACAGGCAAA CCATCAGCAT ACCTGGACCT
    CCTGGCCCAC CAGGCCCACC AGGGCTCCCA GGAACATCAG GAGGATTATC TGGGGCTACT
    GTGCTACAGA CCTATCAGAC TATGATCAAC TTAGCCCACA GGCTGCAGGA AGGGACAATT
    GTGCTGGTCC AGGAGAGGTC GGAACTGTAT GTGCGTGTGA GAGAAGGCTT CCGAAAAATT
    CTTCTTGGTG AATATACAAC ATCCTCTGGC CCTGGACAGG ATAATGAAGT TGCTGCGGAG
    CAGGCCCCTG TAGTTCCATA TCCACACCGT AACAAAGATT CTGATTACCT CCAGTCTACA
    GAGGAGAACA GCAACAATCC AAATGTGCCC TCAGGTGCCC GACCCTGGAG CGATCCTCGG
    TTACCAGAAC CACCAAGAGT AAACCCACCA CCACCCCCAG ACCATCACCA CCATGGAAAC
    CCTCGTCCAT TGGAACCATC CCCAGTGCAC ACACACCAAG AGTTTAATCC TGTGCTTCAC
    CTTGTGGCCC TGAACACTCC ACTGAGTGGC AGCATGAAAT CCATCCGCGG AGTGGACTTC
    CAGTGCTTTG AGCAAGCCCG TAAAGCTGGA CTACATGGCA CATTTAGAGC GTTTTTGTCT
    TCCCGACTTC AAGACCTGTA CAGCATTGTA CGCAGAGCTG ATCGACAATC TGTGCAAATT
    GTTAATCTTA GGGATGAAGT GTTATTTGAC AACTGGGAGT CCCTGTTCTC TGGTTCTGAG
    GCTCAGATGA GGCCTGGTGC GAGTATCTTC TCTTTTGATG GAAAAGATGT TGCAACAGAT
    CCTACATGGC CACAGAAGAT GGTTTGGCAT GGGTCTGACT CGAAGGGACG GCGGCTTACT
    GAAAGCTATT GCGAGACCTG GCGCACAGAT GAAGGTGCAG TAACTGGTCA GGCATCATCG
    CTGACGAGTG GGAAACTCTT AGAACAGCGC CCACAGAGTT GCAACAAGAA CTTCATTGTT
    TTGTGTATTG AGAACAGCTT CATGACCAAT AACCGGAAGT AG

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

    RefSeq XP_017952857.1
    CDS344..4045
    Translation

    Target ORF information:

    RefSeq Version XM_018097368.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis collagen, type XVIII, alpha 1 (col18a1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097368.1

    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
    ATGTATAGGG ACTTCTCTCT CCTCTTCCAT GTCCAGCCAA CCACAGACAA GGCCGGCATC 
    CTCTTTGCCA TCACAGATGC CTCTCAGTCT ATTGTGTATA TCGGGGTGAA GCTTTCTGAA
    GTCAAGGATG GGAAGCAAGA CATCATCTTC TACTATACAG AGCCTGGCTC ACAGGATTCC
    TATGTAGCTG CCACCTTCAA TGTCCCATCA CTGGTGAATC GTTGGTCTCG CTTTGCAATC
    AGTGTGGAGG AAGAAGAAGT TGTGCTGTTT ATGGATTGCG ATGAGCTGGA AAGGGTGCGC
    TTCGAGAGAT CACCTGATGA GATGGAACTA GAAGATGGCT CTGGGCTCTT TGTTGCTCAA
    GCAGGTGGCG CTGATCCAGA CAGATATCAG GGTGTAATAG CAGATCTAAA GATCGTAGCC
    GATCCAAGAG CCGCAGAACA TCAGTGTGAG GAGGATGGAG ATGACTCTGA TGGGATCTCT
    GGAGATTTTG GCAGTGGCAT TGCGGACAAT GATTTGGTGA CTTCTCCTCC TGTGATAATC
    AAAGTGCAGC CTCCTATAAC TGTCCCTCCC ATACAGAGGA CCCCTGTGGA GAAAGAGATT
    GTTCAGACAG GTCAAGGCCA GCAAGGGGTA AAAGGAGAGA AGGGTGATCG TGGAGAGAAG
    GGTGAGAGGG GACTGACTGG CCCTAAGGGA GACGGTGGGA ATGCAAGTCC AACTTCTGAT
    TCCAAAGGAG AAAAGGGTCA GAAAGGAGAG GTCGGAGTGA AGGGAAGTGC AGGCTTTGGC
    TATCCCGGGC CTAAAGGGCA GAAAGGAGAT CCTGGAGACT TGGGACCAAG AGGACCACCA
    GGCCCACCTG GACCATCTAT ATTACAGAAA AGTGATGGAA CTACAGTGCA ACAGGTCACA
    GGACCTCCAG GTCCTCAAGG CCCTGCGGGA CCACCAGGAA AAGAAGGGGA ACCAGGTGAC
    CCTGGTGAAG ATGGAAAAAC TGGCGAGGTT GGTCCCCAAG GATTTCCAGG GACCCCAGGA
    GATTCTGGGC AGAAGGGAGA CAAGGGTGAT TCTGGTGTTG GTATCAGAGG TGCTCCTGGG
    CCACCAGGTC CGCCAGGCCC CCCTGGACCT TCTAGAACCG ACAAGCTGAC ATTCATTGAC
    ATGGAAGGTT CTGGATATGG TGGAGATTCG GAGCACATCA GGGGAGCCCC TGGTGTGCCT
    GGGCCCCCAG GTCCTCCAGG TGTACCAGGG TTACCCGGAG TACCCGGAAC TTTTGGCATG
    AACAACACAG GATTGCCAGG TCCACCTGGA TTGCCAGGTC TTCCCGGAAA GGAAGGAATT
    CCAGGTCCTC CTGGCCCCCC AGGACTCCCT GGAAAAGACG GGTTGTCTGG TACACCTGGT
    GCTGCTGGAT TACGGGGTGA AGATGGAGAG ATTGGTCTTC CAGGTGCTCC TGGAACAAAG
    GGTAGCACTG GTGAGCCAGG ACTACCTGGA CCTCCTGGAC AATCTGGTTT AGCTGGACTT
    CCTGGACCAA TGGGACCACG CGGGCTGCCA GGTCCTCCAG GACCACCTGG GCCTGTGGGT
    CATGGATCTG CAATTGGCTT TGATGACATG GAAGCCTCAG GGCTTGGATT TGGCTTGAGA
    GAAGGGACAC AGGGGGTGCC TGGACTTCCC GGGGCAAAGG GAGAGCCAGG ACATCCAGGG
    CTGCCAGGAG TGAAGGGAGA TAGTGGTTTT CCAGGCCTTG AAGGAAGGCC GGGGTTGGAT
    GGATTCCCAG GTCCAGAGGG ATTAAAGGGT GAGAAAGGTG AACGTGGTGA GCGGGGAGAA
    TCTGGCCGTG ATGGTGTTGG TATTCCAGGT CCACCGGGAC CTCCTGGTCA GGTGCTTTAT
    TTACCATCCG ATGACAAGAC TATTGTTGGT GCCATTCCTG GACCAGAGGG CAGGCAAGGT
    GTAGCTGGAC TTCCGGGCCC AAGGGGACCC AAAGGAGAGG CGGGCTTGAA CGGTATCCCA
    GGAACCTTTG GAGTAAAGGG AGAGAAGGGA GAGCCTGGAA TTATTATGGG ACCAGATAGC
    ACCATTTACA CTGATTCATC TAAAGGAGAG AAGGGTGACG AAGGACCAAG GGGACCAGCA
    GGAGCTGCGG GACCATTTGG ACAAAAGGGA GAAATCGGGT TCCCAGGACG CCCTGGACGT
    CCTGGTATGA ATGGACTGAA AGGGGAGAAA GGAGAACCTA GTGGTGCAAG TGGTGGCTTT
    GGACTGAGGG GGCCACCTGG TCCTCCTGGC CCACCCGGTC CTCCTGGCAG TGTGGTGTAT
    GGCGATCCAA ATAACCCAGG AGCCCAAGTA TATCCAGGTC ATAAAGGGGA GAGAGGATTT
    CCTGGACCCA AAGGTGATGT TGGTCCTGCT GGCCCACCAG GCTCTTTCCC ATATGATTTA
    AGTACCTTTG CCTCGATTTT AAGGAGAGAA GCTGGACTCA AAGGAGAGAA GGGCGAATCT
    GGGGGTGGTT CCCATGGACA GGGGATCCCA GGGCCACCTG GAAACCCTGG ATATCCAGGA
    CTGCCGGGAG CTAAAGGAGA CAGTGTTCAA GGTCCTCCAG GCCCAGCCGG CCCACCAGGA
    CCTTCTGGAA TCGGTTATGA AGGAAGGCAA GGTCCACCAG GGCCCCCAGG TCCTCCAGGC
    CTGCCAGGTT CCTCCTCTTA TCCTGGGCCT CACAGGCAAA CCATCAGCAT ACCTGGACCT
    CCTGGCCCAC CAGGCCCACC AGGGCTCCCA GGAACATCAG GAGGATTATC TGGGGCTACT
    GTGCTACAGA CCTATCAGAC TATGATCAAC TTAGCCCACA GGCTGCAGGA AGGGACAATT
    GTGCTGGTCC AGGAGAGGTC GGAACTGTAT GTGCGTGTGA GAGAAGGCTT CCGAAAAATT
    CTTCTTGGTG AATATACAAC ATCCTCTGGC CCTGGACAGG ATAATGAAGT TGCTGCGGAG
    CAGGCCCCTG TAGTTCCATA TCCACACCGT AACAAAGATT CTGATTACCT CCAGTCTACA
    GAGGAGAACA GCAACAATCC AAATGTGCCC TCAGGTGCCC GACCCTGGAG CGATCCTCGG
    TTACCAGAAC CACCAAGAGT AAACCCACCA CCACCCCCAG ACCATCACCA CCATGGAAAC
    CCTCGTCCAT TGGAACCATC CCCAGTGCAC ACACACCAAG AGTTTAATCC TGTGCTTCAC
    CTTGTGGCCC TGAACACTCC ACTGAGTGGC AGCATGAAAT CCATCCGCGG AGTGGACTTC
    CAGTGCTTTG AGCAAGCCCG TAAAGCTGGA CTACATGGCA CATTTAGAGC GTTTTTGTCT
    TCCCGACTTC AAGACCTGTA CAGCATTGTA CGCAGAGCTG ATCGACAATC TGTGCAAATT
    GTTAATCTTA GGGATGAAGT GTTATTTGAC AACTGGGAGT CCCTGTTCTC TGGTTCTGAG
    GCTCAGATGA GGCCTGGTGC GAGTATCTTC TCTTTTGATG GAAAAGATGT TGCAACAGAT
    CCTACATGGC CACAGAAGAT GGTTTGGCAT GGGTCTGACT CGAAGGGACG GCGGCTTACT
    GAAAGCTATT GCGAGACCTG GCGCACAGAT GAAGGTGCAG TAACTGGTCA GGCATCATCG
    CTGACGAGTG GGAAACTCTT AGAACAGCGC CCACAGAGTT GCAACAAGAA CTTCATTGTT
    TTGTGTATTG AGAACAGCTT CATGACCAAT AACCGGAAGT AG

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