smchd1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following smchd1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the smchd1 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
OXa45185 XM_018095043.1
Latest version!
Xenopus tropicalis structural maintenance of chromosomes flexible hinge domain containing 1 (smchd1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa60187 XM_004915219.4
Latest version!
Xenopus tropicalis structural maintenance of chromosomes flexible hinge domain containing 1 (smchd1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa11615 XM_004915219.3
Latest version!
Xenopus tropicalis structural maintenance of chromosomes flexible hinge domain containing 1 (smchd1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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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 OXa45185
    Clone ID Related Accession (Same CDS sequence) XM_018095043.1
    Accession Version XM_018095043.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4812bp)
    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 structural maintenance of chromosomes flexible hinge domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    4801
    ATGGAGCGTG GCCGTCAGGG CCCTGACAGC GGCGCAGGCA GCTACAAAGG CCGCATGGTG 
    ACCCTGTTTG ATAGGCGCCT GGAGCAAACA CAGTGCTGCG AAGAGAAAAC ACTCAGCGTG
    TATGGCGGCG GCTACGCGGA ATTCCGTGCG GATATGTGCC AGGCTTTTGG CATTGACCCA
    GAAGACCAAT TTGTTATAAC CACTACAGAC AGGAAACAAG TCACCCATAC AAACTTTGAT
    CTAATTGTTC AAGATGGTAT CACTTTATAT CTTCTTCAGT CACCAAACCA GTCTCTATTT
    TCTCCAACCA AAGAAAAAAT TGACTTTTTG CCACATTATG ATACTTTGGT CAAAAGTGGG
    ATGTATGATT ATTATGCTAG TGAAGGGCAA AATCCACTAC CATTTGCTCT TGCTGAGTTA
    ATAGACAACT CATTGTCAGC CAGTGCCCAG AATTCGGGTA TCCGAAACAT ACAGATAAAA
    CTGCTTTTTG ATGAGGCTCA GGGAAAGCCG GCTGTTGTTG TTACTGATAA TGGAAAAGGA
    ATGAACTCGA CACAGCTTAA AAATTGGGCC ATATACCGCC TGTCAAAGTT TACAAGGGGT
    GCTGCTGCCT TAAGTCAAGG AGGAAGCTAT GTCCGGCCTC CACATGTACC ACGCAGCTTG
    AATAGTGACA TTTCCTACTT TGGTGTTGGT GGCAAGCAGG CTGTTTTCTT TGTTGGTCAA
    TCAGCCCGAA TCATAACTAA AACTGCAGAT TCACAAGATG TTCATGAATT TGTTCTTTCC
    AAAGAAGACT TTGAAAAGAA AGAAAAAAAC AAAGAAGACA TTTACAGCGG TTTTATTAGA
    AATAGAAAGC CAGCTGATTC TACGCATGTA ACAGAAGATG AACGTTTTCT TCACAATCTA
    ATTATGGAAG AAGATGGAAA AAATCAGTTT ACAGCTGTGG TTATAACTGG TGTTCAGACT
    GTACATGTAC AGTTTTTAAA GAACTATTAT CATTTATGGA GCAGGCAGTT AGCGCATATC
    TATCATTACT ACCTCCATGG GCCAAAAGGA AATTATTTCA ATAACAGGAA AAGCAGTTCA
    TTGCCATCCA CTAATCTTGA CATTGAGCTC TCCTTGTTTG AAAAGGGAAA GTCACCAAAG
    ATTGTCAACC TAAGAGAGAT CAAAGATGAC ATGCAAACAC TTTATATCAA TACTGCAGCT
    GACACATTTG AATTTAAAGC CCTTGTTGAA GGCGAAGGGG TTGTAGAAGG TGTTATACGT
    TACCACCCAT TTTTATACCA CCAGGAAACC TATCCGGAAG ATCCTTATAA GACAACAAGA
    AGTAGTTTTG AAGCAGATTA TGATGATGAC TGCTTCATTG TAGAAAAGGA GGCACGTGGA
    AAAAGACCAA TATTTGAGTG TTTCTGGAAT GGAAGATTAA TTCCTTATAC TACCGTTGAG
    GATTTTGACT GGTGTGCTCC GCCAAAGAAA AGAGGATTGT GTCCACCAGA GTGCTACAAC
    AGAATTTCTG GTGTTCTCTT TACAAATGAC AAATTTCAAG TCAGCACAAA TAAGCTTACA
    TTTTTAGATC TAGGACTAAA GCTGCAAGAC AAAAACACAC TTTTTACTAG AATTCTTAAA
    GGGCAGGAGC AGCGAATGAA AATTGACAGG GAGTTTGCAT TTTGGGTAAA GGAATGTCAT
    GAGAAATATG ATAAACAAAT AAAATATATT GGCTTCAAAG GGACCATTAC TCGTACAGAT
    ATTGCCTCCA AACGCATGCA GAGTCCTTGG GCTACGTACT CTTCTATAGA ATGGGATAGG
    AAGACATATA AAGCTGGACA GCTGGTGAAA ACAGTCAAGA CGGTGCCTGT AGTCTATGGA
    AGCATTAATC GGTTTCTACT ATATGGGGAT TATGAAAGTG ATATATATGC TACTGGGGGA
    GAAGTTGAAA TTTCTTTGGA ACCAAAGGAA TTGTATGATG AAATAAAATG TGTTCCAATT
    TCAAAGATAG ACAGAAATGC AACACTGAGC ATCATTAAGA AATATCTAGA AGATGAAATG
    ACAAGGTTTC CTGACACATT GGCTGTTACT TGGCCAGAAG GTGATTCATT GGAAGAGAAT
    GATGTAATAT ACGCTGGATC CCCAATAGGG CCTTTAAGAA TTGAAATATT GAATAAGAAA
    GGAGAACCTA TGCAAAAACT TCCTGGTACA GGTCACGCAG CATCAAAAAA ACTTTTGGTA
    GAGATGAAGG TGTTGATAAA TTCATCAAAT GGCGACAAAG AAATAATATC ACACATTAGT
    CAGCATGGAG GTAAATGGCC TTACTGGTTT AAGAAAATGG AAAACATCAC AAAACTTGGC
    AACTATACCT TGAAGCTACA AGTTGTATTG AACGAAAGTA ATGCTGATAC GTATGCAGAA
    AAACCTCTGC CATGTAAAAA TATTAAATTT AAAATTGTTG AGGGTAAACC AGTTGGATTT
    TCAGTAGGTG TTATGGATCC TCCATTTCGT GTTGGAATTC CCTTCAACAT TCCTCTAAGC
    TTGTTAGATG AATTTGGTCA TTCAACTTCA CCAGTTACAG ATATTAAACC TTTACTGGAA
    GCAAGTGGGC TAACCATGCA ATATGAAGAC CTAAGTACAG AGTCTGGGCT GATTATCAAG
    GGTGTGGTTG CTAAAGGACC CGTGAACAAT TGCCAAGGCA AGAATTTCAT GTTGAAGGTG
    GTTTTACCAG GTTTAAAAGA AGACTTTCAG ATTATCAAGA TAAGATTGTT ACCTGGACCT
    CCAAAGAGCA TAAAAGTAGT CCCAGATAAA GATGTTGTTG TTGTAGATAA TGGAATTCCT
    GTATGTTTCC ATGTTGAAGT CTTAGATGAA GCAGGGAATG TGACAACTCA GCCAAAACTA
    GTAGCTGAGT GCAAGTTTAC AGGGGCTGAA AACCTTCCAA CTTATACACT GGATTGTAGC
    AATTCAGGAA CAGGAAAATT AACTGGCCCT GCACTCCGTG TTCAAAACAT CAAAAAAGCA
    CACATTTTAA CAGCAAAAAT TGAACTTCCT TGTTGTAAAG ATGTCCCTGC TGTGGAAAGA
    TCTCTAAAAC TGGAACCTAG CACCCATGTA GCAAAGCTGG ATATCTTAAG TGTGGATGGT
    GAAAAAGCAA TTCAAATTAA ACATCAAGAT GAAATTGAAT GGATTGCTGG TGACACAATG
    CAAAACCTTA TATTACAAAT GTATGATGAA GCAGATCGAA ATGTAACCAT CACTTCAGAA
    CTGGCAGAAA AAATCAAGGT TAACTGGACA CCAAATGTTA ACAAGGAAAA CTTAATTAAA
    GGACTTCTAC CCGATGTTGA AGTAGCAACT TTAGTGAAAG ACATTCGATA CTGCCAAGTA
    TCCTATCATG ATGATCACGT GTCTTTGGAA AGCGCCTTCA CAGTAAAGCC TCTTCCTGAT
    GAACCAAAAC ATTTGAAATG CAAGCTGACT GGAACCAATA CATTACAGAT GGGCCAAGAA
    TTGAAAAGTG AAATTGTACT GATGCTTGTA GATCAATATG GAAATCAGGT ACAATCGCTG
    CCATCTTCAT GTATTCAGTC ACTGGGTGTT TCTGGAAATA CTCTGGTCAA AAGCAGCTTG
    AAAATTACCT ATCAGGAAGA CACACATTCA ATGATTGTAG CTGGAATTAA GTTTTCTGTT
    GGACCTCCAG GCGACAAAGA ACTTTGCTTT GCTTGGAGAT CTTTTTCAAG TTACTTAAAA
    CTTTACCTCA TTGCTGGTCC TCCTGCAAAA CTTGATCTTC TAGACTGGCC TAAATCAGAG
    CCATTTACAG TGATCAGTGG AAAACAGATG GAAACCCCTC TTATTGTTCA GCTCTGTGAT
    GAATGGGGAT TTCAGTCTCC AATGCCAAAT GTAAAAATTG CTTTGATAAA GGACAGTGTC
    CTCAAGATGA GTCCACAAAA TCAGCAACAG AAGACAAATA AAGACGGTCA GTTGAATATG
    GGCATGCTTA CATTTTCTGC ACCAAAAGGA GAATATTCTA TTGTGATTAA AGCTTTGCAA
    AGCAAAACTC AAGTGGAAAA CTACACATTA AAGCTGACTG TTCTCCCAGA TCCGGATAAA
    CCTGCTAGAG TTAAATTCAG ATTTGATCAA GAAGCTGAAC TAAGAGCTGG AAGTATATTT
    CCAGAGTTTG TAGTTAATGT TGTCTCTGAG GAGGATACTA TCATTAAGAA GCTGAACCCA
    GCTAATTGCT CCATGAAAAT ATGGAAGGAT CCAAGCAGTG GAGGGAAACC TCCAGCAGGC
    GTAACACCAA TGTTCTGCAG CAAGTTTAGA GATGGAGACA AAGAAGGCTG GTTTTATTTC
    AGGGATAAAA TGATACCAGA TCGTGTTGGA AAGTATTGCA TTCAGTTTGC ATTTGTGGCT
    GAGAAAAACA TGACACTTTA TAGCGAGCAG ATAACAGTGG ATGTTACTCC AAACAAACCT
    GTGAAGTTGG TTCCACATCC CTTACCTCCA ACACCAACAG TATCTAATGT TAAATCTGAA
    GCAAGTCGTA CATTGGTGAA GAACCTCTGG CTAAAAATTG TGGATGAACA TAACAATTTG
    GCTGGAAGTA ACCTGAATGG CAAGATCACC GCGAAGATTA TATGTGCATC TGAGGACATC
    ACAGAAATTC CTCAGTTTGA ATCAAAGGAT GACATAATTG AGTTTCCATT TAGAAAGGGA
    TCTGCTGAAA TCAGTATTTT GAGAAGCAGC AGCAAATGGC ATCACTTACC AAGGAGAAAG
    ATCAGCTCTC TCAAACTGTT AAAGCTTACA GATGTCTGTT TGATACCTCC AAACAGCTTA
    TCGGTGAAAT AA

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

    RefSeq XP_017950532.1
    CDS1218..6029
    Translation

    Target ORF information:

    RefSeq Version XM_018095043.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis structural maintenance of chromosomes flexible hinge domain containing 1 (smchd1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018095043.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGAGCGTG GCCGTCAGGG CCCTGACAGC GGCGCAGGCA GCTACAAAGG CCGCATGGTG 
    ACCCTGTTTG ATAGGCGCCT GGAGCAAACA CAGTGCTGCG AAGAGAAAAC ACTCAGCGTG
    TATGGCGGCG GCTACGCGGA ATTCCGTGCG GATATGTGCC AGGCTTTTGG CATTGACCCA
    GAAGACCAAT TTGTTATAAC CACTACAGAC AGGAAACAAG TCACCCATAC AAACTTTGAT
    CTAATTGTTC AAGATGGTAT CACTTTATAT CTTCTTCAGT CACCAAACCA GTCTCTATTT
    TCTCCAACCA AAGAAAAAAT TGACTTTTTG CCACATTATG ATACTTTGGT CAAAAGTGGG
    ATGTATGATT ATTATGCTAG TGAAGGGCAA AATCCACTAC CATTTGCTCT TGCTGAGTTA
    ATAGACAACT CATTGTCAGC CAGTGCCCAG AATTCGGGTA TCCGAAACAT ACAGATAAAA
    CTGCTTTTTG ATGAGGCTCA GGGAAAGCCG GCTGTTGTTG TTACTGATAA TGGAAAAGGA
    ATGAACTCGA CACAGCTTAA AAATTGGGCC ATATACCGCC TGTCAAAGTT TACAAGGGGT
    GCTGCTGCCT TAAGTCAAGG AGGAAGCTAT GTCCGGCCTC CACATGTACC ACGCAGCTTG
    AATAGTGACA TTTCCTACTT TGGTGTTGGT GGCAAGCAGG CTGTTTTCTT TGTTGGTCAA
    TCAGCCCGAA TCATAACTAA AACTGCAGAT TCACAAGATG TTCATGAATT TGTTCTTTCC
    AAAGAAGACT TTGAAAAGAA AGAAAAAAAC AAAGAAGACA TTTACAGCGG TTTTATTAGA
    AATAGAAAGC CAGCTGATTC TACGCATGTA ACAGAAGATG AACGTTTTCT TCACAATCTA
    ATTATGGAAG AAGATGGAAA AAATCAGTTT ACAGCTGTGG TTATAACTGG TGTTCAGACT
    GTACATGTAC AGTTTTTAAA GAACTATTAT CATTTATGGA GCAGGCAGTT AGCGCATATC
    TATCATTACT ACCTCCATGG GCCAAAAGGA AATTATTTCA ATAACAGGAA AAGCAGTTCA
    TTGCCATCCA CTAATCTTGA CATTGAGCTC TCCTTGTTTG AAAAGGGAAA GTCACCAAAG
    ATTGTCAACC TAAGAGAGAT CAAAGATGAC ATGCAAACAC TTTATATCAA TACTGCAGCT
    GACACATTTG AATTTAAAGC CCTTGTTGAA GGCGAAGGGG TTGTAGAAGG TGTTATACGT
    TACCACCCAT TTTTATACCA CCAGGAAACC TATCCGGAAG ATCCTTATAA GACAACAAGA
    AGTAGTTTTG AAGCAGATTA TGATGATGAC TGCTTCATTG TAGAAAAGGA GGCACGTGGA
    AAAAGACCAA TATTTGAGTG TTTCTGGAAT GGAAGATTAA TTCCTTATAC TACCGTTGAG
    GATTTTGACT GGTGTGCTCC GCCAAAGAAA AGAGGATTGT GTCCACCAGA GTGCTACAAC
    AGAATTTCTG GTGTTCTCTT TACAAATGAC AAATTTCAAG TCAGCACAAA TAAGCTTACA
    TTTTTAGATC TAGGACTAAA GCTGCAAGAC AAAAACACAC TTTTTACTAG AATTCTTAAA
    GGGCAGGAGC AGCGAATGAA AATTGACAGG GAGTTTGCAT TTTGGGTAAA GGAATGTCAT
    GAGAAATATG ATAAACAAAT AAAATATATT GGCTTCAAAG GGACCATTAC TCGTACAGAT
    ATTGCCTCCA AACGCATGCA GAGTCCTTGG GCTACGTACT CTTCTATAGA ATGGGATAGG
    AAGACATATA AAGCTGGACA GCTGGTGAAA ACAGTCAAGA CGGTGCCTGT AGTCTATGGA
    AGCATTAATC GGTTTCTACT ATATGGGGAT TATGAAAGTG ATATATATGC TACTGGGGGA
    GAAGTTGAAA TTTCTTTGGA ACCAAAGGAA TTGTATGATG AAATAAAATG TGTTCCAATT
    TCAAAGATAG ACAGAAATGC AACACTGAGC ATCATTAAGA AATATCTAGA AGATGAAATG
    ACAAGGTTTC CTGACACATT GGCTGTTACT TGGCCAGAAG GTGATTCATT GGAAGAGAAT
    GATGTAATAT ACGCTGGATC CCCAATAGGG CCTTTAAGAA TTGAAATATT GAATAAGAAA
    GGAGAACCTA TGCAAAAACT TCCTGGTACA GGTCACGCAG CATCAAAAAA ACTTTTGGTA
    GAGATGAAGG TGTTGATAAA TTCATCAAAT GGCGACAAAG AAATAATATC ACACATTAGT
    CAGCATGGAG GTAAATGGCC TTACTGGTTT AAGAAAATGG AAAACATCAC AAAACTTGGC
    AACTATACCT TGAAGCTACA AGTTGTATTG AACGAAAGTA ATGCTGATAC GTATGCAGAA
    AAACCTCTGC CATGTAAAAA TATTAAATTT AAAATTGTTG AGGGTAAACC AGTTGGATTT
    TCAGTAGGTG TTATGGATCC TCCATTTCGT GTTGGAATTC CCTTCAACAT TCCTCTAAGC
    TTGTTAGATG AATTTGGTCA TTCAACTTCA CCAGTTACAG ATATTAAACC TTTACTGGAA
    GCAAGTGGGC TAACCATGCA ATATGAAGAC CTAAGTACAG AGTCTGGGCT GATTATCAAG
    GGTGTGGTTG CTAAAGGACC CGTGAACAAT TGCCAAGGCA AGAATTTCAT GTTGAAGGTG
    GTTTTACCAG GTTTAAAAGA AGACTTTCAG ATTATCAAGA TAAGATTGTT ACCTGGACCT
    CCAAAGAGCA TAAAAGTAGT CCCAGATAAA GATGTTGTTG TTGTAGATAA TGGAATTCCT
    GTATGTTTCC ATGTTGAAGT CTTAGATGAA GCAGGGAATG TGACAACTCA GCCAAAACTA
    GTAGCTGAGT GCAAGTTTAC AGGGGCTGAA AACCTTCCAA CTTATACACT GGATTGTAGC
    AATTCAGGAA CAGGAAAATT AACTGGCCCT GCACTCCGTG TTCAAAACAT CAAAAAAGCA
    CACATTTTAA CAGCAAAAAT TGAACTTCCT TGTTGTAAAG ATGTCCCTGC TGTGGAAAGA
    TCTCTAAAAC TGGAACCTAG CACCCATGTA GCAAAGCTGG ATATCTTAAG TGTGGATGGT
    GAAAAAGCAA TTCAAATTAA ACATCAAGAT GAAATTGAAT GGATTGCTGG TGACACAATG
    CAAAACCTTA TATTACAAAT GTATGATGAA GCAGATCGAA ATGTAACCAT CACTTCAGAA
    CTGGCAGAAA AAATCAAGGT TAACTGGACA CCAAATGTTA ACAAGGAAAA CTTAATTAAA
    GGACTTCTAC CCGATGTTGA AGTAGCAACT TTAGTGAAAG ACATTCGATA CTGCCAAGTA
    TCCTATCATG ATGATCACGT GTCTTTGGAA AGCGCCTTCA CAGTAAAGCC TCTTCCTGAT
    GAACCAAAAC ATTTGAAATG CAAGCTGACT GGAACCAATA CATTACAGAT GGGCCAAGAA
    TTGAAAAGTG AAATTGTACT GATGCTTGTA GATCAATATG GAAATCAGGT ACAATCGCTG
    CCATCTTCAT GTATTCAGTC ACTGGGTGTT TCTGGAAATA CTCTGGTCAA AAGCAGCTTG
    AAAATTACCT ATCAGGAAGA CACACATTCA ATGATTGTAG CTGGAATTAA GTTTTCTGTT
    GGACCTCCAG GCGACAAAGA ACTTTGCTTT GCTTGGAGAT CTTTTTCAAG TTACTTAAAA
    CTTTACCTCA TTGCTGGTCC TCCTGCAAAA CTTGATCTTC TAGACTGGCC TAAATCAGAG
    CCATTTACAG TGATCAGTGG AAAACAGATG GAAACCCCTC TTATTGTTCA GCTCTGTGAT
    GAATGGGGAT TTCAGTCTCC AATGCCAAAT GTAAAAATTG CTTTGATAAA GGACAGTGTC
    CTCAAGATGA GTCCACAAAA TCAGCAACAG AAGACAAATA AAGACGGTCA GTTGAATATG
    GGCATGCTTA CATTTTCTGC ACCAAAAGGA GAATATTCTA TTGTGATTAA AGCTTTGCAA
    AGCAAAACTC AAGTGGAAAA CTACACATTA AAGCTGACTG TTCTCCCAGA TCCGGATAAA
    CCTGCTAGAG TTAAATTCAG ATTTGATCAA GAAGCTGAAC TAAGAGCTGG AAGTATATTT
    CCAGAGTTTG TAGTTAATGT TGTCTCTGAG GAGGATACTA TCATTAAGAA GCTGAACCCA
    GCTAATTGCT CCATGAAAAT ATGGAAGGAT CCAAGCAGTG GAGGGAAACC TCCAGCAGGC
    GTAACACCAA TGTTCTGCAG CAAGTTTAGA GATGGAGACA AAGAAGGCTG GTTTTATTTC
    AGGGATAAAA TGATACCAGA TCGTGTTGGA AAGTATTGCA TTCAGTTTGC ATTTGTGGCT
    GAGAAAAACA TGACACTTTA TAGCGAGCAG ATAACAGTGG ATGTTACTCC AAACAAACCT
    GTGAAGTTGG TTCCACATCC CTTACCTCCA ACACCAACAG TATCTAATGT TAAATCTGAA
    GCAAGTCGTA CATTGGTGAA GAACCTCTGG CTAAAAATTG TGGATGAACA TAACAATTTG
    GCTGGAAGTA ACCTGAATGG CAAGATCACC GCGAAGATTA TATGTGCATC TGAGGACATC
    ACAGAAATTC CTCAGTTTGA ATCAAAGGAT GACATAATTG AGTTTCCATT TAGAAAGGGA
    TCTGCTGAAA TCAGTATTTT GAGAAGCAGC AGCAAATGGC ATCACTTACC AAGGAGAAAG
    ATCAGCTCTC TCAAACTGTT AAAGCTTACA GATGTCTGTT TGATACCTCC AAACAGCTTA
    TCGGTGAAAT AA

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

    CloneID OXa60187
    Clone ID Related Accession (Same CDS sequence) XM_004915219.4
    Accession Version XM_004915219.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5973bp)
    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 structural maintenance of chromosomes flexible hinge domain-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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_004915219.3. ##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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGAGCGTG GCCGTCAGGG CCCTGACAGC GGCGCAGGCA GCTACAAAGG CCGCATGGTG 
    ACCCTGTTTG ATAGGCGCCT GGAGCAAACA CAGTGCTGCG AAGAGAAAAC ACTCAGCGTG
    TATGGCGGCG GCTACGCGGA ATTCCGTGCG GATATGTGCC AGGCTTTTGG CATTGACCCA
    GAAGACCAAT TTGTTATAAC CACTACAGAC AGGAAACAAG TCACCCATAC AAACTTTGAT
    CTAATTGTTC AAGATGGTAT CACTTTATAT CTTCTTCAGT CACCAAACCA GTCTCTATTT
    TCTCCAACCA AAGAAAAAAT TGACTTTTTG CCACATTATG ATACTTTGGT CAAAAGTGGG
    ATGTATGATT ATTATGCTAG TGAAGGGCAA AATCCACTAC CATTTGCTCT TGCTGAGTTA
    ATAGACAACT CATTGTCAGC CAGTGCCCAG AATTCGGGTA TCCGAAACAT ACAGATAAAA
    CTGCTTTTTG ATGAGGCTCA GGGAAAGCCG GCTGTTGTTG TTACTGATAA TGGAAAAGGA
    ATGAACTCGA CACAGCTTAA AAATTGGGCC ATATACCGCC TGTCAAAGTT TACAAGGGGT
    GCTGCTGCCT TAAGTCAAGG AGGAAGCTAT GTCCGGCCTC CACATGTACC ACGCAGCTTG
    AATAGTGACA TTTCCTACTT TGGTGTTGGT GGCAAGCAGG CTGTTTTCTT TGTTGGTCAA
    TCAGCCCGAA TCATAACTAA AACTGCAGAT TCACAAGATG TTCATGAATT TGTTCTTTCC
    AAAGAAGACT TTGAAAAGAA AGAAAAAAAC AAAGAAGACA TTTACAGCGG TTTTATTAGA
    AATAGAAAGC CAGCTGATTC TACGCATGTA ACAGAAGATG AACGTTTTCT TCACAATCTA
    ATTATGGAAG AAGATGGAAA AAATCAGTTT ACAGCTGTGG TTATAACTGG TGTTCAGACT
    GTACATGTAC AGTTTTTAAA GAACTATTAT CATTTATGGA GCAGGCAGTT AGCGCATATC
    TATCATTACT ACCTCCATGG GCCAAAAGGA AATTATTTCA ATAACAGGAA AAGCAGTTCA
    TTGCCATCCA CTAATCTTGA CATTGAGCTC TCCTTGTTTG AAAAGGGAAA GTCACCAAAG
    ATTGTCAACC TAAGAGAGAT CAAAGATGAC ATGCAAACAC TTTATATCAA TACTGCAGCT
    GACACATTTG AATTTAAAGC CCTTGTTGAA GGCGAAGGGG TTGTAGAAGG TGTTATACGT
    TACCACCCAT TTTTATACCA CCAGGAAACC TATCCGGAAG ATCCTTATAA GACAACAAGA
    AGTAGTTTTG AAGCAGATTA TGATGATGAC TGCTTCATTG TAGAAAAGGA GGCACGTGGA
    AAAAGACCAA TATTTGAGTG TTTCTGGAAT GGAAGATTAA TTCCTTATAC TACCGTTGAG
    GATTTTGACT GGTGTGCTCC GCCAAAGAAA AGAGGATTGT GTCCACCAGA GTGCTACAAC
    AGAATTTCTG GTGTTCTCTT TACAAATGAC AAATTTCAAG TCAGCACAAA TAAGCTTACA
    TTTTTAGATC TAGGACTAAA GCTGCAAGAC AAAAACACAC TTTTTACTAG AATTCTTAAA
    GGGCAGGAGC AGCGAATGAA AATTGACAGG GAGTTTGCAT TTTGGGTAAA GGAATGTCAT
    GAGAAATATG ATAAACAAAT AAAATATATT GGCTTCAAAG GGACCATTAC TCGTACAGAT
    ATTGCCTCCA AACGCATGCA GAGTCCTTGG GCTACGTACT CTTCTATAGA ATGGGATAGG
    AAGACATATA AAGCTGGACA GCTGGTGAAA ACAGTCAAGA CGGTGCCTGT AGTCTATGGA
    AGCATTAATC GGTTTCTACT ATATGGGGAT TATGAAAGTG ATATATATGC TACTGGGGGA
    GAAGTTGAAA TTTCTTTGGA ACCAAAGGAA TTGTATGATG AAATAAAATG TGTTCCAATT
    TCAAAGATAG ACAGAAATGC AACACTGAGC ATCATTAAGA AATATCTAGA AGATGAAATG
    ACAAGGTTTC CTGACACATT GGCTGTTACT TGGCCAGAAG GTGATTCATT GGAAGAGAAT
    GATGTAATAT ACGCTGGATC CCCAATAGGG CCTTTAAGAA TTGAAATATT GAATAAGAAA
    GGAGAACCTA TGCAAAAACT TCCTGGTACA GGTCACGCAG CATCAAAAAA ACTTTTGGTA
    GAGATGAAGG TGTTGATAAA TTCATCAAAT GGCGACAAAG AAATAATATC ACACATTAGT
    CAGCATGGAG GTAAATGGCC TTACTGGTTT AAGAAAATGG AAAACATCAC AAAACTTGGC
    AACTATACCT TGAAGCTACA AGTTGTATTG AACGAAAGTA ATGCTGATAC GTATGCAGAA
    AAACCTCTGC CATGTAAAAA TATTAAATTT AAAATTGTTG AGGGTAAACC AGTTGGATTT
    TCAGTAGGTG TTATGGATCC TCCATTTCGT GTTGGAATTC CCTTCAACAT TCCTCTAAGC
    TTGTTAGATG AATTTGGTCA TTCAACTTCA CCAGTTACAG ATATTAAACC TTTACTGGAA
    GCAAGTGGGC TAACCATGCA ATATGAAGAC CTAAGTACAG AGTCTGGGCT GATTATCAAG
    GGTGTGGTTG CTAAAGGACC CGTGAACAAT TGCCAAGGCA AGAATTTCAT GTTGAAGGTG
    GTTTTACCAG GTTTAAAAGA AGACTTTCAG ATTATCAAGA TAAGATTGTT ACCTGGACCT
    CCAAAGAGCA TAAAAGTAGT CCCAGATAAA GATGTTGTTG TTGTAGATAA TGGAATTCCT
    GTATGTTTCC ATGTTGAAGT CTTAGATGAA GCAGGGAATG TGACAACTCA GCCAAAACTA
    GTAGCTGAGT GCAAGTTTAC AGGGGCTGAA AACCTTCCAA CTTATACACT GGATTGTAGC
    AATTCAGGAA CAGGAAAATT AACTGGCCCT GCACTCCGTG TTCAAAACAT CAAAAAAGCA
    CACATTTTAA CAGCAAAAAT TGAACTTCCT TGTTGTAAAG ATGTCCCTGC TGTGGAAAGA
    TCTCTAAAAC TGGAACCTAG CACCCATGTA GCAAAGCTGG ATATCTTAAG TGTGGATGGT
    GAAAAAGCAA TTCAAATTAA ACATCAAGAT GAAATTGAAT GGATTGCTGG TGACACAATG
    CAAAACCTTA TATTACAAAT GTATGATGAA GCAGATCGAA ATGTAACCAT CACTTCAGAA
    CTGGCAGAAA AAATCAAGGT TAACTGGACA CCAAATGTTA ACAAGGAAAA CTTAATTAAA
    GGACTTCTAC CCGATGTTGA AGTAGCAACT TTAGTGAAAG ACATTCGATA CTGCCAAGTA
    TCCTATCATG ATGATCACGT GTCTTTGGAA AGCGCCTTCA CAGTAAAGCC TCTTCCTGAT
    GAACCAAAAC ATTTGAAATG CAAGCTGACT GGAACCAATA CATTACAGAT GGGCCAAGAA
    TTGAAAAGTG AAATTGTACT GATGCTTGTA GATCAATATG GAAATCAGGT ACAATCGCTG
    CCATCTTCAT GTATTCAGTC ACTGGGTGTT TCTGGAAATA CTCTGGTCAA AAGCAGCTTG
    AAAATTACCT ATCAGGAAGA CACACATTCA ATGATTGTAG CTGGAATTAA GTTTTCTGTT
    GGACCTCCAG GCGACAAAGA ACTTTGCTTT GCTTGGAGAT CTTTTTCAAG TTACTTAAAA
    CTTTACCTCA TTGCTGGTCC TCCTGCAAAA CTTGATCTTC TAGACTGGCC TAAATCAGAG
    CCATTTACAG TGATCAGTGG AAAACAGATG GAAACCCCTC TTATTGTTCA GCTCTGTGAT
    GAATGGGGAT TTCAGTCTCC AATGCCAAAT GTAAAAATTG CTTTGATAAA GGACAGTGTC
    CTCAAGATGA GTCCACAAAA TCAGCAACAG AAGACAAATA AAGACGGTCA GTTGAATATG
    GGCATGCTTA CATTTTCTGC ACCAAAAGGA GAATATTCTA TTGTGATTAA AGCTTTGCAA
    AGCAAAACTC AAGTGGAAAA CTACACATTA AAGCTGACTG TTCTCCCAGA TCCGGATAAA
    CCTGCTAGAG TTAAATTCAG ATTTGATCAA GAAGCTGAAC TAAGAGCTGG AAGTATATTT
    CCAGAGTTTG TAGTTAATGT TGTCTCTGAG GAGGATACTA TCATTAAGAA GCTGAACCCA
    GCTAATTGCT CCATGAAAAT ATGGAAGGAT CCAAGCAGTG GAGGGAAACC TCCAGCAGGT
    GTAACACCAA TGTTCTGCAG CAAGTTTAGA GATGGAGACA AAGAAGGCTG GTTTTATTTC
    AGGGATAAAA TGATACCAGA TCGTGTTGGA AAGTATTGCA TTCAGTTTGC ATTTGTGGCT
    GAGAAAAACA TGACACTTTA TAGCGAGCAG ATAACAGTGG ATGTTACTCC AAACAAACCT
    GTGAAGTTGG TTCCACATCC CTTACCTCCA ACACCAACAG TATCTAATGT TAAAGCTGAA
    GCAAGTCGTA CATTGGTGAA GAACCTCTGG CTAAAAATTG TGGATGAACA TAACAATTTG
    GCTGGAAGTA ACCTGAATGG CAAGATCACC GCGAAGATTA TATGTGCATC TGAGGACATC
    ACAGAAATTC CTCAGTTTGA ATCAAAGGAT GACATAATTG AGTTTCCATT TAGAAAGGGA
    TCTGCTGAAA TCAGTGGCCT GATCCTTTCT GAAAATACTA CAGGAAAAGA TAGCACAGAG
    TATAAAATTA TGTTCACTTT GTTGTCCCCA ACAATAGAAA CAAAGGAAAT TGAACCATAC
    TACCTTACTT TCATATTTTA CAATGATTTT GAGAAGCAGC AGCAAATGGC ATCACTTACC
    AAGGAGAAAG ATCAGCTCTC TCAAACTGTT AAAGCTTACA GATGTCTGTT TGATACCTCC
    AAACAGCTTA TCGGTGAAAT AAGATGTCAA GCAAATGAAG CAAAAGCCAA AGAAATTCAC
    TTTAAGAATG AATTAAAGAA GTTTAAGATT GAGGTATCAC GAAACAATGA GATTGAATAC
    ATTGAGTCAC TCATAAAAGC AAAATCATCA GAACGAGAAG TAATATTCCA TAAACCTAGG
    AGAACATGCT CTCTCACCCC TTATTCAAAG AGAAGCGCTG ATATTTTAGG CAAGATTGCT
    CATTTAGCTT TGATTGAAGA TAATGAAGCA GCTAAAGTCA TCTCTTGGCA TATGGCTAGT
    GATATGGACT GTGTGGTGAC CTTAACTACC GAAGCTGCTC GTCAAATCTA TAAAGAGTCT
    CAGGGTCATC AGCAAGTTCT CCCTTTGGAT TCAGTTTATA AGAAAAATCT CCAATGGGGC
    AGGCAATTAC CACACATACG AAATGGAAAA AGTTGCTTTA AGGCATTAGG TAACCCAGTT
    TTTGCTCGAG ATCTTTTAGT GTTTGAAAAA GAATATACAG AACATTGTCA GATAGTCTTC
    GGAATGCTAC TGGGAGATGC AATCATCTTG GACAATTTAG AATCTGCTAA TCACTATAGG
    AAGCAGCTTG TGCAGTTCAC ATTCTGTCCA ACCTTGCTAA CTAGAGAGGG AGACAGAATT
    CGAAGCAATG GAAAGTTTGG TGGACTACAG AACAAAGCAC CTCCTTTGGA CAAATTAAGA
    GGGATGGTGT TTGGAGCCCC TCTGCCAAAA GAATATGACA CCATTGGTAC TGTGATAGAT
    CTATTAGAGC AACTTCGTTC TACAATGTAC AAGACAAAGA GTGTAAATAT AGAGCTTGAT
    AACGAACTCC AAATCTTAAA CTCTCCTGAC ATGCTTAACA AAAAAGCAGA ACTGGACTTA
    CAAGAGAAAC AGCTAAAGGT GATAGAACAA AAGCTTGGCT TGACACCGAA GAATCAAGGC
    ACACGCTCTG CAAATAAGCC TTCCGAGCAT GACATGTCAG ATTGTCCCAT TCCTTCTAAA
    CGTTCAAAAA GAGAAAATGT GAAAAGAAAG TAG

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

    RefSeq XP_004915276.2
    CDS589..6561
    Translation

    Target ORF information:

    RefSeq Version XM_004915219.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis structural maintenance of chromosomes flexible hinge domain containing 1 (smchd1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915219.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGAGCGTG GCCGTCAGGG CCCTGACAGC GGCGCAGGCA GCTACAAAGG CCGCATGGTG 
    ACCCTGTTTG ATAGGCGCCT GGAGCAAACA CAGTGCTGCG AAGAGAAAAC ACTCAGCGTG
    TATGGCGGCG GCTACGCGGA ATTCCGTGCG GATATGTGCC AGGCTTTTGG CATTGACCCA
    GAAGACCAAT TTGTTATAAC CACTACAGAC AGGAAACAAG TCACCCATAC AAACTTTGAT
    CTAATTGTTC AAGATGGTAT CACTTTATAT CTTCTTCAGT CACCAAACCA GTCTCTATTT
    TCTCCAACCA AAGAAAAAAT TGACTTTTTG CCACATTATG ATACTTTGGT CAAAAGTGGG
    ATGTATGATT ATTATGCTAG TGAAGGGCAA AATCCACTAC CATTTGCTCT TGCTGAGTTA
    ATAGACAACT CATTGTCAGC CAGTGCCCAG AATTCGGGTA TCCGAAACAT ACAGATAAAA
    CTGCTTTTTG ATGAGGCTCA GGGAAAGCCG GCTGTTGTTG TTACTGATAA TGGAAAAGGA
    ATGAACTCGA CACAGCTTAA AAATTGGGCC ATATACCGCC TGTCAAAGTT TACAAGGGGT
    GCTGCTGCCT TAAGTCAAGG AGGAAGCTAT GTCCGGCCTC CACATGTACC ACGCAGCTTG
    AATAGTGACA TTTCCTACTT TGGTGTTGGT GGCAAGCAGG CTGTTTTCTT TGTTGGTCAA
    TCAGCCCGAA TCATAACTAA AACTGCAGAT TCACAAGATG TTCATGAATT TGTTCTTTCC
    AAAGAAGACT TTGAAAAGAA AGAAAAAAAC AAAGAAGACA TTTACAGCGG TTTTATTAGA
    AATAGAAAGC CAGCTGATTC TACGCATGTA ACAGAAGATG AACGTTTTCT TCACAATCTA
    ATTATGGAAG AAGATGGAAA AAATCAGTTT ACAGCTGTGG TTATAACTGG TGTTCAGACT
    GTACATGTAC AGTTTTTAAA GAACTATTAT CATTTATGGA GCAGGCAGTT AGCGCATATC
    TATCATTACT ACCTCCATGG GCCAAAAGGA AATTATTTCA ATAACAGGAA AAGCAGTTCA
    TTGCCATCCA CTAATCTTGA CATTGAGCTC TCCTTGTTTG AAAAGGGAAA GTCACCAAAG
    ATTGTCAACC TAAGAGAGAT CAAAGATGAC ATGCAAACAC TTTATATCAA TACTGCAGCT
    GACACATTTG AATTTAAAGC CCTTGTTGAA GGCGAAGGGG TTGTAGAAGG TGTTATACGT
    TACCACCCAT TTTTATACCA CCAGGAAACC TATCCGGAAG ATCCTTATAA GACAACAAGA
    AGTAGTTTTG AAGCAGATTA TGATGATGAC TGCTTCATTG TAGAAAAGGA GGCACGTGGA
    AAAAGACCAA TATTTGAGTG TTTCTGGAAT GGAAGATTAA TTCCTTATAC TACCGTTGAG
    GATTTTGACT GGTGTGCTCC GCCAAAGAAA AGAGGATTGT GTCCACCAGA GTGCTACAAC
    AGAATTTCTG GTGTTCTCTT TACAAATGAC AAATTTCAAG TCAGCACAAA TAAGCTTACA
    TTTTTAGATC TAGGACTAAA GCTGCAAGAC AAAAACACAC TTTTTACTAG AATTCTTAAA
    GGGCAGGAGC AGCGAATGAA AATTGACAGG GAGTTTGCAT TTTGGGTAAA GGAATGTCAT
    GAGAAATATG ATAAACAAAT AAAATATATT GGCTTCAAAG GGACCATTAC TCGTACAGAT
    ATTGCCTCCA AACGCATGCA GAGTCCTTGG GCTACGTACT CTTCTATAGA ATGGGATAGG
    AAGACATATA AAGCTGGACA GCTGGTGAAA ACAGTCAAGA CGGTGCCTGT AGTCTATGGA
    AGCATTAATC GGTTTCTACT ATATGGGGAT TATGAAAGTG ATATATATGC TACTGGGGGA
    GAAGTTGAAA TTTCTTTGGA ACCAAAGGAA TTGTATGATG AAATAAAATG TGTTCCAATT
    TCAAAGATAG ACAGAAATGC AACACTGAGC ATCATTAAGA AATATCTAGA AGATGAAATG
    ACAAGGTTTC CTGACACATT GGCTGTTACT TGGCCAGAAG GTGATTCATT GGAAGAGAAT
    GATGTAATAT ACGCTGGATC CCCAATAGGG CCTTTAAGAA TTGAAATATT GAATAAGAAA
    GGAGAACCTA TGCAAAAACT TCCTGGTACA GGTCACGCAG CATCAAAAAA ACTTTTGGTA
    GAGATGAAGG TGTTGATAAA TTCATCAAAT GGCGACAAAG AAATAATATC ACACATTAGT
    CAGCATGGAG GTAAATGGCC TTACTGGTTT AAGAAAATGG AAAACATCAC AAAACTTGGC
    AACTATACCT TGAAGCTACA AGTTGTATTG AACGAAAGTA ATGCTGATAC GTATGCAGAA
    AAACCTCTGC CATGTAAAAA TATTAAATTT AAAATTGTTG AGGGTAAACC AGTTGGATTT
    TCAGTAGGTG TTATGGATCC TCCATTTCGT GTTGGAATTC CCTTCAACAT TCCTCTAAGC
    TTGTTAGATG AATTTGGTCA TTCAACTTCA CCAGTTACAG ATATTAAACC TTTACTGGAA
    GCAAGTGGGC TAACCATGCA ATATGAAGAC CTAAGTACAG AGTCTGGGCT GATTATCAAG
    GGTGTGGTTG CTAAAGGACC CGTGAACAAT TGCCAAGGCA AGAATTTCAT GTTGAAGGTG
    GTTTTACCAG GTTTAAAAGA AGACTTTCAG ATTATCAAGA TAAGATTGTT ACCTGGACCT
    CCAAAGAGCA TAAAAGTAGT CCCAGATAAA GATGTTGTTG TTGTAGATAA TGGAATTCCT
    GTATGTTTCC ATGTTGAAGT CTTAGATGAA GCAGGGAATG TGACAACTCA GCCAAAACTA
    GTAGCTGAGT GCAAGTTTAC AGGGGCTGAA AACCTTCCAA CTTATACACT GGATTGTAGC
    AATTCAGGAA CAGGAAAATT AACTGGCCCT GCACTCCGTG TTCAAAACAT CAAAAAAGCA
    CACATTTTAA CAGCAAAAAT TGAACTTCCT TGTTGTAAAG ATGTCCCTGC TGTGGAAAGA
    TCTCTAAAAC TGGAACCTAG CACCCATGTA GCAAAGCTGG ATATCTTAAG TGTGGATGGT
    GAAAAAGCAA TTCAAATTAA ACATCAAGAT GAAATTGAAT GGATTGCTGG TGACACAATG
    CAAAACCTTA TATTACAAAT GTATGATGAA GCAGATCGAA ATGTAACCAT CACTTCAGAA
    CTGGCAGAAA AAATCAAGGT TAACTGGACA CCAAATGTTA ACAAGGAAAA CTTAATTAAA
    GGACTTCTAC CCGATGTTGA AGTAGCAACT TTAGTGAAAG ACATTCGATA CTGCCAAGTA
    TCCTATCATG ATGATCACGT GTCTTTGGAA AGCGCCTTCA CAGTAAAGCC TCTTCCTGAT
    GAACCAAAAC ATTTGAAATG CAAGCTGACT GGAACCAATA CATTACAGAT GGGCCAAGAA
    TTGAAAAGTG AAATTGTACT GATGCTTGTA GATCAATATG GAAATCAGGT ACAATCGCTG
    CCATCTTCAT GTATTCAGTC ACTGGGTGTT TCTGGAAATA CTCTGGTCAA AAGCAGCTTG
    AAAATTACCT ATCAGGAAGA CACACATTCA ATGATTGTAG CTGGAATTAA GTTTTCTGTT
    GGACCTCCAG GCGACAAAGA ACTTTGCTTT GCTTGGAGAT CTTTTTCAAG TTACTTAAAA
    CTTTACCTCA TTGCTGGTCC TCCTGCAAAA CTTGATCTTC TAGACTGGCC TAAATCAGAG
    CCATTTACAG TGATCAGTGG AAAACAGATG GAAACCCCTC TTATTGTTCA GCTCTGTGAT
    GAATGGGGAT TTCAGTCTCC AATGCCAAAT GTAAAAATTG CTTTGATAAA GGACAGTGTC
    CTCAAGATGA GTCCACAAAA TCAGCAACAG AAGACAAATA AAGACGGTCA GTTGAATATG
    GGCATGCTTA CATTTTCTGC ACCAAAAGGA GAATATTCTA TTGTGATTAA AGCTTTGCAA
    AGCAAAACTC AAGTGGAAAA CTACACATTA AAGCTGACTG TTCTCCCAGA TCCGGATAAA
    CCTGCTAGAG TTAAATTCAG ATTTGATCAA GAAGCTGAAC TAAGAGCTGG AAGTATATTT
    CCAGAGTTTG TAGTTAATGT TGTCTCTGAG GAGGATACTA TCATTAAGAA GCTGAACCCA
    GCTAATTGCT CCATGAAAAT ATGGAAGGAT CCAAGCAGTG GAGGGAAACC TCCAGCAGGT
    GTAACACCAA TGTTCTGCAG CAAGTTTAGA GATGGAGACA AAGAAGGCTG GTTTTATTTC
    AGGGATAAAA TGATACCAGA TCGTGTTGGA AAGTATTGCA TTCAGTTTGC ATTTGTGGCT
    GAGAAAAACA TGACACTTTA TAGCGAGCAG ATAACAGTGG ATGTTACTCC AAACAAACCT
    GTGAAGTTGG TTCCACATCC CTTACCTCCA ACACCAACAG TATCTAATGT TAAAGCTGAA
    GCAAGTCGTA CATTGGTGAA GAACCTCTGG CTAAAAATTG TGGATGAACA TAACAATTTG
    GCTGGAAGTA ACCTGAATGG CAAGATCACC GCGAAGATTA TATGTGCATC TGAGGACATC
    ACAGAAATTC CTCAGTTTGA ATCAAAGGAT GACATAATTG AGTTTCCATT TAGAAAGGGA
    TCTGCTGAAA TCAGTGGCCT GATCCTTTCT GAAAATACTA CAGGAAAAGA TAGCACAGAG
    TATAAAATTA TGTTCACTTT GTTGTCCCCA ACAATAGAAA CAAAGGAAAT TGAACCATAC
    TACCTTACTT TCATATTTTA CAATGATTTT GAGAAGCAGC AGCAAATGGC ATCACTTACC
    AAGGAGAAAG ATCAGCTCTC TCAAACTGTT AAAGCTTACA GATGTCTGTT TGATACCTCC
    AAACAGCTTA TCGGTGAAAT AAGATGTCAA GCAAATGAAG CAAAAGCCAA AGAAATTCAC
    TTTAAGAATG AATTAAAGAA GTTTAAGATT GAGGTATCAC GAAACAATGA GATTGAATAC
    ATTGAGTCAC TCATAAAAGC AAAATCATCA GAACGAGAAG TAATATTCCA TAAACCTAGG
    AGAACATGCT CTCTCACCCC TTATTCAAAG AGAAGCGCTG ATATTTTAGG CAAGATTGCT
    CATTTAGCTT TGATTGAAGA TAATGAAGCA GCTAAAGTCA TCTCTTGGCA TATGGCTAGT
    GATATGGACT GTGTGGTGAC CTTAACTACC GAAGCTGCTC GTCAAATCTA TAAAGAGTCT
    CAGGGTCATC AGCAAGTTCT CCCTTTGGAT TCAGTTTATA AGAAAAATCT CCAATGGGGC
    AGGCAATTAC CACACATACG AAATGGAAAA AGTTGCTTTA AGGCATTAGG TAACCCAGTT
    TTTGCTCGAG ATCTTTTAGT GTTTGAAAAA GAATATACAG AACATTGTCA GATAGTCTTC
    GGAATGCTAC TGGGAGATGC AATCATCTTG GACAATTTAG AATCTGCTAA TCACTATAGG
    AAGCAGCTTG TGCAGTTCAC ATTCTGTCCA ACCTTGCTAA CTAGAGAGGG AGACAGAATT
    CGAAGCAATG GAAAGTTTGG TGGACTACAG AACAAAGCAC CTCCTTTGGA CAAATTAAGA
    GGGATGGTGT TTGGAGCCCC TCTGCCAAAA GAATATGACA CCATTGGTAC TGTGATAGAT
    CTATTAGAGC AACTTCGTTC TACAATGTAC AAGACAAAGA GTGTAAATAT AGAGCTTGAT
    AACGAACTCC AAATCTTAAA CTCTCCTGAC ATGCTTAACA AAAAAGCAGA ACTGGACTTA
    CAAGAGAAAC AGCTAAAGGT GATAGAACAA AAGCTTGGCT TGACACCGAA GAATCAAGGC
    ACACGCTCTG CAAATAAGCC TTCCGAGCAT GACATGTCAG ATTGTCCCAT TCCTTCTAAA
    CGTTCAAAAA GAGAAAATGT GAAAAGAAAG TAG

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

    CloneID OXa11615
    Clone ID Related Accession (Same CDS sequence) XM_004915219.3
    Accession Version XM_004915219.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5973bp)
    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 structural maintenance of chromosomes flexible hinge domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_004915219.2. ##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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGAGCGTG GCCGTCAGGG CCCTGACAGC GGCGCAGGCA GCTACAAAGG CCGCATGGTG 
    ACCCTGTTTG ATAGGCGCCT GGAGCAAACA CAGTGCTGCG AAGAGAAAAC ACTCAGCGTG
    TATGGCGGCG GCTACGCGGA ATTCCGTGCG GATATGTGCC AGGCTTTTGG CATTGACCCA
    GAAGACCAAT TTGTTATAAC CACTACAGAC AGGAAACAAG TCACCCATAC AAACTTTGAT
    CTAATTGTTC AAGATGGTAT CACTTTATAT CTTCTTCAGT CACCAAACCA GTCTCTATTT
    TCTCCAACCA AAGAAAAAAT TGACTTTTTG CCACATTATG ATACTTTGGT CAAAAGTGGG
    ATGTATGATT ATTATGCTAG TGAAGGGCAA AATCCACTAC CATTTGCTCT TGCTGAGTTA
    ATAGACAACT CATTGTCAGC CAGTGCCCAG AATTCGGGTA TCCGAAACAT ACAGATAAAA
    CTGCTTTTTG ATGAGGCTCA GGGAAAGCCG GCTGTTGTTG TTACTGATAA TGGAAAAGGA
    ATGAACTCGA CACAGCTTAA AAATTGGGCC ATATACCGCC TGTCAAAGTT TACAAGGGGT
    GCTGCTGCCT TAAGTCAAGG AGGAAGCTAT GTCCGGCCTC CACATGTACC ACGCAGCTTG
    AATAGTGACA TTTCCTACTT TGGTGTTGGT GGCAAGCAGG CTGTTTTCTT TGTTGGTCAA
    TCAGCCCGAA TCATAACTAA AACTGCAGAT TCACAAGATG TTCATGAATT TGTTCTTTCC
    AAAGAAGACT TTGAAAAGAA AGAAAAAAAC AAAGAAGACA TTTACAGCGG TTTTATTAGA
    AATAGAAAGC CAGCTGATTC TACGCATGTA ACAGAAGATG AACGTTTTCT TCACAATCTA
    ATTATGGAAG AAGATGGAAA AAATCAGTTT ACAGCTGTGG TTATAACTGG TGTTCAGACT
    GTACATGTAC AGTTTTTAAA GAACTATTAT CATTTATGGA GCAGGCAGTT AGCGCATATC
    TATCATTACT ACCTCCATGG GCCAAAAGGA AATTATTTCA ATAACAGGAA AAGCAGTTCA
    TTGCCATCCA CTAATCTTGA CATTGAGCTC TCCTTGTTTG AAAAGGGAAA GTCACCAAAG
    ATTGTCAACC TAAGAGAGAT CAAAGATGAC ATGCAAACAC TTTATATCAA TACTGCAGCT
    GACACATTTG AATTTAAAGC CCTTGTTGAA GGCGAAGGGG TTGTAGAAGG TGTTATACGT
    TACCACCCAT TTTTATACCA CCAGGAAACC TATCCGGAAG ATCCTTATAA GACAACAAGA
    AGTAGTTTTG AAGCAGATTA TGATGATGAC TGCTTCATTG TAGAAAAGGA GGCACGTGGA
    AAAAGACCAA TATTTGAGTG TTTCTGGAAT GGAAGATTAA TTCCTTATAC TACCGTTGAG
    GATTTTGACT GGTGTGCTCC GCCAAAGAAA AGAGGATTGT GTCCACCAGA GTGCTACAAC
    AGAATTTCTG GTGTTCTCTT TACAAATGAC AAATTTCAAG TCAGCACAAA TAAGCTTACA
    TTTTTAGATC TAGGACTAAA GCTGCAAGAC AAAAACACAC TTTTTACTAG AATTCTTAAA
    GGGCAGGAGC AGCGAATGAA AATTGACAGG GAGTTTGCAT TTTGGGTAAA GGAATGTCAT
    GAGAAATATG ATAAACAAAT AAAATATATT GGCTTCAAAG GGACCATTAC TCGTACAGAT
    ATTGCCTCCA AACGCATGCA GAGTCCTTGG GCTACGTACT CTTCTATAGA ATGGGATAGG
    AAGACATATA AAGCTGGACA GCTGGTGAAA ACAGTCAAGA CGGTGCCTGT AGTCTATGGA
    AGCATTAATC GGTTTCTACT ATATGGGGAT TATGAAAGTG ATATATATGC TACTGGGGGA
    GAAGTTGAAA TTTCTTTGGA ACCAAAGGAA TTGTATGATG AAATAAAATG TGTTCCAATT
    TCAAAGATAG ACAGAAATGC AACACTGAGC ATCATTAAGA AATATCTAGA AGATGAAATG
    ACAAGGTTTC CTGACACATT GGCTGTTACT TGGCCAGAAG GTGATTCATT GGAAGAGAAT
    GATGTAATAT ACGCTGGATC CCCAATAGGG CCTTTAAGAA TTGAAATATT GAATAAGAAA
    GGAGAACCTA TGCAAAAACT TCCTGGTACA GGTCACGCAG CATCAAAAAA ACTTTTGGTA
    GAGATGAAGG TGTTGATAAA TTCATCAAAT GGCGACAAAG AAATAATATC ACACATTAGT
    CAGCATGGAG GTAAATGGCC TTACTGGTTT AAGAAAATGG AAAACATCAC AAAACTTGGC
    AACTATACCT TGAAGCTACA AGTTGTATTG AACGAAAGTA ATGCTGATAC GTATGCAGAA
    AAACCTCTGC CATGTAAAAA TATTAAATTT AAAATTGTTG AGGGTAAACC AGTTGGATTT
    TCAGTAGGTG TTATGGATCC TCCATTTCGT GTTGGAATTC CCTTCAACAT TCCTCTAAGC
    TTGTTAGATG AATTTGGTCA TTCAACTTCA CCAGTTACAG ATATTAAACC TTTACTGGAA
    GCAAGTGGGC TAACCATGCA ATATGAAGAC CTAAGTACAG AGTCTGGGCT GATTATCAAG
    GGTGTGGTTG CTAAAGGACC CGTGAACAAT TGCCAAGGCA AGAATTTCAT GTTGAAGGTG
    GTTTTACCAG GTTTAAAAGA AGACTTTCAG ATTATCAAGA TAAGATTGTT ACCTGGACCT
    CCAAAGAGCA TAAAAGTAGT CCCAGATAAA GATGTTGTTG TTGTAGATAA TGGAATTCCT
    GTATGTTTCC ATGTTGAAGT CTTAGATGAA GCAGGGAATG TGACAACTCA GCCAAAACTA
    GTAGCTGAGT GCAAGTTTAC AGGGGCTGAA AACCTTCCAA CTTATACACT GGATTGTAGC
    AATTCAGGAA CAGGAAAATT AACTGGCCCT GCACTCCGTG TTCAAAACAT CAAAAAAGCA
    CACATTTTAA CAGCAAAAAT TGAACTTCCT TGTTGTAAAG ATGTCCCTGC TGTGGAAAGA
    TCTCTAAAAC TGGAACCTAG CACCCATGTA GCAAAGCTGG ATATCTTAAG TGTGGATGGT
    GAAAAAGCAA TTCAAATTAA ACATCAAGAT GAAATTGAAT GGATTGCTGG TGACACAATG
    CAAAACCTTA TATTACAAAT GTATGATGAA GCAGATCGAA ATGTAACCAT CACTTCAGAA
    CTGGCAGAAA AAATCAAGGT TAACTGGACA CCAAATGTTA ACAAGGAAAA CTTAATTAAA
    GGACTTCTAC CCGATGTTGA AGTAGCAACT TTAGTGAAAG ACATTCGATA CTGCCAAGTA
    TCCTATCATG ATGATCACGT GTCTTTGGAA AGCGCCTTCA CAGTAAAGCC TCTTCCTGAT
    GAACCAAAAC ATTTGAAATG CAAGCTGACT GGAACCAATA CATTACAGAT GGGCCAAGAA
    TTGAAAAGTG AAATTGTACT GATGCTTGTA GATCAATATG GAAATCAGGT ACAATCGCTG
    CCATCTTCAT GTATTCAGTC ACTGGGTGTT TCTGGAAATA CTCTGGTCAA AAGCAGCTTG
    AAAATTACCT ATCAGGAAGA CACACATTCA ATGATTGTAG CTGGAATTAA GTTTTCTGTT
    GGACCTCCAG GCGACAAAGA ACTTTGCTTT GCTTGGAGAT CTTTTTCAAG TTACTTAAAA
    CTTTACCTCA TTGCTGGTCC TCCTGCAAAA CTTGATCTTC TAGACTGGCC TAAATCAGAG
    CCATTTACAG TGATCAGTGG AAAACAGATG GAAACCCCTC TTATTGTTCA GCTCTGTGAT
    GAATGGGGAT TTCAGTCTCC AATGCCAAAT GTAAAAATTG CTTTGATAAA GGACAGTGTC
    CTCAAGATGA GTCCACAAAA TCAGCAACAG AAGACAAATA AAGACGGTCA GTTGAATATG
    GGCATGCTTA CATTTTCTGC ACCAAAAGGA GAATATTCTA TTGTGATTAA AGCTTTGCAA
    AGCAAAACTC AAGTGGAAAA CTACACATTA AAGCTGACTG TTCTCCCAGA TCCGGATAAA
    CCTGCTAGAG TTAAATTCAG ATTTGATCAA GAAGCTGAAC TAAGAGCTGG AAGTATATTT
    CCAGAGTTTG TAGTTAATGT TGTCTCTGAG GAGGATACTA TCATTAAGAA GCTGAACCCA
    GCTAATTGCT CCATGAAAAT ATGGAAGGAT CCAAGCAGTG GAGGGAAACC TCCAGCAGGC
    GTAACACCAA TGTTCTGCAG CAAGTTTAGA GATGGAGACA AAGAAGGCTG GTTTTATTTC
    AGGGATAAAA TGATACCAGA TCGTGTTGGA AAGTATTGCA TTCAGTTTGC ATTTGTGGCT
    GAGAAAAACA TGACACTTTA TAGCGAGCAG ATAACAGTGG ATGTTACTCC AAACAAACCT
    GTGAAGTTGG TTCCACATCC CTTACCTCCA ACACCAACAG TATCTAATGT TAAATCTGAA
    GCAAGTCGTA CATTGGTGAA GAACCTCTGG CTAAAAATTG TGGATGAACA TAACAATTTG
    GCTGGAAGTA ACCTGAATGG CAAGATCACC GCGAAGATTA TATGTGCATC TGAGGACATC
    ACAGAAATTC CTCAGTTTGA ATCAAAGGAT GACATAATTG AGTTTCCATT TAGAAAGGGA
    TCTGCTGAAA TCAGTGGCCT GATCCTTTCT GAAAATACTA CAGGAAAAGA TAGCACAGAG
    TATAAAATTA TGTTCACTTT GTTGTCCCCA ACAATAGAAA CAAAGGAAAT TGAACCATAC
    TACCTTACTT TCATATTTTA CAATGATTTT GAGAAGCAGC AGCAAATGGC ATCACTTACC
    AAGGAGAAAG ATCAGCTCTC TCAAACTGTT AAAGCTTACA GATGTCTGTT TGATACCTCC
    AAACAGCTTA TCGGTGAAAT AAGATGTCAA GCAAATGAAG CAAAAGCCAA AGAAATTCAC
    TTTAAGAATG AATTAAAGAA GTTTAAGATT GAGGTATCAC GAAACAATGA GATTGAATAC
    ATTGAGTCAC TCATAAAAGC AAAATCATCA GAACGAGAAG TAATATTCCA TAAACCTAGG
    AGAACATGCT CTCTCACCCC TTATTCAAAG AGAAGCGCTG ATATTTTAGG CAAGATTGCT
    CATTTAGCTT TGATTGAAGA TAATGAAGCA GCTAAAGTCA TCTCTTGGCA TATGGCTAGT
    GATATGGACT GTGTGGTGAC CTTAACTACC GAAGCTGCTC GTCAAATCTA TAAAGAGTCT
    CAGGGTCATC AGCAAGTTCT CCCTTTGGAT TCAGTTTATA AGAAAAATCT CCAATGGGGC
    AGGCAATTAC CACACATACG AAATGGAAAA AGTTGCTTTA AGGCATTAGG TAACCCAGTT
    TTTGCTCGAG ATCTTTTAGT GTTTGAAAAA GAATATACAG AACATTGTCA GATAGTCTTC
    GGAATGCTAC TGGGAGATGC AATCATCTTG GACAATTTAG AATCTGCTAA TCACTATAGG
    AAGCAGCTTG TGCAGTTCAC ATTCTGTCCA ACCTTGCTAA CTAGAGAGGG AGACAGAATT
    CGAAGCAATG GAAAGTTTGG TGGACTACAG AACAAAGCAC CTCCTTTGGA CAAATTAAGA
    GGGATGGTGT TTGGAGCCCC TCTGCCAAAA GAATATGACA CCATTGGTAC TGTGATAGAT
    CTATTAGAGC AACTTCGTTC TACAATGTAC AAGACAAAGA GTGTAAATAT AGAGCTTGAT
    AACGAACTCC AAATCTTAAA CTCTCCTGAC ATGCTTAACA AAAAAGCAGA ACTGGACTTA
    CAAGAGAAAC AGCTAAAGGT GATAGAACAA AAGCTTGGCT TGACACCGAA GAATCAAGGC
    ACACGCTCTG CAAATAAGCC TTCCGAGCAT GACATGTCAG ATTGTCCCAT TCCTTCTAAA
    CGTTCAAAAA GAGAAAATGT GAAAAGAAAG TAG

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

    RefSeq XP_004915276.1
    CDS1218..7190
    Translation

    Target ORF information:

    RefSeq Version XM_004915219.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis structural maintenance of chromosomes flexible hinge domain containing 1 (smchd1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004915219.3

    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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGAGCGTG GCCGTCAGGG CCCTGACAGC GGCGCAGGCA GCTACAAAGG CCGCATGGTG 
    ACCCTGTTTG ATAGGCGCCT GGAGCAAACA CAGTGCTGCG AAGAGAAAAC ACTCAGCGTG
    TATGGCGGCG GCTACGCGGA ATTCCGTGCG GATATGTGCC AGGCTTTTGG CATTGACCCA
    GAAGACCAAT TTGTTATAAC CACTACAGAC AGGAAACAAG TCACCCATAC AAACTTTGAT
    CTAATTGTTC AAGATGGTAT CACTTTATAT CTTCTTCAGT CACCAAACCA GTCTCTATTT
    TCTCCAACCA AAGAAAAAAT TGACTTTTTG CCACATTATG ATACTTTGGT CAAAAGTGGG
    ATGTATGATT ATTATGCTAG TGAAGGGCAA AATCCACTAC CATTTGCTCT TGCTGAGTTA
    ATAGACAACT CATTGTCAGC CAGTGCCCAG AATTCGGGTA TCCGAAACAT ACAGATAAAA
    CTGCTTTTTG ATGAGGCTCA GGGAAAGCCG GCTGTTGTTG TTACTGATAA TGGAAAAGGA
    ATGAACTCGA CACAGCTTAA AAATTGGGCC ATATACCGCC TGTCAAAGTT TACAAGGGGT
    GCTGCTGCCT TAAGTCAAGG AGGAAGCTAT GTCCGGCCTC CACATGTACC ACGCAGCTTG
    AATAGTGACA TTTCCTACTT TGGTGTTGGT GGCAAGCAGG CTGTTTTCTT TGTTGGTCAA
    TCAGCCCGAA TCATAACTAA AACTGCAGAT TCACAAGATG TTCATGAATT TGTTCTTTCC
    AAAGAAGACT TTGAAAAGAA AGAAAAAAAC AAAGAAGACA TTTACAGCGG TTTTATTAGA
    AATAGAAAGC CAGCTGATTC TACGCATGTA ACAGAAGATG AACGTTTTCT TCACAATCTA
    ATTATGGAAG AAGATGGAAA AAATCAGTTT ACAGCTGTGG TTATAACTGG TGTTCAGACT
    GTACATGTAC AGTTTTTAAA GAACTATTAT CATTTATGGA GCAGGCAGTT AGCGCATATC
    TATCATTACT ACCTCCATGG GCCAAAAGGA AATTATTTCA ATAACAGGAA AAGCAGTTCA
    TTGCCATCCA CTAATCTTGA CATTGAGCTC TCCTTGTTTG AAAAGGGAAA GTCACCAAAG
    ATTGTCAACC TAAGAGAGAT CAAAGATGAC ATGCAAACAC TTTATATCAA TACTGCAGCT
    GACACATTTG AATTTAAAGC CCTTGTTGAA GGCGAAGGGG TTGTAGAAGG TGTTATACGT
    TACCACCCAT TTTTATACCA CCAGGAAACC TATCCGGAAG ATCCTTATAA GACAACAAGA
    AGTAGTTTTG AAGCAGATTA TGATGATGAC TGCTTCATTG TAGAAAAGGA GGCACGTGGA
    AAAAGACCAA TATTTGAGTG TTTCTGGAAT GGAAGATTAA TTCCTTATAC TACCGTTGAG
    GATTTTGACT GGTGTGCTCC GCCAAAGAAA AGAGGATTGT GTCCACCAGA GTGCTACAAC
    AGAATTTCTG GTGTTCTCTT TACAAATGAC AAATTTCAAG TCAGCACAAA TAAGCTTACA
    TTTTTAGATC TAGGACTAAA GCTGCAAGAC AAAAACACAC TTTTTACTAG AATTCTTAAA
    GGGCAGGAGC AGCGAATGAA AATTGACAGG GAGTTTGCAT TTTGGGTAAA GGAATGTCAT
    GAGAAATATG ATAAACAAAT AAAATATATT GGCTTCAAAG GGACCATTAC TCGTACAGAT
    ATTGCCTCCA AACGCATGCA GAGTCCTTGG GCTACGTACT CTTCTATAGA ATGGGATAGG
    AAGACATATA AAGCTGGACA GCTGGTGAAA ACAGTCAAGA CGGTGCCTGT AGTCTATGGA
    AGCATTAATC GGTTTCTACT ATATGGGGAT TATGAAAGTG ATATATATGC TACTGGGGGA
    GAAGTTGAAA TTTCTTTGGA ACCAAAGGAA TTGTATGATG AAATAAAATG TGTTCCAATT
    TCAAAGATAG ACAGAAATGC AACACTGAGC ATCATTAAGA AATATCTAGA AGATGAAATG
    ACAAGGTTTC CTGACACATT GGCTGTTACT TGGCCAGAAG GTGATTCATT GGAAGAGAAT
    GATGTAATAT ACGCTGGATC CCCAATAGGG CCTTTAAGAA TTGAAATATT GAATAAGAAA
    GGAGAACCTA TGCAAAAACT TCCTGGTACA GGTCACGCAG CATCAAAAAA ACTTTTGGTA
    GAGATGAAGG TGTTGATAAA TTCATCAAAT GGCGACAAAG AAATAATATC ACACATTAGT
    CAGCATGGAG GTAAATGGCC TTACTGGTTT AAGAAAATGG AAAACATCAC AAAACTTGGC
    AACTATACCT TGAAGCTACA AGTTGTATTG AACGAAAGTA ATGCTGATAC GTATGCAGAA
    AAACCTCTGC CATGTAAAAA TATTAAATTT AAAATTGTTG AGGGTAAACC AGTTGGATTT
    TCAGTAGGTG TTATGGATCC TCCATTTCGT GTTGGAATTC CCTTCAACAT TCCTCTAAGC
    TTGTTAGATG AATTTGGTCA TTCAACTTCA CCAGTTACAG ATATTAAACC TTTACTGGAA
    GCAAGTGGGC TAACCATGCA ATATGAAGAC CTAAGTACAG AGTCTGGGCT GATTATCAAG
    GGTGTGGTTG CTAAAGGACC CGTGAACAAT TGCCAAGGCA AGAATTTCAT GTTGAAGGTG
    GTTTTACCAG GTTTAAAAGA AGACTTTCAG ATTATCAAGA TAAGATTGTT ACCTGGACCT
    CCAAAGAGCA TAAAAGTAGT CCCAGATAAA GATGTTGTTG TTGTAGATAA TGGAATTCCT
    GTATGTTTCC ATGTTGAAGT CTTAGATGAA GCAGGGAATG TGACAACTCA GCCAAAACTA
    GTAGCTGAGT GCAAGTTTAC AGGGGCTGAA AACCTTCCAA CTTATACACT GGATTGTAGC
    AATTCAGGAA CAGGAAAATT AACTGGCCCT GCACTCCGTG TTCAAAACAT CAAAAAAGCA
    CACATTTTAA CAGCAAAAAT TGAACTTCCT TGTTGTAAAG ATGTCCCTGC TGTGGAAAGA
    TCTCTAAAAC TGGAACCTAG CACCCATGTA GCAAAGCTGG ATATCTTAAG TGTGGATGGT
    GAAAAAGCAA TTCAAATTAA ACATCAAGAT GAAATTGAAT GGATTGCTGG TGACACAATG
    CAAAACCTTA TATTACAAAT GTATGATGAA GCAGATCGAA ATGTAACCAT CACTTCAGAA
    CTGGCAGAAA AAATCAAGGT TAACTGGACA CCAAATGTTA ACAAGGAAAA CTTAATTAAA
    GGACTTCTAC CCGATGTTGA AGTAGCAACT TTAGTGAAAG ACATTCGATA CTGCCAAGTA
    TCCTATCATG ATGATCACGT GTCTTTGGAA AGCGCCTTCA CAGTAAAGCC TCTTCCTGAT
    GAACCAAAAC ATTTGAAATG CAAGCTGACT GGAACCAATA CATTACAGAT GGGCCAAGAA
    TTGAAAAGTG AAATTGTACT GATGCTTGTA GATCAATATG GAAATCAGGT ACAATCGCTG
    CCATCTTCAT GTATTCAGTC ACTGGGTGTT TCTGGAAATA CTCTGGTCAA AAGCAGCTTG
    AAAATTACCT ATCAGGAAGA CACACATTCA ATGATTGTAG CTGGAATTAA GTTTTCTGTT
    GGACCTCCAG GCGACAAAGA ACTTTGCTTT GCTTGGAGAT CTTTTTCAAG TTACTTAAAA
    CTTTACCTCA TTGCTGGTCC TCCTGCAAAA CTTGATCTTC TAGACTGGCC TAAATCAGAG
    CCATTTACAG TGATCAGTGG AAAACAGATG GAAACCCCTC TTATTGTTCA GCTCTGTGAT
    GAATGGGGAT TTCAGTCTCC AATGCCAAAT GTAAAAATTG CTTTGATAAA GGACAGTGTC
    CTCAAGATGA GTCCACAAAA TCAGCAACAG AAGACAAATA AAGACGGTCA GTTGAATATG
    GGCATGCTTA CATTTTCTGC ACCAAAAGGA GAATATTCTA TTGTGATTAA AGCTTTGCAA
    AGCAAAACTC AAGTGGAAAA CTACACATTA AAGCTGACTG TTCTCCCAGA TCCGGATAAA
    CCTGCTAGAG TTAAATTCAG ATTTGATCAA GAAGCTGAAC TAAGAGCTGG AAGTATATTT
    CCAGAGTTTG TAGTTAATGT TGTCTCTGAG GAGGATACTA TCATTAAGAA GCTGAACCCA
    GCTAATTGCT CCATGAAAAT ATGGAAGGAT CCAAGCAGTG GAGGGAAACC TCCAGCAGGC
    GTAACACCAA TGTTCTGCAG CAAGTTTAGA GATGGAGACA AAGAAGGCTG GTTTTATTTC
    AGGGATAAAA TGATACCAGA TCGTGTTGGA AAGTATTGCA TTCAGTTTGC ATTTGTGGCT
    GAGAAAAACA TGACACTTTA TAGCGAGCAG ATAACAGTGG ATGTTACTCC AAACAAACCT
    GTGAAGTTGG TTCCACATCC CTTACCTCCA ACACCAACAG TATCTAATGT TAAATCTGAA
    GCAAGTCGTA CATTGGTGAA GAACCTCTGG CTAAAAATTG TGGATGAACA TAACAATTTG
    GCTGGAAGTA ACCTGAATGG CAAGATCACC GCGAAGATTA TATGTGCATC TGAGGACATC
    ACAGAAATTC CTCAGTTTGA ATCAAAGGAT GACATAATTG AGTTTCCATT TAGAAAGGGA
    TCTGCTGAAA TCAGTGGCCT GATCCTTTCT GAAAATACTA CAGGAAAAGA TAGCACAGAG
    TATAAAATTA TGTTCACTTT GTTGTCCCCA ACAATAGAAA CAAAGGAAAT TGAACCATAC
    TACCTTACTT TCATATTTTA CAATGATTTT GAGAAGCAGC AGCAAATGGC ATCACTTACC
    AAGGAGAAAG ATCAGCTCTC TCAAACTGTT AAAGCTTACA GATGTCTGTT TGATACCTCC
    AAACAGCTTA TCGGTGAAAT AAGATGTCAA GCAAATGAAG CAAAAGCCAA AGAAATTCAC
    TTTAAGAATG AATTAAAGAA GTTTAAGATT GAGGTATCAC GAAACAATGA GATTGAATAC
    ATTGAGTCAC TCATAAAAGC AAAATCATCA GAACGAGAAG TAATATTCCA TAAACCTAGG
    AGAACATGCT CTCTCACCCC TTATTCAAAG AGAAGCGCTG ATATTTTAGG CAAGATTGCT
    CATTTAGCTT TGATTGAAGA TAATGAAGCA GCTAAAGTCA TCTCTTGGCA TATGGCTAGT
    GATATGGACT GTGTGGTGAC CTTAACTACC GAAGCTGCTC GTCAAATCTA TAAAGAGTCT
    CAGGGTCATC AGCAAGTTCT CCCTTTGGAT TCAGTTTATA AGAAAAATCT CCAATGGGGC
    AGGCAATTAC CACACATACG AAATGGAAAA AGTTGCTTTA AGGCATTAGG TAACCCAGTT
    TTTGCTCGAG ATCTTTTAGT GTTTGAAAAA GAATATACAG AACATTGTCA GATAGTCTTC
    GGAATGCTAC TGGGAGATGC AATCATCTTG GACAATTTAG AATCTGCTAA TCACTATAGG
    AAGCAGCTTG TGCAGTTCAC ATTCTGTCCA ACCTTGCTAA CTAGAGAGGG AGACAGAATT
    CGAAGCAATG GAAAGTTTGG TGGACTACAG AACAAAGCAC CTCCTTTGGA CAAATTAAGA
    GGGATGGTGT TTGGAGCCCC TCTGCCAAAA GAATATGACA CCATTGGTAC TGTGATAGAT
    CTATTAGAGC AACTTCGTTC TACAATGTAC AAGACAAAGA GTGTAAATAT AGAGCTTGAT
    AACGAACTCC AAATCTTAAA CTCTCCTGAC ATGCTTAACA AAAAAGCAGA ACTGGACTTA
    CAAGAGAAAC AGCTAAAGGT GATAGAACAA AAGCTTGGCT TGACACCGAA GAATCAAGGC
    ACACGCTCTG CAAATAAGCC TTCCGAGCAT GACATGTCAG ATTGTCCCAT TCCTTCTAAA
    CGTTCAAAAA GAGAAAATGT GAAAAGAAAG TAG

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