mbd6 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following mbd6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mbd6 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
OXa42435 XM_018091055.2
Latest version!
Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa42435 XM_018091056.2
Latest version!
Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa21924 NM_001126077.1
Latest version!
Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
OXa42435 XM_018091056.1 Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa42435 XM_018091055.1 Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa42435
    Clone ID Related Accession (Same CDS sequence) XM_018091056.1 , XM_018091055.1 , XM_018091056.2 , XM_018091055.2
    Accession Version XM_018091056.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4110bp)
    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 methyl-CpG-binding domain protein 6 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    RefSeq XP_017946545.1
    CDS297..4406
    Translation

    Target ORF information:

    RefSeq Version XM_018091056.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091056.1

    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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    CloneID OXa42435
    Clone ID Related Accession (Same CDS sequence) XM_018091056.1 , XM_018091055.1 , XM_018091056.2 , XM_018091055.2
    Accession Version XM_018091055.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4110bp)
    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 methyl-CpG-binding domain protein 6 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    RefSeq XP_017946544.1
    CDS412..4521
    Translation

    Target ORF information:

    RefSeq Version XM_018091055.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091055.1

    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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    CloneID OXa42435
    Clone ID Related Accession (Same CDS sequence) XM_018091056.1 , XM_018091055.1 , XM_018091056.2 , XM_018091055.2
    Accession Version XM_018091056.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4110bp)
    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 methyl-CpG-binding domain protein 6 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_018091056.1. ##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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    RefSeq XP_017946545.1
    CDS279..4388
    Translation

    Target ORF information:

    RefSeq Version XM_018091056.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091056.2

    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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    CloneID OXa42435
    Clone ID Related Accession (Same CDS sequence) XM_018091056.1 , XM_018091055.1 , XM_018091056.2 , XM_018091055.2
    Accession Version XM_018091055.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4110bp)
    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 methyl-CpG-binding domain protein 6 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_018091055.1. ##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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    RefSeq XP_017946544.1
    CDS394..4503
    Translation

    Target ORF information:

    RefSeq Version XM_018091055.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091055.2

    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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAAGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAC GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA TTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC ACCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCAAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AAAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTTG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAGCTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GGTAACTGAA AACAACTGTA TCAATACCTC CTGCACTGGG
    TCTGCCTCTG TTACTACAAC CACTATTACA CCTGCCTTAT CAGAGGGGAA ACCCCCTCCA
    TCTGAACCAC ACAGCCCCTT CCACCTCCCG CAATCGCAAG CACCAACACC TGGCAGGCTC
    AACACACTGA TGCCACCTCT GCTCAACCCA CTGATCACCG CTGGTTTATT AGGGGACCTA
    TCTGCACTGA ATGCAAATAC TGGTGCCCAA TTAGGAAGCC TCCAATCTCT GCTGGGTGCT
    CAGGCCTTAC TCCCAAACCA GCAGACATAT CTTCCCTCCC TCTCTGGAGC TCTGGGAATG
    CAGATGTTCC AAGGACAGTC CCTTCTCCAA GGACAACGCA GTGGCTCCCA GACACAGTCT
    GGCCCTGAAA AAGAAGTCAA CCAGTCTTCC CAACCTGAGG GCTCTATTAC CCCCACATCT
    CAAACCCCAT CTTTTTGTCA GCAGACTTCT GACTCTACCT TGTCCTCTCC AAGAACAGAA
    GTGTCCGGGA AAGTACAGAC GTTACCACTT CCTGCCTTGA GGCTTGGTTC TTCTTTTGTC
    TCCAACACCT CAAGTGCCTT TGAAACCAGC CCCAATTCCA AAGGCTCCCA GTTCCAGGGA
    CCAGCATGCA TAGACATCCC TCCTGATATA CCACCTGACC CCCCAAATAC AGATAACTTA
    TCTCACTCTT TAGATTCTTC TTCTACTGAG ACAGATCCAG AAGTATCTCC TCTTAAAAAA
    CACCGGCTGC TACCAGATCC AATAGGTCCC TCAGAAGTCC CCAATGGAGC TTCCCCAAAC
    CTTTTCCCAT GGATGGGTTC TCCCCATTCT TCTAACGCCT TAAATATGTC TGAGCTGGAG
    CTCCCCAAGG GAAAGGAACG TGGCTATAGG TTCAATGGAC GAGCCAGAGG AGAAAGGTCA
    TATGGCCGGC GACCTCGAGG GCATAGACTT TCTGGATCGC GGACCTCCTT TTGGAGATAT
    AATGGAGGAG ATGTGGTTGA GGGAGAAGTT GCAGGACATA GCCAGGAACT ATCACAGCCA
    CTTATGGGAA TCCCTGCTTT TAGCCCTCAC TGGCAGGAAG AGGGTGGACA GCCACGGGAG
    CAGGAGGTGG AGGTGCCACC CCAGCTGCTG AAACGCTCCC GCAGAGGAAG GAGGAGGGGC
    CAGAATTCAC AGAGGATAAG CAGTCGGCTA GAAACTGTTC CTCCAAAGTG GACAACTGAT
    CCATCCAATG GTTTAAATAC TGACCGTCCT ATCATCCGAC CAAACAGACC CGGTCGTCCT
    GCCAAGAACA GAAGACGAAG GATGATATAG

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

    CloneID OXa21924
    Clone ID Related Accession (Same CDS sequence) NM_001126077.1
    Accession Version NM_001126077.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product methyl-CpG-binding domain protein 6
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC166190.1. ##Evidence-Data-START## Transcript exon combination :: BC166190.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028291, SAMD00028292 [ECO:0000348] ##Evidence-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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAGGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAT GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA CTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC GCCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCCAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AGAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTAG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAACTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GAACTGTATC AATACCTCCT GCACTGGGTC TGCCTCTGTT
    ACTACAACCA CTATTACACC TGCCTTATCA GAGGGGAAAC CCCCTCCATC TGAACCACAC
    AGCCCCTTCC ACCTCCCGCA ATCGCAAGCA CCAACACCTG GCAGGCTCAA CACACTGATG
    CCACCTCTGC TCAACCCACT GATCACCGCT GGTTTATTAG GGGACCTATC TGCACTGAAT
    GCAAATACTG GTGCCCAATT AGGAAGCCTC CAATCTCTGC TGGGTGCTCA GGCCTTACTC
    CCAAACCAGC AGACATATCT TCCCTCCCTC TCTGGAGCTC TGGGAATGCA GATGTTCCAA
    GGACAGTCCC TTCTCCAAGG ACAACGCAGT GGCTCCCAGA CACAGTCTGG CCCTGAAAAA
    GAAGTCAACC AGTCTTCCCA ACCTGAGGGC TCTATTACCC CCACATCTCA AACCACATCT
    TTTTGTCAGC AGACTTCTGA CTCTACCTTG TCCTCTCCAA GAACAGAAGT GTCCGGGAAA
    GTACAGACGT TACCACTTCC TGCCTTGAGG CTTGGTTCTT CTTTTGTCTC CAACACCTCA
    AGTGCCTTTG AAACCAGCCC CAATTCCAAA GGCTCCCAGT TCCAGGGACC AGCATGCATA
    GACATCCCTC CTGATATACC ACCTGACCCC CCAAATACAG ATAAGTTATC TCACTCTTTG
    GATTCTTCTT CTACTGAGAC AGATCCAGAA GTATCTCCTC TTAAAAAACA CCGGCTGCTA
    CCAGATCCAA TAGGTCCCTC AGAAGTCCCC AATGGAGCTT CCCCAAACCT TTTCCCATGG
    ATGGGTTCTC CCCATTCTTC TAACGCCTTA AATATGTCTG AGCTGGAGCT CCCCAAGGGA
    AAGGAACGTG GCTATAGGTT CAATGGACGA GCCAGAGGAG AAAGGTCATA TGGCCGGCGA
    CCTCGAGGGC ATAGACTTTC TGGATCGCGG ACCTCCTTTT GGAGATATAA TGGAGGAGAT
    GTGGTTGAGG GAGAAGTTGC AGGACATAGC CAGGAACTAT CACAGCCACT TATGGGAATC
    CCTGCTTTTA GCCCTCACTG GCAGGAAGAG GGTGGACAGC CACGGGAGCA GGAGGTGGAG
    GTGCCACCCC AGCTGCTGAA ACGCTCCCGC AGAGGAAGGA GGAGGGGCCA GAATTCACAG
    AGGATAAGCA GTCGGCTAGA AACTGTTCCT CCAAAGTGGA CAACTGATCC ATCCAATGGT
    TTAAATACTG ACCGTCCTAT CATCCGACCA AACAGACCCG GTCGTCCTGC CAAGAACAGA
    AGACGAAGGA TGATATAG

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

    RefSeq NP_001119549.1
    CDS330..4427
    Translation

    Target ORF information:

    RefSeq Version NM_001126077.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis methyl-CpG binding domain protein 6 (mbd6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001126077.1

    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
    ATGAATGGTG GCAGTGAGAG TGGAGGAGGA GATAGCTATG GAGGGCCCCC AACAGTTCAA 
    GTACCAATTG GCTGGCAGAG AAGAATGGAG CCAGGCATGG TGGTGTATAT CAGTCCAAGT
    GGAACGGTTC TTACGTCTAT GGATCAGTTA AGAGCCTACT TAGTGACTGA TGGAACCTGT
    AAATGTGGCC TGGAGTGTCC TCTTAACATC TATAAGGTTT TTAACTTTGA TCCCAGGGCA
    GTAGTAAAGC GGCGAAGTGC TGAGGATGTG AAGGCGGAGG AGGATATGAC CAAACTCTGC
    AACCATCGTA GGAAAATTGT GGCTCTTGCT ACTCTATACA AGAGTATTGA GAGTACTCCG
    CTTGCACTAC AGAACCAAGC TGCTGGATGT AGCCCCAGTC AGAACTTTCA TGGAGCATCC
    ACAAGCCCAA AGATGGGACA GCATCACTGC TCCTTGGATC CTGAAATCTT CACCAAACTT
    ATGATTGAAA AAGCCCACAG CTTGCCTGCT CATCACATGT TGGATAAACC GCTGGAACAC
    AAACAGGATA CCTATTCTTC TAACCCTGGA GAAAGGTACC CTGTTCATCG ACCAAACTTA
    CAACCTCCTC CACCCAGGCA GCAAGTGACA ACTCTTAGTG AGTCTTATGC CTTAAGGAAC
    TGTCCGCCGA CACCATCAAA TGGTAGCTAT GAGGTGTTTA CTAGGGCTCA CCAAGCCATA
    TCCCATGAGC TTTACTCTGG CTCTGTTACA CAAGTTAAGT CTTCCCAAAA CCGGCCTTCG
    TACCCCTCAT GCAGTCAGGA TCTTTCAGGC TTGTCTCCGA AGTCATCACT TAGCTCTTGT
    AGTTTTGCAC CAGGTGGGGC TTTCTCCCGG ACGCTGGATG AGCCTTCTCA GGGCCCTCGG
    CGCTTTTTTG CCTTTCCTGA GAAAGATCCA CTGGGTATTT TGGACTCTAG CAGCTGCAAA
    CCACCCAGTC CAAAGCACCA CATGTTAAAC TCGCCACCTT GTCACCAGTC TCAGGTTCCC
    ACAATGAACA CTTATTCTCT TCCTGAAAAC CATCCTGGCA GCCAGTCTTC GCCGTCACTA
    CCCCCTCCTT TCTCTCCTTT CCCACGGGGA GGTACACTGA CTTCTCCTTC CACCACTAGG
    TCTTCAGTGT CCTCTATCTC ATCCCCCGCT GGCAGTGTGG AGCCATCCCC TCAGCGTTCT
    CGACACTCCT CTGCCTCATC TGAGCACTTC CCAGGCCCTA CTAGGTCAAG TTCCAGGTCT
    CCTAGGCCTG TTGCCTCTCC TAAACGCTCT GTACCCCAGA GTCCAAAAGC AATACTTGAA
    GGCCTCCCTC CATTTGGGCA GGCCCATTTG GGATCCTCTT CAAATGCCAG CCATGCCTTA
    ACCCACCAAA GCAATAAAAC AGCACCATCT GTGTCTTTGG GAGCAGCGCA AGGCCTACTG
    GGCTTTCCTC TTGGGTGCAT TTTGGGCCAG CAAAGCAATG CCTCCTTCCC AGCCAGCAGT
    CTCCTTACAG CAGCTGCAAA GGCTCAAATG GCAAGTCAAA CCAAACCAGA AGCCACAGCC
    TCTAGCACTT TACCTAATCG TTTGTTAAAT CCCAACTCCA TGCTTTCTGG AGCTGGCACA
    CAGGAAAGCC GGGGACTTCC AGCCAGGCCT CACTCCCAAA GAAGAGATGC AATCTTGAAA
    AGAAAAAGAC AGAAAAATTC TCCAGGTCCT GACACGAGTC CCCAGGATTC TAGTGGGCAT
    TTTCCTCCTT CTGGTAGTCC TCTTGGGCTC TCTAAATTGA ATCCTCCTGT TATGTCAAAG
    CTGGTAGGGA GTGGGAGTCA GTCTGAGGAA GACATGGGAA GATCCAAAGT TGTACATCCA
    CACCCAGTAG CGGGTCAAAC GGTTTCTTCT CTTCAGACAC CTCGATCATC AGTTGAGGAG
    TCCCCAAGCC AAAGTAAAAC TCCTGGCCTG TCTCCATCTT CCCAGGACCT TAGCAGCCAG
    CTACTTGGTC TTGTAGGACA ACTAGTTCAG ACAACTACAG AGCAGAACTC AGGGACACCA
    TTACCACAGA AATTACCTTC AACCCCCGTT GGGACAAATA CATCTACTTC AACTGCACGA
    CCCAACCATT CTCCTGTAGC AAAGAGTGCT TCTGCTCCTA ACGTGGCGCC AAGCTGTGTG
    ACAGAAGGTG TTAATGAGCT GCCTTGTTCC TTGCCTCCAT CTGGGGATAG CTTTCCCTTT
    CTCGGTCAGG ATCAGGTACT GCCGTTTCCT GCATCTCCTG CTCTATTAAA CCTAGCGCTG
    CTGGGATCAT TACCACTTTC CCTTAGTCTA AACCAGCACC AACAAATTCT GAACCAAGGT
    TTGCTAAATT TACTGTCATC GTCTTTGCTT GGAAGTACAG ATATTGGACT TCTAGGCCTT
    CAGAATCCAT CTCTGTCCTT GCCTTCTGCA GTGGGGGACC CTGAAACTAC TGCTTTGCAG
    ACTTTACTGA TGGCTTCTCT CCTGCAAGGT CCTCTTTTAC CACTAGGGGG ACTAGGGCTA
    CCGCAGCTTG ATCTTCAACA AAACAACCAA CAACAAAGCA CCCTTTTGCC ATCTCTCATG
    CCTCTGTTGG ACTCATTACC TACTTCACAA ACTGACACAG CTGAGAAGAA TGAAGCACCC
    CTGTCTCTAC CTGAAACTTT CCCTGATAAT GGTCTCCAAC CACTGCTTTT CCCACCTGCA
    TCACCTGCTC TGATGGCGCT CAACTCTGCA CTTCTCGCTG CCAGTCTTGG GGCTGTGGAC
    TCCTCCACTT GCACTGGACA GAACTGTATC AATACCTCCT GCACTGGGTC TGCCTCTGTT
    ACTACAACCA CTATTACACC TGCCTTATCA GAGGGGAAAC CCCCTCCATC TGAACCACAC
    AGCCCCTTCC ACCTCCCGCA ATCGCAAGCA CCAACACCTG GCAGGCTCAA CACACTGATG
    CCACCTCTGC TCAACCCACT GATCACCGCT GGTTTATTAG GGGACCTATC TGCACTGAAT
    GCAAATACTG GTGCCCAATT AGGAAGCCTC CAATCTCTGC TGGGTGCTCA GGCCTTACTC
    CCAAACCAGC AGACATATCT TCCCTCCCTC TCTGGAGCTC TGGGAATGCA GATGTTCCAA
    GGACAGTCCC TTCTCCAAGG ACAACGCAGT GGCTCCCAGA CACAGTCTGG CCCTGAAAAA
    GAAGTCAACC AGTCTTCCCA ACCTGAGGGC TCTATTACCC CCACATCTCA AACCACATCT
    TTTTGTCAGC AGACTTCTGA CTCTACCTTG TCCTCTCCAA GAACAGAAGT GTCCGGGAAA
    GTACAGACGT TACCACTTCC TGCCTTGAGG CTTGGTTCTT CTTTTGTCTC CAACACCTCA
    AGTGCCTTTG AAACCAGCCC CAATTCCAAA GGCTCCCAGT TCCAGGGACC AGCATGCATA
    GACATCCCTC CTGATATACC ACCTGACCCC CCAAATACAG ATAAGTTATC TCACTCTTTG
    GATTCTTCTT CTACTGAGAC AGATCCAGAA GTATCTCCTC TTAAAAAACA CCGGCTGCTA
    CCAGATCCAA TAGGTCCCTC AGAAGTCCCC AATGGAGCTT CCCCAAACCT TTTCCCATGG
    ATGGGTTCTC CCCATTCTTC TAACGCCTTA AATATGTCTG AGCTGGAGCT CCCCAAGGGA
    AAGGAACGTG GCTATAGGTT CAATGGACGA GCCAGAGGAG AAAGGTCATA TGGCCGGCGA
    CCTCGAGGGC ATAGACTTTC TGGATCGCGG ACCTCCTTTT GGAGATATAA TGGAGGAGAT
    GTGGTTGAGG GAGAAGTTGC AGGACATAGC CAGGAACTAT CACAGCCACT TATGGGAATC
    CCTGCTTTTA GCCCTCACTG GCAGGAAGAG GGTGGACAGC CACGGGAGCA GGAGGTGGAG
    GTGCCACCCC AGCTGCTGAA ACGCTCCCGC AGAGGAAGGA GGAGGGGCCA GAATTCACAG
    AGGATAAGCA GTCGGCTAGA AACTGTTCCT CCAAAGTGGA CAACTGATCC ATCCAATGGT
    TTAAATACTG ACCGTCCTAT CATCCGACCA AACAGACCCG GTCGTCCTGC CAAGAACAGA
    AGACGAAGGA TGATATAG

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