Gene Symbol
MBD5
Entrez Gene ID
55777
Full Name
methyl-CpG binding domain protein 5
Synonyms
MRD1
General protein information
Preferred Namesmethyl-CpG binding domain protein 5
Namesmethyl-CpG-binding domain protein 5 methyl-CpG-binding protein MBD5
Gene Type
protein-coding
Organism
Homo sapiens(human)
Genome
Chromosome: 2
Map Location: 2q23.1
Summary
This gene encodes a member of the methyl-CpG-binding domain (MBD) family. The MBD consists of about 70 residues and is the minimal region required for a methyl-CpG-binding protein binding specifically to methylated DNA. In addition to the MBD domain, this protein contains a PWWP domain (Pro-Trp-Trp-Pro motif), which consists of 100-150 amino acids and is found in numerous proteins that are involved in cell division, growth and differentiation. Mutations in this gene cause an autosomal dominant type of cognitive disability. The encoded protein interacts with the polycomb repressive complex PR-DUB which catalyzes the deubiquitination of a lysine residue of histone 2A. Haploinsufficiency of this gene is associated with a syndrome involving microcephaly, intellectual disabilities, severe speech impairment, and seizures. Alternatively spliced transcript variants have been found, but their full-length nature is not determined. [provided by RefSeq, Jul 2017].
Disorder MIM:
611472
Disorder Html:
Mental retardation, autosomal dominant 1, 156200 (3)
mRNA and Protein(s)
mRNA
Protein
Name
XM_017004482.1
XP_016859971.1
methyl-CpG-binding domain protein 5 isoform X2
XM_017004484.1
XP_016859973.1
methyl-CpG-binding domain protein 5 isoform X4
XM_024452988.1
XP_024308756.1
methyl-CpG-binding domain protein 5 isoform X3
XM_017004483.1
XP_016859972.1
methyl-CpG-binding domain protein 5 isoform X3
NM_018328.4
NP_060798.2
methyl-CpG-binding domain protein 5
XM_024452990.1
XP_024308758.1
methyl-CpG-binding domain protein 5 isoform X5
XM_017004485.1
XP_016859974.1
methyl-CpG-binding domain protein 5 isoform X5
XM_011511470.2
XP_011509772.1
methyl-CpG-binding domain protein 5 isoform X1
XM_024452987.1
XP_024308755.1
methyl-CpG-binding domain protein 5 isoform X2
XM_024452989.1
XP_024308757.1
methyl-CpG-binding domain protein 5 isoform X4
XM_011511472.2
XP_011509774.1
methyl-CpG-binding domain protein 5 isoform X1
Homo sapiens (human)
MBD5
NP_060798.2
Pan troglodytes (chimpanzee)
MBD5
XP_003309303.1
Mus musculus (house mouse)
Mbd5
NP_084200.1
Xenopus tropicalis (tropical clawed frog)
mbd5
XP_002943521.2
MBD5
XP_002798916.1
Bos taurus (cattle)
MBD5
NP_001178197.1
Gallus gallus (chicken)
MBD5
XP_004943074.1
Canis lupus familiaris (dog)
MBD5
XP_541030.2
Related articles in PubMed
Diagnostic exome sequencing identifies a heterozygous MBD5 frameshift mutation in a family with intellectual disability and epilepsy.
Han JY, Lee IG, Jang W, Kim M, Kim Y, Jang JH, Park J European journal of medical genetics60(10)559-564(2017 Oct)
Copy number variants analysis in a cohort of isolated and syndromic developmental delay/intellectual disability reveals novel genomic disorders, position effects and candidate disease genes.
Di Gregorio E, Riberi E, Belligni EF, Biamino E, Spielmann M, Ala U, Calcia A, Bagnasco I, Carli D, Gai G, Giordano M, Guala A, Keller R, Mandrile G, Arduino C, Maff? A, Naretto VG, Sirchia F, Sorasio L, Ungari S, Zonta A, Zacchetti G, Talarico F, Pappi P, Cavalieri S, Giorgio E, Mancini C, Ferrero M, Brussino A, Savin E, Gandione M, Pelle A, Giachino DF, De Marchi M, Restagno G, Provero P, Cirillo Silengo M, Grosso E, Buxbaum JD, Pasini B, De Rubeis S, Brusco A, Ferrero GB Clinical genetics92(4)415-422(2017 Oct)
A molecular model for neurodevelopmental disorders.
Gigek CO, Chen ES, Ota VK, Maussion G, Peng H, Vaillancourt K, Diallo AB, Lopez JP, Crapper L, Vasuta C, Chen GG, Ernst C Translational psychiatry5e565(2015 May)
Phenotypic and molecular convergence of 2q23.1 deletion syndrome with other neurodevelopmental syndromes associated with autism spectrum disorder.
Mullegama SV, Alaimo JT, Chen L, Elsea SH International journal of molecular sciences16(4)7627-43(2015 Apr)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following MBD5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MBD5 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
OHu19437
Clone ID Related Accession (Same CDS sequence)
NM_018328.4
Accession Version
NM_018328.4 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 4485bp)
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
2019-11-15
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5
Comment
Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA240785.1, EF542797.1, AB040894.1 and CA449443.1. This sequence is a reference standard in the RefSeqGene project. On or before Aug 31, 2013 this sequence version replaced XM_005263713.1, NM_018328.3.
Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications.
##Evidence-Data-START##
CDS exon combination :: EF542797.1, BC150264.1 [ECO:0000331]
RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148874 [ECO:0000348]
##Evidence-Data-END##
##RefSeq-Attributes-START##
RefSeq Select criteria :: based on conservation, expression
##RefSeq-Attributes-END##
COMPLETENESS: complete on the 3' 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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGTGAT ATGTCATCAA TAAACAATAC TTTGAGTAAC CATCAACTGA CTCATCTACA GTCGCTGTTA AACAACAATC AGATGTTTCC TCCAAATCAG CAACAGCAGC AACTTCTCCA GGGGTACCAG AATCTCCAGG CGTTCCAAGG ACAGTCCACA ATTCCTTGCC CAGCTAACAA TAACCCCATG GCTTGTCTGT TTCAGAACTT TCAGGTGAGA ATGCAGGAAG ATGCAGCTCT CCTAAACAAA AGAATAAGCA CTCAGCCTGG GCTCACAGCA CTTCCTGAGA ATCCAAACAC TACACTTCCA CCTTTTCAAG ATACACCTTG TGAGTTGCAA CCGAGGATTG ACCCATCTCT TGGTCAACAG GTGAAGGATG GCCTCGTTGT GGGTGGCCCA GGTGATGCTT CCGTAGATGC CATTTACAAA GCAGTTGTCG ATGCAGCCAG CAAAGGAATG CAGGTTGTCA TCACCACTGC AGTCAACAGT ACAACTCAGA TCAGCCCCAT TCCAGCTCTG AGTGCCATGA GTGCCTTCAC TGCCTCAATT GGTGACCCAT TAAATCTCTC CAGTGCTGTC AGTGCGGTCA TTCATGGACG GAACATGGGA GGTGTTGATC ATGATGGTAG GCTGAGGAAT TCAAGAGGGG CTCGGCTGCC CAAGAATCTA GACCATGGGA AAAATGTGAA CGAAGGAGAT GGGTTTGAAT ATTTCAAGTC AGCAAGTTGC CACACATCCA AAAAACAGTG GGACGGGGAG CAAAGCCCCA GAGGGGAGCG AAACAGGTGG AAGTACGAGG AATTTTTAGA TCATCCAGGC CATATCCACA GTAGTCCTTG TCATGAAAGG CCCAACAATG TCTCTACACT GCCATTTCTG CCTGGGGAAC AGCACCCAAT ACTGTTACCA CCAAGAAACT GTCCAGGGGA TAAAATTCTA GAGGAAAATT TCAGGTATAA TAACTACAAA AGAACTATGA TGAGTTTTAA GGAGAGACTA GAGAACACTG TGGAAAGATG TGCACACATA AATGGGAATA GACCTCGACA GAGTCGGGGA TTTGGAGAGC TGCTAAGCAC TGCAAAGCAA GACCTGGTCC TAGAGGAGCA GTCTCCAAGT TCCTCAAATA GTTTGGAAAA TTCTCTGGTC AAAGACTACA TCCATTACAA TGGAGACTTT AATGCCAAAA GCGTTAATGG GTGTGTGCCT AGCCCTTCAG ATGCTAAAAG CATTAGTAGT GAAGATGACC TAAGGAACCC AGACTCCCCC TCTTCAAATG AATTGATACA TTATAGACCA AGGACGTTCA ATGTTGGCGA CTTGGTCTGG GGCCAAATCA AAGGACTGAC TTCCTGGCCT GGAAAATTAG TAAGAGAAGA CGACGTTCAC AATTCATGTC AACAAAGCCC CGAGGAAGGG AAGGTGGAGC CCGAGAAGTT GAAGACACTA ACAGAAGGTT TGGAAGCCTA CAGCCGTGTC CGGAAAAGGA ACAGAAAAAG TGGAAAGCTA AATAACCATT TAGAAGCTGC TATTCATGAG GCCATGAGTG AACTGGACAA AATGTCTGGG ACTGTACACC AAATCCCACA GGGTGACAGA CAAATGAGAC CCCCCAAACC CAAGAGGAGG AAGATCTCCA GATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_060798.2
CDS 998..5482
Translation
Target ORF information:
RefSeq Version NM_018328.4
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_018328.4
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGTGAT ATGTCATCAA TAAACAATAC TTTGAGTAAC CATCAACTGA CTCATCTACA GTCGCTGTTA AACAACAATC AGATGTTTCC TCCAAATCAG CAACAGCAGC AACTTCTCCA GGGGTACCAG AATCTCCAGG CGTTCCAAGG ACAGTCCACA ATTCCTTGCC CAGCTAACAA TAACCCCATG GCTTGTCTGT TTCAGAACTT TCAGGTGAGA ATGCAGGAAG ATGCAGCTCT CCTAAACAAA AGAATAAGCA CTCAGCCTGG GCTCACAGCA CTTCCTGAGA ATCCAAACAC TACACTTCCA CCTTTTCAAG ATACACCTTG TGAGTTGCAA CCGAGGATTG ACCCATCTCT TGGTCAACAG GTGAAGGATG GCCTCGTTGT GGGTGGCCCA GGTGATGCTT CCGTAGATGC CATTTACAAA GCAGTTGTCG ATGCAGCCAG CAAAGGAATG CAGGTTGTCA TCACCACTGC AGTCAACAGT ACAACTCAGA TCAGCCCCAT TCCAGCTCTG AGTGCCATGA GTGCCTTCAC TGCCTCAATT GGTGACCCAT TAAATCTCTC CAGTGCTGTC AGTGCGGTCA TTCATGGACG GAACATGGGA GGTGTTGATC ATGATGGTAG GCTGAGGAAT TCAAGAGGGG CTCGGCTGCC CAAGAATCTA GACCATGGGA AAAATGTGAA CGAAGGAGAT GGGTTTGAAT ATTTCAAGTC AGCAAGTTGC CACACATCCA AAAAACAGTG GGACGGGGAG CAAAGCCCCA GAGGGGAGCG AAACAGGTGG AAGTACGAGG AATTTTTAGA TCATCCAGGC CATATCCACA GTAGTCCTTG TCATGAAAGG CCCAACAATG TCTCTACACT GCCATTTCTG CCTGGGGAAC AGCACCCAAT ACTGTTACCA CCAAGAAACT GTCCAGGGGA TAAAATTCTA GAGGAAAATT TCAGGTATAA TAACTACAAA AGAACTATGA TGAGTTTTAA GGAGAGACTA GAGAACACTG TGGAAAGATG TGCACACATA AATGGGAATA GACCTCGACA GAGTCGGGGA TTTGGAGAGC TGCTAAGCAC TGCAAAGCAA GACCTGGTCC TAGAGGAGCA GTCTCCAAGT TCCTCAAATA GTTTGGAAAA TTCTCTGGTC AAAGACTACA TCCATTACAA TGGAGACTTT AATGCCAAAA GCGTTAATGG GTGTGTGCCT AGCCCTTCAG ATGCTAAAAG CATTAGTAGT GAAGATGACC TAAGGAACCC AGACTCCCCC TCTTCAAATG AATTGATACA TTATAGACCA AGGACGTTCA ATGTTGGCGA CTTGGTCTGG GGCCAAATCA AAGGACTGAC TTCCTGGCCT GGAAAATTAG TAAGAGAAGA CGACGTTCAC AATTCATGTC AACAAAGCCC CGAGGAAGGG AAGGTGGAGC CCGAGAAGTT GAAGACACTA ACAGAAGGTT TGGAAGCCTA CAGCCGTGTC CGGAAAAGGA ACAGAAAAAG TGGAAAGCTA AATAACCATT TAGAAGCTGC TATTCATGAG GCCATGAGTG AACTGGACAA AATGTCTGGG ACTGTACACC AAATCCCACA GGGTGACAGA CAAATGAGAC CCCCCAAACC CAAGAGGAGG AAGATCTCCA GATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu36432
Clone ID Related Accession (Same CDS sequence)
XM_017004482.1
, XM_024452987.1
Accession Version
XM_017004482.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5184bp)
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
2016-06-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X2
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Homo sapiens Annotation Release 108
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.0
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_016859971.1
CDS 680..5863
Translation
Target ORF information:
RefSeq Version XM_017004482.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X3, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_017004482.1
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 4861 4921 4981 5041 5101 5161 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu36432
Clone ID Related Accession (Same CDS sequence)
XM_017004482.1
, XM_024452987.1
Accession Version
XM_024452987.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5184bp)
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
2019-12-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X2
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation
Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205
Annotation Version :: 109.20191205
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; propagated RefSeq model
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_024308755.1
CDS 313..5496
Translation
Target ORF information:
RefSeq Version XM_024452987.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X3, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_024452987.1
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 4861 4921 4981 5041 5101 5161 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69742
Clone ID Related Accession (Same CDS sequence)
XM_011511470.2
, XM_011511472.2
Accession Version
XM_011511470.2 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5223bp)
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
2019-12-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X1
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 6, 2016 this sequence version replaced XM_011511470.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Updated annotation
Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205
Annotation Version :: 109.20191205
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; propagated RefSeq model
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAAAGTG GAAAGCTAAA TAACCATTTA GAAGCTGCTA TTCATGAGGC CATGAGTGAA CTGGACAAAA TGTCTGGGAC TGTACACCAA ATCCCACAGG GTGACAGACA AATGAGACCC CCCAAACCCA AGAGGAGGAA GATCTCCAGA TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_011509772.1
CDS 1230..6452
Translation
Target ORF information:
RefSeq Version XM_011511470.2
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X1, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_011511470.2
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 5101 5161 5221 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAAAGTG GAAAGCTAAA TAACCATTTA GAAGCTGCTA TTCATGAGGC CATGAGTGAA CTGGACAAAA TGTCTGGGAC TGTACACCAA ATCCCACAGG GTGACAGACA AATGAGACCC CCCAAACCCA AGAGGAGGAA GATCTCCAGA TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69742
Clone ID Related Accession (Same CDS sequence)
XM_011511470.2
, XM_011511472.2
Accession Version
XM_011511472.2 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5223bp)
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
2019-12-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X1
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 6, 2016 this sequence version replaced XM_011511472.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Updated annotation
Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205
Annotation Version :: 109.20191205
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; propagated RefSeq model
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAAAGTG GAAAGCTAAA TAACCATTTA GAAGCTGCTA TTCATGAGGC CATGAGTGAA CTGGACAAAA TGTCTGGGAC TGTACACCAA ATCCCACAGG GTGACAGACA AATGAGACCC CCCAAACCCA AGAGGAGGAA GATCTCCAGA TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_011509774.1
CDS 810..6032
Translation
Target ORF information:
RefSeq Version XM_011511472.2
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X2, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_011511472.2
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 5101 5161 5221 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAAAGTG GAAAGCTAAA TAACCATTTA GAAGCTGCTA TTCATGAGGC CATGAGTGAA CTGGACAAAA TGTCTGGGAC TGTACACCAA ATCCCACAGG GTGACAGACA AATGAGACCC CCCAAACCCA AGAGGAGGAA GATCTCCAGA TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69743
Clone ID Related Accession (Same CDS sequence)
XM_024452988.1
, XM_017004483.1
Accession Version
XM_024452988.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5142bp)
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
2019-12-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X3
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation
Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205
Annotation Version :: 109.20191205
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; propagated RefSeq model
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAACTGA GGGGAAGAAG AAAAGAGGAA AAGGCTGAAA AAGGAAGGTG TCATTTGGAG CAAGATAATT AA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_024308756.1
CDS 313..5454
Translation
Target ORF information:
RefSeq Version XM_024452988.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X4, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_024452988.1
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 4861 4921 4981 5041 5101 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAACTGA GGGGAAGAAG AAAAGAGGAA AAGGCTGAAA AAGGAAGGTG TCATTTGGAG CAAGATAATT AA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69743
Clone ID Related Accession (Same CDS sequence)
XM_024452988.1
, XM_017004483.1
Accession Version
XM_017004483.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5142bp)
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
2016-06-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X3
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Homo sapiens Annotation Release 108
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.0
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAACTGA GGGGAAGAAG AAAAGAGGAA AAGGCTGAAA AAGGAAGGTG TCATTTGGAG CAAGATAATT AA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_016859972.1
CDS 680..5821
Translation
Target ORF information:
RefSeq Version XM_017004483.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X4, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_017004483.1
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 4861 4921 4981 5041 5101 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTCTGGGT AATGTGGTTT GGTCTTCATA CCTTCACTCA GGTGGAGCCC GAGAAGTTGA AGACACTAAC AGAAGGTTTG GAAGCCTACA GCCGTGTCCG GAAAAGGAAC AGAAAACTGA GGGGAAGAAG AAAAGAGGAA AAGGCTGAAA AAGGAAGGTG TCATTTGGAG CAAGATAATT AA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69744
Clone ID Related Accession (Same CDS sequence)
XM_017004484.1
, XM_024452989.1
Accession Version
XM_017004484.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5103bp)
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
2016-06-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X4
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Homo sapiens Annotation Release 108
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.0
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAACTG AGGGGAAGAA GAAAAGAGGA AAAGGCTGAA AAAGGAAGGT GTCATTTGGA GCAAGATAAT TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_016859973.1
CDS 680..5782
Translation
Target ORF information:
RefSeq Version XM_017004484.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X5, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_017004484.1
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 4861 4921 4981 5041 5101 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAACTG AGGGGAAGAA GAAAAGAGGA AAAGGCTGAA AAAGGAAGGT GTCATTTGGA GCAAGATAAT TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69744
Clone ID Related Accession (Same CDS sequence)
XM_017004484.1
, XM_024452989.1
Accession Version
XM_024452989.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 5103bp)
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
2019-12-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X4
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation
Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205
Annotation Version :: 109.20191205
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; propagated RefSeq model
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAACTG AGGGGAAGAA GAAAAGAGGA AAAGGCTGAA AAAGGAAGGT GTCATTTGGA GCAAGATAAT TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_024308757.1
CDS 313..5415
Translation
Target ORF information:
RefSeq Version XM_024452989.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X5, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_024452989.1
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 4861 4921 4981 5041 5101 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGCAAG TCTGAGATCA ACCTCCACCC TTTAGGTTTT CTCAACCCGA ATGTAAACGC TGCTTTAGCT TTTCTCTCCA GTGACATGGA TGGGCAGGTA TTGCAGCCTG TTCACTTTCA GCTCTTAGCA GCCTTGCTTC AGAACCAAGC CCAAGCAGCT GCCATGCTTC CCCTGCCATC TTTCAATCTG ACCATCTCAG ATCTTTTGCA ACAGCAAAAT ACCCCTTTAC CCTCATTAAC ACAGATGACA GCCCCACCAG ACCATTTGCC AAGCAATCAG TCAGACAACA GCCGAGCTGA GACCCTTTTA ACCAGCCCCC TGGGGAACCC TTTACCAAGC TTTGCAGGCA GTGACACTAC TTTTAACCCC CTGTTCCTCC CAGCTGTCAA TGGGGCCTCA GGATTAATGA CCTTGAATCC CCAGCTGTTG GGAGGTGTCC TGAACTCGGC ATCGGCCAAC ACCGCTAATC ATCCAGAGGT TTCCATAGCA ACCTCCTCCC AGGCAACCAC TACCACAACC ACTACATCAT CAGCAGTGGC AGCACTGACT GTCTCAACAC TTGGTGGGAC AGCAGTGGTG TCAATGGCAG AAACATTGCT GAATATATCT AATAATGCTG GGAATACACC TGGTCCAGCT AAACTCAACA GTAACTCTGT GGTGCCACAG CTACTTAACC CTCTACTGGG GACAGGTCTA CTTGGTGATA TGTCATCAAT AAACAATACT TTGAGTAACC ATCAACTGAC TCATCTACAG TCGCTGTTAA ACAACAATCA GATGTTTCCT CCAAATCAGC AACAGCAGCA ACTTCTCCAG GGGTACCAGA ATCTCCAGGC GTTCCAAGGA CAGTCCACAA TTCCTTGCCC AGCTAACAAT AACCCCATGG CTTGTCTGTT TCAGAACTTT CAGGTGAGAA TGCAGGAAGA TGCAGCTCTC CTAAACAAAA GAATAAGCAC TCAGCCTGGG CTCACAGCAC TTCCTGAGAA TCCAAACACT ACACTTCCAC CTTTTCAAGA TACACCTTGT GAGTTGCAAC CGAGGATTGA CCCATCTCTT GGTCAACAGG TGAAGGATGG CCTCGTTGTG GGTGGCCCAG GTGATGCTTC CGTAGATGCC ATTTACAAAG CAGTTGTCGA TGCAGCCAGC AAAGGAATGC AGGTTGTCAT CACCACTGCA GTCAACAGTA CAACTCAGAT CAGCCCCATT CCAGCTCTGA GTGCCATGAG TGCCTTCACT GCCTCAATTG GTGACCCATT AAATCTCTCC AGTGCTGTCA GTGCGGTCAT TCATGGACGG AACATGGGAG GTGTTGATCA TGATGGTAGG CTGAGGAATT CAAGAGGGGC TCGGCTGCCC AAGAATCTAG ACCATGGGAA AAATGTGAAC GAAGGAGATG GGTTTGAATA TTTCAAGTCA GCAAGTTGCC ACACATCCAA AAAACAGTGG GACGGGGAGC AAAGCCCCAG AGGGGAGCGA AACAGGTGGA AGTACGAGGA ATTTTTAGAT CATCCAGGCC ATATCCACAG TAGTCCTTGT CATGAAAGGC CCAACAATGT CTCTACACTG CCATTTCTGC CTGGGGAACA GCACCCAATA CTGTTACCAC CAAGAAACTG TCCAGGGGAT AAAATTCTAG AGGAAAATTT CAGGTATAAT AACTACAAAA GAACTATGAT GAGTTTTAAG GAGAGACTAG AGAACACTGT GGAAAGATGT GCACACATAA ATGGGAATAG ACCTCGACAG AGTCGGGGAT TTGGAGAGCT GCTAAGCACT GCAAAGCAAG ACCTGGTCCT AGAGGAGCAG TCTCCAAGTT CCTCAAATAG TTTGGAAAAT TCTCTGGTCA AAGACTACAT CCATTACAAT GGAGACTTTA ATGCCAAAAG CGTTAATGGG TGTGTGCCTA GCCCTTCAGA TGCTAAAAGC ATTAGTAGTG AAGATGACCT AAGGAACCCA GACTCCCCCT CTTCAAATGA ATTGATACAT TATAGACCAA GGACGTTCAA TGTTGGCGAC TTGGTCTGGG GCCAAATCAA AGGACTGACT TCCTGGCCTG GAAAATTAGT AAGAGAAGAC GACGTTCACA ATTCATGTCA ACAAAGCCCC GAGGAAGGGA AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAACTG AGGGGAAGAA GAAAAGAGGA AAAGGCTGAA AAAGGAAGGT GTCATTTGGA GCAAGATAAT TAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69745
Clone ID Related Accession (Same CDS sequence)
XM_024452990.1
, XM_017004485.1
Accession Version
XM_024452990.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 4524bp)
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
2019-12-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X5
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Updated annotation
Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205
Annotation Version :: 109.20191205
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.3
Annotation Method :: Best-placed RefSeq; propagated RefSeq model
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGTGAT ATGTCATCAA TAAACAATAC TTTGAGTAAC CATCAACTGA CTCATCTACA GTCGCTGTTA AACAACAATC AGATGTTTCC TCCAAATCAG CAACAGCAGC AACTTCTCCA GGGGTACCAG AATCTCCAGG CGTTCCAAGG ACAGTCCACA ATTCCTTGCC CAGCTAACAA TAACCCCATG GCTTGTCTGT TTCAGAACTT TCAGGTGAGA ATGCAGGAAG ATGCAGCTCT CCTAAACAAA AGAATAAGCA CTCAGCCTGG GCTCACAGCA CTTCCTGAGA ATCCAAACAC TACACTTCCA CCTTTTCAAG ATACACCTTG TGAGTTGCAA CCGAGGATTG ACCCATCTCT TGGTCAACAG GTGAAGGATG GCCTCGTTGT GGGTGGCCCA GGTGATGCTT CCGTAGATGC CATTTACAAA GCAGTTGTCG ATGCAGCCAG CAAAGGAATG CAGGTTGTCA TCACCACTGC AGTCAACAGT ACAACTCAGA TCAGCCCCAT TCCAGCTCTG AGTGCCATGA GTGCCTTCAC TGCCTCAATT GGTGACCCAT TAAATCTCTC CAGTGCTGTC AGTGCGGTCA TTCATGGACG GAACATGGGA GGTGTTGATC ATGATGGTAG GCTGAGGAAT TCAAGAGGGG CTCGGCTGCC CAAGAATCTA GACCATGGGA AAAATGTGAA CGAAGGAGAT GGGTTTGAAT ATTTCAAGTC AGCAAGTTGC CACACATCCA AAAAACAGTG GGACGGGGAG CAAAGCCCCA GAGGGGAGCG AAACAGGTGG AAGTACGAGG AATTTTTAGA TCATCCAGGC CATATCCACA GTAGTCCTTG TCATGAAAGG CCCAACAATG TCTCTACACT GCCATTTCTG CCTGGGGAAC AGCACCCAAT ACTGTTACCA CCAAGAAACT GTCCAGGGGA TAAAATTCTA GAGGAAAATT TCAGGTATAA TAACTACAAA AGAACTATGA TGAGTTTTAA GGAGAGACTA GAGAACACTG TGGAAAGATG TGCACACATA AATGGGAATA GACCTCGACA GAGTCGGGGA TTTGGAGAGC TGCTAAGCAC TGCAAAGCAA GACCTGGTCC TAGAGGAGCA GTCTCCAAGT TCCTCAAATA GTTTGGAAAA TTCTCTGGTC AAAGACTACA TCCATTACAA TGGAGACTTT AATGCCAAAA GCGTTAATGG GTGTGTGCCT AGCCCTTCAG ATGCTAAAAG CATTAGTAGT GAAGATGACC TAAGGAACCC AGACTCCCCC TCTTCAAATG AATTGATACA TTATAGACCA AGGACGTTCA ATGTTGGCGA CTTGGTCTGG GGCCAAATCA AAGGACTGAC TTCCTGGCCT GGAAAATTAG TAAGAGAAGA CGACGTTCAC AATTCATGTC AACAAAGCCC CGAGGAAGGG AAGGTCTGGG TAATGTGGTT TGGTCTTCAT ACCTTCACTC AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_024308758.1
CDS 313..4836
Translation
Target ORF information:
RefSeq Version XM_024452990.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X7, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_024452990.1
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGTGAT ATGTCATCAA TAAACAATAC TTTGAGTAAC CATCAACTGA CTCATCTACA GTCGCTGTTA AACAACAATC AGATGTTTCC TCCAAATCAG CAACAGCAGC AACTTCTCCA GGGGTACCAG AATCTCCAGG CGTTCCAAGG ACAGTCCACA ATTCCTTGCC CAGCTAACAA TAACCCCATG GCTTGTCTGT TTCAGAACTT TCAGGTGAGA ATGCAGGAAG ATGCAGCTCT CCTAAACAAA AGAATAAGCA CTCAGCCTGG GCTCACAGCA CTTCCTGAGA ATCCAAACAC TACACTTCCA CCTTTTCAAG ATACACCTTG TGAGTTGCAA CCGAGGATTG ACCCATCTCT TGGTCAACAG GTGAAGGATG GCCTCGTTGT GGGTGGCCCA GGTGATGCTT CCGTAGATGC CATTTACAAA GCAGTTGTCG ATGCAGCCAG CAAAGGAATG CAGGTTGTCA TCACCACTGC AGTCAACAGT ACAACTCAGA TCAGCCCCAT TCCAGCTCTG AGTGCCATGA GTGCCTTCAC TGCCTCAATT GGTGACCCAT TAAATCTCTC CAGTGCTGTC AGTGCGGTCA TTCATGGACG GAACATGGGA GGTGTTGATC ATGATGGTAG GCTGAGGAAT TCAAGAGGGG CTCGGCTGCC CAAGAATCTA GACCATGGGA AAAATGTGAA CGAAGGAGAT GGGTTTGAAT ATTTCAAGTC AGCAAGTTGC CACACATCCA AAAAACAGTG GGACGGGGAG CAAAGCCCCA GAGGGGAGCG AAACAGGTGG AAGTACGAGG AATTTTTAGA TCATCCAGGC CATATCCACA GTAGTCCTTG TCATGAAAGG CCCAACAATG TCTCTACACT GCCATTTCTG CCTGGGGAAC AGCACCCAAT ACTGTTACCA CCAAGAAACT GTCCAGGGGA TAAAATTCTA GAGGAAAATT TCAGGTATAA TAACTACAAA AGAACTATGA TGAGTTTTAA GGAGAGACTA GAGAACACTG TGGAAAGATG TGCACACATA AATGGGAATA GACCTCGACA GAGTCGGGGA TTTGGAGAGC TGCTAAGCAC TGCAAAGCAA GACCTGGTCC TAGAGGAGCA GTCTCCAAGT TCCTCAAATA GTTTGGAAAA TTCTCTGGTC AAAGACTACA TCCATTACAA TGGAGACTTT AATGCCAAAA GCGTTAATGG GTGTGTGCCT AGCCCTTCAG ATGCTAAAAG CATTAGTAGT GAAGATGACC TAAGGAACCC AGACTCCCCC TCTTCAAATG AATTGATACA TTATAGACCA AGGACGTTCA ATGTTGGCGA CTTGGTCTGG GGCCAAATCA AAGGACTGAC TTCCTGGCCT GGAAAATTAG TAAGAGAAGA CGACGTTCAC AATTCATGTC AACAAAGCCC CGAGGAAGGG AAGGTCTGGG TAATGTGGTT TGGTCTTCAT ACCTTCACTC AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
CloneID
OHu69745
Clone ID Related Accession (Same CDS sequence)
XM_024452990.1
, XM_017004485.1
Accession Version
XM_017004485.1 Latest version!
Documents for ORF clone product in default vector
Sequence Information
ORF Nucleotide Sequence (Length: 4524bp)
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
2016-06-05
Organism
Homo sapiens(human)
Product
methyl-CpG-binding domain protein 5 isoform X5
Comment
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) 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 :: Homo sapiens Annotation Release 108
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.0
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGTGAT ATGTCATCAA TAAACAATAC TTTGAGTAAC CATCAACTGA CTCATCTACA GTCGCTGTTA AACAACAATC AGATGTTTCC TCCAAATCAG CAACAGCAGC AACTTCTCCA GGGGTACCAG AATCTCCAGG CGTTCCAAGG ACAGTCCACA ATTCCTTGCC CAGCTAACAA TAACCCCATG GCTTGTCTGT TTCAGAACTT TCAGGTGAGA ATGCAGGAAG ATGCAGCTCT CCTAAACAAA AGAATAAGCA CTCAGCCTGG GCTCACAGCA CTTCCTGAGA ATCCAAACAC TACACTTCCA CCTTTTCAAG ATACACCTTG TGAGTTGCAA CCGAGGATTG ACCCATCTCT TGGTCAACAG GTGAAGGATG GCCTCGTTGT GGGTGGCCCA GGTGATGCTT CCGTAGATGC CATTTACAAA GCAGTTGTCG ATGCAGCCAG CAAAGGAATG CAGGTTGTCA TCACCACTGC AGTCAACAGT ACAACTCAGA TCAGCCCCAT TCCAGCTCTG AGTGCCATGA GTGCCTTCAC TGCCTCAATT GGTGACCCAT TAAATCTCTC CAGTGCTGTC AGTGCGGTCA TTCATGGACG GAACATGGGA GGTGTTGATC ATGATGGTAG GCTGAGGAAT TCAAGAGGGG CTCGGCTGCC CAAGAATCTA GACCATGGGA AAAATGTGAA CGAAGGAGAT GGGTTTGAAT ATTTCAAGTC AGCAAGTTGC CACACATCCA AAAAACAGTG GGACGGGGAG CAAAGCCCCA GAGGGGAGCG AAACAGGTGG AAGTACGAGG AATTTTTAGA TCATCCAGGC CATATCCACA GTAGTCCTTG TCATGAAAGG CCCAACAATG TCTCTACACT GCCATTTCTG CCTGGGGAAC AGCACCCAAT ACTGTTACCA CCAAGAAACT GTCCAGGGGA TAAAATTCTA GAGGAAAATT TCAGGTATAA TAACTACAAA AGAACTATGA TGAGTTTTAA GGAGAGACTA GAGAACACTG TGGAAAGATG TGCACACATA AATGGGAATA GACCTCGACA GAGTCGGGGA TTTGGAGAGC TGCTAAGCAC TGCAAAGCAA GACCTGGTCC TAGAGGAGCA GTCTCCAAGT TCCTCAAATA GTTTGGAAAA TTCTCTGGTC AAAGACTACA TCCATTACAA TGGAGACTTT AATGCCAAAA GCGTTAATGG GTGTGTGCCT AGCCCTTCAG ATGCTAAAAG CATTAGTAGT GAAGATGACC TAAGGAACCC AGACTCCCCC TCTTCAAATG AATTGATACA TTATAGACCA AGGACGTTCA ATGTTGGCGA CTTGGTCTGG GGCCAAATCA AAGGACTGAC TTCCTGGCCT GGAAAATTAG TAAGAGAAGA CGACGTTCAC AATTCATGTC AACAAAGCCC CGAGGAAGGG AAGGTCTGGG TAATGTGGTT TGGTCTTCAT ACCTTCACTC AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
XP_016859974.1
CDS 680..5203
Translation
Target ORF information:
RefSeq Version XM_017004485.1
Organism Homo sapiens(human)
Definition Homo sapiens methyl-CpG binding domain protein 5 (MBD5), transcript variant X7, mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
XM_017004485.1
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 ATGAATGGAG GCAAAGAGTG TGACGGAGGG GACAAGGAAG GAGGTCTTCC AGCTATACAA GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA TGGAACATGC AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTAT TTAATTTTGA TCCTGGAGCT GCTGTGAAAC AGAGAACCGC AGAAGATGTT AAGGCAGATG AAGATGTCAC AAAGCTATGC ATACATAAAA GAAAAATTAT TGCAGTGGCC ACACTTCATA AAAGCATGGA AGCCCCACAT CCTTCTCTGG TGCTCACCAG TCCCGGAGGA GGAACAAATG CAACTCCAGT AGTACCTTCT CGGGCAGCAA CTCCAAGATC AGTAAGAAAT AAGTCTCATG AAGGAATTAC AAATTCTGTA ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG CTATATGTAC AAGAACTGCC TGGAAGCCAA CAACAAGAAC TCCACCCTGT CTACCCCCGA CAGAGATTGG GCAGCAGTGA ACATGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC CTGCCCAGCC CAGCGTCATC AGGTTCCCAG ATATATGGAG ATGGTTCAAT CTCTCCAAGG ACTGACCCAC TTGGAAGTCC TGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT CCCAATTCTA GTCCTATTCA CCTGAATAGG ACTCCTCTTT CTCCACCTTC AGTAATGCTA CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCTG AGAAAGATCC ACTTGGCATT CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACCAGT TTCCATTCAA ATGTCCACTC TCAGGTACCT ATGATGAATG TAAGCATGCC TCCTGCTGTT GTTCCTTTGC CAAGTAATCT CCCATTGCCA ACTGTAAAAC CTGGTCACAT GAATCATGGG AGTCATGTAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA TCCCCCGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA CGCTCATCTT CCACATCATC AGATCATGGA AATTTCATGA TGCCACCTGT AGGACCCCAG GCCACTTCTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACAAT AGGGTCCCCA AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT ATCCCTAACC CATTAATTGC TGGAATAAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT TTTCCTACTG CATCTGCCGG AAGTAGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACAGTAGC AGCAGTAGCA ATTCTGGAGC TGTTGCCGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCAA CAGGTGAAGG GCAAAGTGGT CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACGCATTGCG GAAAAGAAAA CAACCACCTA CGACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT CCTAAACCTG GACCTGACTT GCTAAGGAAG CAGGGTCAGG GTTCATTTCC CATCAGTTCA ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC CCGGGTTGTG GGGCCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA GATCCCAGTA TGAACTCTAG TGTTCTTCAG AACATACCTT TAAGAGGGGA AGCCGTGCAC TGCCACAATG CAAACACTAA CTTTGTTCAC AGTAACAGTC CAGTCCCCAA CCACCATCTT GCAGGTTTAA TAAATCAGAT TCAGGCTAGC GGGAACTGTG GGATGCTCAG TCAGTCGGGC ATGGCTTTAG GAAATTCCTT ACATCCCAAT CCACCTCAGT CAAGAATTTC AACGTCCTCC ACTCCAGTGA TACCAAACAG CATTGTTAGC AGCTATAATC AAACAAGTTC TGAAGCAGGC GGTTCAGGAC CATCATCCTC CATAGCCATA GCGGGCACCA ACCACCCTGC CATCACAAAG ACAACATCTG TTCTTCAAGA TGGCGTCATA GTCACCACTG CAGCTGGAAA CCCACTGCAG AGTCAGCTAC CCATTGGGAG TGATTTTCCT TTTGTTGGCC AGGAGCACGC ACTTCATTTT CCATCCAACA GCACTTCAAA CAACCATCTT CCACACCCCT TGAACCCCAG CCTCCTCAGT TCTCTACCTA TCTCTTTGCC AGTGAATCAA CAGCATCTCC TAAACCAGAA TCTATTAAAT ATCCTCCAGC CTTCAGCAGG AGAAGGTGAT ATGTCATCAA TAAACAATAC TTTGAGTAAC CATCAACTGA CTCATCTACA GTCGCTGTTA AACAACAATC AGATGTTTCC TCCAAATCAG CAACAGCAGC AACTTCTCCA GGGGTACCAG AATCTCCAGG CGTTCCAAGG ACAGTCCACA ATTCCTTGCC CAGCTAACAA TAACCCCATG GCTTGTCTGT TTCAGAACTT TCAGGTGAGA ATGCAGGAAG ATGCAGCTCT CCTAAACAAA AGAATAAGCA CTCAGCCTGG GCTCACAGCA CTTCCTGAGA ATCCAAACAC TACACTTCCA CCTTTTCAAG ATACACCTTG TGAGTTGCAA CCGAGGATTG ACCCATCTCT TGGTCAACAG GTGAAGGATG GCCTCGTTGT GGGTGGCCCA GGTGATGCTT CCGTAGATGC CATTTACAAA GCAGTTGTCG ATGCAGCCAG CAAAGGAATG CAGGTTGTCA TCACCACTGC AGTCAACAGT ACAACTCAGA TCAGCCCCAT TCCAGCTCTG AGTGCCATGA GTGCCTTCAC TGCCTCAATT GGTGACCCAT TAAATCTCTC CAGTGCTGTC AGTGCGGTCA TTCATGGACG GAACATGGGA GGTGTTGATC ATGATGGTAG GCTGAGGAAT TCAAGAGGGG CTCGGCTGCC CAAGAATCTA GACCATGGGA AAAATGTGAA CGAAGGAGAT GGGTTTGAAT ATTTCAAGTC AGCAAGTTGC CACACATCCA AAAAACAGTG GGACGGGGAG CAAAGCCCCA GAGGGGAGCG AAACAGGTGG AAGTACGAGG AATTTTTAGA TCATCCAGGC CATATCCACA GTAGTCCTTG TCATGAAAGG CCCAACAATG TCTCTACACT GCCATTTCTG CCTGGGGAAC AGCACCCAAT ACTGTTACCA CCAAGAAACT GTCCAGGGGA TAAAATTCTA GAGGAAAATT TCAGGTATAA TAACTACAAA AGAACTATGA TGAGTTTTAA GGAGAGACTA GAGAACACTG TGGAAAGATG TGCACACATA AATGGGAATA GACCTCGACA GAGTCGGGGA TTTGGAGAGC TGCTAAGCAC TGCAAAGCAA GACCTGGTCC TAGAGGAGCA GTCTCCAAGT TCCTCAAATA GTTTGGAAAA TTCTCTGGTC AAAGACTACA TCCATTACAA TGGAGACTTT AATGCCAAAA GCGTTAATGG GTGTGTGCCT AGCCCTTCAG ATGCTAAAAG CATTAGTAGT GAAGATGACC TAAGGAACCC AGACTCCCCC TCTTCAAATG AATTGATACA TTATAGACCA AGGACGTTCA ATGTTGGCGA CTTGGTCTGG GGCCAAATCA AAGGACTGAC TTCCTGGCCT GGAAAATTAG TAAGAGAAGA CGACGTTCAC AATTCATGTC AACAAAGCCC CGAGGAAGGG AAGGTCTGGG TAATGTGGTT TGGTCTTCAT ACCTTCACTC AGGTGGAGCC CGAGAAGTTG AAGACACTAA CAGAAGGTTT GGAAGCCTAC AGCCGTGTCC GGAAAAGGAA CAGAAAAAGT GGAAAGCTAA ATAACCATTT AGAAGCTGCT ATTCATGAGG CCATGAGTGA ACTGGACAAA ATGTCTGGGA CTGTACACCA AATCCCACAG GGTGACAGAC AAATGAGACC CCCCAAACCC AAGAGGAGGA AGATCTCCAG ATAA
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
Copy number variants analysis in a cohort of isolated and syndromic developmental delay/intellectual disability reveals novel genomic disorders, position effects and candidate disease genes.
Clinical genetics92(4)415-422(2017 Oct)
Di Gregorio E,Riberi E,Belligni EF,Biamino E,Spielmann M,Ala U,Calcia A,Bagnasco I,Carli D,Gai G,Giordano M,Guala A,Keller R,Mandrile G,Arduino C,Maff? A,Naretto VG,Sirchia F,Sorasio L,Ungari S,Zonta A,Zacchetti G,Talarico F,Pappi P,Cavalieri S,Giorgio E,Mancini C,Ferrero M,Brussino A,Savin E,Gandione M,Pelle A,Giachino DF,De Marchi M,Restagno G,Provero P,Cirillo Silengo M,Grosso E,Buxbaum JD,Pasini B,De Rubeis S,Brusco A,Ferrero GB
A molecular model for neurodevelopmental disorders.
Translational psychiatry5e565(2015 May)
Gigek CO,Chen ES,Ota VK,Maussion G,Peng H,Vaillancourt K,Diallo AB,Lopez JP,Crapper L,Vasuta C,Chen GG,Ernst C