×

DNMT1 cDNA ORF clone, Homo sapiens (human)

Gene Symbol DNMT1
Entrez Gene ID 1786
Full Name DNA (cytosine-5-)-methyltransferase 1
Synonyms ADCADN, AIM, CXXC9, DNMT, HSN1E, MCMT
General protein information
Preferred Names
DNA (cytosine-5)-methyltransferase 1
Names
DNA (cytosine-5)-methyltransferase 1
m.HsaI
DNA MTase HsaI
DNA methyltransferase HsaI
CXXC-type zinc finger protein 9
NP_001124295.1
NP_001370.1
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

19

19p13.2

Summary DNA (cytosine-5-)-methyltransferase 1 has a role in the establishment and regulation of tissue-specific patterns of methylated cytosine residues. Aberrant methylation patterns are associated with certain human tumors and developmental abnormalities. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Aug 2008]. lac of sum
Disorder MIM:

126375


mRNA and Protein(s)

mRNA Protein Name
XM_011527772 XP_011526074 DNA (cytosine-5)-methyltransferase 1 isoform X1
XM_011527773 XP_011526075 DNA (cytosine-5)-methyltransferase 1 isoform X2
XM_011527774 XP_011526076 DNA (cytosine-5)-methyltransferase 1 isoform X3
NM_001379 NP_001370 DNA (cytosine-5)-methyltransferase 1 isoform b
NM_001130823 NP_001124295 DNA (cytosine-5)-methyltransferase 1 isoform a



Homo sapiens (human) DNMT1 NP_001124295.1
Pan troglodytes (chimpanzee) DNMT1 XP_512361.3
Macaca mulatta (Rhesus monkey) DNMT1 XP_001104704.2
Canis lupus familiaris (dog) DNMT1 XP_533919.4
Bos taurus (cattle) DNMT1 NP_872592.2
Mus musculus (house mouse) Dnmt1 NP_001186360.2
Rattus norvegicus (Norway rat) Dnmt1 NP_445806.3
Gallus gallus (chicken) DNMT1 NP_996835.1
Danio rerio (zebrafish) dnmt1 NP_571264.1
Arabidopsis thaliana (thale cress) DMT2 NP_193150.1
Arabidopsis thaliana (thale cress) AT4G08990 NP_192638.1
Arabidopsis thaliana (thale cress) MEE57 NP_193097.1
Arabidopsis thaliana (thale cress) MET1 NP_199727.1
Xenopus (Silurana) tropicalis (western clawed frog) dnmt1 XP_002934384.1


GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following DNMT1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DNMT1 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 RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu57333 XM_011527772 PREDICTED: Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu57334 XM_011527773 PREDICTED: Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu57335 XM_011527774 PREDICTED: Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $727.30
$1039.00
OHu26697 NM_001379 Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $923.30
$1319.00
OHu27021
NM_001130823 Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK
$274.50-$384.30
$549.00
Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

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

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

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


CloneID OHu57333
Clone ID Related Accession (Same CDS sequence) XM_011527772
Accession Version XM_011527772.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4908bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product DNA (cytosine-5)-methyltransferase 1 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_011295.12) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCGTTCA AGAGACCCTC CTGCCTCAGC CTCCCAAGTA
ACTGGGATTA GAGCTGAACC TTCACCTAGC CCCAGGATTA CAAGGAAAAG CACCAGGCAA
ACCACCATCA CATCTCATTT TGCAAAGGGC CCTGCCAAAC GGAAACCTCA GGAAGAGTCT
GAAAGAGCCA AATCGGATGA GTCCATCAAG GAAGAAGACA AAGACCAGGA TGAGAAGAGA
CGTAGAGTTA CATCCAGAGA ACGAGTTGCT AGACCGCTTC CTGCAGAAGA ACCTGAAAGA
GCAAAATCAG GAACGCGCAC TGAAAAGGAA GAAGAAAGAG ATGAAAAAGA AGAAAAGAGA
CTCCGAAGTC AAACCAAAGA ACCAACACCC AAACAGAAAC TGAAGGAGGA GCCGGACAGA
GAAGCCAGGG CAGGCGTGCA GGCTGACGAG GACGAAGATG GAGACGAGAA AGATGAGAAG
AAGCACAGAA GTCAACCCAA AGATCTAGCT GCCAAACGGA GGCCCGAAGA AAAAGAACCT
GAAAAAGTAA ATCCACAGAT TTCTGATGAA AAAGACGAGG ATGAAAAGGA GGAGAAGAGA
CGCAAAACGA CCCCCAAAGA ACCAACGGAG AAAAAAATGG CTCGCGCCAA AACAGTCATG
AACTCCAAGA CCCACCCTCC CAAGTGCATT CAGTGCGGGC AGTACCTGGA CGACCCTGAC
CTCAAATATG GGCAGCACCC ACCAGACGCG GTGGATGAGC CACAGATGCT GACAAATGAG
AAGCTGTCCA TCTTTGATGC CAACGAGTCT GGCTTTGAGA GTTATGAGGC GCTTCCCCAG
CACAAACTGA CCTGCTTCAG TGTGTACTGT AAGCACGGTC ACCTGTGTCC CATCGACACC
GGCCTCATCG AGAAGAATAT CGAACTCTTC TTTTCTGGTT CAGCAAAACC AATCTATGAT
GATGACCCAT CTCTTGAAGG TGGTGTTAAT GGCAAAAATC TTGGCCCCAT AAATGAATGG
TGGATCACTG GCTTTGATGG AGGTGAAAAG GCCCTCATCG GCTTCAGCAC CTCATTTGCC
GAATACATTC TGATGGATCC CAGTCCCGAG TATGCGCCCA TATTTGGGCT GATGCAGGAG
AAGATCTACA TCAGCAAGAT TGTGGTGGAG TTCCTGCAGA GCAATTCCGA CTCGACCTAT
GAGGACCTGA TCAACAAGAT CGAGACCACG GTTCCTCCTT CTGGCCTCAA CTTGAACCGC
TTCACAGAGG ACTCCCTCCT GCGACACGCG CAGTTTGTGG TGGAGCAGGT GGAGAGTTAT
GACGAGGCCG GGGACAGTGA TGAGCAGCCC ATCTTCCTGA CACCCTGCAT GCGGGACCTG
ATCAAGCTGG CTGGGGTCAC GCTGGGACAG AGGCGAGCCC AGGCGAGGCG GCAGACCATC
AGGCATTCTA CCAGGGAGAA GGACAGGGGA CCCACGAAAG CCACCACCAC CAAGCTGGTC
TACCAGATCT TCGATACTTT CTTCGCAGAG CAAATTGAAA AGGATGACAG AGAAGACAAG
GAGAACGCCT TTAAGCGCCG GCGATGTGGC GTCTGTGAGG TGTGTCAGCA GCCTGAGTGT
GGGAAATGTA AAGCCTGCAA GGACATGGTT AAATTTGGTG GCAGTGGACG GAGCAAGCAG
GCTTGCCAAG AGCGGAGGTG TCCCAATATG GCCATGAAGG AGGCAGATGA CGATGAGGAA
GTCGATGATA ACATCCCAGA GATGCCGTCA CCCAAAAAAA TGCACCAGGG GAAGAAGAAG
AAACAGAACA AGAATCGCAT CTCTTGGGTC GGAGAAGCCG TCAAGACTGA TGGGAAGAAG
AGTTACTATA AGAAGGTGTG CATTGATGCG GAAACCCTGG AAGTGGGGGA CTGTGTCTCT
GTTATTCCAG ATGATTCCTC AAAACCGCTG TATCTAGCAA GGGTCACGGC GCTGTGGGAG
GACAGCAGCA ACGGGCAGAT GTTTCACGCC CACTGGTTCT GCGCTGGGAC AGACACAGTC
CTCGGGGCCA CGTCGGACCC TCTGGAGCTG TTCTTGGTGG ATGAATGTGA GGACATGCAG
CTTTCATATA TCCACAGCAA AGTGAAAGTC ATCTACAAAG CCCCCTCCGA AAACTGGGCC
ATGGAGGGAG GCATGGATCC CGAGTCCCTG CTGGAGGGGG ACGACGGGAA GACCTACTTC
TACCAGCTGT GGTATGATCA AGACTACGCG AGATTCGAGT CCCCTCCAAA AACCCAGCCA
ACAGAGGACA ACAAGTTCAA ATTCTGTGTG AGCTGTGCCC GTCTGGCTGA GATGAGGCAA
AAAGAAATCC CCAGGGTCCT GGAGCAGCTC GAGGACCTGG ATAGCCGGGT CCTCTACTAC
TCAGCCACCA AGAACGGCAT CCTGTACCGA GTTGGTGATG GTGTGTACCT GCCCCCTGAG
GCCTTCACGT TCAACATCAA GCTGTCCAGT CCCGTGAAAC GCCCACGGAA GGAGCCCGTG
GATGAGGACC TGTACCCAGA GCACTACCGG AAATACTCCG ACTACATCAA AGGCAGCAAC
CTGGATGCCC CTGAGCCCTA CCGAATTGGC CGGATCAAAG AGATCTTCTG TCCCAAGAAG
AGCAACGGCA GGCCCAATGA GACTGACATC AAAATCCGGG TCAACAAGTT CTACAGGCCT
GAGAACACCC ACAAGTCCAC TCCAGCGAGC TACCACGCAG ACATCAACCT GCTCTACTGG
AGCGACGAGG AGGCCGTGGT GGACTTCAAG GCTGTGCAGG GCCGCTGCAC CGTGGAGTAT
GGGGAGGACC TGCCCGAGTG CGTCCAGGTG TACTCCATGG GCGGCCCCAA CCGCTTCTAC
TTCCTCGAGG CCTATAATGC AAAGAGCAAA AGCTTTGAAG ATCCTCCCAA CCATGCCCGT
AGCCCTGGAA ACAAAGGGAA GGGCAAGGGA AAAGGGAAGG GCAAGCCCAA GTCCCAAGCC
TGTGAGCCGA GCGAGCCAGA GATAGAGATC AAGCTGCCCA AGCTGCGGAC CCTGGATGTG
TTTTCTGGCT GCGGGGGGTT GTCGGAGGGA TTCCACCAAG CAGGCATCTC TGACACGCTG
TGGGCCATCG AGATGTGGGA CCCTGCGGCC CAGGCGTTCC GGCTGAACAA CCCCGGCTCC
ACAGTGTTCA CAGAGGACTG CAACATCCTG CTGAAGCTGG TCATGGCTGG GGAGACCACC
AACTCCCGCG GCCAGCGGCT GCCCCAGAAG GGAGACGTGG AGATGCTGTG CGGCGGGCCG
CCCTGCCAGG GCTTCAGCGG CATGAACCGC TTCAATTCGC GCACCTACTC CAAGTTCAAA
AACTCTCTGG TGGTTTCCTT CCTCAGCTAC TGCGACTACT ACCGGCCCCG GTTCTTCCTC
CTGGAGAATG TCAGGAACTT TGTCTCCTTC AAGCGCTCCA TGGTCCTGAA GCTCACCCTC
CGCTGCCTGG TCCGCATGGG CTATCAGTGC ACCTTCGGCG TGCTGCAGGC CGGTCAGTAC
GGCGTGGCCC AGACTAGGAG GCGGGCCATC ATCCTGGCCG CGGCCCCTGG AGAGAAGCTC
CCTCTGTTCC CGGAGCCACT GCACGTGTTT GCTCCCCGGG CCTGCCAGCT GAGCGTGGTG
GTGGATGACA AGAAGTTTGT GAGCAACATA ACCAGGTTGA GCTCGGGTCC TTTCCGGACC
ATCACGGTGC GAGACACGAT GTCCGACCTG CCGGAGGTGC GGAATGGAGC CTCGGCACTG
GAGATCTCCT ACAACGGGGA GCCTCAGTCC TGGTTCCAGA GGCAGCTCCG GGGCGCACAG
TACCAGCCCA TCCTCAGGGA CCACATCTGT AAGGACATGA GTGCATTGGT GGCTGCCCGC
ATGCGGCACA TCCCCTTGGC CCCAGGGTCA GACTGGCGCG ATCTGCCCAA CATCGAGGTG
CGGCTCTCAG ACGGCACCAT GGCCAGGAAG CTGCGGTATA CCCACCATGA CAGGAAGAAC
GGCCGCAGCA GCTCTGGGGC CCTCCGTGGG GTCTGCTCCT GCGTGGAAGG TGGGTCCTCC
GGCAAAGCCT GCGACCCCGC AGCCAGGCAG TTCAACACCC TCATCCCCTG GTGCCTGCCC
CACACCGGGA ACCGGCACAA CCACTGGGCT GGCCTCTATG GAAGGCTCGA GTGGGACGGC
TTCTTCAGCA CAACCGTCAC CAACCCCGAG CCCATGGGCA AGCAGGGCCG CGTGCTCCAC
CCAGAGCAGC ACCGTGTGGT GAGCGTGCGG GAGTGTGCCC GCTCCCAGGG CTTCCCTGAC
ACCTACCGGC TCTTCGGCAA CATCCTGGAC AAGCACCGGC AGGTGGGCAA TGCCGTGCCA
CCGCCCCTGG CCAAAGCCAT TGGCTTGGAG ATCAAGCTTT GTATGTTGGC CAAAGCCCGA
GAGAGTGCCT CAGCTAAAAT AAAGGAGGAG GAAGCTGCTA AGGACTAG

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

RefSeq XP_011526074.1
CDS124..5031
Misc Feature(1)169..438(+)
Misc Feature(2)181..834(+)
Misc Feature(3)1366..1773(+)
Misc Feature(4)2104..2244(+)
Misc Feature(5)2431..2802(+)
Misc Feature(6)3064..3474(+)
Misc Feature(7)3583..4956(+)
Translation

Target ORF information:

RefSeq Version XM_011527772
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011527772

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
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCGTTCA AGAGACCCTC CTGCCTCAGC CTCCCAAGTA
ACTGGGATTA GAGCTGAACC TTCACCTAGC CCCAGGATTA CAAGGAAAAG CACCAGGCAA
ACCACCATCA CATCTCATTT TGCAAAGGGC CCTGCCAAAC GGAAACCTCA GGAAGAGTCT
GAAAGAGCCA AATCGGATGA GTCCATCAAG GAAGAAGACA AAGACCAGGA TGAGAAGAGA
CGTAGAGTTA CATCCAGAGA ACGAGTTGCT AGACCGCTTC CTGCAGAAGA ACCTGAAAGA
GCAAAATCAG GAACGCGCAC TGAAAAGGAA GAAGAAAGAG ATGAAAAAGA AGAAAAGAGA
CTCCGAAGTC AAACCAAAGA ACCAACACCC AAACAGAAAC TGAAGGAGGA GCCGGACAGA
GAAGCCAGGG CAGGCGTGCA GGCTGACGAG GACGAAGATG GAGACGAGAA AGATGAGAAG
AAGCACAGAA GTCAACCCAA AGATCTAGCT GCCAAACGGA GGCCCGAAGA AAAAGAACCT
GAAAAAGTAA ATCCACAGAT TTCTGATGAA AAAGACGAGG ATGAAAAGGA GGAGAAGAGA
CGCAAAACGA CCCCCAAAGA ACCAACGGAG AAAAAAATGG CTCGCGCCAA AACAGTCATG
AACTCCAAGA CCCACCCTCC CAAGTGCATT CAGTGCGGGC AGTACCTGGA CGACCCTGAC
CTCAAATATG GGCAGCACCC ACCAGACGCG GTGGATGAGC CACAGATGCT GACAAATGAG
AAGCTGTCCA TCTTTGATGC CAACGAGTCT GGCTTTGAGA GTTATGAGGC GCTTCCCCAG
CACAAACTGA CCTGCTTCAG TGTGTACTGT AAGCACGGTC ACCTGTGTCC CATCGACACC
GGCCTCATCG AGAAGAATAT CGAACTCTTC TTTTCTGGTT CAGCAAAACC AATCTATGAT
GATGACCCAT CTCTTGAAGG TGGTGTTAAT GGCAAAAATC TTGGCCCCAT AAATGAATGG
TGGATCACTG GCTTTGATGG AGGTGAAAAG GCCCTCATCG GCTTCAGCAC CTCATTTGCC
GAATACATTC TGATGGATCC CAGTCCCGAG TATGCGCCCA TATTTGGGCT GATGCAGGAG
AAGATCTACA TCAGCAAGAT TGTGGTGGAG TTCCTGCAGA GCAATTCCGA CTCGACCTAT
GAGGACCTGA TCAACAAGAT CGAGACCACG GTTCCTCCTT CTGGCCTCAA CTTGAACCGC
TTCACAGAGG ACTCCCTCCT GCGACACGCG CAGTTTGTGG TGGAGCAGGT GGAGAGTTAT
GACGAGGCCG GGGACAGTGA TGAGCAGCCC ATCTTCCTGA CACCCTGCAT GCGGGACCTG
ATCAAGCTGG CTGGGGTCAC GCTGGGACAG AGGCGAGCCC AGGCGAGGCG GCAGACCATC
AGGCATTCTA CCAGGGAGAA GGACAGGGGA CCCACGAAAG CCACCACCAC CAAGCTGGTC
TACCAGATCT TCGATACTTT CTTCGCAGAG CAAATTGAAA AGGATGACAG AGAAGACAAG
GAGAACGCCT TTAAGCGCCG GCGATGTGGC GTCTGTGAGG TGTGTCAGCA GCCTGAGTGT
GGGAAATGTA AAGCCTGCAA GGACATGGTT AAATTTGGTG GCAGTGGACG GAGCAAGCAG
GCTTGCCAAG AGCGGAGGTG TCCCAATATG GCCATGAAGG AGGCAGATGA CGATGAGGAA
GTCGATGATA ACATCCCAGA GATGCCGTCA CCCAAAAAAA TGCACCAGGG GAAGAAGAAG
AAACAGAACA AGAATCGCAT CTCTTGGGTC GGAGAAGCCG TCAAGACTGA TGGGAAGAAG
AGTTACTATA AGAAGGTGTG CATTGATGCG GAAACCCTGG AAGTGGGGGA CTGTGTCTCT
GTTATTCCAG ATGATTCCTC AAAACCGCTG TATCTAGCAA GGGTCACGGC GCTGTGGGAG
GACAGCAGCA ACGGGCAGAT GTTTCACGCC CACTGGTTCT GCGCTGGGAC AGACACAGTC
CTCGGGGCCA CGTCGGACCC TCTGGAGCTG TTCTTGGTGG ATGAATGTGA GGACATGCAG
CTTTCATATA TCCACAGCAA AGTGAAAGTC ATCTACAAAG CCCCCTCCGA AAACTGGGCC
ATGGAGGGAG GCATGGATCC CGAGTCCCTG CTGGAGGGGG ACGACGGGAA GACCTACTTC
TACCAGCTGT GGTATGATCA AGACTACGCG AGATTCGAGT CCCCTCCAAA AACCCAGCCA
ACAGAGGACA ACAAGTTCAA ATTCTGTGTG AGCTGTGCCC GTCTGGCTGA GATGAGGCAA
AAAGAAATCC CCAGGGTCCT GGAGCAGCTC GAGGACCTGG ATAGCCGGGT CCTCTACTAC
TCAGCCACCA AGAACGGCAT CCTGTACCGA GTTGGTGATG GTGTGTACCT GCCCCCTGAG
GCCTTCACGT TCAACATCAA GCTGTCCAGT CCCGTGAAAC GCCCACGGAA GGAGCCCGTG
GATGAGGACC TGTACCCAGA GCACTACCGG AAATACTCCG ACTACATCAA AGGCAGCAAC
CTGGATGCCC CTGAGCCCTA CCGAATTGGC CGGATCAAAG AGATCTTCTG TCCCAAGAAG
AGCAACGGCA GGCCCAATGA GACTGACATC AAAATCCGGG TCAACAAGTT CTACAGGCCT
GAGAACACCC ACAAGTCCAC TCCAGCGAGC TACCACGCAG ACATCAACCT GCTCTACTGG
AGCGACGAGG AGGCCGTGGT GGACTTCAAG GCTGTGCAGG GCCGCTGCAC CGTGGAGTAT
GGGGAGGACC TGCCCGAGTG CGTCCAGGTG TACTCCATGG GCGGCCCCAA CCGCTTCTAC
TTCCTCGAGG CCTATAATGC AAAGAGCAAA AGCTTTGAAG ATCCTCCCAA CCATGCCCGT
AGCCCTGGAA ACAAAGGGAA GGGCAAGGGA AAAGGGAAGG GCAAGCCCAA GTCCCAAGCC
TGTGAGCCGA GCGAGCCAGA GATAGAGATC AAGCTGCCCA AGCTGCGGAC CCTGGATGTG
TTTTCTGGCT GCGGGGGGTT GTCGGAGGGA TTCCACCAAG CAGGCATCTC TGACACGCTG
TGGGCCATCG AGATGTGGGA CCCTGCGGCC CAGGCGTTCC GGCTGAACAA CCCCGGCTCC
ACAGTGTTCA CAGAGGACTG CAACATCCTG CTGAAGCTGG TCATGGCTGG GGAGACCACC
AACTCCCGCG GCCAGCGGCT GCCCCAGAAG GGAGACGTGG AGATGCTGTG CGGCGGGCCG
CCCTGCCAGG GCTTCAGCGG CATGAACCGC TTCAATTCGC GCACCTACTC CAAGTTCAAA
AACTCTCTGG TGGTTTCCTT CCTCAGCTAC TGCGACTACT ACCGGCCCCG GTTCTTCCTC
CTGGAGAATG TCAGGAACTT TGTCTCCTTC AAGCGCTCCA TGGTCCTGAA GCTCACCCTC
CGCTGCCTGG TCCGCATGGG CTATCAGTGC ACCTTCGGCG TGCTGCAGGC CGGTCAGTAC
GGCGTGGCCC AGACTAGGAG GCGGGCCATC ATCCTGGCCG CGGCCCCTGG AGAGAAGCTC
CCTCTGTTCC CGGAGCCACT GCACGTGTTT GCTCCCCGGG CCTGCCAGCT GAGCGTGGTG
GTGGATGACA AGAAGTTTGT GAGCAACATA ACCAGGTTGA GCTCGGGTCC TTTCCGGACC
ATCACGGTGC GAGACACGAT GTCCGACCTG CCGGAGGTGC GGAATGGAGC CTCGGCACTG
GAGATCTCCT ACAACGGGGA GCCTCAGTCC TGGTTCCAGA GGCAGCTCCG GGGCGCACAG
TACCAGCCCA TCCTCAGGGA CCACATCTGT AAGGACATGA GTGCATTGGT GGCTGCCCGC
ATGCGGCACA TCCCCTTGGC CCCAGGGTCA GACTGGCGCG ATCTGCCCAA CATCGAGGTG
CGGCTCTCAG ACGGCACCAT GGCCAGGAAG CTGCGGTATA CCCACCATGA CAGGAAGAAC
GGCCGCAGCA GCTCTGGGGC CCTCCGTGGG GTCTGCTCCT GCGTGGAAGG TGGGTCCTCC
GGCAAAGCCT GCGACCCCGC AGCCAGGCAG TTCAACACCC TCATCCCCTG GTGCCTGCCC
CACACCGGGA ACCGGCACAA CCACTGGGCT GGCCTCTATG GAAGGCTCGA GTGGGACGGC
TTCTTCAGCA CAACCGTCAC CAACCCCGAG CCCATGGGCA AGCAGGGCCG CGTGCTCCAC
CCAGAGCAGC ACCGTGTGGT GAGCGTGCGG GAGTGTGCCC GCTCCCAGGG CTTCCCTGAC
ACCTACCGGC TCTTCGGCAA CATCCTGGAC AAGCACCGGC AGGTGGGCAA TGCCGTGCCA
CCGCCCCTGG CCAAAGCCAT TGGCTTGGAG ATCAAGCTTT GTATGTTGGC CAAAGCCCGA
GAGAGTGCCT CAGCTAAAAT AAAGGAGGAG GAAGCTGCTA AGGACTAG

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

CloneID OHu57334
Clone ID Related Accession (Same CDS sequence) XM_011527773
Accession Version XM_011527773.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4860bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product DNA (cytosine-5)-methyltransferase 1 isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_011295.12) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCCTGAA CCTTCACCTA GCCCCAGGAT TACAAGGAAA
AGCACCAGGC AAACCACCAT CACATCTCAT TTTGCAAAGG GCCCTGCCAA ACGGAAACCT
CAGGAAGAGT CTGAAAGAGC CAAATCGGAT GAGTCCATCA AGGAAGAAGA CAAAGACCAG
GATGAGAAGA GACGTAGAGT TACATCCAGA GAACGAGTTG CTAGACCGCT TCCTGCAGAA
GAACCTGAAA GAGCAAAATC AGGAACGCGC ACTGAAAAGG AAGAAGAAAG AGATGAAAAA
GAAGAAAAGA GACTCCGAAG TCAAACCAAA GAACCAACAC CCAAACAGAA ACTGAAGGAG
GAGCCGGACA GAGAAGCCAG GGCAGGCGTG CAGGCTGACG AGGACGAAGA TGGAGACGAG
AAAGATGAGA AGAAGCACAG AAGTCAACCC AAAGATCTAG CTGCCAAACG GAGGCCCGAA
GAAAAAGAAC CTGAAAAAGT AAATCCACAG ATTTCTGATG AAAAAGACGA GGATGAAAAG
GAGGAGAAGA GACGCAAAAC GACCCCCAAA GAACCAACGG AGAAAAAAAT GGCTCGCGCC
AAAACAGTCA TGAACTCCAA GACCCACCCT CCCAAGTGCA TTCAGTGCGG GCAGTACCTG
GACGACCCTG ACCTCAAATA TGGGCAGCAC CCACCAGACG CGGTGGATGA GCCACAGATG
CTGACAAATG AGAAGCTGTC CATCTTTGAT GCCAACGAGT CTGGCTTTGA GAGTTATGAG
GCGCTTCCCC AGCACAAACT GACCTGCTTC AGTGTGTACT GTAAGCACGG TCACCTGTGT
CCCATCGACA CCGGCCTCAT CGAGAAGAAT ATCGAACTCT TCTTTTCTGG TTCAGCAAAA
CCAATCTATG ATGATGACCC ATCTCTTGAA GGTGGTGTTA ATGGCAAAAA TCTTGGCCCC
ATAAATGAAT GGTGGATCAC TGGCTTTGAT GGAGGTGAAA AGGCCCTCAT CGGCTTCAGC
ACCTCATTTG CCGAATACAT TCTGATGGAT CCCAGTCCCG AGTATGCGCC CATATTTGGG
CTGATGCAGG AGAAGATCTA CATCAGCAAG ATTGTGGTGG AGTTCCTGCA GAGCAATTCC
GACTCGACCT ATGAGGACCT GATCAACAAG ATCGAGACCA CGGTTCCTCC TTCTGGCCTC
AACTTGAACC GCTTCACAGA GGACTCCCTC CTGCGACACG CGCAGTTTGT GGTGGAGCAG
GTGGAGAGTT ATGACGAGGC CGGGGACAGT GATGAGCAGC CCATCTTCCT GACACCCTGC
ATGCGGGACC TGATCAAGCT GGCTGGGGTC ACGCTGGGAC AGAGGCGAGC CCAGGCGAGG
CGGCAGACCA TCAGGCATTC TACCAGGGAG AAGGACAGGG GACCCACGAA AGCCACCACC
ACCAAGCTGG TCTACCAGAT CTTCGATACT TTCTTCGCAG AGCAAATTGA AAAGGATGAC
AGAGAAGACA AGGAGAACGC CTTTAAGCGC CGGCGATGTG GCGTCTGTGA GGTGTGTCAG
CAGCCTGAGT GTGGGAAATG TAAAGCCTGC AAGGACATGG TTAAATTTGG TGGCAGTGGA
CGGAGCAAGC AGGCTTGCCA AGAGCGGAGG TGTCCCAATA TGGCCATGAA GGAGGCAGAT
GACGATGAGG AAGTCGATGA TAACATCCCA GAGATGCCGT CACCCAAAAA AATGCACCAG
GGGAAGAAGA AGAAACAGAA CAAGAATCGC ATCTCTTGGG TCGGAGAAGC CGTCAAGACT
GATGGGAAGA AGAGTTACTA TAAGAAGGTG TGCATTGATG CGGAAACCCT GGAAGTGGGG
GACTGTGTCT CTGTTATTCC AGATGATTCC TCAAAACCGC TGTATCTAGC AAGGGTCACG
GCGCTGTGGG AGGACAGCAG CAACGGGCAG ATGTTTCACG CCCACTGGTT CTGCGCTGGG
ACAGACACAG TCCTCGGGGC CACGTCGGAC CCTCTGGAGC TGTTCTTGGT GGATGAATGT
GAGGACATGC AGCTTTCATA TATCCACAGC AAAGTGAAAG TCATCTACAA AGCCCCCTCC
GAAAACTGGG CCATGGAGGG AGGCATGGAT CCCGAGTCCC TGCTGGAGGG GGACGACGGG
AAGACCTACT TCTACCAGCT GTGGTATGAT CAAGACTACG CGAGATTCGA GTCCCCTCCA
AAAACCCAGC CAACAGAGGA CAACAAGTTC AAATTCTGTG TGAGCTGTGC CCGTCTGGCT
GAGATGAGGC AAAAAGAAAT CCCCAGGGTC CTGGAGCAGC TCGAGGACCT GGATAGCCGG
GTCCTCTACT ACTCAGCCAC CAAGAACGGC ATCCTGTACC GAGTTGGTGA TGGTGTGTAC
CTGCCCCCTG AGGCCTTCAC GTTCAACATC AAGCTGTCCA GTCCCGTGAA ACGCCCACGG
AAGGAGCCCG TGGATGAGGA CCTGTACCCA GAGCACTACC GGAAATACTC CGACTACATC
AAAGGCAGCA ACCTGGATGC CCCTGAGCCC TACCGAATTG GCCGGATCAA AGAGATCTTC
TGTCCCAAGA AGAGCAACGG CAGGCCCAAT GAGACTGACA TCAAAATCCG GGTCAACAAG
TTCTACAGGC CTGAGAACAC CCACAAGTCC ACTCCAGCGA GCTACCACGC AGACATCAAC
CTGCTCTACT GGAGCGACGA GGAGGCCGTG GTGGACTTCA AGGCTGTGCA GGGCCGCTGC
ACCGTGGAGT ATGGGGAGGA CCTGCCCGAG TGCGTCCAGG TGTACTCCAT GGGCGGCCCC
AACCGCTTCT ACTTCCTCGA GGCCTATAAT GCAAAGAGCA AAAGCTTTGA AGATCCTCCC
AACCATGCCC GTAGCCCTGG AAACAAAGGG AAGGGCAAGG GAAAAGGGAA GGGCAAGCCC
AAGTCCCAAG CCTGTGAGCC GAGCGAGCCA GAGATAGAGA TCAAGCTGCC CAAGCTGCGG
ACCCTGGATG TGTTTTCTGG CTGCGGGGGG TTGTCGGAGG GATTCCACCA AGCAGGCATC
TCTGACACGC TGTGGGCCAT CGAGATGTGG GACCCTGCGG CCCAGGCGTT CCGGCTGAAC
AACCCCGGCT CCACAGTGTT CACAGAGGAC TGCAACATCC TGCTGAAGCT GGTCATGGCT
GGGGAGACCA CCAACTCCCG CGGCCAGCGG CTGCCCCAGA AGGGAGACGT GGAGATGCTG
TGCGGCGGGC CGCCCTGCCA GGGCTTCAGC GGCATGAACC GCTTCAATTC GCGCACCTAC
TCCAAGTTCA AAAACTCTCT GGTGGTTTCC TTCCTCAGCT ACTGCGACTA CTACCGGCCC
CGGTTCTTCC TCCTGGAGAA TGTCAGGAAC TTTGTCTCCT TCAAGCGCTC CATGGTCCTG
AAGCTCACCC TCCGCTGCCT GGTCCGCATG GGCTATCAGT GCACCTTCGG CGTGCTGCAG
GCCGGTCAGT ACGGCGTGGC CCAGACTAGG AGGCGGGCCA TCATCCTGGC CGCGGCCCCT
GGAGAGAAGC TCCCTCTGTT CCCGGAGCCA CTGCACGTGT TTGCTCCCCG GGCCTGCCAG
CTGAGCGTGG TGGTGGATGA CAAGAAGTTT GTGAGCAACA TAACCAGGTT GAGCTCGGGT
CCTTTCCGGA CCATCACGGT GCGAGACACG ATGTCCGACC TGCCGGAGGT GCGGAATGGA
GCCTCGGCAC TGGAGATCTC CTACAACGGG GAGCCTCAGT CCTGGTTCCA GAGGCAGCTC
CGGGGCGCAC AGTACCAGCC CATCCTCAGG GACCACATCT GTAAGGACAT GAGTGCATTG
GTGGCTGCCC GCATGCGGCA CATCCCCTTG GCCCCAGGGT CAGACTGGCG CGATCTGCCC
AACATCGAGG TGCGGCTCTC AGACGGCACC ATGGCCAGGA AGCTGCGGTA TACCCACCAT
GACAGGAAGA ACGGCCGCAG CAGCTCTGGG GCCCTCCGTG GGGTCTGCTC CTGCGTGGAA
GGTGGGTCCT CCGGCAAAGC CTGCGACCCC GCAGCCAGGC AGTTCAACAC CCTCATCCCC
TGGTGCCTGC CCCACACCGG GAACCGGCAC AACCACTGGG CTGGCCTCTA TGGAAGGCTC
GAGTGGGACG GCTTCTTCAG CACAACCGTC ACCAACCCCG AGCCCATGGG CAAGCAGGGC
CGCGTGCTCC ACCCAGAGCA GCACCGTGTG GTGAGCGTGC GGGAGTGTGC CCGCTCCCAG
GGCTTCCCTG ACACCTACCG GCTCTTCGGC AACATCCTGG ACAAGCACCG GCAGGTGGGC
AATGCCGTGC CACCGCCCCT GGCCAAAGCC ATTGGCTTGG AGATCAAGCT TTGTATGTTG
GCCAAAGCCC GAGAGAGTGC CTCAGCTAAA ATAAAGGAGG AGGAAGCTGC TAAGGACTAG

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

RefSeq XP_011526075.1
CDS119..4978
Misc Feature(1)164..433(+)
Misc Feature(2)1313..1720(+)
Misc Feature(3)2051..2191(+)
Misc Feature(4)2378..2749(+)
Misc Feature(5)3011..3421(+)
Misc Feature(6)3530..4903(+)
Translation

Target ORF information:

RefSeq Version XM_011527773
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011527773

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
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCCTGAA CCTTCACCTA GCCCCAGGAT TACAAGGAAA
AGCACCAGGC AAACCACCAT CACATCTCAT TTTGCAAAGG GCCCTGCCAA ACGGAAACCT
CAGGAAGAGT CTGAAAGAGC CAAATCGGAT GAGTCCATCA AGGAAGAAGA CAAAGACCAG
GATGAGAAGA GACGTAGAGT TACATCCAGA GAACGAGTTG CTAGACCGCT TCCTGCAGAA
GAACCTGAAA GAGCAAAATC AGGAACGCGC ACTGAAAAGG AAGAAGAAAG AGATGAAAAA
GAAGAAAAGA GACTCCGAAG TCAAACCAAA GAACCAACAC CCAAACAGAA ACTGAAGGAG
GAGCCGGACA GAGAAGCCAG GGCAGGCGTG CAGGCTGACG AGGACGAAGA TGGAGACGAG
AAAGATGAGA AGAAGCACAG AAGTCAACCC AAAGATCTAG CTGCCAAACG GAGGCCCGAA
GAAAAAGAAC CTGAAAAAGT AAATCCACAG ATTTCTGATG AAAAAGACGA GGATGAAAAG
GAGGAGAAGA GACGCAAAAC GACCCCCAAA GAACCAACGG AGAAAAAAAT GGCTCGCGCC
AAAACAGTCA TGAACTCCAA GACCCACCCT CCCAAGTGCA TTCAGTGCGG GCAGTACCTG
GACGACCCTG ACCTCAAATA TGGGCAGCAC CCACCAGACG CGGTGGATGA GCCACAGATG
CTGACAAATG AGAAGCTGTC CATCTTTGAT GCCAACGAGT CTGGCTTTGA GAGTTATGAG
GCGCTTCCCC AGCACAAACT GACCTGCTTC AGTGTGTACT GTAAGCACGG TCACCTGTGT
CCCATCGACA CCGGCCTCAT CGAGAAGAAT ATCGAACTCT TCTTTTCTGG TTCAGCAAAA
CCAATCTATG ATGATGACCC ATCTCTTGAA GGTGGTGTTA ATGGCAAAAA TCTTGGCCCC
ATAAATGAAT GGTGGATCAC TGGCTTTGAT GGAGGTGAAA AGGCCCTCAT CGGCTTCAGC
ACCTCATTTG CCGAATACAT TCTGATGGAT CCCAGTCCCG AGTATGCGCC CATATTTGGG
CTGATGCAGG AGAAGATCTA CATCAGCAAG ATTGTGGTGG AGTTCCTGCA GAGCAATTCC
GACTCGACCT ATGAGGACCT GATCAACAAG ATCGAGACCA CGGTTCCTCC TTCTGGCCTC
AACTTGAACC GCTTCACAGA GGACTCCCTC CTGCGACACG CGCAGTTTGT GGTGGAGCAG
GTGGAGAGTT ATGACGAGGC CGGGGACAGT GATGAGCAGC CCATCTTCCT GACACCCTGC
ATGCGGGACC TGATCAAGCT GGCTGGGGTC ACGCTGGGAC AGAGGCGAGC CCAGGCGAGG
CGGCAGACCA TCAGGCATTC TACCAGGGAG AAGGACAGGG GACCCACGAA AGCCACCACC
ACCAAGCTGG TCTACCAGAT CTTCGATACT TTCTTCGCAG AGCAAATTGA AAAGGATGAC
AGAGAAGACA AGGAGAACGC CTTTAAGCGC CGGCGATGTG GCGTCTGTGA GGTGTGTCAG
CAGCCTGAGT GTGGGAAATG TAAAGCCTGC AAGGACATGG TTAAATTTGG TGGCAGTGGA
CGGAGCAAGC AGGCTTGCCA AGAGCGGAGG TGTCCCAATA TGGCCATGAA GGAGGCAGAT
GACGATGAGG AAGTCGATGA TAACATCCCA GAGATGCCGT CACCCAAAAA AATGCACCAG
GGGAAGAAGA AGAAACAGAA CAAGAATCGC ATCTCTTGGG TCGGAGAAGC CGTCAAGACT
GATGGGAAGA AGAGTTACTA TAAGAAGGTG TGCATTGATG CGGAAACCCT GGAAGTGGGG
GACTGTGTCT CTGTTATTCC AGATGATTCC TCAAAACCGC TGTATCTAGC AAGGGTCACG
GCGCTGTGGG AGGACAGCAG CAACGGGCAG ATGTTTCACG CCCACTGGTT CTGCGCTGGG
ACAGACACAG TCCTCGGGGC CACGTCGGAC CCTCTGGAGC TGTTCTTGGT GGATGAATGT
GAGGACATGC AGCTTTCATA TATCCACAGC AAAGTGAAAG TCATCTACAA AGCCCCCTCC
GAAAACTGGG CCATGGAGGG AGGCATGGAT CCCGAGTCCC TGCTGGAGGG GGACGACGGG
AAGACCTACT TCTACCAGCT GTGGTATGAT CAAGACTACG CGAGATTCGA GTCCCCTCCA
AAAACCCAGC CAACAGAGGA CAACAAGTTC AAATTCTGTG TGAGCTGTGC CCGTCTGGCT
GAGATGAGGC AAAAAGAAAT CCCCAGGGTC CTGGAGCAGC TCGAGGACCT GGATAGCCGG
GTCCTCTACT ACTCAGCCAC CAAGAACGGC ATCCTGTACC GAGTTGGTGA TGGTGTGTAC
CTGCCCCCTG AGGCCTTCAC GTTCAACATC AAGCTGTCCA GTCCCGTGAA ACGCCCACGG
AAGGAGCCCG TGGATGAGGA CCTGTACCCA GAGCACTACC GGAAATACTC CGACTACATC
AAAGGCAGCA ACCTGGATGC CCCTGAGCCC TACCGAATTG GCCGGATCAA AGAGATCTTC
TGTCCCAAGA AGAGCAACGG CAGGCCCAAT GAGACTGACA TCAAAATCCG GGTCAACAAG
TTCTACAGGC CTGAGAACAC CCACAAGTCC ACTCCAGCGA GCTACCACGC AGACATCAAC
CTGCTCTACT GGAGCGACGA GGAGGCCGTG GTGGACTTCA AGGCTGTGCA GGGCCGCTGC
ACCGTGGAGT ATGGGGAGGA CCTGCCCGAG TGCGTCCAGG TGTACTCCAT GGGCGGCCCC
AACCGCTTCT ACTTCCTCGA GGCCTATAAT GCAAAGAGCA AAAGCTTTGA AGATCCTCCC
AACCATGCCC GTAGCCCTGG AAACAAAGGG AAGGGCAAGG GAAAAGGGAA GGGCAAGCCC
AAGTCCCAAG CCTGTGAGCC GAGCGAGCCA GAGATAGAGA TCAAGCTGCC CAAGCTGCGG
ACCCTGGATG TGTTTTCTGG CTGCGGGGGG TTGTCGGAGG GATTCCACCA AGCAGGCATC
TCTGACACGC TGTGGGCCAT CGAGATGTGG GACCCTGCGG CCCAGGCGTT CCGGCTGAAC
AACCCCGGCT CCACAGTGTT CACAGAGGAC TGCAACATCC TGCTGAAGCT GGTCATGGCT
GGGGAGACCA CCAACTCCCG CGGCCAGCGG CTGCCCCAGA AGGGAGACGT GGAGATGCTG
TGCGGCGGGC CGCCCTGCCA GGGCTTCAGC GGCATGAACC GCTTCAATTC GCGCACCTAC
TCCAAGTTCA AAAACTCTCT GGTGGTTTCC TTCCTCAGCT ACTGCGACTA CTACCGGCCC
CGGTTCTTCC TCCTGGAGAA TGTCAGGAAC TTTGTCTCCT TCAAGCGCTC CATGGTCCTG
AAGCTCACCC TCCGCTGCCT GGTCCGCATG GGCTATCAGT GCACCTTCGG CGTGCTGCAG
GCCGGTCAGT ACGGCGTGGC CCAGACTAGG AGGCGGGCCA TCATCCTGGC CGCGGCCCCT
GGAGAGAAGC TCCCTCTGTT CCCGGAGCCA CTGCACGTGT TTGCTCCCCG GGCCTGCCAG
CTGAGCGTGG TGGTGGATGA CAAGAAGTTT GTGAGCAACA TAACCAGGTT GAGCTCGGGT
CCTTTCCGGA CCATCACGGT GCGAGACACG ATGTCCGACC TGCCGGAGGT GCGGAATGGA
GCCTCGGCAC TGGAGATCTC CTACAACGGG GAGCCTCAGT CCTGGTTCCA GAGGCAGCTC
CGGGGCGCAC AGTACCAGCC CATCCTCAGG GACCACATCT GTAAGGACAT GAGTGCATTG
GTGGCTGCCC GCATGCGGCA CATCCCCTTG GCCCCAGGGT CAGACTGGCG CGATCTGCCC
AACATCGAGG TGCGGCTCTC AGACGGCACC ATGGCCAGGA AGCTGCGGTA TACCCACCAT
GACAGGAAGA ACGGCCGCAG CAGCTCTGGG GCCCTCCGTG GGGTCTGCTC CTGCGTGGAA
GGTGGGTCCT CCGGCAAAGC CTGCGACCCC GCAGCCAGGC AGTTCAACAC CCTCATCCCC
TGGTGCCTGC CCCACACCGG GAACCGGCAC AACCACTGGG CTGGCCTCTA TGGAAGGCTC
GAGTGGGACG GCTTCTTCAG CACAACCGTC ACCAACCCCG AGCCCATGGG CAAGCAGGGC
CGCGTGCTCC ACCCAGAGCA GCACCGTGTG GTGAGCGTGC GGGAGTGTGC CCGCTCCCAG
GGCTTCCCTG ACACCTACCG GCTCTTCGGC AACATCCTGG ACAAGCACCG GCAGGTGGGC
AATGCCGTGC CACCGCCCCT GGCCAAAGCC ATTGGCTTGG AGATCAAGCT TTGTATGTTG
GCCAAAGCCC GAGAGAGTGC CTCAGCTAAA ATAAAGGAGG AGGAAGCTGC TAAGGACTAG

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

CloneID OHu57335
Clone ID Related Accession (Same CDS sequence) XM_011527774
Accession Version XM_011527774.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4497bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product DNA (cytosine-5)-methyltransferase 1 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_011295.12) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGCAGATG CCAACAGCCC CCCCAAACCC CTTTCCAAAC CTCGCACGCC CAGGAGGAGC 
AAGTCCGATG GAGAGGCTAA GCCTGAACCT TCACCTAGCC CCAGGATTAC AAGGAAAAGC
ACCAGGCAAA CCACCATCAC ATCTCATTTT GCAAAGGGCC CTGCCAAACG GAAACCTCAG
GAAGAGTCTG AAAGAGCCAA ATCGGATGAG TCCATCAAGG AAGAAGACAA AGACCAGGAT
GAGAAGAGAC GTAGAGTTAC ATCCAGAGAA CGAGTTGCTA GACCGCTTCC TGCAGAAGAA
CCTGAAAGAG CAAAATCAGG AACGCGCACT GAAAAGGAAG AAGAAAGAGA TGAAAAAGAA
GAAAAGAGAC TCCGAAGTCA AACCAAAGAA CCAACACCCA AACAGAAACT GAAGGAGGAG
CCGGACAGAG AAGCCAGGGC AGGCGTGCAG GCTGACGAGG ACGAAGATGG AGACGAGAAA
GATGAGAAGA AGCACAGAAG TCAACCCAAA GATCTAGCTG CCAAACGGAG GCCCGAAGAA
AAAGAACCTG AAAAAGTAAA TCCACAGATT TCTGATGAAA AAGACGAGGA TGAAAAGGAG
GAGAAGAGAC GCAAAACGAC CCCCAAAGAA CCAACGGAGA AAAAAATGGC TCGCGCCAAA
ACAGTCATGA ACTCCAAGAC CCACCCTCCC AAGTGCATTC AGTGCGGGCA GTACCTGGAC
GACCCTGACC TCAAATATGG GCAGCACCCA CCAGACGCGG TGGATGAGCC ACAGATGCTG
ACAAATGAGA AGCTGTCCAT CTTTGATGCC AACGAGTCTG GCTTTGAGAG TTATGAGGCG
CTTCCCCAGC ACAAACTGAC CTGCTTCAGT GTGTACTGTA AGCACGGTCA CCTGTGTCCC
ATCGACACCG GCCTCATCGA GAAGAATATC GAACTCTTCT TTTCTGGTTC AGCAAAACCA
ATCTATGATG ATGACCCATC TCTTGAAGGT GGTGTTAATG GCAAAAATCT TGGCCCCATA
AATGAATGGT GGATCACTGG CTTTGATGGA GGTGAAAAGG CCCTCATCGG CTTCAGCACC
TCATTTGCCG AATACATTCT GATGGATCCC AGTCCCGAGT ATGCGCCCAT ATTTGGGCTG
ATGCAGGAGA AGATCTACAT CAGCAAGATT GTGGTGGAGT TCCTGCAGAG CAATTCCGAC
TCGACCTATG AGGACCTGAT CAACAAGATC GAGACCACGG TTCCTCCTTC TGGCCTCAAC
TTGAACCGCT TCACAGAGGA CTCCCTCCTG CGACACGCGC AGTTTGTGGT GGAGCAGGTG
GAGAGTTATG ACGAGGCCGG GGACAGTGAT GAGCAGCCCA TCTTCCTGAC ACCCTGCATG
CGGGACCTGA TCAAGCTGGC TGGGGTCACG CTGGGACAGA GGCGAGCCCA GGCGAGGCGG
CAGACCATCA GGCATTCTAC CAGGGAGAAG GACAGGGGAC CCACGAAAGC CACCACCACC
AAGCTGGTCT ACCAGATCTT CGATACTTTC TTCGCAGAGC AAATTGAAAA GGATGACAGA
GAAGACAAGG AGAACGCCTT TAAGCGCCGG CGATGTGGCG TCTGTGAGGT GTGTCAGCAG
CCTGAGTGTG GGAAATGTAA AGCCTGCAAG GACATGGTTA AATTTGGTGG CAGTGGACGG
AGCAAGCAGG CTTGCCAAGA GCGGAGGTGT CCCAATATGG CCATGAAGGA GGCAGATGAC
GATGAGGAAG TCGATGATAA CATCCCAGAG ATGCCGTCAC CCAAAAAAAT GCACCAGGGG
AAGAAGAAGA AACAGAACAA GAATCGCATC TCTTGGGTCG GAGAAGCCGT CAAGACTGAT
GGGAAGAAGA GTTACTATAA GAAGGTGTGC ATTGATGCGG AAACCCTGGA AGTGGGGGAC
TGTGTCTCTG TTATTCCAGA TGATTCCTCA AAACCGCTGT ATCTAGCAAG GGTCACGGCG
CTGTGGGAGG ACAGCAGCAA CGGGCAGATG TTTCACGCCC ACTGGTTCTG CGCTGGGACA
GACACAGTCC TCGGGGCCAC GTCGGACCCT CTGGAGCTGT TCTTGGTGGA TGAATGTGAG
GACATGCAGC TTTCATATAT CCACAGCAAA GTGAAAGTCA TCTACAAAGC CCCCTCCGAA
AACTGGGCCA TGGAGGGAGG CATGGATCCC GAGTCCCTGC TGGAGGGGGA CGACGGGAAG
ACCTACTTCT ACCAGCTGTG GTATGATCAA GACTACGCGA GATTCGAGTC CCCTCCAAAA
ACCCAGCCAA CAGAGGACAA CAAGTTCAAA TTCTGTGTGA GCTGTGCCCG TCTGGCTGAG
ATGAGGCAAA AAGAAATCCC CAGGGTCCTG GAGCAGCTCG AGGACCTGGA TAGCCGGGTC
CTCTACTACT CAGCCACCAA GAACGGCATC CTGTACCGAG TTGGTGATGG TGTGTACCTG
CCCCCTGAGG CCTTCACGTT CAACATCAAG CTGTCCAGTC CCGTGAAACG CCCACGGAAG
GAGCCCGTGG ATGAGGACCT GTACCCAGAG CACTACCGGA AATACTCCGA CTACATCAAA
GGCAGCAACC TGGATGCCCC TGAGCCCTAC CGAATTGGCC GGATCAAAGA GATCTTCTGT
CCCAAGAAGA GCAACGGCAG GCCCAATGAG ACTGACATCA AAATCCGGGT CAACAAGTTC
TACAGGCCTG AGAACACCCA CAAGTCCACT CCAGCGAGCT ACCACGCAGA CATCAACCTG
CTCTACTGGA GCGACGAGGA GGCCGTGGTG GACTTCAAGG CTGTGCAGGG CCGCTGCACC
GTGGAGTATG GGGAGGACCT GCCCGAGTGC GTCCAGGTGT ACTCCATGGG CGGCCCCAAC
CGCTTCTACT TCCTCGAGGC CTATAATGCA AAGAGCAAAA GCTTTGAAGA TCCTCCCAAC
CATGCCCGTA GCCCTGGAAA CAAAGGGAAG GGCAAGGGAA AAGGGAAGGG CAAGCCCAAG
TCCCAAGCCT GTGAGCCGAG CGAGCCAGAG ATAGAGATCA AGCTGCCCAA GCTGCGGACC
CTGGATGTGT TTTCTGGCTG CGGGGGGTTG TCGGAGGGAT TCCACCAAGC AGGCATCTCT
GACACGCTGT GGGCCATCGA GATGTGGGAC CCTGCGGCCC AGGCGTTCCG GCTGAACAAC
CCCGGCTCCA CAGTGTTCAC AGAGGACTGC AACATCCTGC TGAAGCTGGT CATGGCTGGG
GAGACCACCA ACTCCCGCGG CCAGCGGCTG CCCCAGAAGG GAGACGTGGA GATGCTGTGC
GGCGGGCCGC CCTGCCAGGG CTTCAGCGGC ATGAACCGCT TCAATTCGCG CACCTACTCC
AAGTTCAAAA ACTCTCTGGT GGTTTCCTTC CTCAGCTACT GCGACTACTA CCGGCCCCGG
TTCTTCCTCC TGGAGAATGT CAGGAACTTT GTCTCCTTCA AGCGCTCCAT GGTCCTGAAG
CTCACCCTCC GCTGCCTGGT CCGCATGGGC TATCAGTGCA CCTTCGGCGT GCTGCAGGCC
GGTCAGTACG GCGTGGCCCA GACTAGGAGG CGGGCCATCA TCCTGGCCGC GGCCCCTGGA
GAGAAGCTCC CTCTGTTCCC GGAGCCACTG CACGTGTTTG CTCCCCGGGC CTGCCAGCTG
AGCGTGGTGG TGGATGACAA GAAGTTTGTG AGCAACATAA CCAGGTTGAG CTCGGGTCCT
TTCCGGACCA TCACGGTGCG AGACACGATG TCCGACCTGC CGGAGGTGCG GAATGGAGCC
TCGGCACTGG AGATCTCCTA CAACGGGGAG CCTCAGTCCT GGTTCCAGAG GCAGCTCCGG
GGCGCACAGT ACCAGCCCAT CCTCAGGGAC CACATCTGTA AGGACATGAG TGCATTGGTG
GCTGCCCGCA TGCGGCACAT CCCCTTGGCC CCAGGGTCAG ACTGGCGCGA TCTGCCCAAC
ATCGAGGTGC GGCTCTCAGA CGGCACCATG GCCAGGAAGC TGCGGTATAC CCACCATGAC
AGGAAGAACG GCCGCAGCAG CTCTGGGGCC CTCCGTGGGG TCTGCTCCTG CGTGGAAGGT
GGGTCCTCCG GCAAAGCCTG CGACCCCGCA GCCAGGCAGT TCAACACCCT CATCCCCTGG
TGCCTGCCCC ACACCGGGAA CCGGCACAAC CACTGGGCTG GCCTCTATGG AAGGCTCGAG
TGGGACGGCT TCTTCAGCAC AACCGTCACC AACCCCGAGC CCATGGGCAA GCAGGGCCGC
GTGCTCCACC CAGAGCAGCA CCGTGTGGTG AGCGTGCGGG AGTGTGCCCG CTCCCAGGGC
TTCCCTGACA CCTACCGGCT CTTCGGCAAC ATCCTGGACA AGCACCGGCA GGTGGGCAAT
GCCGTGCCAC CGCCCCTGGC CAAAGCCATT GGCTTGGAGA TCAAGCTTTG TATGTTGGCC
AAAGCCCGAG AGAGTGCCTC AGCTAAAATA AAGGAGGAGG AAGCTGCTAA GGACTAG

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

RefSeq XP_011526076.1
CDS378..4874
Misc Feature(1)1209..1616(+)
Misc Feature(2)1947..2087(+)
Misc Feature(3)2274..2645(+)
Misc Feature(4)2907..3317(+)
Misc Feature(5)3426..4799(+)
Translation

Target ORF information:

RefSeq Version XM_011527774
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011527774

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
ATGGCAGATG CCAACAGCCC CCCCAAACCC CTTTCCAAAC CTCGCACGCC CAGGAGGAGC 
AAGTCCGATG GAGAGGCTAA GCCTGAACCT TCACCTAGCC CCAGGATTAC AAGGAAAAGC
ACCAGGCAAA CCACCATCAC ATCTCATTTT GCAAAGGGCC CTGCCAAACG GAAACCTCAG
GAAGAGTCTG AAAGAGCCAA ATCGGATGAG TCCATCAAGG AAGAAGACAA AGACCAGGAT
GAGAAGAGAC GTAGAGTTAC ATCCAGAGAA CGAGTTGCTA GACCGCTTCC TGCAGAAGAA
CCTGAAAGAG CAAAATCAGG AACGCGCACT GAAAAGGAAG AAGAAAGAGA TGAAAAAGAA
GAAAAGAGAC TCCGAAGTCA AACCAAAGAA CCAACACCCA AACAGAAACT GAAGGAGGAG
CCGGACAGAG AAGCCAGGGC AGGCGTGCAG GCTGACGAGG ACGAAGATGG AGACGAGAAA
GATGAGAAGA AGCACAGAAG TCAACCCAAA GATCTAGCTG CCAAACGGAG GCCCGAAGAA
AAAGAACCTG AAAAAGTAAA TCCACAGATT TCTGATGAAA AAGACGAGGA TGAAAAGGAG
GAGAAGAGAC GCAAAACGAC CCCCAAAGAA CCAACGGAGA AAAAAATGGC TCGCGCCAAA
ACAGTCATGA ACTCCAAGAC CCACCCTCCC AAGTGCATTC AGTGCGGGCA GTACCTGGAC
GACCCTGACC TCAAATATGG GCAGCACCCA CCAGACGCGG TGGATGAGCC ACAGATGCTG
ACAAATGAGA AGCTGTCCAT CTTTGATGCC AACGAGTCTG GCTTTGAGAG TTATGAGGCG
CTTCCCCAGC ACAAACTGAC CTGCTTCAGT GTGTACTGTA AGCACGGTCA CCTGTGTCCC
ATCGACACCG GCCTCATCGA GAAGAATATC GAACTCTTCT TTTCTGGTTC AGCAAAACCA
ATCTATGATG ATGACCCATC TCTTGAAGGT GGTGTTAATG GCAAAAATCT TGGCCCCATA
AATGAATGGT GGATCACTGG CTTTGATGGA GGTGAAAAGG CCCTCATCGG CTTCAGCACC
TCATTTGCCG AATACATTCT GATGGATCCC AGTCCCGAGT ATGCGCCCAT ATTTGGGCTG
ATGCAGGAGA AGATCTACAT CAGCAAGATT GTGGTGGAGT TCCTGCAGAG CAATTCCGAC
TCGACCTATG AGGACCTGAT CAACAAGATC GAGACCACGG TTCCTCCTTC TGGCCTCAAC
TTGAACCGCT TCACAGAGGA CTCCCTCCTG CGACACGCGC AGTTTGTGGT GGAGCAGGTG
GAGAGTTATG ACGAGGCCGG GGACAGTGAT GAGCAGCCCA TCTTCCTGAC ACCCTGCATG
CGGGACCTGA TCAAGCTGGC TGGGGTCACG CTGGGACAGA GGCGAGCCCA GGCGAGGCGG
CAGACCATCA GGCATTCTAC CAGGGAGAAG GACAGGGGAC CCACGAAAGC CACCACCACC
AAGCTGGTCT ACCAGATCTT CGATACTTTC TTCGCAGAGC AAATTGAAAA GGATGACAGA
GAAGACAAGG AGAACGCCTT TAAGCGCCGG CGATGTGGCG TCTGTGAGGT GTGTCAGCAG
CCTGAGTGTG GGAAATGTAA AGCCTGCAAG GACATGGTTA AATTTGGTGG CAGTGGACGG
AGCAAGCAGG CTTGCCAAGA GCGGAGGTGT CCCAATATGG CCATGAAGGA GGCAGATGAC
GATGAGGAAG TCGATGATAA CATCCCAGAG ATGCCGTCAC CCAAAAAAAT GCACCAGGGG
AAGAAGAAGA AACAGAACAA GAATCGCATC TCTTGGGTCG GAGAAGCCGT CAAGACTGAT
GGGAAGAAGA GTTACTATAA GAAGGTGTGC ATTGATGCGG AAACCCTGGA AGTGGGGGAC
TGTGTCTCTG TTATTCCAGA TGATTCCTCA AAACCGCTGT ATCTAGCAAG GGTCACGGCG
CTGTGGGAGG ACAGCAGCAA CGGGCAGATG TTTCACGCCC ACTGGTTCTG CGCTGGGACA
GACACAGTCC TCGGGGCCAC GTCGGACCCT CTGGAGCTGT TCTTGGTGGA TGAATGTGAG
GACATGCAGC TTTCATATAT CCACAGCAAA GTGAAAGTCA TCTACAAAGC CCCCTCCGAA
AACTGGGCCA TGGAGGGAGG CATGGATCCC GAGTCCCTGC TGGAGGGGGA CGACGGGAAG
ACCTACTTCT ACCAGCTGTG GTATGATCAA GACTACGCGA GATTCGAGTC CCCTCCAAAA
ACCCAGCCAA CAGAGGACAA CAAGTTCAAA TTCTGTGTGA GCTGTGCCCG TCTGGCTGAG
ATGAGGCAAA AAGAAATCCC CAGGGTCCTG GAGCAGCTCG AGGACCTGGA TAGCCGGGTC
CTCTACTACT CAGCCACCAA GAACGGCATC CTGTACCGAG TTGGTGATGG TGTGTACCTG
CCCCCTGAGG CCTTCACGTT CAACATCAAG CTGTCCAGTC CCGTGAAACG CCCACGGAAG
GAGCCCGTGG ATGAGGACCT GTACCCAGAG CACTACCGGA AATACTCCGA CTACATCAAA
GGCAGCAACC TGGATGCCCC TGAGCCCTAC CGAATTGGCC GGATCAAAGA GATCTTCTGT
CCCAAGAAGA GCAACGGCAG GCCCAATGAG ACTGACATCA AAATCCGGGT CAACAAGTTC
TACAGGCCTG AGAACACCCA CAAGTCCACT CCAGCGAGCT ACCACGCAGA CATCAACCTG
CTCTACTGGA GCGACGAGGA GGCCGTGGTG GACTTCAAGG CTGTGCAGGG CCGCTGCACC
GTGGAGTATG GGGAGGACCT GCCCGAGTGC GTCCAGGTGT ACTCCATGGG CGGCCCCAAC
CGCTTCTACT TCCTCGAGGC CTATAATGCA AAGAGCAAAA GCTTTGAAGA TCCTCCCAAC
CATGCCCGTA GCCCTGGAAA CAAAGGGAAG GGCAAGGGAA AAGGGAAGGG CAAGCCCAAG
TCCCAAGCCT GTGAGCCGAG CGAGCCAGAG ATAGAGATCA AGCTGCCCAA GCTGCGGACC
CTGGATGTGT TTTCTGGCTG CGGGGGGTTG TCGGAGGGAT TCCACCAAGC AGGCATCTCT
GACACGCTGT GGGCCATCGA GATGTGGGAC CCTGCGGCCC AGGCGTTCCG GCTGAACAAC
CCCGGCTCCA CAGTGTTCAC AGAGGACTGC AACATCCTGC TGAAGCTGGT CATGGCTGGG
GAGACCACCA ACTCCCGCGG CCAGCGGCTG CCCCAGAAGG GAGACGTGGA GATGCTGTGC
GGCGGGCCGC CCTGCCAGGG CTTCAGCGGC ATGAACCGCT TCAATTCGCG CACCTACTCC
AAGTTCAAAA ACTCTCTGGT GGTTTCCTTC CTCAGCTACT GCGACTACTA CCGGCCCCGG
TTCTTCCTCC TGGAGAATGT CAGGAACTTT GTCTCCTTCA AGCGCTCCAT GGTCCTGAAG
CTCACCCTCC GCTGCCTGGT CCGCATGGGC TATCAGTGCA CCTTCGGCGT GCTGCAGGCC
GGTCAGTACG GCGTGGCCCA GACTAGGAGG CGGGCCATCA TCCTGGCCGC GGCCCCTGGA
GAGAAGCTCC CTCTGTTCCC GGAGCCACTG CACGTGTTTG CTCCCCGGGC CTGCCAGCTG
AGCGTGGTGG TGGATGACAA GAAGTTTGTG AGCAACATAA CCAGGTTGAG CTCGGGTCCT
TTCCGGACCA TCACGGTGCG AGACACGATG TCCGACCTGC CGGAGGTGCG GAATGGAGCC
TCGGCACTGG AGATCTCCTA CAACGGGGAG CCTCAGTCCT GGTTCCAGAG GCAGCTCCGG
GGCGCACAGT ACCAGCCCAT CCTCAGGGAC CACATCTGTA AGGACATGAG TGCATTGGTG
GCTGCCCGCA TGCGGCACAT CCCCTTGGCC CCAGGGTCAG ACTGGCGCGA TCTGCCCAAC
ATCGAGGTGC GGCTCTCAGA CGGCACCATG GCCAGGAAGC TGCGGTATAC CCACCATGAC
AGGAAGAACG GCCGCAGCAG CTCTGGGGCC CTCCGTGGGG TCTGCTCCTG CGTGGAAGGT
GGGTCCTCCG GCAAAGCCTG CGACCCCGCA GCCAGGCAGT TCAACACCCT CATCCCCTGG
TGCCTGCCCC ACACCGGGAA CCGGCACAAC CACTGGGCTG GCCTCTATGG AAGGCTCGAG
TGGGACGGCT TCTTCAGCAC AACCGTCACC AACCCCGAGC CCATGGGCAA GCAGGGCCGC
GTGCTCCACC CAGAGCAGCA CCGTGTGGTG AGCGTGCGGG AGTGTGCCCG CTCCCAGGGC
TTCCCTGACA CCTACCGGCT CTTCGGCAAC ATCCTGGACA AGCACCGGCA GGTGGGCAAT
GCCGTGCCAC CGCCCCTGGC CAAAGCCATT GGCTTGGAGA TCAAGCTTTG TATGTTGGCC
AAAGCCCGAG AGAGTGCCTC AGCTAAAATA AAGGAGGAGG AAGCTGCTAA GGACTAG

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

CloneID OHu26697
Clone ID Related Accession (Same CDS sequence) NM_001379
Accession Version NM_001379.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4851bp)
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
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product DNA (cytosine-5)-methyltransferase 1 isoform b
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC126227.1, X63692.1, BC092517.1 and DA653750.1. On Aug 5, 2008 this sequence version replaced gi:4503350. Transcript Variant: This variant (2) lacks an alternate in-frame exon compared to variant 1. The resulting isoform (b) has the same N- and C-termini but is shorter compared to isoform a. 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## Transcript exon combination :: X63692.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-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
4501
4561
4621
4681
4741
4801
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCCTGAA CCTTCACCTA GCCCCAGGAT TACAAGGAAA
AGCACCAGGC AAACCACCAT CACATCTCAT TTTGCAAAGG GCCCTGCCAA ACGGAAACCT
CAGGAAGAGT CTGAAAGAGC CAAATCGGAT GAGTCCATCA AGGAAGAAGA CAAAGACCAG
GATGAGAAGA GACGTAGAGT TACATCCAGA GAACGAGTTG CTAGACCGCT TCCTGCAGAA
GAACCTGAAA GAGCAAAATC AGGAACGCGC ACTGAAAAGG AAGAAGAAAG AGATGAAAAA
GAAGAAAAGA GACTCCGAAG TCAAACCAAA GAACCAACAC CCAAACAGAA ACTGAAGGAG
GAGCCGGACA GAGAAGCCAG GGCAGGCGTG CAGGCTGACG AGGACGAAGA TGGAGACGAG
AAAGATGAGA AGAAGCACAG AAGTCAACCC AAAGATCTAG CTGCCAAACG GAGGCCCGAA
GAAAAAGAAC CTGAAAAAGT AAATCCACAG ATTTCTGATG AAAAAGACGA GGATGAAAAG
GAGGAGAAGA GACGCAAAAC GACCCCCAAA GAACCAACGG AGAAAAAAAT GGCTCGCGCC
AAAACAGTCA TGAACTCCAA GACCCACCCT CCCAAGTGCA TTCAGTGCGG GCAGTACCTG
GACGACCCTG ACCTCAAATA TGGGCAGCAC CCACCAGACG CGGTGGATGA GCCACAGATG
CTGACAAATG AGAAGCTGTC CATCTTTGAT GCCAACGAGT CTGGCTTTGA GAGTTATGAG
GCGCTTCCCC AGCACAAACT GACCTGCTTC AGTGTGTACT GTAAGCACGG TCACCTGTGT
CCCATCGACA CCGGCCTCAT CGAGAAGAAT ATCGAACTCT TCTTTTCTGG TTCAGCAAAA
CCAATCTATG ATGATGACCC ATCTCTTGAA GGTGGTGTTA ATGGCAAAAA TCTTGGCCCC
ATAAATGAAT GGTGGATCAC TGGCTTTGAT GGAGGTGAAA AGGCCCTCAT CGGCTTCAGC
ACCTCATTTG CCGAATACAT TCTGATGGAT CCCAGTCCCG AGTATGCGCC CATATTTGGG
CTGATGCAGG AGAAGATCTA CATCAGCAAG ATTGTGGTGG AGTTCCTGCA GAGCAATTCC
GACTCGACCT ATGAGGACCT GATCAACAAG ATCGAGACCA CGGTTCCTCC TTCTGGCCTC
AACTTGAACC GCTTCACAGA GGACTCCCTC CTGCGACACG CGCAGTTTGT GGTGGAGCAG
GTGGAGAGTT ATGACGAGGC CGGGGACAGT GATGAGCAGC CCATCTTCCT GACACCCTGC
ATGCGGGACC TGATCAAGCT GGCTGGGGTC ACGCTGGGAC AGAGGCGAGC CCAGGCGAGG
CGGCAGACCA TCAGGCATTC TACCAGGGAG AAGGACAGGG GACCCACGAA AGCCACCACC
ACCAAGCTGG TCTACCAGAT CTTCGATACT TTCTTCGCAG AGCAAATTGA AAAGGATGAC
AGAGAAGACA AGGAGAACGC CTTTAAGCGC CGGCGATGTG GCGTCTGTGA GGTGTGTCAG
CAGCCTGAGT GTGGGAAATG TAAAGCCTGC AAGGACATGG TTAAATTTGG TGGCAGTGGA
CGGAGCAAGC AGGCTTGCCA AGAGCGGAGG TGTCCCAATA TGGCCATGAA GGAGGCAGAT
GACGATGAGG AAGTCGATGA TAACATCCCA GAGATGCCGT CACCCAAAAA AATGCACCAG
GGGAAGAAGA AGAAACAGAA CAAGAATCGC ATCTCTTGGG TCGGAGAAGC CGTCAAGACT
GATGGGAAGA AGAGTTACTA TAAGAAGGTG TGCATTGATG CGGAAACCCT GGAAGTGGGG
GACTGTGTCT CTGTTATTCC AGATGATTCC TCAAAACCGC TGTATCTAGC AAGGGTCACG
GCGCTGTGGG AGGACAGCAG CAACGGGCAG ATGTTTCACG CCCACTGGTT CTGCGCTGGG
ACAGACACAG TCCTCGGGGC CACGTCGGAC CCTCTGGAGC TGTTCTTGGT GGATGAATGT
GAGGACATGC AGCTTTCATA TATCCACAGC AAAGTGAAAG TCATCTACAA AGCCCCCTCC
GAAAACTGGG CCATGGAGGG AGGCATGGAT CCCGAGTCCC TGCTGGAGGG GGACGACGGG
AAGACCTACT TCTACCAGCT GTGGTATGAT CAAGACTACG CGAGATTCGA GTCCCCTCCA
AAAACCCAGC CAACAGAGGA CAACAAGTTC AAATTCTGTG TGAGCTGTGC CCGTCTGGCT
GAGATGAGGC AAAAAGAAAT CCCCAGGGTC CTGGAGCAGC TCGAGGACCT GGATAGCCGG
GTCCTCTACT ACTCAGCCAC CAAGAACGGC ATCCTGTACC GAGTTGGTGA TGGTGTGTAC
CTGCCCCCTG AGGCCTTCAC GTTCAACATC AAGCTGTCCA GTCCCGTGAA ACGCCCACGG
AAGGAGCCCG TGGATGAGGA CCTGTACCCA GAGCACTACC GGAAATACTC CGACTACATC
AAAGGCAGCA ACCTGGATGC CCCTGAGCCC TACCGAATTG GCCGGATCAA AGAGATCTTC
TGTCCCAAGA AGAGCAACGG CAGGCCCAAT GAGACTGACA TCAAAATCCG GGTCAACAAG
TTCTACAGGC CTGAGAACAC CCACAAGTCC ACTCCAGCGA GCTACCACGC AGACATCAAC
CTGCTCTACT GGAGCGACGA GGAGGCCGTG GTGGACTTCA AGGCTGTGCA GGGCCGCTGC
ACCGTGGAGT ATGGGGAGGA CCTGCCCGAG TGCGTCCAGG TGTACTCCAT GGGCGGCCCC
AACCGCTTCT ACTTCCTCGA GGCCTATAAT GCAAAGAGCA AAAGCTTTGA AGATCCTCCC
AACCATGCCC GTAGCCCTGG AAACAAAGGG AAGGGCAAGG GAAAAGGGAA GGGCAAGCCC
AAGTCCCAAG CCTGTGAGCC GAGCGAGCCA GAGATAGAGA TCAAGCTGCC CAAGCTGCGG
ACCCTGGATG TGTTTTCTGG CTGCGGGGGG TTGTCGGAGG GATTCCACCA AGCAGGCATC
TCTGACACGC TGTGGGCCAT CGAGATGTGG GACCCTGCGG CCCAGGCGTT CCGGCTGAAC
AACCCCGGCT CCACAGTGTT CACAGAGGAC TGCAACATCC TGCTGAAGCT GGTCATGGCT
GGGGAGACCA CCAACTCCCG CGGCCAGCGG CTGCCCCAGA AGGGAGACGT GGAGATGCTG
TGCGGCGGGC CGCCCTGCCA GGGCTTCAGC GGCATGAACC GCTTCAATTC GCGCACCTAC
TCCAAGTTCA AAAACTCTCT GGTGGTTTCC TTCCTCAGCT ACTGCGACTA CTACCGGCCC
CGGTTCTTCC TCCTGGAGAA TGTCAGGAAC TTTGTCTCCT TCAAGCGCTC CATGGTCCTG
AAGCTCACCC TCCGCTGCCT GGTCCGCATG GGCTATCAGT GCACCTTCGG CGTGCTGCAG
GCCGGTCAGT ACGGCGTGGC CCAGACTAGG AGGCGGGCCA TCATCCTGGC CGCGGCCCCT
GGAGAGAAGC TCCCTCTGTT CCCGGAGCCA CTGCACGTGT TTGCTCCCCG GGCCTGCCAG
CTGAGCGTGG TGGTGGATGA CAAGAAGTTT GTGAGCAACA TAACCAGGTT GAGCTCGGGT
CCTTTCCGGA CCATCACGGT GCGAGACACG ATGTCCGACC TGCCGGAGGT GCGGAATGGA
GCCTCGGCAC TGGAGATCTC CTACAACGGG GAGCCTCAGT CCTGGTTCCA GAGGCAGCTC
CGGGGCGCAC AGTACCAGCC CATCCTCAGG GACCACATCT GTAAGGACAT GAGTGCATTG
GTGGCTGCCC GCATGCGGCA CATCCCCTTG GCCCCAGGGT CAGACTGGCG CGATCTGCCC
AACATCGAGG TGCGGCTCTC AGACGGCACC ATGGCCAGGA AGCTGCGGTA TACCCACCAT
GACAGGAAGA ACGGCCGCAG CAGCTCTGGG GCCCTCCGTG GGGTCTGCTC CTGCGTGGAA
GCCGGCAAAG CCTGCGACCC CGCAGCCAGG CAGTTCAACA CCCTCATCCC CTGGTGCCTG
CCCCACACCG GGAACCGGCA CAACCACTGG GCTGGCCTCT ATGGAAGGCT CGAGTGGGAC
GGCTTCTTCA GCACAACCGT CACCAACCCC GAGCCCATGG GCAAGCAGGG CCGCGTGCTC
CACCCAGAGC AGCACCGTGT GGTGAGCGTG CGGGAGTGTG CCCGCTCCCA GGGCTTCCCT
GACACCTACC GGCTCTTCGG CAACATCCTG GACAAGCACC GGCAGGTGGG CAATGCCGTG
CCACCGCCCC TGGCCAAAGC CATTGGCTTG GAGATCAAGC TTTGTATGTT GGCCAAAGCC
CGAGAGAGTG CCTCAGCTAA AATAAAGGAG GAGGAAGCTG CTAAGGACTA G

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

RefSeq NP_001370.1
CDS181..5031
Misc Feature(1)181..1188(+)
Misc Feature(2)181..624(+)
Misc Feature(3)181..540(+)
Misc Feature(4)226..495(+)
Misc Feature(5)388..390(+)
Misc Feature(6)559..561(+)
Misc Feature(7)577..579(+)
Misc Feature(8)604..606(+)
Misc Feature(9)607..609(+)
Misc Feature(10)625..831(+)
Misc Feature(11)634..636(+)
Misc Feature(12)640..642(+)
Misc Feature(13)658..660(+)
Misc Feature(14)667..702(+)
Misc Feature(15)697..699(+)
Misc Feature(16)709..795(+)
Misc Feature(17)742..744(+)
Misc Feature(18)955..957(+)
Misc Feature(19)1102..1998(+)
Misc Feature(20)1108..1686(+)
Misc Feature(21)1171..1830(+)
Misc Feature(22)1276..1278(+)
Misc Feature(23)1360..1362(+)
Misc Feature(24)1375..1782(+)
Misc Feature(25)1705..1707(+)
Misc Feature(26)2113..2253(+)
Misc Feature(27)2131..2271(+)
Misc Feature(28)2257..2442(+)
Misc Feature(29)2320..2322(+)
Misc Feature(30)2320..2322(+)
Misc Feature(31)2320..2322(+)
Misc Feature(32)2374..2376(+)
Misc Feature(33)2425..2427(+)
Misc Feature(34)2440..2811(+)
Misc Feature(35)2851..2853(+)
Misc Feature(36)3040..3042(+)
Misc Feature(37)3049..3051(+)
Misc Feature(38)3061..3063(+)
Misc Feature(39)3073..3483(+)
Misc Feature(40)3085..3087(+)
Misc Feature(41)3103..3105(+)
Misc Feature(42)3340..3342(+)
Misc Feature(43)3505..3540(+)
Misc Feature(44)3511..3513(+)
Misc Feature(45)3517..3519(+)
Misc Feature(46)3523..3525(+)
Misc Feature(47)3529..3531(+)
Misc Feature(48)3541..5028(+)
Misc Feature(49)3592..4956(+)
Misc Feature(50)3595..5028(+)
Misc Feature(51)4225..4227(+)
Misc Feature(52)4423..4425(+)
Exon (1)1..260
Gene:DNMT1
Gene Synonym:
Exon (2)261..297
Gene:DNMT1
Gene Synonym:
Exon (3)298..405
Gene:DNMT1
Gene Synonym:
Exon (4)406..625
Gene:DNMT1
Gene Synonym:
Exon (5)626..701
Gene:DNMT1
Gene Synonym:
Exon (6)702..780
Gene:DNMT1
Gene Synonym:
Exon (7)781..815
Gene:DNMT1
Gene Synonym:
Exon (8)816..900
Gene:DNMT1
Gene Synonym:
Exon (9)901..935
Gene:DNMT1
Gene Synonym:
Exon (10)936..1023
Gene:DNMT1
Gene Synonym:
Exon (11)1024..1058
Gene:DNMT1
Gene Synonym:
Exon (12)1059..1140
Gene:DNMT1
Gene Synonym:
Exon (13)1141..1175
Gene:DNMT1
Gene Synonym:
Exon (14)1176..1221
Gene:DNMT1
Gene Synonym:
Exon (15)1222..1302
Gene:DNMT1
Gene Synonym:
Exon (16)1303..1412
Gene:DNMT1
Gene Synonym:
Exon (17)1413..1531
Gene:DNMT1
Gene Synonym:
Exon (18)1532..1624
Gene:DNMT1
Gene Synonym:
Exon (19)1625..1776
Gene:DNMT1
Gene Synonym:
Exon (20)1777..1964
Gene:DNMT1
Gene Synonym:
Exon (21)1965..2151
Gene:DNMT1
Gene Synonym:
Exon (22)2152..2249
Gene:DNMT1
Gene Synonym:
Exon (23)2250..2397
Gene:DNMT1
Gene Synonym:
Exon (24)2398..2513
Gene:DNMT1
Gene Synonym:
Exon (25)2514..2718
Gene:DNMT1
Gene Synonym:
Exon (26)2719..2852
Gene:DNMT1
Gene Synonym:
Exon (27)2853..3026
Gene:DNMT1
Gene Synonym:
Exon (28)3027..3248
Gene:DNMT1
Gene Synonym:
Exon (29)3249..3441
Gene:DNMT1
Gene Synonym:
Exon (30)3442..3526
Gene:DNMT1
Gene Synonym:
Exon (31)3527..3655
Gene:DNMT1
Gene Synonym:
Exon (32)3656..3938
Gene:DNMT1
Gene Synonym:
Exon (33)3939..4080
Gene:DNMT1
Gene Synonym:
Exon (34)4081..4247
Gene:DNMT1
Gene Synonym:
Exon (35)4248..4425
Gene:DNMT1
Gene Synonym:
Exon (36)4426..4621
Gene:DNMT1
Gene Synonym:
Exon (37)4622..4788
Gene:DNMT1
Gene Synonym:
Exon (38)4789..4905
Gene:DNMT1
Gene Synonym:
Exon (39)4906..4996
Gene:DNMT1
Gene Synonym:
Exon (40)4997..5352
Gene:DNMT1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001379
Organism Homo sapiens (human)
Definition Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001379

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
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCCTGAA CCTTCACCTA GCCCCAGGAT TACAAGGAAA
AGCACCAGGC AAACCACCAT CACATCTCAT TTTGCAAAGG GCCCTGCCAA ACGGAAACCT
CAGGAAGAGT CTGAAAGAGC CAAATCGGAT GAGTCCATCA AGGAAGAAGA CAAAGACCAG
GATGAGAAGA GACGTAGAGT TACATCCAGA GAACGAGTTG CTAGACCGCT TCCTGCAGAA
GAACCTGAAA GAGCAAAATC AGGAACGCGC ACTGAAAAGG AAGAAGAAAG AGATGAAAAA
GAAGAAAAGA GACTCCGAAG TCAAACCAAA GAACCAACAC CCAAACAGAA ACTGAAGGAG
GAGCCGGACA GAGAAGCCAG GGCAGGCGTG CAGGCTGACG AGGACGAAGA TGGAGACGAG
AAAGATGAGA AGAAGCACAG AAGTCAACCC AAAGATCTAG CTGCCAAACG GAGGCCCGAA
GAAAAAGAAC CTGAAAAAGT AAATCCACAG ATTTCTGATG AAAAAGACGA GGATGAAAAG
GAGGAGAAGA GACGCAAAAC GACCCCCAAA GAACCAACGG AGAAAAAAAT GGCTCGCGCC
AAAACAGTCA TGAACTCCAA GACCCACCCT CCCAAGTGCA TTCAGTGCGG GCAGTACCTG
GACGACCCTG ACCTCAAATA TGGGCAGCAC CCACCAGACG CGGTGGATGA GCCACAGATG
CTGACAAATG AGAAGCTGTC CATCTTTGAT GCCAACGAGT CTGGCTTTGA GAGTTATGAG
GCGCTTCCCC AGCACAAACT GACCTGCTTC AGTGTGTACT GTAAGCACGG TCACCTGTGT
CCCATCGACA CCGGCCTCAT CGAGAAGAAT ATCGAACTCT TCTTTTCTGG TTCAGCAAAA
CCAATCTATG ATGATGACCC ATCTCTTGAA GGTGGTGTTA ATGGCAAAAA TCTTGGCCCC
ATAAATGAAT GGTGGATCAC TGGCTTTGAT GGAGGTGAAA AGGCCCTCAT CGGCTTCAGC
ACCTCATTTG CCGAATACAT TCTGATGGAT CCCAGTCCCG AGTATGCGCC CATATTTGGG
CTGATGCAGG AGAAGATCTA CATCAGCAAG ATTGTGGTGG AGTTCCTGCA GAGCAATTCC
GACTCGACCT ATGAGGACCT GATCAACAAG ATCGAGACCA CGGTTCCTCC TTCTGGCCTC
AACTTGAACC GCTTCACAGA GGACTCCCTC CTGCGACACG CGCAGTTTGT GGTGGAGCAG
GTGGAGAGTT ATGACGAGGC CGGGGACAGT GATGAGCAGC CCATCTTCCT GACACCCTGC
ATGCGGGACC TGATCAAGCT GGCTGGGGTC ACGCTGGGAC AGAGGCGAGC CCAGGCGAGG
CGGCAGACCA TCAGGCATTC TACCAGGGAG AAGGACAGGG GACCCACGAA AGCCACCACC
ACCAAGCTGG TCTACCAGAT CTTCGATACT TTCTTCGCAG AGCAAATTGA AAAGGATGAC
AGAGAAGACA AGGAGAACGC CTTTAAGCGC CGGCGATGTG GCGTCTGTGA GGTGTGTCAG
CAGCCTGAGT GTGGGAAATG TAAAGCCTGC AAGGACATGG TTAAATTTGG TGGCAGTGGA
CGGAGCAAGC AGGCTTGCCA AGAGCGGAGG TGTCCCAATA TGGCCATGAA GGAGGCAGAT
GACGATGAGG AAGTCGATGA TAACATCCCA GAGATGCCGT CACCCAAAAA AATGCACCAG
GGGAAGAAGA AGAAACAGAA CAAGAATCGC ATCTCTTGGG TCGGAGAAGC CGTCAAGACT
GATGGGAAGA AGAGTTACTA TAAGAAGGTG TGCATTGATG CGGAAACCCT GGAAGTGGGG
GACTGTGTCT CTGTTATTCC AGATGATTCC TCAAAACCGC TGTATCTAGC AAGGGTCACG
GCGCTGTGGG AGGACAGCAG CAACGGGCAG ATGTTTCACG CCCACTGGTT CTGCGCTGGG
ACAGACACAG TCCTCGGGGC CACGTCGGAC CCTCTGGAGC TGTTCTTGGT GGATGAATGT
GAGGACATGC AGCTTTCATA TATCCACAGC AAAGTGAAAG TCATCTACAA AGCCCCCTCC
GAAAACTGGG CCATGGAGGG AGGCATGGAT CCCGAGTCCC TGCTGGAGGG GGACGACGGG
AAGACCTACT TCTACCAGCT GTGGTATGAT CAAGACTACG CGAGATTCGA GTCCCCTCCA
AAAACCCAGC CAACAGAGGA CAACAAGTTC AAATTCTGTG TGAGCTGTGC CCGTCTGGCT
GAGATGAGGC AAAAAGAAAT CCCCAGGGTC CTGGAGCAGC TCGAGGACCT GGATAGCCGG
GTCCTCTACT ACTCAGCCAC CAAGAACGGC ATCCTGTACC GAGTTGGTGA TGGTGTGTAC
CTGCCCCCTG AGGCCTTCAC GTTCAACATC AAGCTGTCCA GTCCCGTGAA ACGCCCACGG
AAGGAGCCCG TGGATGAGGA CCTGTACCCA GAGCACTACC GGAAATACTC CGACTACATC
AAAGGCAGCA ACCTGGATGC CCCTGAGCCC TACCGAATTG GCCGGATCAA AGAGATCTTC
TGTCCCAAGA AGAGCAACGG CAGGCCCAAT GAGACTGACA TCAAAATCCG GGTCAACAAG
TTCTACAGGC CTGAGAACAC CCACAAGTCC ACTCCAGCGA GCTACCACGC AGACATCAAC
CTGCTCTACT GGAGCGACGA GGAGGCCGTG GTGGACTTCA AGGCTGTGCA GGGCCGCTGC
ACCGTGGAGT ATGGGGAGGA CCTGCCCGAG TGCGTCCAGG TGTACTCCAT GGGCGGCCCC
AACCGCTTCT ACTTCCTCGA GGCCTATAAT GCAAAGAGCA AAAGCTTTGA AGATCCTCCC
AACCATGCCC GTAGCCCTGG AAACAAAGGG AAGGGCAAGG GAAAAGGGAA GGGCAAGCCC
AAGTCCCAAG CCTGTGAGCC GAGCGAGCCA GAGATAGAGA TCAAGCTGCC CAAGCTGCGG
ACCCTGGATG TGTTTTCTGG CTGCGGGGGG TTGTCGGAGG GATTCCACCA AGCAGGCATC
TCTGACACGC TGTGGGCCAT CGAGATGTGG GACCCTGCGG CCCAGGCGTT CCGGCTGAAC
AACCCCGGCT CCACAGTGTT CACAGAGGAC TGCAACATCC TGCTGAAGCT GGTCATGGCT
GGGGAGACCA CCAACTCCCG CGGCCAGCGG CTGCCCCAGA AGGGAGACGT GGAGATGCTG
TGCGGCGGGC CGCCCTGCCA GGGCTTCAGC GGCATGAACC GCTTCAATTC GCGCACCTAC
TCCAAGTTCA AAAACTCTCT GGTGGTTTCC TTCCTCAGCT ACTGCGACTA CTACCGGCCC
CGGTTCTTCC TCCTGGAGAA TGTCAGGAAC TTTGTCTCCT TCAAGCGCTC CATGGTCCTG
AAGCTCACCC TCCGCTGCCT GGTCCGCATG GGCTATCAGT GCACCTTCGG CGTGCTGCAG
GCCGGTCAGT ACGGCGTGGC CCAGACTAGG AGGCGGGCCA TCATCCTGGC CGCGGCCCCT
GGAGAGAAGC TCCCTCTGTT CCCGGAGCCA CTGCACGTGT TTGCTCCCCG GGCCTGCCAG
CTGAGCGTGG TGGTGGATGA CAAGAAGTTT GTGAGCAACA TAACCAGGTT GAGCTCGGGT
CCTTTCCGGA CCATCACGGT GCGAGACACG ATGTCCGACC TGCCGGAGGT GCGGAATGGA
GCCTCGGCAC TGGAGATCTC CTACAACGGG GAGCCTCAGT CCTGGTTCCA GAGGCAGCTC
CGGGGCGCAC AGTACCAGCC CATCCTCAGG GACCACATCT GTAAGGACAT GAGTGCATTG
GTGGCTGCCC GCATGCGGCA CATCCCCTTG GCCCCAGGGT CAGACTGGCG CGATCTGCCC
AACATCGAGG TGCGGCTCTC AGACGGCACC ATGGCCAGGA AGCTGCGGTA TACCCACCAT
GACAGGAAGA ACGGCCGCAG CAGCTCTGGG GCCCTCCGTG GGGTCTGCTC CTGCGTGGAA
GCCGGCAAAG CCTGCGACCC CGCAGCCAGG CAGTTCAACA CCCTCATCCC CTGGTGCCTG
CCCCACACCG GGAACCGGCA CAACCACTGG GCTGGCCTCT ATGGAAGGCT CGAGTGGGAC
GGCTTCTTCA GCACAACCGT CACCAACCCC GAGCCCATGG GCAAGCAGGG CCGCGTGCTC
CACCCAGAGC AGCACCGTGT GGTGAGCGTG CGGGAGTGTG CCCGCTCCCA GGGCTTCCCT
GACACCTACC GGCTCTTCGG CAACATCCTG GACAAGCACC GGCAGGTGGG CAATGCCGTG
CCACCGCCCC TGGCCAAAGC CATTGGCTTG GAGATCAAGC TTTGTATGTT GGCCAAAGCC
CGAGAGAGTG CCTCAGCTAA AATAAAGGAG GAGGAAGCTG CTAAGGACTA G

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

CloneID OHu27021
Clone ID Related Accession (Same CDS sequence) NM_001130823
Accession Version NM_001130823.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4899bp)
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 COA
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product DNA (cytosine-5)-methyltransferase 1 isoform a
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC126227.1, BC092517.1, DA653750.1 and X63692.1. This sequence is a reference standard in the RefSeqGene project. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (a). 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## Transcript exon combination :: BC126227.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-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
4501
4561
4621
4681
4741
4801
4861
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCGTTCA AGAGACCCTC CTGCCTCAGC CTCCCAAGTA
ACTGGGATTA GAGCTGAACC TTCACCTAGC CCCAGGATTA CAAGGAAAAG CACCAGGCAA
ACCACCATCA CATCTCATTT TGCAAAGGGC CCTGCCAAAC GGAAACCTCA GGAAGAGTCT
GAAAGAGCCA AATCGGATGA GTCCATCAAG GAAGAAGACA AAGACCAGGA TGAGAAGAGA
CGTAGAGTTA CATCCAGAGA ACGAGTTGCT AGACCGCTTC CTGCAGAAGA ACCTGAAAGA
GCAAAATCAG GAACGCGCAC TGAAAAGGAA GAAGAAAGAG ATGAAAAAGA AGAAAAGAGA
CTCCGAAGTC AAACCAAAGA ACCAACACCC AAACAGAAAC TGAAGGAGGA GCCGGACAGA
GAAGCCAGGG CAGGCGTGCA GGCTGACGAG GACGAAGATG GAGACGAGAA AGATGAGAAG
AAGCACAGAA GTCAACCCAA AGATCTAGCT GCCAAACGGA GGCCCGAAGA AAAAGAACCT
GAAAAAGTAA ATCCACAGAT TTCTGATGAA AAAGACGAGG ATGAAAAGGA GGAGAAGAGA
CGCAAAACGA CCCCCAAAGA ACCAACGGAG AAAAAAATGG CTCGCGCCAA AACAGTCATG
AACTCCAAGA CCCACCCTCC CAAGTGCATT CAGTGCGGGC AGTACCTGGA CGACCCTGAC
CTCAAATATG GGCAGCACCC ACCAGACGCG GTGGATGAGC CACAGATGCT GACAAATGAG
AAGCTGTCCA TCTTTGATGC CAACGAGTCT GGCTTTGAGA GTTATGAGGC GCTTCCCCAG
CACAAACTGA CCTGCTTCAG TGTGTACTGT AAGCACGGTC ACCTGTGTCC CATCGACACC
GGCCTCATCG AGAAGAATAT CGAACTCTTC TTTTCTGGTT CAGCAAAACC AATCTATGAT
GATGACCCAT CTCTTGAAGG TGGTGTTAAT GGCAAAAATC TTGGCCCCAT AAATGAATGG
TGGATCACTG GCTTTGATGG AGGTGAAAAG GCCCTCATCG GCTTCAGCAC CTCATTTGCC
GAATACATTC TGATGGATCC CAGTCCCGAG TATGCGCCCA TATTTGGGCT GATGCAGGAG
AAGATCTACA TCAGCAAGAT TGTGGTGGAG TTCCTGCAGA GCAATTCCGA CTCGACCTAT
GAGGACCTGA TCAACAAGAT CGAGACCACG GTTCCTCCTT CTGGCCTCAA CTTGAACCGC
TTCACAGAGG ACTCCCTCCT GCGACACGCG CAGTTTGTGG TGGAGCAGGT GGAGAGTTAT
GACGAGGCCG GGGACAGTGA TGAGCAGCCC ATCTTCCTGA CACCCTGCAT GCGGGACCTG
ATCAAGCTGG CTGGGGTCAC GCTGGGACAG AGGCGAGCCC AGGCGAGGCG GCAGACCATC
AGGCATTCTA CCAGGGAGAA GGACAGGGGA CCCACGAAAG CCACCACCAC CAAGCTGGTC
TACCAGATCT TCGATACTTT CTTCGCAGAG CAAATTGAAA AGGATGACAG AGAAGACAAG
GAGAACGCCT TTAAGCGCCG GCGATGTGGC GTCTGTGAGG TGTGTCAGCA GCCTGAGTGT
GGGAAATGTA AAGCCTGCAA GGACATGGTT AAATTTGGTG GCAGTGGACG GAGCAAGCAG
GCTTGCCAAG AGCGGAGGTG TCCCAATATG GCCATGAAGG AGGCAGATGA CGATGAGGAA
GTCGATGATA ACATCCCAGA GATGCCGTCA CCCAAAAAAA TGCACCAGGG GAAGAAGAAG
AAACAGAACA AGAATCGCAT CTCTTGGGTC GGAGAAGCCG TCAAGACTGA TGGGAAGAAG
AGTTACTATA AGAAGGTGTG CATTGATGCG GAAACCCTGG AAGTGGGGGA CTGTGTCTCT
GTTATTCCAG ATGATTCCTC AAAACCGCTG TATCTAGCAA GGGTCACGGC GCTGTGGGAG
GACAGCAGCA ACGGGCAGAT GTTTCACGCC CACTGGTTCT GCGCTGGGAC AGACACAGTC
CTCGGGGCCA CGTCGGACCC TCTGGAGCTG TTCTTGGTGG ATGAATGTGA GGACATGCAG
CTTTCATATA TCCACAGCAA AGTGAAAGTC ATCTACAAAG CCCCCTCCGA AAACTGGGCC
ATGGAGGGAG GCATGGATCC CGAGTCCCTG CTGGAGGGGG ACGACGGGAA GACCTACTTC
TACCAGCTGT GGTATGATCA AGACTACGCG AGATTCGAGT CCCCTCCAAA AACCCAGCCA
ACAGAGGACA ACAAGTTCAA ATTCTGTGTG AGCTGTGCCC GTCTGGCTGA GATGAGGCAA
AAAGAAATCC CCAGGGTCCT GGAGCAGCTC GAGGACCTGG ATAGCCGGGT CCTCTACTAC
TCAGCCACCA AGAACGGCAT CCTGTACCGA GTTGGTGATG GTGTGTACCT GCCCCCTGAG
GCCTTCACGT TCAACATCAA GCTGTCCAGT CCCGTGAAAC GCCCACGGAA GGAGCCCGTG
GATGAGGACC TGTACCCAGA GCACTACCGG AAATACTCCG ACTACATCAA AGGCAGCAAC
CTGGATGCCC CTGAGCCCTA CCGAATTGGC CGGATCAAAG AGATCTTCTG TCCCAAGAAG
AGCAACGGCA GGCCCAATGA GACTGACATC AAAATCCGGG TCAACAAGTT CTACAGGCCT
GAGAACACCC ACAAGTCCAC TCCAGCGAGC TACCACGCAG ACATCAACCT GCTCTACTGG
AGCGACGAGG AGGCCGTGGT GGACTTCAAG GCTGTGCAGG GCCGCTGCAC CGTGGAGTAT
GGGGAGGACC TGCCCGAGTG CGTCCAGGTG TACTCCATGG GCGGCCCCAA CCGCTTCTAC
TTCCTCGAGG CCTATAATGC AAAGAGCAAA AGCTTTGAAG ATCCTCCCAA CCATGCCCGT
AGCCCTGGAA ACAAAGGGAA GGGCAAGGGA AAAGGGAAGG GCAAGCCCAA GTCCCAAGCC
TGTGAGCCGA GCGAGCCAGA GATAGAGATC AAGCTGCCCA AGCTGCGGAC CCTGGATGTG
TTTTCTGGCT GCGGGGGGTT GTCGGAGGGA TTCCACCAAG CAGGCATCTC TGACACGCTG
TGGGCCATCG AGATGTGGGA CCCTGCGGCC CAGGCGTTCC GGCTGAACAA CCCCGGCTCC
ACAGTGTTCA CAGAGGACTG CAACATCCTG CTGAAGCTGG TCATGGCTGG GGAGACCACC
AACTCCCGCG GCCAGCGGCT GCCCCAGAAG GGAGACGTGG AGATGCTGTG CGGCGGGCCG
CCCTGCCAGG GCTTCAGCGG CATGAACCGC TTCAATTCGC GCACCTACTC CAAGTTCAAA
AACTCTCTGG TGGTTTCCTT CCTCAGCTAC TGCGACTACT ACCGGCCCCG GTTCTTCCTC
CTGGAGAATG TCAGGAACTT TGTCTCCTTC AAGCGCTCCA TGGTCCTGAA GCTCACCCTC
CGCTGCCTGG TCCGCATGGG CTATCAGTGC ACCTTCGGCG TGCTGCAGGC CGGTCAGTAC
GGCGTGGCCC AGACTAGGAG GCGGGCCATC ATCCTGGCCG CGGCCCCTGG AGAGAAGCTC
CCTCTGTTCC CGGAGCCACT GCACGTGTTT GCTCCCCGGG CCTGCCAGCT GAGCGTGGTG
GTGGATGACA AGAAGTTTGT GAGCAACATA ACCAGGTTGA GCTCGGGTCC TTTCCGGACC
ATCACGGTGC GAGACACGAT GTCCGACCTG CCGGAGGTGC GGAATGGAGC CTCGGCACTG
GAGATCTCCT ACAACGGGGA GCCTCAGTCC TGGTTCCAGA GGCAGCTCCG GGGCGCACAG
TACCAGCCCA TCCTCAGGGA CCACATCTGT AAGGACATGA GTGCATTGGT GGCTGCCCGC
ATGCGGCACA TCCCCTTGGC CCCAGGGTCA GACTGGCGCG ATCTGCCCAA CATCGAGGTG
CGGCTCTCAG ACGGCACCAT GGCCAGGAAG CTGCGGTATA CCCACCATGA CAGGAAGAAC
GGCCGCAGCA GCTCTGGGGC CCTCCGTGGG GTCTGCTCCT GCGTGGAAGC CGGCAAAGCC
TGCGACCCCG CAGCCAGGCA GTTCAACACC CTCATCCCCT GGTGCCTGCC CCACACCGGG
AACCGGCACA ACCACTGGGC TGGCCTCTAT GGAAGGCTCG AGTGGGACGG CTTCTTCAGC
ACAACCGTCA CCAACCCCGA GCCCATGGGC AAGCAGGGCC GCGTGCTCCA CCCAGAGCAG
CACCGTGTGG TGAGCGTGCG GGAGTGTGCC CGCTCCCAGG GCTTCCCTGA CACCTACCGG
CTCTTCGGCA ACATCCTGGA CAAGCACCGG CAGGTGGGCA ATGCCGTGCC ACCGCCCCTG
GCCAAAGCCA TTGGCTTGGA GATCAAGCTT TGTATGTTGG CCAAAGCCCG AGAGAGTGCC
TCAGCTAAAA TAAAGGAGGA GGAAGCTGCT AAGGACTAG

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

RefSeq NP_001124295.1
CDS181..5079
Misc Feature(1)181..624(+)
Misc Feature(2)181..540(+)
Misc Feature(3)226..495(+)
Misc Feature(4)238..891(+)
Misc Feature(5)388..390(+)
Misc Feature(6)559..561(+)
Misc Feature(7)577..579(+)
Misc Feature(8)604..606(+)
Misc Feature(9)607..609(+)
Misc Feature(10)673..879(+)
Misc Feature(11)682..684(+)
Misc Feature(12)688..690(+)
Misc Feature(13)706..708(+)
Misc Feature(14)715..750(+)
Misc Feature(15)745..747(+)
Misc Feature(16)757..843(+)
Misc Feature(17)790..792(+)
Misc Feature(18)1003..1005(+)
Misc Feature(19)1150..2046(+)
Misc Feature(20)1156..1734(+)
Misc Feature(21)1219..1878(+)
Misc Feature(22)1324..1326(+)
Misc Feature(23)1408..1410(+)
Misc Feature(24)1423..1830(+)
Misc Feature(25)1753..1755(+)
Misc Feature(26)2161..2301(+)
Misc Feature(27)2179..2319(+)
Misc Feature(28)2305..2490(+)
Misc Feature(29)2368..2370(+)
Misc Feature(30)2422..2424(+)
Misc Feature(31)2473..2475(+)
Misc Feature(32)2488..2859(+)
Misc Feature(33)2899..2901(+)
Misc Feature(34)3097..3099(+)
Misc Feature(35)3109..3111(+)
Misc Feature(36)3121..3531(+)
Misc Feature(37)3151..3153(+)
Misc Feature(38)3388..3390(+)
Misc Feature(39)3553..3588(+)
Misc Feature(40)3559..3561(+)
Misc Feature(41)3565..3567(+)
Misc Feature(42)3571..3573(+)
Misc Feature(43)3577..3579(+)
Misc Feature(44)3589..5076(+)
Misc Feature(45)3640..5004(+)
Misc Feature(46)3643..5076(+)
Misc Feature(47)4273..4275(+)
Misc Feature(48)4471..4473(+)
Exon (1)1..260
Gene:DNMT1
Gene Synonym:
Exon (2)261..297
Gene:DNMT1
Gene Synonym:
Exon (3)298..405
Gene:DNMT1
Gene Synonym:
Exon (4)406..625
Gene:DNMT1
Gene Synonym:
Exon (5)626..673
Gene:DNMT1
Gene Synonym:
Exon (6)674..749
Gene:DNMT1
Gene Synonym:
Exon (7)750..828
Gene:DNMT1
Gene Synonym:
Exon (8)829..863
Gene:DNMT1
Gene Synonym:
Exon (9)864..948
Gene:DNMT1
Gene Synonym:
Exon (10)949..983
Gene:DNMT1
Gene Synonym:
Exon (11)984..1071
Gene:DNMT1
Gene Synonym:
Exon (12)1072..1106
Gene:DNMT1
Gene Synonym:
Exon (13)1107..1188
Gene:DNMT1
Gene Synonym:
Exon (14)1189..1223
Gene:DNMT1
Gene Synonym:
Exon (15)1224..1269
Gene:DNMT1
Gene Synonym:
Exon (16)1270..1350
Gene:DNMT1
Gene Synonym:
Exon (17)1351..1460
Gene:DNMT1
Gene Synonym:
Exon (18)1461..1579
Gene:DNMT1
Gene Synonym:
Exon (19)1580..1672
Gene:DNMT1
Gene Synonym:
Exon (20)1673..1824
Gene:DNMT1
Gene Synonym:
Exon (21)1825..2012
Gene:DNMT1
Gene Synonym:
Exon (22)2013..2199
Gene:DNMT1
Gene Synonym:
Exon (23)2200..2297
Gene:DNMT1
Gene Synonym:
Exon (24)2298..2445
Gene:DNMT1
Gene Synonym:
Exon (25)2446..2561
Gene:DNMT1
Gene Synonym:
Exon (26)2562..2766
Gene:DNMT1
Gene Synonym:
Exon (27)2767..2900
Gene:DNMT1
Gene Synonym:
Exon (28)2901..3074
Gene:DNMT1
Gene Synonym:
Exon (29)3075..3296
Gene:DNMT1
Gene Synonym:
Exon (30)3297..3489
Gene:DNMT1
Gene Synonym:
Exon (31)3490..3574
Gene:DNMT1
Gene Synonym:
Exon (32)3575..3703
Gene:DNMT1
Gene Synonym:
Exon (33)3704..3986
Gene:DNMT1
Gene Synonym:
Exon (34)3987..4128
Gene:DNMT1
Gene Synonym:
Exon (35)4129..4295
Gene:DNMT1
Gene Synonym:
Exon (36)4296..4473
Gene:DNMT1
Gene Synonym:
Exon (37)4474..4669
Gene:DNMT1
Gene Synonym:
Exon (38)4670..4836
Gene:DNMT1
Gene Synonym:
Exon (39)4837..4953
Gene:DNMT1
Gene Synonym:
Exon (40)4954..5044
Gene:DNMT1
Gene Synonym:
Exon (41)5045..5400
Gene:DNMT1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001130823
Organism Homo sapiens (human)
Definition Homo sapiens DNA (cytosine-5-)-methyltransferase 1 (DNMT1), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001130823

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
ATGCCGGCGC GTACCGCCCC AGCCCGGGTG CCCACACTGG CCGTCCCGGC CATCTCGCTG 
CCCGACGATG TCCGCAGGCG GCTCAAAGAT TTGGAAAGAG ACAGCTTAAC AGAAAAGGAA
TGTGTGAAGG AGAAATTGAA TCTCTTGCAC GAATTTCTGC AAACAGAAAT AAAGAATCAG
TTATGTGACT TGGAAACCAA ATTACGTAAA GAAGAATTAT CCGAGGAGGG CTACCTGGCT
AAAGTCAAAT CCCTTTTAAA TAAAGATTTG TCCTTGGAGA ACGGTGCTCA TGCTTACAAC
CGGGAAGTGA ATGGACGTCT AGAAAACGGG AACCAAGCAA GAAGTGAAGC CCGTAGAGTG
GGAATGGCAG ATGCCAACAG CCCCCCCAAA CCCCTTTCCA AACCTCGCAC GCCCAGGAGG
AGCAAGTCCG ATGGAGAGGC TAAGCGTTCA AGAGACCCTC CTGCCTCAGC CTCCCAAGTA
ACTGGGATTA GAGCTGAACC TTCACCTAGC CCCAGGATTA CAAGGAAAAG CACCAGGCAA
ACCACCATCA CATCTCATTT TGCAAAGGGC CCTGCCAAAC GGAAACCTCA GGAAGAGTCT
GAAAGAGCCA AATCGGATGA GTCCATCAAG GAAGAAGACA AAGACCAGGA TGAGAAGAGA
CGTAGAGTTA CATCCAGAGA ACGAGTTGCT AGACCGCTTC CTGCAGAAGA ACCTGAAAGA
GCAAAATCAG GAACGCGCAC TGAAAAGGAA GAAGAAAGAG ATGAAAAAGA AGAAAAGAGA
CTCCGAAGTC AAACCAAAGA ACCAACACCC AAACAGAAAC TGAAGGAGGA GCCGGACAGA
GAAGCCAGGG CAGGCGTGCA GGCTGACGAG GACGAAGATG GAGACGAGAA AGATGAGAAG
AAGCACAGAA GTCAACCCAA AGATCTAGCT GCCAAACGGA GGCCCGAAGA AAAAGAACCT
GAAAAAGTAA ATCCACAGAT TTCTGATGAA AAAGACGAGG ATGAAAAGGA GGAGAAGAGA
CGCAAAACGA CCCCCAAAGA ACCAACGGAG AAAAAAATGG CTCGCGCCAA AACAGTCATG
AACTCCAAGA CCCACCCTCC CAAGTGCATT CAGTGCGGGC AGTACCTGGA CGACCCTGAC
CTCAAATATG GGCAGCACCC ACCAGACGCG GTGGATGAGC CACAGATGCT GACAAATGAG
AAGCTGTCCA TCTTTGATGC CAACGAGTCT GGCTTTGAGA GTTATGAGGC GCTTCCCCAG
CACAAACTGA CCTGCTTCAG TGTGTACTGT AAGCACGGTC ACCTGTGTCC CATCGACACC
GGCCTCATCG AGAAGAATAT CGAACTCTTC TTTTCTGGTT CAGCAAAACC AATCTATGAT
GATGACCCAT CTCTTGAAGG TGGTGTTAAT GGCAAAAATC TTGGCCCCAT AAATGAATGG
TGGATCACTG GCTTTGATGG AGGTGAAAAG GCCCTCATCG GCTTCAGCAC CTCATTTGCC
GAATACATTC TGATGGATCC CAGTCCCGAG TATGCGCCCA TATTTGGGCT GATGCAGGAG
AAGATCTACA TCAGCAAGAT TGTGGTGGAG TTCCTGCAGA GCAATTCCGA CTCGACCTAT
GAGGACCTGA TCAACAAGAT CGAGACCACG GTTCCTCCTT CTGGCCTCAA CTTGAACCGC
TTCACAGAGG ACTCCCTCCT GCGACACGCG CAGTTTGTGG TGGAGCAGGT GGAGAGTTAT
GACGAGGCCG GGGACAGTGA TGAGCAGCCC ATCTTCCTGA CACCCTGCAT GCGGGACCTG
ATCAAGCTGG CTGGGGTCAC GCTGGGACAG AGGCGAGCCC AGGCGAGGCG GCAGACCATC
AGGCATTCTA CCAGGGAGAA GGACAGGGGA CCCACGAAAG CCACCACCAC CAAGCTGGTC
TACCAGATCT TCGATACTTT CTTCGCAGAG CAAATTGAAA AGGATGACAG AGAAGACAAG
GAGAACGCCT TTAAGCGCCG GCGATGTGGC GTCTGTGAGG TGTGTCAGCA GCCTGAGTGT
GGGAAATGTA AAGCCTGCAA GGACATGGTT AAATTTGGTG GCAGTGGACG GAGCAAGCAG
GCTTGCCAAG AGCGGAGGTG TCCCAATATG GCCATGAAGG AGGCAGATGA CGATGAGGAA
GTCGATGATA ACATCCCAGA GATGCCGTCA CCCAAAAAAA TGCACCAGGG GAAGAAGAAG
AAACAGAACA AGAATCGCAT CTCTTGGGTC GGAGAAGCCG TCAAGACTGA TGGGAAGAAG
AGTTACTATA AGAAGGTGTG CATTGATGCG GAAACCCTGG AAGTGGGGGA CTGTGTCTCT
GTTATTCCAG ATGATTCCTC AAAACCGCTG TATCTAGCAA GGGTCACGGC GCTGTGGGAG
GACAGCAGCA ACGGGCAGAT GTTTCACGCC CACTGGTTCT GCGCTGGGAC AGACACAGTC
CTCGGGGCCA CGTCGGACCC TCTGGAGCTG TTCTTGGTGG ATGAATGTGA GGACATGCAG
CTTTCATATA TCCACAGCAA AGTGAAAGTC ATCTACAAAG CCCCCTCCGA AAACTGGGCC
ATGGAGGGAG GCATGGATCC CGAGTCCCTG CTGGAGGGGG ACGACGGGAA GACCTACTTC
TACCAGCTGT GGTATGATCA AGACTACGCG AGATTCGAGT CCCCTCCAAA AACCCAGCCA
ACAGAGGACA ACAAGTTCAA ATTCTGTGTG AGCTGTGCCC GTCTGGCTGA GATGAGGCAA
AAAGAAATCC CCAGGGTCCT GGAGCAGCTC GAGGACCTGG ATAGCCGGGT CCTCTACTAC
TCAGCCACCA AGAACGGCAT CCTGTACCGA GTTGGTGATG GTGTGTACCT GCCCCCTGAG
GCCTTCACGT TCAACATCAA GCTGTCCAGT CCCGTGAAAC GCCCACGGAA GGAGCCCGTG
GATGAGGACC TGTACCCAGA GCACTACCGG AAATACTCCG ACTACATCAA AGGCAGCAAC
CTGGATGCCC CTGAGCCCTA CCGAATTGGC CGGATCAAAG AGATCTTCTG TCCCAAGAAG
AGCAACGGCA GGCCCAATGA GACTGACATC AAAATCCGGG TCAACAAGTT CTACAGGCCT
GAGAACACCC ACAAGTCCAC TCCAGCGAGC TACCACGCAG ACATCAACCT GCTCTACTGG
AGCGACGAGG AGGCCGTGGT GGACTTCAAG GCTGTGCAGG GCCGCTGCAC CGTGGAGTAT
GGGGAGGACC TGCCCGAGTG CGTCCAGGTG TACTCCATGG GCGGCCCCAA CCGCTTCTAC
TTCCTCGAGG CCTATAATGC AAAGAGCAAA AGCTTTGAAG ATCCTCCCAA CCATGCCCGT
AGCCCTGGAA ACAAAGGGAA GGGCAAGGGA AAAGGGAAGG GCAAGCCCAA GTCCCAAGCC
TGTGAGCCGA GCGAGCCAGA GATAGAGATC AAGCTGCCCA AGCTGCGGAC CCTGGATGTG
TTTTCTGGCT GCGGGGGGTT GTCGGAGGGA TTCCACCAAG CAGGCATCTC TGACACGCTG
TGGGCCATCG AGATGTGGGA CCCTGCGGCC CAGGCGTTCC GGCTGAACAA CCCCGGCTCC
ACAGTGTTCA CAGAGGACTG CAACATCCTG CTGAAGCTGG TCATGGCTGG GGAGACCACC
AACTCCCGCG GCCAGCGGCT GCCCCAGAAG GGAGACGTGG AGATGCTGTG CGGCGGGCCG
CCCTGCCAGG GCTTCAGCGG CATGAACCGC TTCAATTCGC GCACCTACTC CAAGTTCAAA
AACTCTCTGG TGGTTTCCTT CCTCAGCTAC TGCGACTACT ACCGGCCCCG GTTCTTCCTC
CTGGAGAATG TCAGGAACTT TGTCTCCTTC AAGCGCTCCA TGGTCCTGAA GCTCACCCTC
CGCTGCCTGG TCCGCATGGG CTATCAGTGC ACCTTCGGCG TGCTGCAGGC CGGTCAGTAC
GGCGTGGCCC AGACTAGGAG GCGGGCCATC ATCCTGGCCG CGGCCCCTGG AGAGAAGCTC
CCTCTGTTCC CGGAGCCACT GCACGTGTTT GCTCCCCGGG CCTGCCAGCT GAGCGTGGTG
GTGGATGACA AGAAGTTTGT GAGCAACATA ACCAGGTTGA GCTCGGGTCC TTTCCGGACC
ATCACGGTGC GAGACACGAT GTCCGACCTG CCGGAGGTGC GGAATGGAGC CTCGGCACTG
GAGATCTCCT ACAACGGGGA GCCTCAGTCC TGGTTCCAGA GGCAGCTCCG GGGCGCACAG
TACCAGCCCA TCCTCAGGGA CCACATCTGT AAGGACATGA GTGCATTGGT GGCTGCCCGC
ATGCGGCACA TCCCCTTGGC CCCAGGGTCA GACTGGCGCG ATCTGCCCAA CATCGAGGTG
CGGCTCTCAG ACGGCACCAT GGCCAGGAAG CTGCGGTATA CCCACCATGA CAGGAAGAAC
GGCCGCAGCA GCTCTGGGGC CCTCCGTGGG GTCTGCTCCT GCGTGGAAGC CGGCAAAGCC
TGCGACCCCG CAGCCAGGCA GTTCAACACC CTCATCCCCT GGTGCCTGCC CCACACCGGG
AACCGGCACA ACCACTGGGC TGGCCTCTAT GGAAGGCTCG AGTGGGACGG CTTCTTCAGC
ACAACCGTCA CCAACCCCGA GCCCATGGGC AAGCAGGGCC GCGTGCTCCA CCCAGAGCAG
CACCGTGTGG TGAGCGTGCG GGAGTGTGCC CGCTCCCAGG GCTTCCCTGA CACCTACCGG
CTCTTCGGCA ACATCCTGGA CAAGCACCGG CAGGTGGGCA ATGCCGTGCC ACCGCCCCTG
GCCAAAGCCA TTGGCTTGGA GATCAAGCTT TGTATGTTGG CCAAAGCCCG AGAGAGTGCC
TCAGCTAAAA TAAAGGAGGA GGAAGCTGCT AAGGACTAG

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

 
*
*
*
*