DNMT1 cDNA ORF clone, Gallus gallus(chicken)

Gene
Clones
gRNAs

Summary

Gene Symbol	DNMT1
Entrez Gene ID	396011
Full Name	DNA methyltransferase 1
General protein information	Preferred Names DNA methyltransferase 1 Names DNA (cytosine-5)-methyltransferase 1 DNA (cytosine-5-)-methyltransferase 1 DNA MTase GgaI DNA MeTase DNA methyltransferase GgaI MCMT m.GgaI
Gene Type	protein-coding
Organism	Gallus gallus(chicken)

mRNA and Protein(s)

mRNA	Protein	Name
NM_206952.1	NP_996835.1	DNA (cytosine-5)-methyltransferase 1

Pathways from BioSystems

Homologies

Arabidopsis thaliana (thale cress)	MEE57	NP_193097.1
Homo sapiens (human)	DNMT1	NP_001124295.1
Bos taurus (cattle)	DNMT1	NP_872592.2
Danio rerio (zebrafish)	dnmt1	NP_571264.1
Oryza sativa (rice)	Os03g0798300	NP_001051569.1
Oryza sativa (rice)	Os07g0182900	NP_001059052.1
Canis lupus familiaris (dog)	DNMT1	XP_533919.4
Arabidopsis thaliana (thale cress)	AT4G08990	NP_192638.1
Xenopus tropicalis (tropical clawed frog)	dnmt1	XP_002934384.1
Pan troglodytes (chimpanzee)	DNMT1	XP_512361.3
	DNMT1	XP_001104704.2
Mus musculus (house mouse)	Dnmt1	NP_001186360.2
Rattus norvegicus (Norway rat)	Dnmt1	NP_445806.3
Arabidopsis thaliana (thale cress)	DMT2	NP_193150.1
Arabidopsis thaliana (thale cress)	MET1	NP_199727.1
Gallus gallus (chicken)	DNMT1	NP_996835.1

Gene Ontology
Bibliography

Related articles in PubMed

Expression patterns and miRNA regulation of DNA methyltransferases in chicken primordial germ cells.
Rengaraj D, Lee BR, Lee SI, Seo HW, Han JY
PloS one6(5)e19524(2011 May)

An integrated epigenetic and genetic analysis of DNA methyltransferase genes (DNMTs) in tumor resistant and susceptible chicken lines.
Yu Y, Zhang H, Tian F, Zhang W, Fang H, Song J
PloS one3(7)e2672(2008 Jul)

Human DNA-(cytosine-5) methyltransferase-PCNA complex as a target for p21WAF1.
Chuang LS, Ian HI, Koh TW, Ng HH, Xu G, Li BF
Science (New York, N.Y.)277(5334)1996-2000(1997 Sep)

Isolation and expression of a chicken DNA methyltransferase cDNA.
Tajima S, Tsuda H, Wakabayashi N, Asano A, Mizuno S, Nishimori K
Journal of biochemistry117(5)1050-7(1995 May)

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

analysis of expression patterns and miRNA regulation of DNA methyltransferases in chicken primordial germ cells
Title: Expression patterns and miRNA regulation of DNA methyltransferases in chicken primordial germ cells.

analysis of the potential of epigenetic alterations in DNMT1 and DNMT3a, as well as the DNA mutations in DNMT3b, as epigenetic and genetic factors to neoplastic diseases of chickens
Title: An integrated epigenetic and genetic analysis of DNA methyltransferase genes (DNMTs) in tumor resistant and susceptible chicken lines.

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	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OGa27895	NM_206952.1 Latest version!	Gallus gallus DNA methyltransferase 1 (DNMT1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

ORF Online Only Promotion

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

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

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

Reference Sequences (Refseq)

DNMT1 ( NM_206952.1 ) cDNA ORF clone, Gallus gallus(chicken) -> NP_996835.1 Gallus gallus DNA methyltransferase 1 (DNMT1), mRNA.

Price & Availability↑

CloneID	OGa27895
Clone ID Related Accession (Same CDS sequence)	NM_206952.1
Accession Version	NM_206952.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4614bp) 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	2019-09-23
Organism	Gallus gallus(chicken)
Product	DNA (cytosine-5)-methyltransferase 1
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from D43920.1. On Aug 30, 2004 this sequence version replaced XM_424167.1. ##Evidence-Data-START## Transcript exon combination :: D43920.1 [ECO:0000332] ##Evidence-Data-END##

ATGCCCGCCC GCTCCGCGCC GCCCCCCCCC GCGCTGCCCC CGGCGCTGCG CCGACGGCTG 
CGCGATTTGG AGCGGGATGA GGACAGTCTG AGCGAGAAGG AGACCCTTCA GGAGAAGCTC 
CGCCTCACGC GCGGTTTCCT CCGTGCGGAG GTGCAGCGGC GGCTGAGCGC CCTCGATGCG 
GACGTGCGCT GCCGGGAGCT GTCCGAGGAG CGTTACCTGG CCAAGGTGAA AGCCCTCCTG 
CGCCGGGAGC TCGCGGCTGA GAATGGCGAC GCGGCCAAGT TGTTCTCTCG TGCCTCCAAT 
GGCTGCGCCG GGAACGGCGA GGAGGAGTGG GAGCGAGGGG GGCGGGGGGA GGACGGGGCC 
ATGGAGGTGG AGGAAGCGGC CGCCTCTTCT TCCTCCTCCT CCTCTTCCTC CTCTTCTTCC 
TCCTCCTCCT CCTCCTCCTC CTCCTCGCTG CTCCCGGCGC CGCGGGCTCG CAAAGCGCGG 
CGGAGCCGAT CCAATGGAGA GAGCAAAAAA TCTCCTGCCA GTTCCCGCGT CACCCGCAGC 
TCCGGCCGGC AGCCCACCAT CCTGAGCGTG TTTTCCAAAG GGTCCACCAA AAGGAAATCA 
GAGGAGGTGA ACGGTGCTGT GAAGCCGGAG GTGAGCGCTG AGAAGGATGA GGAGGAGGAG 
GAAGAGCTGG AGGAGAAGGA GCAAGATGAG AAGAGGATTA AAATCGAAAC CAAAGAAGGA 
TCTGAGATAA AGGACGAAAT AACTCAGGTT AAAACCTCAA CGCCAGCCAA AACCACCCCT 
CCCAAATGCG TCGACTGCCG GCAGTACCTC GACGACCCCG ACCTCAAATT CTTCCAAGGG 
GACCCCGACG ATGCGCTGGA GGAGCCCGAA ATGCTGACAG ATGAGCGCCT GTCCATCTTC 
GACGCCAACG AGGATGGCTT TGAGAGCTAT GAGGACCTCC CGCAGCACAA AGTCACCTCG 
TTCAGCGTCT ACGACAAACG TGGCCATCTG TGCCCCTTCG ACACCGGGCT GATCGAGAGG 
AACATCGAGC TGTATTTCAG CGGTGCCGTG AAGCCCATCT ATGATGACAA CCCGTGTTTG 
GATGGTGGGG TGAGGGCCAA AAAGTTGGGG CCCATCAACG CCTGGTGGAT CACGGGGTTC 
GACGGAGGGG AGAAAGCGCT CATCGGTTTC ACCACAGCCT TCGCCGATTA CATCCTGATG 
GAGCCCAGCG AGGAGTACGC GCCCATCTTC GCCCTGATGC AGGAGAAGAT CTACATGAGC 
AAAATCGTCG TCGAGTTCCT GCAGAACAAC CGCGACGTCA GCTACGAGGA CCTCCTCAAC 
AAGATCGAGA CCACCGTCCC TCCCGTGGGG CTGAACTTCA ACCGCTTCAC AGAGGATTCG 
CTCCTGCGGC ACGCGCAGTT CGTGGTGGAG CAGGTGGAGA GCTATGACGA AGCCGGCGAC 
AGCGACGAGC CCCCCGTCCT CATCACCCCC TGCATGAGGG ACCTCATCAA GTTGGCCGGG 
GTCACCCTGG GGAAGAGGCG TGCCGTGCGG CGCCAGGCCA TCCGTCACCC CACCAGGATC 
GACAAGGACA AAGGCCCCAC CAAGGCCACC ACCACCAAGC TGGTGTACCT CATCTTCGAC 
ACCTTCTTCT CGGAGCAGAT CGAGAAGGAC GAGAGGGAGG ATGACAAGGA GAACGCCATG 
AAGCGCCGGC GCTGCGGCGT CTGCGAGGTC TGCCAGCAGC CCGAGTGCGG GAAGTGCAAG 
GCTTGCCAGA ACATGGTGAA GTTTGGGGGC AGCGGCCGCA GCAAGCAGGC GTGTCTGCAG 
AGGAGGTGCC CCAATTTGGC AGTGCGGGAG GCGGACGAGG ATGAGGAGGT GGATGACAAC 
ATCCCTGAGA TGCCCTCCCC CAAGAAGATG CTGCAGGGGA GGAAGAAGAA GCAGAACAAG 
AGCCGCATCT CCTGGGTGGG AGAACCCATC AAGAGCGATG GGAAGAAGGA TTTCTACCAG 
AGGGTCTGCA TTGACTCCGA GACCCTGGAG GTGGGAGACT GCGTCTCCGT CAGCCCCGAC 
GATCCCACCA AACCCCTCTA CCTCGCCAGG GTGACGGCCA TGTGGGAGGA CAGCAGCGGG 
CAGATGTTCC ATGCCCATTG GTTCTGCCCT GGTTCCGACA CCGTCCTGGG GGCCACCTCG 
GACCCTCTGG AGCTCTTCTT GGTGGACGAA TGCGAGGACA TGCAGCTGTC CTACATCCAC 
GGCAAAGTCA ACGTCATCTA CAAACCCCCA TCGGAAAACT GGGCCATGGA GGGCGGGTTG 
GACATGGAGA TCAAGATGGT GGAGGACGAC GGGAGGACGT ACTTCTATCA GATGTGGTAC 
GACCAGGAGT ACGCCCGCTT CGAGACGCCC CCCAGAGCTC AGCCCATGGA GGACAACAAA 
TACAAGTTCT GCCTGAGCTG TGCGCGTCTG GATGAGGTGA GGCACAAAGA GATCCCCAAA 
GTGGCTGAAC CTCTGGATGA GGGCGATGGG AAGATGTTCT ATGCCATGGC CACCAAGAAC 
GGGGTGCAGT ACCGCGTCGG CGACAGCGTC TACCTCCTGC CCGAGGCCTT CTCCTTCAGC 
ATGAAGCCTG CCAGCCCGGC CAAGCGCCCC AAAAAGGAGG CGGTGGATGA AGATCTGTAC 
CCTGAGCACT ACAGGAAGTA TTCGGAGTAC ATCAAGGGCA GCAACCTGGA CGCCCCCGAC 
CCCTATCGTG TGGGGCGCAT CAAGGAGATC TTCTGCCACA TCCGCACCAA CGGCAAACCC 
AACGAGGCCG ACATCAAACT GCGCATCTGG AAGTTCTACC GCCCCGAAAA CACGCACAAA 
TCCATGAAGG CCACCTACCA CGCTGACATC AACCTCCTCT ACTGGAGCGA CGAGGAGACG 
ACGGTGGACT TCTGCGCCGT GCAGGGCCGC TGCACCGTGG TGTACGGCGA GGATCTGACC 
GAGAGCATCC AGGATTACTC AGCAGGAGGG CTGGACAGGT TCTATTTCCT GGAGGCGTAC 
AACGCGAAAA CGAAGAGCTT CGAGGATCCG CCCAACCACG CGCGGAGCTC CGGGAATAAA 
GGGAAGGGGA AGGGCAAGGG GAAAGGGAAA GGCAAAGGGA AATCATCGAC CACCTGCGAG 
CAGAGTGAGC CCGAACCCAC CGAGCTGAAG CTGCCCAAGC TGCGCACCCT GGACGTGTTC 
TCCGGCTGTG GGGGGCTCTC CGAGGGCTTC CACCAAGCGG GCGTATCGGA GACGCTGTGG 
GCCATCGAGA TGTGGGAGCC GGCGGCTCAG GCGTTCCGCC TCAACAACCC CGGCACCACG 
GTGTTCACGG AGGACTGCAA CGTTCTGCTC AAGCTGGTGA TGTCCGGAGA GAAAACCAAT 
TCCCTGGGGC AGAAACTGCC TCAGAAGGGG GATGTGGAGA TGCTCTGCGG GGGACCCCCG 
TGCCAGGGCT TCAGCGGCAT GAACCGCTTC AACTCCCGCA CCTACTCCAA GTTCAAGAAC 
TCCCTGGTGG TCTCCTTCCT CAGTTACTGC GATTATTACC GCCCGCGCTT CTTCCTGCTG 
GAGAACGTCA GGAATTTCGT CTCCTTCAAA CGTTCCATGG TGCTGAAGCT GACGCTGCGC 
TGCCTGGTCC GCATGGGCTA CCAGTGCACC TTCGGGGTCC TGCAGGCGGG GCAGTACGGT 
GTGGCGCAGA CGCGGCGCAG AGCCATCGTT CTGGCGGCGG CTCCCGGTGA GAAGCTGCCG 
ATGTTCCCGG AGCCGCTGCA CGTCTTCGCG CCCCGCGCGT GTCAGCTCAG CGTGGTGGTG 
GACGACAAGA AGTTCGTCAG CAACATCACC CGCACCTATT CGGGGCCGTT CCGTACCATC 
ACGGTTCGGG ACACGATGTC CGACCTCCCC GAGATCCGCA ACGGCGCCTC AGCCCTGGAG 
ATCTCCTACA ACGGGGAGCC GCAGTCGTGG TTCCAGAGGC AGATCCGTGG GTCGCAGTAC 
CAACCCATCC TCAGGGACCA CATCTGTAAG GACATGAGCG CTTTGGTGGC GGCGCGGATG 
CGGCACATCC CGTTGGCTCC GGGCTCGGAT TGGCGCGACC TCCCCAACAT CGAGGTGAGG 
CTGTCGGACG GGACGAGCAC CCGCAAGCTG CGCTACACCC ACCACGAGAA GAAGAACGGC 
CGCAGCTCCT CTGGCGCTCT GCGCGGCGTC TGCTCCTGTG CCGAGGGCAA GCCGTGTGAC 
CCCGCAGACC GGCAGTTCAA CACGCTCATC CCGTGGTGTC TGCCCCACAC CGGGAACCGC 
CACAACCACT GGGCCGGGCT GTACGGCCGC CTCGAGTGGG ACGGCTTCTT CAGCACCACG 
GTCACCAACC CTGAGCCCAT GGGCAAGCAG GGCCGCGTCC TTCACCCCGA GCAGCACCGC 
GTCGTGAGCG TCCGGGAGTG CGCGCGCTCG CAGGGCTTCC CTGACACCTA TCGCCTCTTT 
GGGAACATCC TGGATAAACA CCGACAGGTG GGGAACGCGG TGCCGCCGCC CCTCGCCAAA 
GCCATCGGGT TGGAGATCCG AGCCTGCGTG GGAGCCAGGA TGAGGGAGGA GAGCGGAGCG 
GCCGTCGCCC CCCCCGCCCC AGAGAAGATG GAGATGACGG CCGCGGCCGA CTGA

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

RefSeq	NP_996835.1
CDS	38..4651
Translation	MPARSAPPPPALPPALRRRLRDLERDEDSLSEKETLQEKLRLTRGFLRAEVQRRLSALDADVRCRELSEERYLAKVKALLRRELAAENGDAAKLFSRASNGCAGNGEEEWERGGRGEDGAMEVEEAAASSSSSSSSSSSSSSSSSSSSSLLPAPRARKARRSRSNGESKKSPASSRVTRSSGRQPTILSVFSKGSTKRKSEEVNGAVKPEVSAEKDEEEEEELEEKEQDEKRIKIETKEGSEIKDEITQVKTSTPAKTTPPKCVDCRQYLDDPDLKFFQGDPDDALEEPEMLTDERLSIFDANEDGFESYEDLPQHKVTSFSVYDKRGHLCPFDTGLIERNIELYFSGAVKPIYDDNPCLDGGVRAKKLGPINAWWITGFDGGEKALIGFTTAFADYILMEPSEEYAPIFALMQEKIYMSKIVVEFLQNNRDVSYEDLLNKIETTVPPVGLNFNRFTEDSLLRHAQFVVEQVESYDEAGDSDEPPVLITPCMRDLIKLAGVTLGKRRAVRRQAIRHPTRIDKDKGPTKATTTKLVYLIFDTFFSEQIEKDEREDDKENAMKRRRCGVCEVCQQPECGKCKACQNMVKFGGSGRSKQACLQRRCPNLAVREADEDEEVDDNIPEMPSPKKMLQGRKKKQNKSRISWVGEPIKSDGKKDFYQRVCIDSETLEVGDCVSVSPDDPTKPLYLARVTAMWEDSSGQMFHAHWFCPGSDTVLGATSDPLELFLVDECEDMQLSYIHGKVNVIYKPPSENWAMEGGLDMEIKMVEDDGRTYFYQMWYDQEYARFETPPRAQPMEDNKYKFCLSCARLDEVRHKEIPKVAEPLDEGDGKMFYAMATKNGVQYRVGDSVYLLPEAFSFSMKPASPAKRPKKEAVDEDLYPEHYRKYSEYIKGSNLDAPDPYRVGRIKEIFCHIRTNGKPNEADIKLRIWKFYRPENTHKSMKATYHADINLLYWSDEETTVDFCAVQGRCTVVYGEDLTESIQDYSAGGLDRFYFLEAYNAKTKSFEDPPNHARSSGNKGKGKGKGKGKGKGKSSTTCEQSEPEPTELKLPKLRTLDVFSGCGGLSEGFHQAGVSETLWAIEMWEPAAQAFRLNNPGTTVFTEDCNVLLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSFLSYCDYYRPRFFLLENVRNFVSFKRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIVLAAAPGEKLPMFPEPLHVFAPRACQLSVVVDDKKFVSNITRTYSGPFRTITVRDTMSDLPEIRNGASALEISYNGEPQSWFQRQIRGSQYQPILRDHICKDMSALVAARMRHIPLAPGSDWRDLPNIEVRLSDGTSTRKLRYTHHEKKNGRSSSGALRGVCSCAEGKPCDPADRQFNTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDTYRLFGNILDKHRQVGNAVPPPLAKAIGLEIRACVGARMREESGAAVAPPAPEKMEMTAAAD

Target ORF information:

RefSeq Version	NM_206952.1
Organism	Gallus gallus(chicken)
Definition	Gallus gallus DNA methyltransferase 1 (DNMT1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_206952.1

ORF Insert Sequence:

ATGCCCGCCC GCTCCGCGCC GCCCCCCCCC GCGCTGCCCC CGGCGCTGCG CCGACGGCTG 
CGCGATTTGG AGCGGGATGA GGACAGTCTG AGCGAGAAGG AGACCCTTCA GGAGAAGCTC 
CGCCTCACGC GCGGTTTCCT CCGTGCGGAG GTGCAGCGGC GGCTGAGCGC CCTCGATGCG 
GACGTGCGCT GCCGGGAGCT GTCCGAGGAG CGTTACCTGG CCAAGGTGAA AGCCCTCCTG 
CGCCGGGAGC TCGCGGCTGA GAATGGCGAC GCGGCCAAGT TGTTCTCTCG TGCCTCCAAT 
GGCTGCGCCG GGAACGGCGA GGAGGAGTGG GAGCGAGGGG GGCGGGGGGA GGACGGGGCC 
ATGGAGGTGG AGGAAGCGGC CGCCTCTTCT TCCTCCTCCT CCTCTTCCTC CTCTTCTTCC 
TCCTCCTCCT CCTCCTCCTC CTCCTCGCTG CTCCCGGCGC CGCGGGCTCG CAAAGCGCGG 
CGGAGCCGAT CCAATGGAGA GAGCAAAAAA TCTCCTGCCA GTTCCCGCGT CACCCGCAGC 
TCCGGCCGGC AGCCCACCAT CCTGAGCGTG TTTTCCAAAG GGTCCACCAA AAGGAAATCA 
GAGGAGGTGA ACGGTGCTGT GAAGCCGGAG GTGAGCGCTG AGAAGGATGA GGAGGAGGAG 
GAAGAGCTGG AGGAGAAGGA GCAAGATGAG AAGAGGATTA AAATCGAAAC CAAAGAAGGA 
TCTGAGATAA AGGACGAAAT AACTCAGGTT AAAACCTCAA CGCCAGCCAA AACCACCCCT 
CCCAAATGCG TCGACTGCCG GCAGTACCTC GACGACCCCG ACCTCAAATT CTTCCAAGGG 
GACCCCGACG ATGCGCTGGA GGAGCCCGAA ATGCTGACAG ATGAGCGCCT GTCCATCTTC 
GACGCCAACG AGGATGGCTT TGAGAGCTAT GAGGACCTCC CGCAGCACAA AGTCACCTCG 
TTCAGCGTCT ACGACAAACG TGGCCATCTG TGCCCCTTCG ACACCGGGCT GATCGAGAGG 
AACATCGAGC TGTATTTCAG CGGTGCCGTG AAGCCCATCT ATGATGACAA CCCGTGTTTG 
GATGGTGGGG TGAGGGCCAA AAAGTTGGGG CCCATCAACG CCTGGTGGAT CACGGGGTTC 
GACGGAGGGG AGAAAGCGCT CATCGGTTTC ACCACAGCCT TCGCCGATTA CATCCTGATG 
GAGCCCAGCG AGGAGTACGC GCCCATCTTC GCCCTGATGC AGGAGAAGAT CTACATGAGC 
AAAATCGTCG TCGAGTTCCT GCAGAACAAC CGCGACGTCA GCTACGAGGA CCTCCTCAAC 
AAGATCGAGA CCACCGTCCC TCCCGTGGGG CTGAACTTCA ACCGCTTCAC AGAGGATTCG 
CTCCTGCGGC ACGCGCAGTT CGTGGTGGAG CAGGTGGAGA GCTATGACGA AGCCGGCGAC 
AGCGACGAGC CCCCCGTCCT CATCACCCCC TGCATGAGGG ACCTCATCAA GTTGGCCGGG 
GTCACCCTGG GGAAGAGGCG TGCCGTGCGG CGCCAGGCCA TCCGTCACCC CACCAGGATC 
GACAAGGACA AAGGCCCCAC CAAGGCCACC ACCACCAAGC TGGTGTACCT CATCTTCGAC 
ACCTTCTTCT CGGAGCAGAT CGAGAAGGAC GAGAGGGAGG ATGACAAGGA GAACGCCATG 
AAGCGCCGGC GCTGCGGCGT CTGCGAGGTC TGCCAGCAGC CCGAGTGCGG GAAGTGCAAG 
GCTTGCCAGA ACATGGTGAA GTTTGGGGGC AGCGGCCGCA GCAAGCAGGC GTGTCTGCAG 
AGGAGGTGCC CCAATTTGGC AGTGCGGGAG GCGGACGAGG ATGAGGAGGT GGATGACAAC 
ATCCCTGAGA TGCCCTCCCC CAAGAAGATG CTGCAGGGGA GGAAGAAGAA GCAGAACAAG 
AGCCGCATCT CCTGGGTGGG AGAACCCATC AAGAGCGATG GGAAGAAGGA TTTCTACCAG 
AGGGTCTGCA TTGACTCCGA GACCCTGGAG GTGGGAGACT GCGTCTCCGT CAGCCCCGAC 
GATCCCACCA AACCCCTCTA CCTCGCCAGG GTGACGGCCA TGTGGGAGGA CAGCAGCGGG 
CAGATGTTCC ATGCCCATTG GTTCTGCCCT GGTTCCGACA CCGTCCTGGG GGCCACCTCG 
GACCCTCTGG AGCTCTTCTT GGTGGACGAA TGCGAGGACA TGCAGCTGTC CTACATCCAC 
GGCAAAGTCA ACGTCATCTA CAAACCCCCA TCGGAAAACT GGGCCATGGA GGGCGGGTTG 
GACATGGAGA TCAAGATGGT GGAGGACGAC GGGAGGACGT ACTTCTATCA GATGTGGTAC 
GACCAGGAGT ACGCCCGCTT CGAGACGCCC CCCAGAGCTC AGCCCATGGA GGACAACAAA 
TACAAGTTCT GCCTGAGCTG TGCGCGTCTG GATGAGGTGA GGCACAAAGA GATCCCCAAA 
GTGGCTGAAC CTCTGGATGA GGGCGATGGG AAGATGTTCT ATGCCATGGC CACCAAGAAC 
GGGGTGCAGT ACCGCGTCGG CGACAGCGTC TACCTCCTGC CCGAGGCCTT CTCCTTCAGC 
ATGAAGCCTG CCAGCCCGGC CAAGCGCCCC AAAAAGGAGG CGGTGGATGA AGATCTGTAC 
CCTGAGCACT ACAGGAAGTA TTCGGAGTAC ATCAAGGGCA GCAACCTGGA CGCCCCCGAC 
CCCTATCGTG TGGGGCGCAT CAAGGAGATC TTCTGCCACA TCCGCACCAA CGGCAAACCC 
AACGAGGCCG ACATCAAACT GCGCATCTGG AAGTTCTACC GCCCCGAAAA CACGCACAAA 
TCCATGAAGG CCACCTACCA CGCTGACATC AACCTCCTCT ACTGGAGCGA CGAGGAGACG 
ACGGTGGACT TCTGCGCCGT GCAGGGCCGC TGCACCGTGG TGTACGGCGA GGATCTGACC 
GAGAGCATCC AGGATTACTC AGCAGGAGGG CTGGACAGGT TCTATTTCCT GGAGGCGTAC 
AACGCGAAAA CGAAGAGCTT CGAGGATCCG CCCAACCACG CGCGGAGCTC CGGGAATAAA 
GGGAAGGGGA AGGGCAAGGG GAAAGGGAAA GGCAAAGGGA AATCATCGAC CACCTGCGAG 
CAGAGTGAGC CCGAACCCAC CGAGCTGAAG CTGCCCAAGC TGCGCACCCT GGACGTGTTC 
TCCGGCTGTG GGGGGCTCTC CGAGGGCTTC CACCAAGCGG GCGTATCGGA GACGCTGTGG 
GCCATCGAGA TGTGGGAGCC GGCGGCTCAG GCGTTCCGCC TCAACAACCC CGGCACCACG 
GTGTTCACGG AGGACTGCAA CGTTCTGCTC AAGCTGGTGA TGTCCGGAGA GAAAACCAAT 
TCCCTGGGGC AGAAACTGCC TCAGAAGGGG GATGTGGAGA TGCTCTGCGG GGGACCCCCG 
TGCCAGGGCT TCAGCGGCAT GAACCGCTTC AACTCCCGCA CCTACTCCAA GTTCAAGAAC 
TCCCTGGTGG TCTCCTTCCT CAGTTACTGC GATTATTACC GCCCGCGCTT CTTCCTGCTG 
GAGAACGTCA GGAATTTCGT CTCCTTCAAA CGTTCCATGG TGCTGAAGCT GACGCTGCGC 
TGCCTGGTCC GCATGGGCTA CCAGTGCACC TTCGGGGTCC TGCAGGCGGG GCAGTACGGT 
GTGGCGCAGA CGCGGCGCAG AGCCATCGTT CTGGCGGCGG CTCCCGGTGA GAAGCTGCCG 
ATGTTCCCGG AGCCGCTGCA CGTCTTCGCG CCCCGCGCGT GTCAGCTCAG CGTGGTGGTG 
GACGACAAGA AGTTCGTCAG CAACATCACC CGCACCTATT CGGGGCCGTT CCGTACCATC 
ACGGTTCGGG ACACGATGTC CGACCTCCCC GAGATCCGCA ACGGCGCCTC AGCCCTGGAG 
ATCTCCTACA ACGGGGAGCC GCAGTCGTGG TTCCAGAGGC AGATCCGTGG GTCGCAGTAC 
CAACCCATCC TCAGGGACCA CATCTGTAAG GACATGAGCG CTTTGGTGGC GGCGCGGATG 
CGGCACATCC CGTTGGCTCC GGGCTCGGAT TGGCGCGACC TCCCCAACAT CGAGGTGAGG 
CTGTCGGACG GGACGAGCAC CCGCAAGCTG CGCTACACCC ACCACGAGAA GAAGAACGGC 
CGCAGCTCCT CTGGCGCTCT GCGCGGCGTC TGCTCCTGTG CCGAGGGCAA GCCGTGTGAC 
CCCGCAGACC GGCAGTTCAA CACGCTCATC CCGTGGTGTC TGCCCCACAC CGGGAACCGC 
CACAACCACT GGGCCGGGCT GTACGGCCGC CTCGAGTGGG ACGGCTTCTT CAGCACCACG 
GTCACCAACC CTGAGCCCAT GGGCAAGCAG GGCCGCGTCC TTCACCCCGA GCAGCACCGC 
GTCGTGAGCG TCCGGGAGTG CGCGCGCTCG CAGGGCTTCC CTGACACCTA TCGCCTCTTT 
GGGAACATCC TGGATAAACA CCGACAGGTG GGGAACGCGG TGCCGCCGCC CCTCGCCAAA 
GCCATCGGGT TGGAGATCCG AGCCTGCGTG GGAGCCAGGA TGAGGGAGGA GAGCGGAGCG 
GCCGTCGCCC CCCCCGCCCC AGAGAAGATG GAGATGACGG CCGCGGCCGA CTGA

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

PubMed

Expression patterns and miRNA regulation of DNA methyltransferases in chicken primordial germ cells.
PloS one6(5)e19524(2011 May)
Rengaraj D,Lee BR,Lee SI,Seo HW,Han JY

An integrated epigenetic and genetic analysis of DNA methyltransferase genes (DNMTs) in tumor resistant and susceptible chicken lines.
PloS one3(7)e2672(2008 Jul)
Yu Y,Zhang H,Tian F,Zhang W,Fang H,Song J

Human DNA-(cytosine-5) methyltransferase-PCNA complex as a target for p21WAF1.
Science (New York, N.Y.)277(5334)1996-2000(1997 Sep)
Chuang LS,Ian HI,Koh TW,Ng HH,Xu G,Li BF

Isolation and expression of a chicken DNA methyltransferase cDNA.
Journal of biochemistry117(5)1050-7(1995 May)
Tajima S,Tsuda H,Wakabayashi N,Asano A,Mizuno S,Nishimori K

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DNMT1 cDNA ORF clone, Gallus gallus(chicken)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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