DNMT1 cDNA ORF clone, Danio rerio(Zebrafish)

Gene
Clones
gRNAs

Summary

Gene Symbol	DNMT1
Entrez Gene ID	30430
Full Name	DNA (cytosine-5-)-methyltransferase 1
Synonyms	cb1075,cb983,ddn,dmnt1,fb05h01,mta,wu:fb05h01
General protein information	Preferred Names DNA (cytosine-5-)-methyltransferase 1 Names DNA (cytosine-5)-methyltransferase 1
Gene Type	protein-coding
Organism	Danio rerio(Zebrafish)

mRNA and Protein(s)

mRNA	Protein	Name
XM_017353152.2	XP_017208641.1	DNA (cytosine-5)-methyltransferase 1 isoform X1
NM_131189.2	NP_571264.2	DNA (cytosine-5)-methyltransferase 1
XM_017353152.1	XP_017208641.1	DNA (cytosine-5)-methyltransferase 1 isoform X1

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

Uhrf1 and Dnmt1 are required for development and maintenance of the zebrafish lens.
Tittle RK, Sze R, Ng A, Nuckels RJ, Swartz ME, Anderson RM, Bosch J, Stainier DY, Eberhart JK, Gross JM
Developmental biology350(1)50-63(2011 Feb)

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

Dnmt1 stability requires UHRF1 phosphorylation and that crosstalk between the proteins is essential for the function of these two important epigenetic regulators during gastrulation
Title: UHRF1 regulation of Dnmt1 is required for pre-gastrula zebrafish development.

Dnmt1 is required for hematopoietic stem and progenitor cells maintenance via cebpa regulation during definitive hematopoiesis in zebrafish
Title: DNA methyltransferase 1 functions through C/ebpa to maintain hematopoietic stem and progenitor cells in zebrafish.

Lsh Is Essential for Maintaining Global DNA Methylation Levels in Amphibia and Fish and Interacts Directly with Dnmt1.
Title: Lsh Is Essential for Maintaining Global DNA Methylation Levels in Amphibia and Fish and Interacts Directly with Dnmt1.

These data provide the first evidence that Uhrf1 and Dnmt1 function is required for vertebrate lens development and maintenance.
Title: Uhrf1 and Dnmt1 are required for development and maintenance of the zebrafish lens.

Thus, our data suggest that Dnmt1 is dispensable for pancreatic duct or endocrine cell formation, but not for acinar cell survival. In addition, Dnmt1 may influence the differentiation of pancreatic beta cell progenitors.
Title: Loss of Dnmt1 catalytic activity reveals multiple roles for DNA methylation during pancreas development and regeneration.

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)
ODa39221	NM_131189.2 Latest version!	Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$881.30 $1259.00
ODa58014	XM_017353152.2 Latest version!	Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00
View Old Accession Versions >>
ODa58014	XM_017353152.1	Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00
Hide Old Accession Versions >>

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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_131189.2 ) cDNA ORF clone, Danio rerio(Zebrafish) -> NP_571264.2 Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), mRNA.

Price & Availability↑

CloneID	ODa39221
Clone ID Related Accession (Same CDS sequence)	NM_131189.2
Accession Version	NM_131189.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4503bp) 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	2020-01-04
Organism	Danio rerio(zebrafish)
Product	DNA (cytosine-5)-methyltransferase 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CU571160.4. On May 20, 2015 this sequence version replaced NM_131189.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. 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 :: GDQH01012801.1, GDQQ01010650.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCCTACCA AGACCTCATT GTCTCTGCCA GAGGATGTCA AAGAACGGCT TCAGGTGTTG 
GATGAAGGTG GAGACAGTTT GTCAGATGAG GAGTGTGTAA AAGAAAAGCT CAGGTTACTA 
CAGGAGTTCC TGCTCGCTGA TACTCAGGAC CAGCTCAAAA ACCTTGAGGA CAAGTTAAAG 
AGCTCTGAGC TCTCCACAGA GGTTTACATG TCAGAGGTGA AGGCTGTACT GAAGAAAGCT 
CTGGGAGTTG TCAAGGAGGG TGATGGAGTG GAGCAGAATG GACATTCAAA TGGCTTCTCT 
GAAAATGGAT CTCACAAAGA CAATGGCGAA CAGGAGGGAG CCATGGACAC TCAGGAGGAA 
GGAGACGCTA TAAAGTCTCC CAGTGCCCCA AAGGGAAGGG GCGGACGTCG CAGTAAAGCA 
GACTCTGAGC CCAAGAAATC TCCAGCCAGT TCCAGGGTTA CACGCAACAC TGGGAAGCAA 
CAAACTATCG TGTCAATGTT TTCTAGAGTC CCAAAACGAA AGTCTGATGA GCTGAATGGA 
GAACCAGCAA ATGGTGACAC AGAAATTAAG ACTGAGGAAA CTATCACTGA GGAGGTCCGT 
GAAGAGAAAC GCCTTAAAAC AGAAGATGAG AAGCCTGAAG CTGAGAATGC TGCTAACCTC 
AAACCTGTGT CTACAGCAAA GACTCCTCCG CCGAAATGTC CTGACTGCAG GCAGTATCTG 
GATGATTCAG ACCTAAAGTT CTTTCAAGGG GATCCTGATG ATGCTTTGGA TGAACCAGAG 
ATGTTAACCG ATGAGCGTCT CTCCCTCTTT GATTCAAATG AGGATGGTTT TGAAAGCTAT 
GAAGATCTTC CTCAGCACAA GATCACGAAC TTCAGTGTGT ATGACAAGCG TGGTCATCTG 
TGTCCGTTTG ATTCTGGCCT CATTGAGAAA AATGTGGAAC TGTACTTTAG TTGTGCTGTA 
AAGCCCATCT ATGATGACAA CCCATGCATG GATGGTGGGG TTCCTGCCAA AAAGCTTGGT 
CCCATCAATG CTTGGTGGAT CACTGGTTTT GATGGTGGGG AGAAGGCTTT GATTGGCTTC 
ACTACAGCGT TTGCTGACTA TATCCTAATG GACCCCAGTG AGGAGTACTC TGCTATTTTT 
GCTCTGATGC AGGAGAAGAT CTACATGAGC AAAATTGTGG TTGAATTTCT TCAGAAAAAC 
CAGGATGCCA CATATGAGGA CCTGCTGAAC AAAATAGAGA CTACTGTCCC GCCCGCGGGG 
CTCAACTTCA ACCGTTTCAC AGAAGACACA CTCTTGCGCC ATGCCCAGTT TGTGGTAGAG 
CAGGTCGAGA GCTACGATGA GGCTGGAGAC TCTGATGAAC AACCCATTAT AATCACTCCA 
TGTATGCGTG ACTTGATCAA GCTGGCTGGT GTTACTTTGG GCAAGAGGAG AGCAGCCAGA 
AGACAAGCCG TCCGCCATCC CACTAAGATT GAAAAGGACA ACAAGGGCCC GACTAAAGCC 
ACCACCACTA AACTGGTCTA CCTGATCTTT GACACATTCT TCTCTGATCA GATTGACCAG 
AACAATAAGG ATGGAGGTGT GAAGAGACAA CGGTGTGGTG TCTGTGAGGT GTGTCAAGCT 
CCAGACTGCG GCAAGTGTTC AGCTTGTAAG GATATGATCA AGTTTGGAGG CAGTGGCAGA 
AGTAAACAAG CCTGTCAGAA GAGGAGGTGT CCCAACCTGG CAGTGAAAGA AGCTGAGGAT 
GATGAGAACA TGGATGAGGA GGATGTGTTG CCAGTTAAGG ATACAAAGAA AATGTCTCAG 
ACCAAGAAGA AGAAACAAAC CAAGAACAAA ATCAGCTGGG TTGGTGAGCC ATTAAAGACT 
GAGGGAAAGA AGGAATATTA CATGAAAGTG CGTGTGGAAA ATGAGGTGTT GGAGGTGGGA 
GATTGTGTAT CTGTAAGCCC TGATGACCCA TCACATCCTC TCTACCTGGC CAGGATTACA 
GCTTTGTGGG ATGATGGTGA GAAGATGTTT CATGCCCATT GGTTCTGCCG TGGCACTGAT 
ACGGTCCTTG GAGAGTCATC AGACCCTCTT GAGCTCTTCC TAGTGGATGA GTGTGAAGAC 
ATGCAGCTAA GTTTTATCCA TGGCAAGGTC AACGTCTTCT ACAAGGCACC ATCTGAAAAC 
TGGTATATGG AGGGTGGAAT GGATGAAGAC ATCAAAGTGA TTGACGATGA TGGTGAAAGC 
TTCTTTTATC AGCTCCATTA TGAAGGTGAA TGTGCTCGCT TTGAGACTCC TCCCAAGGTC 
ACACCCTCTG AGGACTGCAA GTATAAGTTT TGTGCCAGCT GCACCAGAAA CAAAGAACGA 
GAGGCTGAGT CTGTTCCCCA TGCCTATGAG CCCTTAGAGG ATGAGGAGAG TGACTCTAAA 
GTCTTCTATG GGTTGGTGAA CTATAAGGGA GAGCAGTACA AAGTAGGGGA CAGTGTCTAC 
CTACCACCTG AGGCCTTTAA CTTTGTAGTA AAGGCTGCAA GCCCGGTGAA GCGTTCCCAC 
AGAAAAGATG ACGTTGATGA AGATCTTTAC CCTGAATACT ACAGGAAGTC CTCTGATTAC 
ATTAAAGGCT CAAATCTGGA TGCTCCTCAG CCTTTCCGCA TTGGGCGCAT CAAAGAAATC 
TTCTGCAACA AGCGCAGCAA TGGAAAGCCA GACACCTCAG AGATCAAACT GCGCCTCTAT 
AAATTCTACA GACCTGAAAA CACTCACAAG GGACCAAAGG GAGCATATCA TTCTGATATA 
AACCAACTCT ACTGGAGTGA CGAAGAGGCG ACCGTCAGCA TGACTGAGGT GCTGACACGC 
TGTCGTGTTG AGTATGCAGA GGATCTGGTT GAAAGTGTGC AGGACTATTC AAACAAAGGA 
CCCGATCGCT TCTATTTCCT TGAGGCATAC AATGCCAAAA CCAAGAGCTT TGAGGATCCT 
CCCAATCATG CTAGATCTGC TGTGAATAAG GGCAAAGGGA AAGGAAAGGG CAAAGGAAAA 
GGGAAAGGGA AAGCAGCGCC TCAAGAACCA CAGGATCAGG AGCCACAAGA GCCAGTGGTT 
CCCAAACTGC GCACTCTGGA TGTATTCTCT GGCTGTGGTG GTCTGTCTGA GGGCTTCCAT 
CAAGCAGGCA TCTCAGAGAC TCACTGGGCA ATAGAGATGT GGGACCCTGC CGCTCAGGCA 
TTCAGGTTGA ACAATCCAGG CACGACCGTT TTCACAGAGG ACTGTAACGT CCTGCTGAAG 
CTGGTAATGT CTGGAGAGAA GACTAACTCT CTTGGACAGA AGCTGCCACA GAAGGGTGAC 
GTGGAGATGC TCTGCGGTGG GCCGCCTTGC CAAGGCTTCA GTGGAATGAA CCGCTTCAAC 
TCTCGCACAT ACTCAAAGTT CAAGAACTCT CTGGTTGTTT CTTATCTGAG TTATTGTGAC 
TACTACAGAC CCAAGTTCTT CCTGCTGGAG AACGTAAGGA ACTTTGTGTC ATTTAAGCGC 
TCCATGGTCC TGAAGCTCAC ACTGCGCTGT CTGGTGCGCA TGGGCTACCA GTGCACCTTT 
GGTGTGCTGC AGGCTGGACA GTATGGGGTG GCCCAGACTC GACGCAGAGC TATCATCCTG 
GCTGCAGCCC CTGGTGAAAA GCTGCCCCGC TACCCTGAAC CCTTGCATGT GTTTGCCCCT 
CGAGCATGTT CTCTTAGTGT GGCAGTTGAT GAGAAGAAAT ATGTCAGCAA TGTTACTCGT 
GGAAATGGGG GCATTTATCG CACCATCACA GTACGGGACA CCATGTCTGA CCTCCCAGAA 
ATCCGCAATG GAGCTGCTGC ACTAGAGATT TCCTACAATG GCGAGCCACA GTCCTGGTTC 
CAGAGGCAAA TTCGGGGCTC TCAGTATCAG CCCATCCTCA GGGACCACAT CTGCAAGGAC 
ATGAGTGCCC TGGTTGCTGC CCGCATGCGT AACATTCCTC TGGCTCCTGG TTCAGACTGG 
AGGGATCTAC CTAATTTTGA GGTGCGGTTG CGGGATGGCA CCACCACAAA AAAGCTTCGC 
TACACACACC CTGACAAAAA GAATGGCCGC AGTGGCACCG GTGCCCTGAG AGGAGTGTGT 
TCATGTTCTG AAGGAAAACC GTGTGATCCT GCAGACAGGC AGTTCAACAC CCTGATTCCC 
TGGTGTCTGC CTCATACGGG TAACCGCCAT AATCACTGGG CTGGTCTGTA TGGCCGCCTG 
GAATGGGACG GATTCTTCAG CACTACAGTT ACCAATCCTG AGCCAATGGG AAAGCAGGGA 
CGTGTCCTTC ACCCTGAGCA GCACCGTGTG GTGAGTGTCA GGGAATGTGC ACGCTCTCAG 
GGCTTCCCAG ACACCTACCG CTTCTTTGGC AATGTGCTAG ACAAACACAG ACAAGTTGGT 
AATGCTGTTC CTCCACCCCT CTCCAAAGCC ATTGGCCTGG AGGTCAAGAA GTGTGTGCTG 
GAGAAAATGA GGGAGAATGC TACAGAGCCT GTGAAGCAGG AGAAAATGGA GCTCTCTGAC 
TAA

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

RefSeq	NP_571264.2
CDS	148..4650
Translation	MPTKTSLSLPEDVKERLQVLDEGGDSLSDEECVKEKLRLLQEFLLADTQDQLKNLEDKLKSSELSTEVYMSEVKAVLKKALGVVKEGDGVEQNGHSNGFSENGSHKDNGEQEGAMDTQEEGDAIKSPSAPKGRGGRRSKADSEPKKSPASSRVTRNTGKQQTIVSMFSRVPKRKSDELNGEPANGDTEIKTEETITEEVREEKRLKTEDEKPEAENAANLKPVSTAKTPPPKCPDCRQYLDDSDLKFFQGDPDDALDEPEMLTDERLSLFDSNEDGFESYEDLPQHKITNFSVYDKRGHLCPFDSGLIEKNVELYFSCAVKPIYDDNPCMDGGVPAKKLGPINAWWITGFDGGEKALIGFTTAFADYILMDPSEEYSAIFALMQEKIYMSKIVVEFLQKNQDATYEDLLNKIETTVPPAGLNFNRFTEDTLLRHAQFVVEQVESYDEAGDSDEQPIIITPCMRDLIKLAGVTLGKRRAARRQAVRHPTKIEKDNKGPTKATTTKLVYLIFDTFFSDQIDQNNKDGGVKRQRCGVCEVCQAPDCGKCSACKDMIKFGGSGRSKQACQKRRCPNLAVKEAEDDENMDEEDVLPVKDTKKMSQTKKKKQTKNKISWVGEPLKTEGKKEYYMKVRVENEVLEVGDCVSVSPDDPSHPLYLARITALWDDGEKMFHAHWFCRGTDTVLGESSDPLELFLVDECEDMQLSFIHGKVNVFYKAPSENWYMEGGMDEDIKVIDDDGESFFYQLHYEGECARFETPPKVTPSEDCKYKFCASCTRNKEREAESVPHAYEPLEDEESDSKVFYGLVNYKGEQYKVGDSVYLPPEAFNFVVKAASPVKRSHRKDDVDEDLYPEYYRKSSDYIKGSNLDAPQPFRIGRIKEIFCNKRSNGKPDTSEIKLRLYKFYRPENTHKGPKGAYHSDINQLYWSDEEATVSMTEVLTRCRVEYAEDLVESVQDYSNKGPDRFYFLEAYNAKTKSFEDPPNHARSAVNKGKGKGKGKGKGKGKAAPQEPQDQEPQEPVVPKLRTLDVFSGCGGLSEGFHQAGISETHWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSYLSYCDYYRPKFFLLENVRNFVSFKRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPRYPEPLHVFAPRACSLSVAVDEKKYVSNVTRGNGGIYRTITVRDTMSDLPEIRNGAAALEISYNGEPQSWFQRQIRGSQYQPILRDHICKDMSALVAARMRNIPLAPGSDWRDLPNFEVRLRDGTTTKKLRYTHPDKKNGRSGTGALRGVCSCSEGKPCDPADRQFNTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDTYRFFGNVLDKHRQVGNAVPPPLSKAIGLEVKKCVLEKMRENATEPVKQEKMELSD

Target ORF information:

RefSeq Version	NM_131189.2
Organism	Danio rerio(zebrafish)
Definition	Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), mRNA.

Target ORF information:

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

NM_131189.2

ORF Insert Sequence:

ATGCCTACCA AGACCTCATT GTCTCTGCCA GAGGATGTCA AAGAACGGCT TCAGGTGTTG 
GATGAAGGTG GAGACAGTTT GTCAGATGAG GAGTGTGTAA AAGAAAAGCT CAGGTTACTA 
CAGGAGTTCC TGCTCGCTGA TACTCAGGAC CAGCTCAAAA ACCTTGAGGA CAAGTTAAAG 
AGCTCTGAGC TCTCCACAGA GGTTTACATG TCAGAGGTGA AGGCTGTACT GAAGAAAGCT 
CTGGGAGTTG TCAAGGAGGG TGATGGAGTG GAGCAGAATG GACATTCAAA TGGCTTCTCT 
GAAAATGGAT CTCACAAAGA CAATGGCGAA CAGGAGGGAG CCATGGACAC TCAGGAGGAA 
GGAGACGCTA TAAAGTCTCC CAGTGCCCCA AAGGGAAGGG GCGGACGTCG CAGTAAAGCA 
GACTCTGAGC CCAAGAAATC TCCAGCCAGT TCCAGGGTTA CACGCAACAC TGGGAAGCAA 
CAAACTATCG TGTCAATGTT TTCTAGAGTC CCAAAACGAA AGTCTGATGA GCTGAATGGA 
GAACCAGCAA ATGGTGACAC AGAAATTAAG ACTGAGGAAA CTATCACTGA GGAGGTCCGT 
GAAGAGAAAC GCCTTAAAAC AGAAGATGAG AAGCCTGAAG CTGAGAATGC TGCTAACCTC 
AAACCTGTGT CTACAGCAAA GACTCCTCCG CCGAAATGTC CTGACTGCAG GCAGTATCTG 
GATGATTCAG ACCTAAAGTT CTTTCAAGGG GATCCTGATG ATGCTTTGGA TGAACCAGAG 
ATGTTAACCG ATGAGCGTCT CTCCCTCTTT GATTCAAATG AGGATGGTTT TGAAAGCTAT 
GAAGATCTTC CTCAGCACAA GATCACGAAC TTCAGTGTGT ATGACAAGCG TGGTCATCTG 
TGTCCGTTTG ATTCTGGCCT CATTGAGAAA AATGTGGAAC TGTACTTTAG TTGTGCTGTA 
AAGCCCATCT ATGATGACAA CCCATGCATG GATGGTGGGG TTCCTGCCAA AAAGCTTGGT 
CCCATCAATG CTTGGTGGAT CACTGGTTTT GATGGTGGGG AGAAGGCTTT GATTGGCTTC 
ACTACAGCGT TTGCTGACTA TATCCTAATG GACCCCAGTG AGGAGTACTC TGCTATTTTT 
GCTCTGATGC AGGAGAAGAT CTACATGAGC AAAATTGTGG TTGAATTTCT TCAGAAAAAC 
CAGGATGCCA CATATGAGGA CCTGCTGAAC AAAATAGAGA CTACTGTCCC GCCCGCGGGG 
CTCAACTTCA ACCGTTTCAC AGAAGACACA CTCTTGCGCC ATGCCCAGTT TGTGGTAGAG 
CAGGTCGAGA GCTACGATGA GGCTGGAGAC TCTGATGAAC AACCCATTAT AATCACTCCA 
TGTATGCGTG ACTTGATCAA GCTGGCTGGT GTTACTTTGG GCAAGAGGAG AGCAGCCAGA 
AGACAAGCCG TCCGCCATCC CACTAAGATT GAAAAGGACA ACAAGGGCCC GACTAAAGCC 
ACCACCACTA AACTGGTCTA CCTGATCTTT GACACATTCT TCTCTGATCA GATTGACCAG 
AACAATAAGG ATGGAGGTGT GAAGAGACAA CGGTGTGGTG TCTGTGAGGT GTGTCAAGCT 
CCAGACTGCG GCAAGTGTTC AGCTTGTAAG GATATGATCA AGTTTGGAGG CAGTGGCAGA 
AGTAAACAAG CCTGTCAGAA GAGGAGGTGT CCCAACCTGG CAGTGAAAGA AGCTGAGGAT 
GATGAGAACA TGGATGAGGA GGATGTGTTG CCAGTTAAGG ATACAAAGAA AATGTCTCAG 
ACCAAGAAGA AGAAACAAAC CAAGAACAAA ATCAGCTGGG TTGGTGAGCC ATTAAAGACT 
GAGGGAAAGA AGGAATATTA CATGAAAGTG CGTGTGGAAA ATGAGGTGTT GGAGGTGGGA 
GATTGTGTAT CTGTAAGCCC TGATGACCCA TCACATCCTC TCTACCTGGC CAGGATTACA 
GCTTTGTGGG ATGATGGTGA GAAGATGTTT CATGCCCATT GGTTCTGCCG TGGCACTGAT 
ACGGTCCTTG GAGAGTCATC AGACCCTCTT GAGCTCTTCC TAGTGGATGA GTGTGAAGAC 
ATGCAGCTAA GTTTTATCCA TGGCAAGGTC AACGTCTTCT ACAAGGCACC ATCTGAAAAC 
TGGTATATGG AGGGTGGAAT GGATGAAGAC ATCAAAGTGA TTGACGATGA TGGTGAAAGC 
TTCTTTTATC AGCTCCATTA TGAAGGTGAA TGTGCTCGCT TTGAGACTCC TCCCAAGGTC 
ACACCCTCTG AGGACTGCAA GTATAAGTTT TGTGCCAGCT GCACCAGAAA CAAAGAACGA 
GAGGCTGAGT CTGTTCCCCA TGCCTATGAG CCCTTAGAGG ATGAGGAGAG TGACTCTAAA 
GTCTTCTATG GGTTGGTGAA CTATAAGGGA GAGCAGTACA AAGTAGGGGA CAGTGTCTAC 
CTACCACCTG AGGCCTTTAA CTTTGTAGTA AAGGCTGCAA GCCCGGTGAA GCGTTCCCAC 
AGAAAAGATG ACGTTGATGA AGATCTTTAC CCTGAATACT ACAGGAAGTC CTCTGATTAC 
ATTAAAGGCT CAAATCTGGA TGCTCCTCAG CCTTTCCGCA TTGGGCGCAT CAAAGAAATC 
TTCTGCAACA AGCGCAGCAA TGGAAAGCCA GACACCTCAG AGATCAAACT GCGCCTCTAT 
AAATTCTACA GACCTGAAAA CACTCACAAG GGACCAAAGG GAGCATATCA TTCTGATATA 
AACCAACTCT ACTGGAGTGA CGAAGAGGCG ACCGTCAGCA TGACTGAGGT GCTGACACGC 
TGTCGTGTTG AGTATGCAGA GGATCTGGTT GAAAGTGTGC AGGACTATTC AAACAAAGGA 
CCCGATCGCT TCTATTTCCT TGAGGCATAC AATGCCAAAA CCAAGAGCTT TGAGGATCCT 
CCCAATCATG CTAGATCTGC TGTGAATAAG GGCAAAGGGA AAGGAAAGGG CAAAGGAAAA 
GGGAAAGGGA AAGCAGCGCC TCAAGAACCA CAGGATCAGG AGCCACAAGA GCCAGTGGTT 
CCCAAACTGC GCACTCTGGA TGTATTCTCT GGCTGTGGTG GTCTGTCTGA GGGCTTCCAT 
CAAGCAGGCA TCTCAGAGAC TCACTGGGCA ATAGAGATGT GGGACCCTGC CGCTCAGGCA 
TTCAGGTTGA ACAATCCAGG CACGACCGTT TTCACAGAGG ACTGTAACGT CCTGCTGAAG 
CTGGTAATGT CTGGAGAGAA GACTAACTCT CTTGGACAGA AGCTGCCACA GAAGGGTGAC 
GTGGAGATGC TCTGCGGTGG GCCGCCTTGC CAAGGCTTCA GTGGAATGAA CCGCTTCAAC 
TCTCGCACAT ACTCAAAGTT CAAGAACTCT CTGGTTGTTT CTTATCTGAG TTATTGTGAC 
TACTACAGAC CCAAGTTCTT CCTGCTGGAG AACGTAAGGA ACTTTGTGTC ATTTAAGCGC 
TCCATGGTCC TGAAGCTCAC ACTGCGCTGT CTGGTGCGCA TGGGCTACCA GTGCACCTTT 
GGTGTGCTGC AGGCTGGACA GTATGGGGTG GCCCAGACTC GACGCAGAGC TATCATCCTG 
GCTGCAGCCC CTGGTGAAAA GCTGCCCCGC TACCCTGAAC CCTTGCATGT GTTTGCCCCT 
CGAGCATGTT CTCTTAGTGT GGCAGTTGAT GAGAAGAAAT ATGTCAGCAA TGTTACTCGT 
GGAAATGGGG GCATTTATCG CACCATCACA GTACGGGACA CCATGTCTGA CCTCCCAGAA 
ATCCGCAATG GAGCTGCTGC ACTAGAGATT TCCTACAATG GCGAGCCACA GTCCTGGTTC 
CAGAGGCAAA TTCGGGGCTC TCAGTATCAG CCCATCCTCA GGGACCACAT CTGCAAGGAC 
ATGAGTGCCC TGGTTGCTGC CCGCATGCGT AACATTCCTC TGGCTCCTGG TTCAGACTGG 
AGGGATCTAC CTAATTTTGA GGTGCGGTTG CGGGATGGCA CCACCACAAA AAAGCTTCGC 
TACACACACC CTGACAAAAA GAATGGCCGC AGTGGCACCG GTGCCCTGAG AGGAGTGTGT 
TCATGTTCTG AAGGAAAACC GTGTGATCCT GCAGACAGGC AGTTCAACAC CCTGATTCCC 
TGGTGTCTGC CTCATACGGG TAACCGCCAT AATCACTGGG CTGGTCTGTA TGGCCGCCTG 
GAATGGGACG GATTCTTCAG CACTACAGTT ACCAATCCTG AGCCAATGGG AAAGCAGGGA 
CGTGTCCTTC ACCCTGAGCA GCACCGTGTG GTGAGTGTCA GGGAATGTGC ACGCTCTCAG 
GGCTTCCCAG ACACCTACCG CTTCTTTGGC AATGTGCTAG ACAAACACAG ACAAGTTGGT 
AATGCTGTTC CTCCACCCCT CTCCAAAGCC ATTGGCCTGG AGGTCAAGAA GTGTGTGCTG 
GAGAAAATGA GGGAGAATGC TACAGAGCCT GTGAAGCAGG AGAAAATGGA GCTCTCTGAC 
TAA

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

DNMT1 ( XM_017353152.2 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_017208641.1 Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ODa58014
Clone ID Related Accession (Same CDS sequence)	XM_017353152.2 , XM_017353152.1
Accession Version	XM_017353152.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4518bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	DNA (cytosine-5)-methyltransferase 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017353152.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTACCA AGACCTCATT GTCTCTGCCA GAGGATGTCA AAGAACGGCT TCAGGTGTTG 
GATGAAGGTG GAGACAGTTT GTCAGATGAG GAGTGTGTAA AAGAAAAGCT CAGGTTACTA 
CAGGAGTTCC TGCTCGCTGA TACTCAGGAC CAGCTCAAAA ACCTTGAGGA CAAGTTAAAG 
AGCTCTGAGC TCTCCACAGA GGTTTACATG TCAGAGGTGA AGGCTGTACT GAAGAAAGCT 
CTGGGAGTTG TCAAGGAGGG TGATGGAGTG GAGCAGAATG GACATTCAAA TGGCTTCTCT 
GAAAATGGAT CTCACAAAGA CAATGGCGAA CAGGAGGGAG CCATGGACAC TCAGGAGGAA 
GGAGACGCTA TAAAGTCTCC CAGTGCCCCA AAGGGAAGGG GCGGACGTCG CAGTAAAGCA 
GACTCTGAGC CCAAGAAATC TCCAGCCAGT TCCAGGGTTA CACGCAACAC TGGGAAGCAA 
CAAACTATCG TGTCAATGTT TTCTAGAGTC CCAAAACGAA AGTCTGATGA GCTGAATGGA 
GAACCAGCAA ATGGTGACAC AGAAATTAAG ACTGAGGAAA CTATCACTGA GGAGGTCCGT 
GAAGAGAAAC GCCTTAAAAC AGAAGATGAG AAGCCTGAAG CTGAGAATGC TGCTAACCTC 
AAACCTGTGT CTACAGCAAA GACTCCTCCG CCGAAATGTC CTGACTGCAG GCAGTATCTG 
GATGATTCAG ACCTAAAGTT CTTTCAAGGG GATCCTGATG ATGCTTTGGA TGAACCAGAG 
ATGTTAACCG ATGAGCGTCT CTCCCTCTTT GATTCAAATG AGGATGGTTT TGAAAGCTAT 
GAAGATCTTC CTCAGCACAA GATCACGAAC TTCAGTGTGT ATGACAAGCG TGGTCATCTG 
TGTCCGTTTG ATTCTGGCCT CATTGAGAAA AATGTGGAAC TGTACTTTAG TTGTGCTGTA 
AAGCCCATCT ATGATGACAA CCCATGCATG GATGGTGGGG TTCCTGCCAA AAAGCTTGGT 
CCCATCAATG CTTGGTGGAT CACTGGTTTT GATGGTGGGG AGAAGGCTTT GATTGGCTTC 
ACTACAGCGT TTGCTGACTA TATCCTAATG GACCCCAGTG AGGAGTACTC TGCTATTTTT 
GCTCTGATGC AGGAGAAGAT CTACATGAGC AAAATTGTGG TTGAATTTCT TCAGAAAAAC 
CAGGATGCCA CATATGAGGA CCTGCTGAAC AAAATAGAGA CTACTGTCCC GCCCGCGGGG 
CTCAACTTCA ACCGTTTCAC AGAAGACACA CTCTTGCGCC ATGCCCAGTT TGTGGTAGAG 
CAGGTCGAGA GCTACGATGA GGCTGGAGAC TCTGATGAAC AACCCATTAT AATCACTCCA 
TGTATGCGTG ACTTGATCAA GCTGGCTGGT GTTACTTTGG GCAAGAGCAG GCAGCTGTAC 
TGGAGAGCAG CCAGAAGACA AGCCGTCCGC CATCCCACTA AGATTGAAAA GGACAACAAG 
GGCCCGACTA AAGCCACCAC CACTAAACTG GTCTACCTGA TCTTTGACAC ATTCTTCTCT 
GATCAGATTG ACCAGAACAA TAAGGATGGA GGTGTGAAGA GACAACGGTG TGGTGTCTGT 
GAGGTGTGTC AAGCTCCAGA CTGCGGCAAG TGTTCAGCTT GTAAGGATAT GATCAAGTTT 
GGAGGCAGTG GCAGAAGTAA ACAAGCCTGT CAGAAGAGGA GGTGTCCCAA CCTGGCAGTG 
AAAGAAGCTG AGGATGATGA GAACATGGAT GAGGAGGATG TGTTGCCAGT TAAGGATACA 
AAGAAAATGT CTCAGACCAA GAAGAAGAAA CAAACCAAGA ACAAAATCAG CTGGGTTGGT 
GAGCCATTAA AGACTGAGGG AAAGAAGGAA TATTACATGA AAGTGCGTGT GGAAAATGAG 
GTGTTGGAGG TGGGAGATTG TGTATCTGTA AGCCCTGATG ACCCATCACA TCCTCTCTAC 
CTGGCCAGGA TTACAGCTTT GTGGGATGAT GGTGAGAAGA TGTTTCATGC CCATTGGTTC 
TGCCGTGGCA CTGATACGGT CCTTGGAGAG TCATCAGACC CTCTTGAGCT CTTCCTAGTG 
GATGAGTGTG AAGACATGCA GCTAAGTTTT ATCCATGGCA AGGTCAACGT CTTCTACAAG 
GCACCATCTG AAAACTGGTA TATGGAGGGT GGAATGGATG AAGACATCAA AGTGATTGAC 
GATGATGGTG AAAGCTTCTT TTATCAGCTC CATTATGAAG GTGAATGTGC TCGCTTTGAG 
ACTCCTCCCA AGGTCACACC CTCTGAGGAC TGCAAGTATA AGTTTTGTGC CAGCTGCACC 
AGAAACAAAG AACGAGAGGC TGAGTCTGTT CCCCATGCCT ATGAGCCCTT AGAGGATGAG 
GAGAGTGACT CTAAAGTCTT CTATGGGTTG GTGAACTATA AGGGAGAGCA GTACAAAGTA 
GGGGACAGTG TCTACCTACC ACCTGAGGCC TTTAACTTTG TAGTAAAGGC TGCAAGCCCG 
GTGAAGCGTT CCCACAGAAA AGATGACGTT GATGAAGATC TTTACCCTGA ATACTACAGG 
AAGTCCTCTG ATTACATTAA AGGCTCAAAT CTGGATGCTC CTCAGCCTTT CCGCATTGGG 
CGCATCAAAG AAATCTTCTG CAACAAGCGC AGCAATGGAA AGCCAGACAC CTCAGAGATC 
AAACTGCGCC TCTATAAATT CTACAGACCT GAAAACACTC ACAAGGGACC AAAGGGAGCA 
TATCATTCTG ATATAAACCA ACTCTACTGG AGTGACGAAG AGGCGACCGT CAGCATGACT 
GAGGTGCTGA CACGCTGTCG TGTTGAGTAT GCAGAGGATC TGGTTGAAAG TGTGCAGGAC 
TATTCAAACA AAGGACCCGA TCGCTTCTAT TTCCTTGAGG CATACAATGC CAAAACCAAG 
AGCTTTGAGG ATCCTCCCAA TCATGCTAGA TCTGCTGTGA ATAAGGGCAA AGGGAAAGGA 
AAGGGCAAAG GAAAAGGGAA AGGGAAAGCA GCGCCTCAAG AACCACAGGA TCAGGAGCCA 
CAAGAGCCAG TGGTTCCCAA ACTGCGCACT CTGGATGTAT TCTCTGGCTG TGGTGGTCTG 
TCTGAGGGCT TCCATCAAGC AGGCATCTCA GAGACTCACT GGGCAATAGA GATGTGGGAC 
CCTGCCGCTC AGGCATTCAG GTTGAACAAT CCAGGCACGA CCGTTTTCAC AGAGGACTGT 
AACGTCCTGC TGAAGCTGGT AATGTCTGGA GAGAAGACTA ACTCTCTTGG ACAGAAGCTG 
CCACAGAAGG GTGACGTGGA GATGCTCTGC GGTGGGCCGC CTTGCCAAGG CTTCAGTGGA 
ATGAACCGCT TCAACTCTCG CACATACTCA AAGTTCAAGA ACTCTCTGGT TGTTTCTTAT 
CTGAGTTATT GTGACTACTA CAGACCCAAG TTCTTCCTGC TGGAGAACGT AAGGAACTTT 
GTGTCATTTA AGCGCTCCAT GGTCCTGAAG CTCACACTGC GCTGTCTGGT GCGCATGGGC 
TACCAGTGCA CCTTTGGTGT GCTGCAGGCT GGACAGTATG GGGTGGCCCA GACTCGACGC 
AGAGCTATCA TCCTGGCTGC AGCCCCTGGT GAAAAGCTGC CCCGCTACCC TGAACCCTTG 
CATGTGTTTG CCCCTCGAGC ATGTTCTCTT AGTGTGGCAG TTGATGAGAA GAAATATGTC 
AGCAATGTTA CTCGTGGAAA TGGGGGCATT TATCGCACCA TCACAGTACG GGACACCATG 
TCTGACCTCC CAGAAATCCG CAATGGAGCT GCTGCACTAG AGATTTCCTA CAATGGCGAG 
CCACAGTCCT GGTTCCAGAG GCAAATTCGG GGCTCTCAGT ATCAGCCCAT CCTCAGGGAC 
CACATCTGCA AGGACATGAG TGCCCTGGTT GCTGCCCGCA TGCGTAACAT TCCTCTGGCT 
CCTGGTTCAG ACTGGAGGGA TCTACCTAAT TTTGAGGTGC GGTTGCGGGA TGGCACCACC 
ACAAAAAAGC TTCGCTACAC ACACCCTGAC AAAAAGAATG GCCGCAGTGG CACCGGTGCC 
CTGAGAGGAG TGTGTTCATG TTCTGAAGGA AAACCGTGTG ATCCTGCAGA CAGGCAGTTC 
AACACCCTGA TTCCCTGGTG TCTGCCTCAT ACGGGTAACC GCCATAATCA CTGGGCTGGT 
CTGTATGGCC GCCTGGAATG GGACGGATTC TTCAGCACTA CAGTTACCAA TCCTGAGCCA 
ATGGGAAAGC AGGGACGTGT CCTTCACCCT GAGCAGCACC GTGTGGTGAG TGTCAGGGAA 
TGTGCACGCT CTCAGGGCTT CCCAGACACC TACCGCTTCT TTGGCAATGT GCTAGACAAA 
CACAGACAAG TTGGTAATGC TGTTCCTCCA CCCCTCTCCA AAGCCATTGG CCTGGAGGTC 
AAGAAGTGTG TGCTGGAGAA AATGAGGGAG AATGCTACAG AGCCTGTGAA GCAGGAGAAA 
ATGGAGCTCT CTGACTAA

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

RefSeq	XP_017208641.1
CDS	170..4687
Translation	MPTKTSLSLPEDVKERLQVLDEGGDSLSDEECVKEKLRLLQEFLLADTQDQLKNLEDKLKSSELSTEVYMSEVKAVLKKALGVVKEGDGVEQNGHSNGFSENGSHKDNGEQEGAMDTQEEGDAIKSPSAPKGRGGRRSKADSEPKKSPASSRVTRNTGKQQTIVSMFSRVPKRKSDELNGEPANGDTEIKTEETITEEVREEKRLKTEDEKPEAENAANLKPVSTAKTPPPKCPDCRQYLDDSDLKFFQGDPDDALDEPEMLTDERLSLFDSNEDGFESYEDLPQHKITNFSVYDKRGHLCPFDSGLIEKNVELYFSCAVKPIYDDNPCMDGGVPAKKLGPINAWWITGFDGGEKALIGFTTAFADYILMDPSEEYSAIFALMQEKIYMSKIVVEFLQKNQDATYEDLLNKIETTVPPAGLNFNRFTEDTLLRHAQFVVEQVESYDEAGDSDEQPIIITPCMRDLIKLAGVTLGKSRQLYWRAARRQAVRHPTKIEKDNKGPTKATTTKLVYLIFDTFFSDQIDQNNKDGGVKRQRCGVCEVCQAPDCGKCSACKDMIKFGGSGRSKQACQKRRCPNLAVKEAEDDENMDEEDVLPVKDTKKMSQTKKKKQTKNKISWVGEPLKTEGKKEYYMKVRVENEVLEVGDCVSVSPDDPSHPLYLARITALWDDGEKMFHAHWFCRGTDTVLGESSDPLELFLVDECEDMQLSFIHGKVNVFYKAPSENWYMEGGMDEDIKVIDDDGESFFYQLHYEGECARFETPPKVTPSEDCKYKFCASCTRNKEREAESVPHAYEPLEDEESDSKVFYGLVNYKGEQYKVGDSVYLPPEAFNFVVKAASPVKRSHRKDDVDEDLYPEYYRKSSDYIKGSNLDAPQPFRIGRIKEIFCNKRSNGKPDTSEIKLRLYKFYRPENTHKGPKGAYHSDINQLYWSDEEATVSMTEVLTRCRVEYAEDLVESVQDYSNKGPDRFYFLEAYNAKTKSFEDPPNHARSAVNKGKGKGKGKGKGKGKAAPQEPQDQEPQEPVVPKLRTLDVFSGCGGLSEGFHQAGISETHWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSYLSYCDYYRPKFFLLENVRNFVSFKRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPRYPEPLHVFAPRACSLSVAVDEKKYVSNVTRGNGGIYRTITVRDTMSDLPEIRNGAAALEISYNGEPQSWFQRQIRGSQYQPILRDHICKDMSALVAARMRNIPLAPGSDWRDLPNFEVRLRDGTTTKKLRYTHPDKKNGRSGTGALRGVCSCSEGKPCDPADRQFNTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDTYRFFGNVLDKHRQVGNAVPPPLSKAIGLEVKKCVLEKMRENATEPVKQEKMELSD

Target ORF information:

RefSeq Version	XM_017353152.2
Organism	Danio rerio(zebrafish)
Definition	Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), transcript variant X1, mRNA.

Target ORF information:

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

XM_017353152.2

ORF Insert Sequence:

ATGCCTACCA AGACCTCATT GTCTCTGCCA GAGGATGTCA AAGAACGGCT TCAGGTGTTG 
GATGAAGGTG GAGACAGTTT GTCAGATGAG GAGTGTGTAA AAGAAAAGCT CAGGTTACTA 
CAGGAGTTCC TGCTCGCTGA TACTCAGGAC CAGCTCAAAA ACCTTGAGGA CAAGTTAAAG 
AGCTCTGAGC TCTCCACAGA GGTTTACATG TCAGAGGTGA AGGCTGTACT GAAGAAAGCT 
CTGGGAGTTG TCAAGGAGGG TGATGGAGTG GAGCAGAATG GACATTCAAA TGGCTTCTCT 
GAAAATGGAT CTCACAAAGA CAATGGCGAA CAGGAGGGAG CCATGGACAC TCAGGAGGAA 
GGAGACGCTA TAAAGTCTCC CAGTGCCCCA AAGGGAAGGG GCGGACGTCG CAGTAAAGCA 
GACTCTGAGC CCAAGAAATC TCCAGCCAGT TCCAGGGTTA CACGCAACAC TGGGAAGCAA 
CAAACTATCG TGTCAATGTT TTCTAGAGTC CCAAAACGAA AGTCTGATGA GCTGAATGGA 
GAACCAGCAA ATGGTGACAC AGAAATTAAG ACTGAGGAAA CTATCACTGA GGAGGTCCGT 
GAAGAGAAAC GCCTTAAAAC AGAAGATGAG AAGCCTGAAG CTGAGAATGC TGCTAACCTC 
AAACCTGTGT CTACAGCAAA GACTCCTCCG CCGAAATGTC CTGACTGCAG GCAGTATCTG 
GATGATTCAG ACCTAAAGTT CTTTCAAGGG GATCCTGATG ATGCTTTGGA TGAACCAGAG 
ATGTTAACCG ATGAGCGTCT CTCCCTCTTT GATTCAAATG AGGATGGTTT TGAAAGCTAT 
GAAGATCTTC CTCAGCACAA GATCACGAAC TTCAGTGTGT ATGACAAGCG TGGTCATCTG 
TGTCCGTTTG ATTCTGGCCT CATTGAGAAA AATGTGGAAC TGTACTTTAG TTGTGCTGTA 
AAGCCCATCT ATGATGACAA CCCATGCATG GATGGTGGGG TTCCTGCCAA AAAGCTTGGT 
CCCATCAATG CTTGGTGGAT CACTGGTTTT GATGGTGGGG AGAAGGCTTT GATTGGCTTC 
ACTACAGCGT TTGCTGACTA TATCCTAATG GACCCCAGTG AGGAGTACTC TGCTATTTTT 
GCTCTGATGC AGGAGAAGAT CTACATGAGC AAAATTGTGG TTGAATTTCT TCAGAAAAAC 
CAGGATGCCA CATATGAGGA CCTGCTGAAC AAAATAGAGA CTACTGTCCC GCCCGCGGGG 
CTCAACTTCA ACCGTTTCAC AGAAGACACA CTCTTGCGCC ATGCCCAGTT TGTGGTAGAG 
CAGGTCGAGA GCTACGATGA GGCTGGAGAC TCTGATGAAC AACCCATTAT AATCACTCCA 
TGTATGCGTG ACTTGATCAA GCTGGCTGGT GTTACTTTGG GCAAGAGCAG GCAGCTGTAC 
TGGAGAGCAG CCAGAAGACA AGCCGTCCGC CATCCCACTA AGATTGAAAA GGACAACAAG 
GGCCCGACTA AAGCCACCAC CACTAAACTG GTCTACCTGA TCTTTGACAC ATTCTTCTCT 
GATCAGATTG ACCAGAACAA TAAGGATGGA GGTGTGAAGA GACAACGGTG TGGTGTCTGT 
GAGGTGTGTC AAGCTCCAGA CTGCGGCAAG TGTTCAGCTT GTAAGGATAT GATCAAGTTT 
GGAGGCAGTG GCAGAAGTAA ACAAGCCTGT CAGAAGAGGA GGTGTCCCAA CCTGGCAGTG 
AAAGAAGCTG AGGATGATGA GAACATGGAT GAGGAGGATG TGTTGCCAGT TAAGGATACA 
AAGAAAATGT CTCAGACCAA GAAGAAGAAA CAAACCAAGA ACAAAATCAG CTGGGTTGGT 
GAGCCATTAA AGACTGAGGG AAAGAAGGAA TATTACATGA AAGTGCGTGT GGAAAATGAG 
GTGTTGGAGG TGGGAGATTG TGTATCTGTA AGCCCTGATG ACCCATCACA TCCTCTCTAC 
CTGGCCAGGA TTACAGCTTT GTGGGATGAT GGTGAGAAGA TGTTTCATGC CCATTGGTTC 
TGCCGTGGCA CTGATACGGT CCTTGGAGAG TCATCAGACC CTCTTGAGCT CTTCCTAGTG 
GATGAGTGTG AAGACATGCA GCTAAGTTTT ATCCATGGCA AGGTCAACGT CTTCTACAAG 
GCACCATCTG AAAACTGGTA TATGGAGGGT GGAATGGATG AAGACATCAA AGTGATTGAC 
GATGATGGTG AAAGCTTCTT TTATCAGCTC CATTATGAAG GTGAATGTGC TCGCTTTGAG 
ACTCCTCCCA AGGTCACACC CTCTGAGGAC TGCAAGTATA AGTTTTGTGC CAGCTGCACC 
AGAAACAAAG AACGAGAGGC TGAGTCTGTT CCCCATGCCT ATGAGCCCTT AGAGGATGAG 
GAGAGTGACT CTAAAGTCTT CTATGGGTTG GTGAACTATA AGGGAGAGCA GTACAAAGTA 
GGGGACAGTG TCTACCTACC ACCTGAGGCC TTTAACTTTG TAGTAAAGGC TGCAAGCCCG 
GTGAAGCGTT CCCACAGAAA AGATGACGTT GATGAAGATC TTTACCCTGA ATACTACAGG 
AAGTCCTCTG ATTACATTAA AGGCTCAAAT CTGGATGCTC CTCAGCCTTT CCGCATTGGG 
CGCATCAAAG AAATCTTCTG CAACAAGCGC AGCAATGGAA AGCCAGACAC CTCAGAGATC 
AAACTGCGCC TCTATAAATT CTACAGACCT GAAAACACTC ACAAGGGACC AAAGGGAGCA 
TATCATTCTG ATATAAACCA ACTCTACTGG AGTGACGAAG AGGCGACCGT CAGCATGACT 
GAGGTGCTGA CACGCTGTCG TGTTGAGTAT GCAGAGGATC TGGTTGAAAG TGTGCAGGAC 
TATTCAAACA AAGGACCCGA TCGCTTCTAT TTCCTTGAGG CATACAATGC CAAAACCAAG 
AGCTTTGAGG ATCCTCCCAA TCATGCTAGA TCTGCTGTGA ATAAGGGCAA AGGGAAAGGA 
AAGGGCAAAG GAAAAGGGAA AGGGAAAGCA GCGCCTCAAG AACCACAGGA TCAGGAGCCA 
CAAGAGCCAG TGGTTCCCAA ACTGCGCACT CTGGATGTAT TCTCTGGCTG TGGTGGTCTG 
TCTGAGGGCT TCCATCAAGC AGGCATCTCA GAGACTCACT GGGCAATAGA GATGTGGGAC 
CCTGCCGCTC AGGCATTCAG GTTGAACAAT CCAGGCACGA CCGTTTTCAC AGAGGACTGT 
AACGTCCTGC TGAAGCTGGT AATGTCTGGA GAGAAGACTA ACTCTCTTGG ACAGAAGCTG 
CCACAGAAGG GTGACGTGGA GATGCTCTGC GGTGGGCCGC CTTGCCAAGG CTTCAGTGGA 
ATGAACCGCT TCAACTCTCG CACATACTCA AAGTTCAAGA ACTCTCTGGT TGTTTCTTAT 
CTGAGTTATT GTGACTACTA CAGACCCAAG TTCTTCCTGC TGGAGAACGT AAGGAACTTT 
GTGTCATTTA AGCGCTCCAT GGTCCTGAAG CTCACACTGC GCTGTCTGGT GCGCATGGGC 
TACCAGTGCA CCTTTGGTGT GCTGCAGGCT GGACAGTATG GGGTGGCCCA GACTCGACGC 
AGAGCTATCA TCCTGGCTGC AGCCCCTGGT GAAAAGCTGC CCCGCTACCC TGAACCCTTG 
CATGTGTTTG CCCCTCGAGC ATGTTCTCTT AGTGTGGCAG TTGATGAGAA GAAATATGTC 
AGCAATGTTA CTCGTGGAAA TGGGGGCATT TATCGCACCA TCACAGTACG GGACACCATG 
TCTGACCTCC CAGAAATCCG CAATGGAGCT GCTGCACTAG AGATTTCCTA CAATGGCGAG 
CCACAGTCCT GGTTCCAGAG GCAAATTCGG GGCTCTCAGT ATCAGCCCAT CCTCAGGGAC 
CACATCTGCA AGGACATGAG TGCCCTGGTT GCTGCCCGCA TGCGTAACAT TCCTCTGGCT 
CCTGGTTCAG ACTGGAGGGA TCTACCTAAT TTTGAGGTGC GGTTGCGGGA TGGCACCACC 
ACAAAAAAGC TTCGCTACAC ACACCCTGAC AAAAAGAATG GCCGCAGTGG CACCGGTGCC 
CTGAGAGGAG TGTGTTCATG TTCTGAAGGA AAACCGTGTG ATCCTGCAGA CAGGCAGTTC 
AACACCCTGA TTCCCTGGTG TCTGCCTCAT ACGGGTAACC GCCATAATCA CTGGGCTGGT 
CTGTATGGCC GCCTGGAATG GGACGGATTC TTCAGCACTA CAGTTACCAA TCCTGAGCCA 
ATGGGAAAGC AGGGACGTGT CCTTCACCCT GAGCAGCACC GTGTGGTGAG TGTCAGGGAA 
TGTGCACGCT CTCAGGGCTT CCCAGACACC TACCGCTTCT TTGGCAATGT GCTAGACAAA 
CACAGACAAG TTGGTAATGC TGTTCCTCCA CCCCTCTCCA AAGCCATTGG CCTGGAGGTC 
AAGAAGTGTG TGCTGGAGAA AATGAGGGAG AATGCTACAG AGCCTGTGAA GCAGGAGAAA 
ATGGAGCTCT CTGACTAA

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

DNMT1 ( XM_017353152.1 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_017208641.1 Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), transcript variant X1, mRNA.

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CloneID	ODa58014
Clone ID Related Accession (Same CDS sequence)	XM_017353152.2 , XM_017353152.1
Accession Version	XM_017353152.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4518bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-23
Organism	Danio rerio(Zebrafish)
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 (NC_007114.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTACCA AGACCTCATT GTCTCTGCCA GAGGATGTCA AAGAACGGCT TCAGGTGTTG 
GATGAAGGTG GAGACAGTTT GTCAGATGAG GAGTGTGTAA AAGAAAAGCT CAGGTTACTA 
CAGGAGTTCC TGCTCGCTGA TACTCAGGAC CAGCTCAAAA ACCTTGAGGA CAAGTTAAAG 
AGCTCTGAGC TCTCCACAGA GGTTTACATG TCAGAGGTGA AGGCTGTACT GAAGAAAGCT 
CTGGGAGTTG TCAAGGAGGG TGATGGAGTG GAGCAGAATG GACATTCAAA TGGCTTCTCT 
GAAAATGGAT CTCACAAAGA CAATGGCGAA CAGGAGGGAG CCATGGACAC TCAGGAGGAA 
GGAGACGCTA TAAAGTCTCC CAGTGCCCCA AAGGGAAGGG GCGGACGTCG CAGTAAAGCA 
GACTCTGAGC CCAAGAAATC TCCAGCCAGT TCCAGGGTTA CACGCAACAC TGGGAAGCAA 
CAAACTATCG TGTCAATGTT TTCTAGAGTC CCAAAACGAA AGTCTGATGA GCTGAATGGA 
GAACCAGCAA ATGGTGACAC AGAAATTAAG ACTGAGGAAA CTATCACTGA GGAGGTCCGT 
GAAGAGAAAC GCCTTAAAAC AGAAGATGAG AAGCCTGAAG CTGAGAATGC TGCTAACCTC 
AAACCTGTGT CTACAGCAAA GACTCCTCCG CCGAAATGTC CTGACTGCAG GCAGTATCTG 
GATGATTCAG ACCTAAAGTT CTTTCAAGGG GATCCTGATG ATGCTTTGGA TGAACCAGAG 
ATGTTAACCG ATGAGCGTCT CTCCCTCTTT GATTCAAATG AGGATGGTTT TGAAAGCTAT 
GAAGATCTTC CTCAGCACAA GATCACGAAC TTCAGTGTGT ATGACAAGCG TGGTCATCTG 
TGTCCGTTTG ATTCTGGCCT CATTGAGAAA AATGTGGAAC TGTACTTTAG TTGTGCTGTA 
AAGCCCATCT ATGATGACAA CCCATGCATG GATGGTGGGG TTCCTGCCAA AAAGCTTGGT 
CCCATCAATG CTTGGTGGAT CACTGGTTTT GATGGTGGGG AGAAGGCTTT GATTGGCTTC 
ACTACAGCGT TTGCTGACTA TATCCTAATG GACCCCAGTG AGGAGTACTC TGCTATTTTT 
GCTCTGATGC AGGAGAAGAT CTACATGAGC AAAATTGTGG TTGAATTTCT TCAGAAAAAC 
CAGGATGCCA CATATGAGGA CCTGCTGAAC AAAATAGAGA CTACTGTCCC GCCCGCGGGG 
CTCAACTTCA ACCGTTTCAC AGAAGACACA CTCTTGCGCC ATGCCCAGTT TGTGGTAGAG 
CAGGTCGAGA GCTACGATGA GGCTGGAGAC TCTGATGAAC AACCCATTAT AATCACTCCA 
TGTATGCGTG ACTTGATCAA GCTGGCTGGT GTTACTTTGG GCAAGAGCAG GCAGCTGTAC 
TGGAGAGCAG CCAGAAGACA AGCCGTCCGC CATCCCACTA AGATTGAAAA GGACAACAAG 
GGCCCGACTA AAGCCACCAC CACTAAACTG GTCTACCTGA TCTTTGACAC ATTCTTCTCT 
GATCAGATTG ACCAGAACAA TAAGGATGGA GGTGTGAAGA GACAACGGTG TGGTGTCTGT 
GAGGTGTGTC AAGCTCCAGA CTGCGGCAAG TGTTCAGCTT GTAAGGATAT GATCAAGTTT 
GGAGGCAGTG GCAGAAGTAA ACAAGCCTGT CAGAAGAGGA GGTGTCCCAA CCTGGCAGTG 
AAAGAAGCTG AGGATGATGA GAACATGGAT GAGGAGGATG TGTTGCCAGT TAAGGATACA 
AAGAAAATGT CTCAGACCAA GAAGAAGAAA CAAACCAAGA ACAAAATCAG CTGGGTTGGT 
GAGCCATTAA AGACTGAGGG AAAGAAGGAA TATTACATGA AAGTGCGTGT GGAAAATGAG 
GTGTTGGAGG TGGGAGATTG TGTATCTGTA AGCCCTGATG ACCCATCACA TCCTCTCTAC 
CTGGCCAGGA TTACAGCTTT GTGGGATGAT GGTGAGAAGA TGTTTCATGC CCATTGGTTC 
TGCCGTGGCA CTGATACGGT CCTTGGAGAG TCATCAGACC CTCTTGAGCT CTTCCTAGTG 
GATGAGTGTG AAGACATGCA GCTAAGTTTT ATCCATGGCA AGGTCAACGT CTTCTACAAG 
GCACCATCTG AAAACTGGTA TATGGAGGGT GGAATGGATG AAGACATCAA AGTGATTGAC 
GATGATGGTG AAAGCTTCTT TTATCAGCTC CATTATGAAG GTGAATGTGC TCGCTTTGAG 
ACTCCTCCCA AGGTCACACC CTCTGAGGAC TGCAAGTATA AGTTTTGTGC CAGCTGCACC 
AGAAACAAAG AACGAGAGGC TGAGTCTGTT CCCCATGCCT ATGAGCCCTT AGAGGATGAG 
GAGAGTGACT CTAAAGTCTT CTATGGGTTG GTGAACTATA AGGGAGAGCA GTACAAAGTA 
GGGGACAGTG TCTACCTACC ACCTGAGGCC TTTAACTTTG TAGTAAAGGC TGCAAGCCCG 
GTGAAGCGTT CCCACAGAAA AGATGACGTT GATGAAGATC TTTACCCTGA ATACTACAGG 
AAGTCCTCTG ATTACATTAA AGGCTCAAAT CTGGATGCTC CTCAGCCTTT CCGCATTGGG 
CGCATCAAAG AAATCTTCTG CAACAAGCGC AGCAATGGAA AGCCAGACAC CTCAGAGATC 
AAACTGCGCC TCTATAAATT CTACAGACCT GAAAACACTC ACAAGGGACC AAAGGGAGCA 
TATCATTCTG ATATAAACCA ACTCTACTGG AGTGACGAAG AGGCGACCGT CAGCATGACT 
GAGGTGCTGA CACGCTGTCG TGTTGAGTAT GCAGAGGATC TGGTTGAAAG TGTGCAGGAC 
TATTCAAACA AAGGACCCGA TCGCTTCTAT TTCCTTGAGG CATACAATGC CAAAACCAAG 
AGCTTTGAGG ATCCTCCCAA TCATGCTAGA TCTGCTGTGA ATAAGGGCAA AGGGAAAGGA 
AAGGGCAAAG GAAAAGGGAA AGGGAAAGCA GCGCCTCAAG AACCACAGGA TCAGGAGCCA 
CAAGAGCCAG TGGTTCCCAA ACTGCGCACT CTGGATGTAT TCTCTGGCTG TGGTGGTCTG 
TCTGAGGGCT TCCATCAAGC AGGCATCTCA GAGACTCACT GGGCAATAGA GATGTGGGAC 
CCTGCCGCTC AGGCATTCAG GTTGAACAAT CCAGGCACGA CCGTTTTCAC AGAGGACTGT 
AACGTCCTGC TGAAGCTGGT AATGTCTGGA GAGAAGACTA ACTCTCTTGG ACAGAAGCTG 
CCACAGAAGG GTGACGTGGA GATGCTCTGC GGTGGGCCGC CTTGCCAAGG CTTCAGTGGA 
ATGAACCGCT TCAACTCTCG CACATACTCA AAGTTCAAGA ACTCTCTGGT TGTTTCTTAT 
CTGAGTTATT GTGACTACTA CAGACCCAAG TTCTTCCTGC TGGAGAACGT AAGGAACTTT 
GTGTCATTTA AGCGCTCCAT GGTCCTGAAG CTCACACTGC GCTGTCTGGT GCGCATGGGC 
TACCAGTGCA CCTTTGGTGT GCTGCAGGCT GGACAGTATG GGGTGGCCCA GACTCGACGC 
AGAGCTATCA TCCTGGCTGC AGCCCCTGGT GAAAAGCTGC CCCGCTACCC TGAACCCTTG 
CATGTGTTTG CCCCTCGAGC ATGTTCTCTT AGTGTGGCAG TTGATGAGAA GAAATATGTC 
AGCAATGTTA CTCGTGGAAA TGGGGGCATT TATCGCACCA TCACAGTACG GGACACCATG 
TCTGACCTCC CAGAAATCCG CAATGGAGCT GCTGCACTAG AGATTTCCTA CAATGGCGAG 
CCACAGTCCT GGTTCCAGAG GCAAATTCGG GGCTCTCAGT ATCAGCCCAT CCTCAGGGAC 
CACATCTGCA AGGACATGAG TGCCCTGGTT GCTGCCCGCA TGCGTAACAT TCCTCTGGCT 
CCTGGTTCAG ACTGGAGGGA TCTACCTAAT TTTGAGGTGC GGTTGCGGGA TGGCACCACC 
ACAAAAAAGC TTCGCTACAC ACACCCTGAC AAAAAGAATG GCCGCAGTGG CACCGGTGCC 
CTGAGAGGAG TGTGTTCATG TTCTGAAGGA AAACCGTGTG ATCCTGCAGA CAGGCAGTTC 
AACACCCTGA TTCCCTGGTG TCTGCCTCAT ACGGGTAACC GCCATAATCA CTGGGCTGGT 
CTGTATGGCC GCCTGGAATG GGACGGATTC TTCAGCACTA CAGTTACCAA TCCTGAGCCA 
ATGGGAAAGC AGGGACGTGT CCTTCACCCT GAGCAGCACC GTGTGGTGAG TGTCAGGGAA 
TGTGCACGCT CTCAGGGCTT CCCAGACACC TACCGCTTCT TTGGCAATGT GCTAGACAAA 
CACAGACAAG TTGGTAATGC TGTTCCTCCA CCCCTCTCCA AAGCCATTGG CCTGGAGGTC 
AAGAAGTGTG TGCTGGAGAA AATGAGGGAG AATGCTACAG AGCCTGTGAA GCAGGAGAAA 
ATGGAGCTCT CTGACTAA

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

RefSeq	XP_017208641.1
CDS	149..4666
Translation	MPTKTSLSLPEDVKERLQVLDEGGDSLSDEECVKEKLRLLQEFLLADTQDQLKNLEDKLKSSELSTEVYMSEVKAVLKKALGVVKEGDGVEQNGHSNGFSENGSHKDNGEQEGAMDTQEEGDAIKSPSAPKGRGGRRSKADSEPKKSPASSRVTRNTGKQQTIVSMFSRVPKRKSDELNGEPANGDTEIKTEETITEEVREEKRLKTEDEKPEAENAANLKPVSTAKTPPPKCPDCRQYLDDSDLKFFQGDPDDALDEPEMLTDERLSLFDSNEDGFESYEDLPQHKITNFSVYDKRGHLCPFDSGLIEKNVELYFSCAVKPIYDDNPCMDGGVPAKKLGPINAWWITGFDGGEKALIGFTTAFADYILMDPSEEYSAIFALMQEKIYMSKIVVEFLQKNQDATYEDLLNKIETTVPPAGLNFNRFTEDTLLRHAQFVVEQVESYDEAGDSDEQPIIITPCMRDLIKLAGVTLGKSRQLYWRAARRQAVRHPTKIEKDNKGPTKATTTKLVYLIFDTFFSDQIDQNNKDGGVKRQRCGVCEVCQAPDCGKCSACKDMIKFGGSGRSKQACQKRRCPNLAVKEAEDDENMDEEDVLPVKDTKKMSQTKKKKQTKNKISWVGEPLKTEGKKEYYMKVRVENEVLEVGDCVSVSPDDPSHPLYLARITALWDDGEKMFHAHWFCRGTDTVLGESSDPLELFLVDECEDMQLSFIHGKVNVFYKAPSENWYMEGGMDEDIKVIDDDGESFFYQLHYEGECARFETPPKVTPSEDCKYKFCASCTRNKEREAESVPHAYEPLEDEESDSKVFYGLVNYKGEQYKVGDSVYLPPEAFNFVVKAASPVKRSHRKDDVDEDLYPEYYRKSSDYIKGSNLDAPQPFRIGRIKEIFCNKRSNGKPDTSEIKLRLYKFYRPENTHKGPKGAYHSDINQLYWSDEEATVSMTEVLTRCRVEYAEDLVESVQDYSNKGPDRFYFLEAYNAKTKSFEDPPNHARSAVNKGKGKGKGKGKGKGKAAPQEPQDQEPQEPVVPKLRTLDVFSGCGGLSEGFHQAGISETHWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSYLSYCDYYRPKFFLLENVRNFVSFKRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPRYPEPLHVFAPRACSLSVAVDEKKYVSNVTRGNGGIYRTITVRDTMSDLPEIRNGAAALEISYNGEPQSWFQRQIRGSQYQPILRDHICKDMSALVAARMRNIPLAPGSDWRDLPNFEVRLRDGTTTKKLRYTHPDKKNGRSGTGALRGVCSCSEGKPCDPADRQFNTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDTYRFFGNVLDKHRQVGNAVPPPLSKAIGLEVKKCVLEKMRENATEPVKQEKMELSD

Target ORF information:

RefSeq Version	XM_017353152.1
Organism	Danio rerio(Zebrafish)
Definition	Danio rerio DNA (cytosine-5-)-methyltransferase 1 (dnmt1), transcript variant X1, mRNA.

Target ORF information:

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

XM_017353152.1

ORF Insert Sequence:

ATGCCTACCA AGACCTCATT GTCTCTGCCA GAGGATGTCA AAGAACGGCT TCAGGTGTTG 
GATGAAGGTG GAGACAGTTT GTCAGATGAG GAGTGTGTAA AAGAAAAGCT CAGGTTACTA 
CAGGAGTTCC TGCTCGCTGA TACTCAGGAC CAGCTCAAAA ACCTTGAGGA CAAGTTAAAG 
AGCTCTGAGC TCTCCACAGA GGTTTACATG TCAGAGGTGA AGGCTGTACT GAAGAAAGCT 
CTGGGAGTTG TCAAGGAGGG TGATGGAGTG GAGCAGAATG GACATTCAAA TGGCTTCTCT 
GAAAATGGAT CTCACAAAGA CAATGGCGAA CAGGAGGGAG CCATGGACAC TCAGGAGGAA 
GGAGACGCTA TAAAGTCTCC CAGTGCCCCA AAGGGAAGGG GCGGACGTCG CAGTAAAGCA 
GACTCTGAGC CCAAGAAATC TCCAGCCAGT TCCAGGGTTA CACGCAACAC TGGGAAGCAA 
CAAACTATCG TGTCAATGTT TTCTAGAGTC CCAAAACGAA AGTCTGATGA GCTGAATGGA 
GAACCAGCAA ATGGTGACAC AGAAATTAAG ACTGAGGAAA CTATCACTGA GGAGGTCCGT 
GAAGAGAAAC GCCTTAAAAC AGAAGATGAG AAGCCTGAAG CTGAGAATGC TGCTAACCTC 
AAACCTGTGT CTACAGCAAA GACTCCTCCG CCGAAATGTC CTGACTGCAG GCAGTATCTG 
GATGATTCAG ACCTAAAGTT CTTTCAAGGG GATCCTGATG ATGCTTTGGA TGAACCAGAG 
ATGTTAACCG ATGAGCGTCT CTCCCTCTTT GATTCAAATG AGGATGGTTT TGAAAGCTAT 
GAAGATCTTC CTCAGCACAA GATCACGAAC TTCAGTGTGT ATGACAAGCG TGGTCATCTG 
TGTCCGTTTG ATTCTGGCCT CATTGAGAAA AATGTGGAAC TGTACTTTAG TTGTGCTGTA 
AAGCCCATCT ATGATGACAA CCCATGCATG GATGGTGGGG TTCCTGCCAA AAAGCTTGGT 
CCCATCAATG CTTGGTGGAT CACTGGTTTT GATGGTGGGG AGAAGGCTTT GATTGGCTTC 
ACTACAGCGT TTGCTGACTA TATCCTAATG GACCCCAGTG AGGAGTACTC TGCTATTTTT 
GCTCTGATGC AGGAGAAGAT CTACATGAGC AAAATTGTGG TTGAATTTCT TCAGAAAAAC 
CAGGATGCCA CATATGAGGA CCTGCTGAAC AAAATAGAGA CTACTGTCCC GCCCGCGGGG 
CTCAACTTCA ACCGTTTCAC AGAAGACACA CTCTTGCGCC ATGCCCAGTT TGTGGTAGAG 
CAGGTCGAGA GCTACGATGA GGCTGGAGAC TCTGATGAAC AACCCATTAT AATCACTCCA 
TGTATGCGTG ACTTGATCAA GCTGGCTGGT GTTACTTTGG GCAAGAGCAG GCAGCTGTAC 
TGGAGAGCAG CCAGAAGACA AGCCGTCCGC CATCCCACTA AGATTGAAAA GGACAACAAG 
GGCCCGACTA AAGCCACCAC CACTAAACTG GTCTACCTGA TCTTTGACAC ATTCTTCTCT 
GATCAGATTG ACCAGAACAA TAAGGATGGA GGTGTGAAGA GACAACGGTG TGGTGTCTGT 
GAGGTGTGTC AAGCTCCAGA CTGCGGCAAG TGTTCAGCTT GTAAGGATAT GATCAAGTTT 
GGAGGCAGTG GCAGAAGTAA ACAAGCCTGT CAGAAGAGGA GGTGTCCCAA CCTGGCAGTG 
AAAGAAGCTG AGGATGATGA GAACATGGAT GAGGAGGATG TGTTGCCAGT TAAGGATACA 
AAGAAAATGT CTCAGACCAA GAAGAAGAAA CAAACCAAGA ACAAAATCAG CTGGGTTGGT 
GAGCCATTAA AGACTGAGGG AAAGAAGGAA TATTACATGA AAGTGCGTGT GGAAAATGAG 
GTGTTGGAGG TGGGAGATTG TGTATCTGTA AGCCCTGATG ACCCATCACA TCCTCTCTAC 
CTGGCCAGGA TTACAGCTTT GTGGGATGAT GGTGAGAAGA TGTTTCATGC CCATTGGTTC 
TGCCGTGGCA CTGATACGGT CCTTGGAGAG TCATCAGACC CTCTTGAGCT CTTCCTAGTG 
GATGAGTGTG AAGACATGCA GCTAAGTTTT ATCCATGGCA AGGTCAACGT CTTCTACAAG 
GCACCATCTG AAAACTGGTA TATGGAGGGT GGAATGGATG AAGACATCAA AGTGATTGAC 
GATGATGGTG AAAGCTTCTT TTATCAGCTC CATTATGAAG GTGAATGTGC TCGCTTTGAG 
ACTCCTCCCA AGGTCACACC CTCTGAGGAC TGCAAGTATA AGTTTTGTGC CAGCTGCACC 
AGAAACAAAG AACGAGAGGC TGAGTCTGTT CCCCATGCCT ATGAGCCCTT AGAGGATGAG 
GAGAGTGACT CTAAAGTCTT CTATGGGTTG GTGAACTATA AGGGAGAGCA GTACAAAGTA 
GGGGACAGTG TCTACCTACC ACCTGAGGCC TTTAACTTTG TAGTAAAGGC TGCAAGCCCG 
GTGAAGCGTT CCCACAGAAA AGATGACGTT GATGAAGATC TTTACCCTGA ATACTACAGG 
AAGTCCTCTG ATTACATTAA AGGCTCAAAT CTGGATGCTC CTCAGCCTTT CCGCATTGGG 
CGCATCAAAG AAATCTTCTG CAACAAGCGC AGCAATGGAA AGCCAGACAC CTCAGAGATC 
AAACTGCGCC TCTATAAATT CTACAGACCT GAAAACACTC ACAAGGGACC AAAGGGAGCA 
TATCATTCTG ATATAAACCA ACTCTACTGG AGTGACGAAG AGGCGACCGT CAGCATGACT 
GAGGTGCTGA CACGCTGTCG TGTTGAGTAT GCAGAGGATC TGGTTGAAAG TGTGCAGGAC 
TATTCAAACA AAGGACCCGA TCGCTTCTAT TTCCTTGAGG CATACAATGC CAAAACCAAG 
AGCTTTGAGG ATCCTCCCAA TCATGCTAGA TCTGCTGTGA ATAAGGGCAA AGGGAAAGGA 
AAGGGCAAAG GAAAAGGGAA AGGGAAAGCA GCGCCTCAAG AACCACAGGA TCAGGAGCCA 
CAAGAGCCAG TGGTTCCCAA ACTGCGCACT CTGGATGTAT TCTCTGGCTG TGGTGGTCTG 
TCTGAGGGCT TCCATCAAGC AGGCATCTCA GAGACTCACT GGGCAATAGA GATGTGGGAC 
CCTGCCGCTC AGGCATTCAG GTTGAACAAT CCAGGCACGA CCGTTTTCAC AGAGGACTGT 
AACGTCCTGC TGAAGCTGGT AATGTCTGGA GAGAAGACTA ACTCTCTTGG ACAGAAGCTG 
CCACAGAAGG GTGACGTGGA GATGCTCTGC GGTGGGCCGC CTTGCCAAGG CTTCAGTGGA 
ATGAACCGCT TCAACTCTCG CACATACTCA AAGTTCAAGA ACTCTCTGGT TGTTTCTTAT 
CTGAGTTATT GTGACTACTA CAGACCCAAG TTCTTCCTGC TGGAGAACGT AAGGAACTTT 
GTGTCATTTA AGCGCTCCAT GGTCCTGAAG CTCACACTGC GCTGTCTGGT GCGCATGGGC 
TACCAGTGCA CCTTTGGTGT GCTGCAGGCT GGACAGTATG GGGTGGCCCA GACTCGACGC 
AGAGCTATCA TCCTGGCTGC AGCCCCTGGT GAAAAGCTGC CCCGCTACCC TGAACCCTTG 
CATGTGTTTG CCCCTCGAGC ATGTTCTCTT AGTGTGGCAG TTGATGAGAA GAAATATGTC 
AGCAATGTTA CTCGTGGAAA TGGGGGCATT TATCGCACCA TCACAGTACG GGACACCATG 
TCTGACCTCC CAGAAATCCG CAATGGAGCT GCTGCACTAG AGATTTCCTA CAATGGCGAG 
CCACAGTCCT GGTTCCAGAG GCAAATTCGG GGCTCTCAGT ATCAGCCCAT CCTCAGGGAC 
CACATCTGCA AGGACATGAG TGCCCTGGTT GCTGCCCGCA TGCGTAACAT TCCTCTGGCT 
CCTGGTTCAG ACTGGAGGGA TCTACCTAAT TTTGAGGTGC GGTTGCGGGA TGGCACCACC 
ACAAAAAAGC TTCGCTACAC ACACCCTGAC AAAAAGAATG GCCGCAGTGG CACCGGTGCC 
CTGAGAGGAG TGTGTTCATG TTCTGAAGGA AAACCGTGTG ATCCTGCAGA CAGGCAGTTC 
AACACCCTGA TTCCCTGGTG TCTGCCTCAT ACGGGTAACC GCCATAATCA CTGGGCTGGT 
CTGTATGGCC GCCTGGAATG GGACGGATTC TTCAGCACTA CAGTTACCAA TCCTGAGCCA 
ATGGGAAAGC AGGGACGTGT CCTTCACCCT GAGCAGCACC GTGTGGTGAG TGTCAGGGAA 
TGTGCACGCT CTCAGGGCTT CCCAGACACC TACCGCTTCT TTGGCAATGT GCTAGACAAA 
CACAGACAAG TTGGTAATGC TGTTCCTCCA CCCCTCTCCA AAGCCATTGG CCTGGAGGTC 
AAGAAGTGTG TGCTGGAGAA AATGAGGGAG AATGCTACAG AGCCTGTGAA GCAGGAGAAA 
ATGGAGCTCT CTGACTAA

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

PubMed

Uhrf1 and Dnmt1 are required for development and maintenance of the zebrafish lens.
Developmental biology350(1)50-63(2011 Feb)
Tittle RK,Sze R,Ng A,Nuckels RJ,Swartz ME,Anderson RM,Bosch J,Stainier DY,Eberhart JK,Gross JM

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DNMT1 cDNA ORF clone, Danio rerio(Zebrafish)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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