KEGG   Paralichthys olivaceus (Japanese flounder): 109634252
Entry
109634252         CDS       T06037                                 
Symbol
dnmt1
Name
(RefSeq) DNA (cytosine-5)-methyltransferase 1
  KO
K00558  DNA (cytosine-5)-methyltransferase 1 [EC:2.1.1.37]
Organism
pov  Paralichthys olivaceus (Japanese flounder)
Pathway
pov00270  Cysteine and methionine metabolism
pov01100  Metabolic pathways
Module
pov_M00035  Methionine degradation
Brite
KEGG Orthology (KO) [BR:pov00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00270 Cysteine and methionine metabolism
    109634252 (dnmt1)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03000 Transcription factors [BR:pov03000]
    109634252 (dnmt1)
   03032 DNA replication proteins [BR:pov03032]
    109634252 (dnmt1)
   03036 Chromosome and associated proteins [BR:pov03036]
    109634252 (dnmt1)
  09183 Protein families: signaling and cellular processes
   02048 Prokaryotic defense system [BR:pov02048]
    109634252 (dnmt1)
Enzymes [BR:pov01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.37  DNA (cytosine-5-)-methyltransferase
     109634252 (dnmt1)
Transcription factors [BR:pov03000]
 Eukaryotic type
  Zinc finger
   CXXC CpG-binding proteins
    109634252 (dnmt1)
DNA replication proteins [BR:pov03032]
 Eukaryotic type
  DNA Replication Termination Factors
   DNA methylation enzymes
    109634252 (dnmt1)
Chromosome and associated proteins [BR:pov03036]
 Eukaryotic type
  Heterochromatin formation proteins
   Other heterochromatin formation proteins
    109634252 (dnmt1)
Prokaryotic defense system [BR:pov02048]
 Restriction and modification system (R-M system)
  Type II R-M system
   DNA methyltransferases
    109634252 (dnmt1)
SSDB
Motif
Pfam: DNA_methylase BAH DNMT1-RFD DMAP_binding zf-CXXC
Other DBs
NCBI-GeneID: 109634252
NCBI-ProteinID: XP_019950178
LinkDB
Position
Unknown
AA seq 1505 aa
MPARTSLSLPEDVRKRLQVLDEDGVSDEDCVKEKLKLVQDFLHVDAQDQLSSLEDKMKSS
EISMEVYISKVKALLGKEINLENGSHVDGVEQNAKTNGLTNGSHKDEDVEDVTMDAQEEE
EAVKSPTAPKGKGGRRSKANSDAKKSPASARVTRNGGKQPSILSMFSKVQKRKSEDLNGE
STNGQNELKQEDDAEETREEKRLKVDTNEKTAPEESKSELVKTVSAAKTPPPKCPDCRQY
LDDSDLKFFQGDPDNALDEPEMLTDERLSLFDSNEDGFESYEDLPQHKITNFSVYDKRGH
LCPFDSGLIEKNVELYFSCVVKPIYDDNPCLDGGVPAKKLGPVNAWWITGFDGGEKALIG
FTTAFADYILMHPSEEYAPIFALMQEKIYMSKIVVEFLQKNPDTTYEDLLNKIETTVPPA
GLNFNCFTEDTLLRHAQFVVEQVESYDEAGDSDEQPIIVTPCMRDLIKLAGVTLGKRRAA
RRQAIRHPTKIEKDSKGPTKATTTELVYQIFDTFFSDQIEQNDKESGAKRQRCGVCEVCQ
SPDCGKCTACKDMIKFGGSGKSKQACKQRRCPNLAVKEAEDDENIEEEDVPVEKGKKVSQ
AKRKKQSQCKLNWIGEPVQTEGKKHYYKKVSVNDEVLEVGDCVSVSSEDPSTPLYLARIT
SLWEDGSGKMFHAHWFLRGTHTVLGESSDPLELVLVDECEDMQLNYVQGKVNIMYKPPSD
NWFMEGGMDVDIKVIDDDGKSFFYQFWYDTDFARFETPPTTTNLSDCKFRFCSSCERTKE
RAERENPRAFEPLGNEASDSKALYAVACFKGEQFRVGDGVYLPSEAFHFSVKPASPVKRS
HRKEDVDEELYPEYYRKSSDYIKGSNLDAPEPFRIGRIKEIFCHRRSNGKSDMSEVKLRL
YKFYRPENTHKGVKSSYHTDINQLYWSDEEVTVSMSEVLGHCQVEYAEDLNESVQDYSSG
GPDRFYFLEAYNAKSKSFEDPPNHARSTVHKGKGKGKGKGKGKGKSSAAQETQDSQNEPQ
VPKVSKYRTLDVFSGCGGLSEGFHQAGISETLWAIEMWEPAAQAFRLNNPGTTVFTEDCN
VLLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSYL
SYCDYYRPKFFLLENVRNFVSFKKSMILKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRR
AIILAAAPGEKLPRYPEPLHVFAPRACSLSVVVDEKKYVSNVTRGNGGIYRTITVRDTMS
DLPEIRNGASALEISYNGEPQSWFQRQIRGTQYQPILKDHICKDMSALVEARMRHIPLAP
GSDWRDLPNIEVRLKDGTMTKKLRYTHPDKKNGRSSTGALRGVCTCAGGTQCDPADRQFN
TLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHAEQHRVVSVREC
ARSQGFPDTYRFFGNILDKHRQVGNAVPPPLSRAIGLEIKKCVLERIKEEQATENIKQEK
MEVID
NT seq 4518 nt   +upstreamnt  +downstreamnt
atgccagccaggacctccctgtctctgccggaggatgtcaggaaaaggctgcaggtgctg
gatgaggatggggtttcagacgaggattgtgtcaaagagaagctcaagttggtgcaagac
tttctccatgttgatgcccaggaccagctgagcagcctggaggacaagatgaaaagttca
gagatctcaatggaggtttacatctccaaagtaaaggccttgctgggaaaagagatcaat
cttgaaaatggttcacatgttgatggcgtggagcagaacgcaaagacaaatggtctcact
aacggttcccacaaagatgaggatgttgaagatgttaccatggatgctcaggaggaagag
gaggctgtcaagtcaccaactgctcctaaagggaagggcggacgcaggagcaaggcaaac
tctgacgccaaaaagtctccagccagtgcaagggttacaagaaatggtgggaaacagcca
agcatcttgtcaatgttctccaaagttcaaaagcgcaagtctgaagatttgaatggagaa
tctactaatgggcaaaacgaattgaagcaggaagatgatgctgaagagactcgggaggag
aaacgtctcaaagtggacaccaatgaaaaaactgctccagaagaatcaaagagcgagctt
gtcaagacagtttctgctgcaaagacaccgccaccaaaatgtccagactgcagacaatac
ctggatgattcagatcttaagttttttcaaggggatcctgataatgcgctggatgaacca
gaaatgttaacagatgagcggctctccttgtttgactcaaatgaggatggatttgagagt
tatgaggacctgccacagcacaagattacaaacttcagtgtgtatgataagcgtggccac
ctttgtccatttgactctggactgattgagaagaatgtagagctctactttagctgtgtc
gttaaaccaatctatgatgacaacccttgcttggatggtggtgttcctgcgaagaagctt
ggacccgtcaatgcatggtggatcactggttttgatggcggagaaaaggctttaattgga
ttcactacagctttcgctgattacatcctaatgcatccgagtgaggagtatgcgcccatc
tttgcactgatgcaagagaagatctacatgagcaagatagtggtggaattcctccagaaa
aatcctgacacaacttatgaagaccttctgaacaagattgagacaacggtgcctcccgca
gggctgaacttcaactgcttcactgaggacactctgctgcgccatgctcagtttgtggtg
gagcaggtggagagctacgacgaggctggcgactctgatgagcagccaatcattgtcaca
ccgtgtatgagagacctgatcaagcttgctggagtcactctcgggaagaggagagctgcc
agaagacaggccattcgtcacccaacaaagatagagaaggacagcaaggggccgacaaag
gcaactaccactgagctggtctaccagatctttgatactttcttctctgaccagatagag
cagaatgataaagagagtggagccaaaagacagcgctgtggtgtctgtgaggtttgccag
tctcctgattgtggcaagtgtacagcttgcaaggacatgatcaaatttggaggaagtggc
aaaagcaagcaggcttgcaagcagaggaggtgcccaaaccttgcagtgaaggaggctgaa
gatgatgagaacattgaagaggaagatgttccagtggagaagggcaaaaaggtttctcag
gctaagaggaagaagcagagtcagtgcaaactaaactggattggagaacctgttcagact
gagggaaagaagcattactacaagaaggtctctgtgaacgatgaagtgctggaggtggga
gactgtgtctctgtttcatctgaggatccatccacccccctgtatctggcaaggatcaca
tccctgtgggaggatggtagtggaaagatgttccacgcccactggttccttcgtgggact
cacacagtgcttggagagtcgtctgatccattggagctcgtcctcgtggatgagtgtgaa
gacatgcagctcaattacgtccaaggcaaagtgaacatcatgtataagcccccgtctgac
aactggtttatggagggtggcatggatgttgacatcaaggtgattgacgatgacgggaag
agttttttctatcagttctggtacgacacagattttgcccgttttgagacgcctcccacc
accaccaatctatcagactgcaagttcagattctgcagcagctgtgaaaggactaaagag
agagccgaacgggaaaatcctcgtgcttttgagcccctagggaatgaagcgagcgactct
aaggctctgtatgcggtggcctgctttaagggggagcagtttagagtgggagatggagtg
tatttgccttctgaggcttttcatttcagtgttaaaccagctagtccagtgaagcgctcc
cacagaaaagaggatgtggatgaggagttgtatccagagtattacagaaagtcctctgac
tacatcaagggctcaaacctagatgctcccgagcccttccgtattgggcgcatcaaggag
atcttctgtcacaggcgtagcaatgggaaatctgacatgtctgaggtcaaactgcgactt
tacaagttctacaggcctgagaacactcacaaaggcgtcaaatccagttaccacacagat
atcaatcagctgtactggagtgatgaagaagttaccgtcagcatgtccgaggtgctaggc
cactgtcaagtagaatatgctgaagacctgaatgagtctgtccaggactattccagtggt
ggacctgaccgcttctacttcctggaggcctataatgcaaaatctaaaagttttgaagac
cctccaaatcatgctcgctcaactgtgcataaaggcaaaggaaagggcaaagggaaaggt
aagggcaaagggaaatcttcagctgctcaggaaacacaggactctcagaatgaaccacag
gttcctaaagtgtccaaatatcgcacactggacgtgttctctggctgtggtggactctct
gaaggcttccaccaggctggtatctctgagacgctgtgggccattgagatgtgggagcct
gcagcacaggccttcaggctcaacaaccctggcaccacagtgtttacggaggattgcaac
gtcttgctgaagttggtcatgtctggagagaagactaattccctgggccagaagctgcca
cagaagggtgatgtggagatgctgtgtggaggacctccctgccaagggttcagtgggatg
aaccgcttcaattctcgcacttattccaaattcaagaactctcttgtagtctcctatctc
agttactgtgactactacagacccaagtttttcctgcttgagaatgttaggaactttgtg
tcgttcaaaaaatccatgatcctaaagctgaccctgcgctgtcttgtgcgcatgggttac
cagtgcacctttggtgtccttcaggctggtcagtatggtgttgctcagacccgtcgcagg
gcgatcatcctggctgcagctcctggagagaagctgcctcgctatcccgagcctctgcat
gtgtttgctcccagagcttgctctctgagcgtggtggtagatgaaaagaaatacgtcagt
aatgtcacacgaggtaatggaggaatctacagaaccatcactgtccgtgacaccatgtct
gacctgccagagattcgcaatggtgcatctgcgctggagatttcctacaatggggaacct
cagtcttggttccagaggcagatcagaggaacacagtatcagcctatcctcaaagatcat
atctgcaaggacatgagcgccctggttgaggctcggatgcgtcacatccccttggctcca
ggctctgactggagggatctgcccaacatagaggttcggctgaaagatggcaccatgacc
aagaaactgcgctacacacaccctgataaaaagaatggacgcagcagcactggtgcactg
agaggtgtctgcacttgtgcaggagggacgcagtgcgaccctgcagacaggcagtttaac
actctgatcccctggtgtctgccccacactggtaaccgtcacaatcactgggctggactc
tacggcagactggagtgggatggcttcttcagcacaactgtcaccaaccctgaacctatg
ggcaagcagggccgtgttctgcatgctgagcagcacagagtggtaagtgtgagggaatgt
gctcgctctcagggattccctgacacctaccgcttctttggaaacatcctggacaaacac
agacaggttggaaatgctgtgccccctccactctccagggccataggcctggagattaag
aagtgtgtgttggagagaataaaggaagaacaagcaacagagaatattaaacaggagaag
atggaagtcattgattag

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