Cheilinus undulatus (humphead wrasse): 121529483
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Entry
121529483 CDS
T07473
Symbol
dnmt1
Name
(RefSeq) DNA (cytosine-5)-methyltransferase 1 isoform X1
KO
K00558
DNA (cytosine-5)-methyltransferase 1 [EC:
2.1.1.37
]
Organism
cud
Cheilinus undulatus (humphead wrasse)
Pathway
cud00270
Cysteine and methionine metabolism
cud01100
Metabolic pathways
Module
cud_M00035
Methionine degradation
Brite
KEGG Orthology (KO) [BR:
cud00001
]
09100 Metabolism
09105 Amino acid metabolism
00270 Cysteine and methionine metabolism
121529483 (dnmt1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03000 Transcription factors [BR:
cud03000
]
121529483 (dnmt1)
03032 DNA replication proteins [BR:
cud03032
]
121529483 (dnmt1)
03036 Chromosome and associated proteins [BR:
cud03036
]
121529483 (dnmt1)
09183 Protein families: signaling and cellular processes
02048 Prokaryotic defense system [BR:
cud02048
]
121529483 (dnmt1)
Enzymes [BR:
cud01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.37 DNA (cytosine-5-)-methyltransferase
121529483 (dnmt1)
Transcription factors [BR:
cud03000
]
Eukaryotic type
Zinc finger
CXXC CpG-binding proteins
121529483 (dnmt1)
DNA replication proteins [BR:
cud03032
]
Eukaryotic type
DNA Replication Termination Factors
DNA methylation enzymes
121529483 (dnmt1)
Chromosome and associated proteins [BR:
cud03036
]
Eukaryotic type
Heterochromatin formation proteins
Other heterochromatin formation proteins
121529483 (dnmt1)
Prokaryotic defense system [BR:
cud02048
]
Restriction and modification system (R-M system)
Type II R-M system
DNA methyltransferases
121529483 (dnmt1)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
DNA_methylase
BAH
DNMT1-RFD
zf-CXXC
DMAP_binding
Rogdi_lz
RST
Motif
Other DBs
NCBI-GeneID:
121529483
NCBI-ProteinID:
XP_041673314
LinkDB
All DBs
Position
21:26461594..26476244
Genome browser
AA seq
1503 aa
AA seq
DB search
MPSRTSLLLPEDVRKRLQVLDTDGSADEDNVQEKLKLVQDFLHADAQEQLNSLEEKMKSS
EISMEAYISKVKALLGKELPPENGSHTDGIEQNGKTNGFINGSHKGEGGGDVTMEVQEEE
ETLKSPTASKGKGGPRSKSNSDSKSSTRVTRNASKQPTIMSMFSKVQKRKSEDLNGEATN
GKTEVKKEEDDTEESREEKRLKVDPDENASPKESKSEVTKPVTAAKTPPPKCVDCRQYLD
DSDLKFFQGDPDNALDEPEMLTDERLSLFDANEDGFESYEDLPQHKITNFSVYDKRGHLC
PFDSGLIEKNVELYFSCVVKPIYDDNPCLDGGVPAKKLGPINAWWITGFDGGEKALIGFT
TAFADYILMHPSEEYAPIFALMQEKIYMSKIVVEFLQKNRDATYEDLLNKIETTVPPAGL
NFNCFTEDTLLRHAQFVVEQVESYDEAGDSDEQPIIVTPCMRDLIKLAGVTLGKRRAARR
QAIRHPTKIEKDSKGPTKATTTKLVYQIFDTFFSDQIEQNGKESGVTKRQRCGVCEVCQS
PDCGKCTACKDMIKFGGSGKSKQACKQRRCPNLAVKEAEDDEIVEEEDVPVEKTKKVSHA
KRKKQSQCKLTWIGEPIQTEAKKQYYKKVCVNDEELEVGDCVSVSSEDPSIPLYLARITS
LWEDNNGKMFHAHWFMRGIHTVLGECSDPLELVLVDDCEDMLLSYVQGKVNVTYKAPSNN
WFMEGGMEEDLKVIEDDGKSFFYQFWYDTEFARFETPPKTKQSEDCKFKFCGSCVRNKGR
EEQETPRAFEPMGDQDSDSKALYAFACFKGEQFKVGDSVYLPPEAFSFSSVKPASPVKRS
HRKDDVDEDLYPEYYRKSSDYIKGSNLDAPEPFRIGRIKEIFCHRRSNGKADLSEVKLRL
YKLYRPENTHKGVKASYHTDINQLYWSDEEVTVSMTEVLGRCQVEYGEDLNESVTEYSSG
GPDRFYFLEAYNAKTKSFEDPPNHARSAVHKGKGKGKGKGKGKGKASAAPEPQDSQTEPQ
TLKVPKYRTLDVFSGCGGLSEGFHQAGISETLWAIEMWEPAAQAFRLNNPGTTVFTEDCN
ILLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSAFKNSLVVSYL
SYCDYYRPKFFLLENVRNFVSFKSSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRR
AIILAAAPGEELPRYPEPLHVFAPRACSLNVVVDEKKYVSNVTRGNGGIYRTITVRDTMS
DLPEIRNGAAALEISYNGEPQSWFQRQIRGTQYQPILRDHICKDMSALVEGRMRHIPLAP
GSDWRDLPNMEVRLRDGTMTKKLRYTHSDKKNGRSSTGALRGVCTCAGGKPCDPADRQFN
TLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVREC
ARSQGFPDTYRFFGNILDKHRQVGNAVPPPLSRAIGLEIKKCILMRIKEDQAAENVKQEK
MEV
NT seq
4512 nt
NT seq
+upstream
nt +downstream
nt
atgccatccaggacttccctgttgttgccagaggatgtcaggaaaaggctgcaggtgttg
gacacagatggatctgcagacgaggataatgtgcaagaaaagctaaaactggttcaggac
ttcctccatgccgatgctcaggaacaattgaacagtcttgaggaaaaaatgaaaagttct
gagatctccatggaggcctacatctctaaagtaaaggccttgctgggaaaagagcttcca
cctgaaaatggttcacatactgacggtattgaacaaaatggtaaaacgaatggcttcata
aatggttcccacaaaggcgagggagggggggatgtaacaatggaggttcaggaggaagag
gagaccctaaaatcaccaactgcttccaaagggaaaggtggacccaggagcaagtcaaat
tctgactccaaatccagtaccagggttacaagaaatgccagtaaacaacccaccatcatg
tcaatgttctccaaagttcagaagcgcaaatctgaagatctaaatggggaagccactaat
ggaaaaactgaagtgaagaaggaggaagatgatactgaggagtctcgggaggagaagcgc
ctcaaagtggatcctgacgaaaatgcttccccaaaagaatcaaagagtgaggtcacgaag
ccagttactgctgcaaagaccccacctcccaagtgtgttgactgcagacagtacttggac
gactcggatctaaaattttttcaaggggaccctgataatgcgctggatgagcctgaaatg
ttaacagatgagcgcctttccctgtttgatgctaatgaggatggatttgagagctatgag
gatctgccacagcacaagatcactaacttcagtgtgtatgacaagcgtggccacctctgt
ccatttgactctggattgatcgagaagaatgtggagctctacttcagctgtgttgttaaa
ccaatctatgatgacaacccctgcttggatggtggtgttcctgccaagaagcttggacct
atcaatgcctggtggatcactggctttgatggtggtgaaaaagctttgattggtttcact
acagcttttgctgattacatcctgatgcatccaagtgaagagtacgcgcccatctttgca
ctgatgcaggagaagatttacatgagcaaaattgtggtggaatttcttcagaagaaccgt
gacgcaacttatgaggacttactcaacaagatcgagaccactgtgcctcctgcaggtttg
aacttcaactgtttcactgaagacacactgctgcgccatgcccagtttgtggtggagcag
gtggagagctacgatgaggctggagactcagacgagcagcccatcattgttactccctgc
atgagagatctgatcaagctagcaggagtcacccttggaaagaggcgggctgccagaaga
caggccattcgacatcccacaaagattgagaaggacagtaaaggaccaactaaagcaaca
acgaccaagctggtgtaccagatctttgataccttcttctctgatcagattgagcagaac
ggtaaagagagcggtgtgaccaaaagacagcgctgtggtgtctgtgaggtttgtcaatct
cctgattgtggcaagtgtacagcctgtaaggatatgatcaaatttggaggaagtggaaaa
agcaagcaggcttgtaagcagagacgatgcccaaaccttgctgtaaaggaggctgaagat
gatgagattgttgaagaggaagatgttccagtggagaagaccaaaaaggtttctcatgct
aagaggaagaagcagagccagtgcaaactgacatggattggagagcccattcagactgag
gcaaagaagcagtactacaaaaaggtctgtgtgaatgatgaagagctggaagtgggcgac
tgtgtctctgtttcatcagaggatccaagcatccctctgtatctagcaaggatcacatct
ctgtgggaagacaacaatggaaaaatgttccatgctcactggttcatgcgtgggattcac
acagtacttggagagtgttctgatccactggagctcgtccttgtggatgattgtgaagac
atgctgctcagttatgtacaaggcaaagtgaatgtcacatacaaagccccgtccaacaac
tggtttatggagggtggtatggaggaagaccttaaagtgattgaggatgatgggaagagt
ttcttctatcagttctggtacgacacagagtttgcccgctttgagacgcctcccaagacc
aaacaatcagaagactgcaagttcaagttctgtggcagctgtgttagaaataaagggaga
gaagagcaggagacacctcgtgcatttgaacccatgggggatcaagacagcgactctaag
gctctgtatgcttttgcctgttttaagggggaacagttcaaggttggagacagtgtctac
ctgcctcctgaggcatttagcttcagcagtgtgaaaccagccagtccagtgaagcgctct
cacaggaaagatgatgtggacgaggacttgtatccagaatattacaggaagtcctcagac
tacatcaaagggtcaaacctggatgctccagagccattccgtatcgggcgcatcaaagag
attttctgccacaggcgtagcaacggaaaagctgatttgtcagaggtcaagctgagactc
tacaagctctacaggcctgagaatactcacaaaggtgttaaggccagttaccacacagac
atcaatcagctttactggagcgatgaagaagtgacagtcagcatgactgaggtgctcggc
cgttgtcaggtagaatacggagaagacctgaatgagtccgtaacagagtattccagtggt
ggaccagaccgcttctatttccttgaggcctataatgcaaaaactaaaagctttgaagac
cctccaaatcatgctcgctctgctgttcacaaagggaaaggaaagggcaaaggaaaaggt
aaaggcaaaggaaaggcatcagctgcaccggaaccacaggactctcagactgaaccacag
acacttaaagtgcccaaatatcgcacactggatgtgttctctggctgcggtgggctctct
gaaggcttccatcaggctggcatctctgagactttgtgggccattgagatgtgggaacct
gcagctcaagccttcaggctcaacaaccctggcacaacagtcttcactgaggactgcaac
atactgctcaagttggtcatgtctggagagaagacgaattctttgggtcagaagctgcct
cagaagggcgacgtggagatgctgtgtggaggacctccctgccaaggcttcagcgggatg
aaccgcttcaactctcgcacttactctgctttcaaaaactcgcttgtggtctcttatctc
agttactgtgattactacagaccaaagttcttcctccttgagaatgtgaggaacttcgtc
tcattcaaaagctccatggtcctaaagttgactctacgttgtcttgtgcgcatgggctac
cagtgtactttcggtgtccttcaggctggtcagtatggcgttgctcagacgcgacgcagg
gccatcatcctggctgctgcacctggagaggagctgcctcgctatcctgagcctctgcac
gtgtttgctcccagagcttgttctctgaatgttgtggtggatgaaaagaaatacgtcagc
aatgtcacacgaggaaatggaggaatctacagaaccatcactgtccgggacaccatgtct
gacctgccagagattcgcaatggtgctgctgctctagagatctcctacaatggggagcct
cagtcctggttccagaggcagatcagaggtacccagtatcagccgatcctcagagatcat
atctgcaaggacatgagtgctctagttgaaggtcgaatgcgtcacatccccttggcccca
ggctctgattggagggatctgcccaacatggaggttcgactgagagatggtaccatgacc
aagaaactgagatacacacactcggataaaaagaatggacgcagtagcactggtgcactc
aggggtgtttgcacttgtgcaggagggaaaccatgtgaccctgcagacaggcagtttaac
actctgattccttggtgtctgccccacaccgggaaccgccacaatcactgggctggactc
tatggcagactggaatgggacggcttcttcagcacaaccgtcactaaccctgaacctatg
ggcaagcagggccgtgttctgcatcctgagcagcacagagtggtcagtgtgagggagtgt
gcacgctctcagggatttccagacacttatcgcttctttggaaacatcctggacaaacac
agacaggttgggaatgctgtgccccctcctctctccagagctattggccttgagatcaaa
aagtgcattttgatgagaattaaggaagatcaagcagcagaaaacgtcaaacaggagaag
atggaagtctga
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integrated database retrieval system
