KEGG   Silene latifolia (white campion): 141633263
Entry
141633263         CDS       T11116                                 
Name
(RefSeq) DNA (cytosine-5)-methyltransferase 1B-like
  KO
K00558  DNA (cytosine-5)-methyltransferase 1 [EC:2.1.1.37]
Organism
slaf  Silene latifolia (white campion)
Pathway
slaf00270  Cysteine and methionine metabolism
slaf01100  Metabolic pathways
Brite
KEGG Orthology (KO) [BR:slaf00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00270 Cysteine and methionine metabolism
    141633263
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03000 Transcription factors [BR:slaf03000]
    141633263
   03032 DNA replication proteins [BR:slaf03032]
    141633263
   03036 Chromosome and associated proteins [BR:slaf03036]
    141633263
  09183 Protein families: signaling and cellular processes
   02048 Prokaryotic defense system [BR:slaf02048]
    141633263
Enzymes [BR:slaf01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.37  DNA (cytosine-5-)-methyltransferase
     141633263
Transcription factors [BR:slaf03000]
 Eukaryotic type
  Zinc finger
   CXXC CpG-binding proteins
    141633263
DNA replication proteins [BR:slaf03032]
 Eukaryotic type
  DNA Replication Termination Factors
   DNA methylation enzymes
    141633263
Chromosome and associated proteins [BR:slaf03036]
 Eukaryotic type
  Heterochromatin formation proteins
   Other heterochromatin formation proteins
    141633263
Prokaryotic defense system [BR:slaf02048]
 Restriction and modification system (R-M system)
  Type II R-M system
   DNA methyltransferases
    141633263
SSDB
Motif
Pfam: DNMT1-RFD DNA_methylase BAH DNA_pol_phi Paf1
Other DBs
NCBI-GeneID: 141633263
NCBI-ProteinID: XP_074301806
LinkDB
Position
Y:complement(434558078..434567774)
AA seq 1540 aa
MGKGGKTGSENGVSDVAQSKGSTGKVCKGKQKKRDRDDANGETNVVSRRMPKRAAACSDF
KEKAVRMSEKDDLVDRKREITVENEIAVIGLTTGHDDPRANRRLVDFIFHDGEGKAQPVE
LLEVTDLFISGVILPLEPSGDSLKDKGVKCEGFGRIETWDISGYEDGTPTIWVSTDIADY
ACVKPAASYRKIYGLFYEKAHACIETYKKLSRSSGGNPDITLDELLAAIVRAMNGSKNFP
PGASIKEFILSWGEFIYNQLIGLDATSNKKEQKFIDLPVLVALRDECKKNGEIAPSFMPL
ATGGALKIGDGETKKESNSSIPSEEDEDAKLARLLQEEEDWRSMNQRKGRRPTGLKKYYI
KINEDEIAIDYPLPAYYKPNSEETDEYIIFDNDMDVSDPDQLPRSMLHNWSLYNSDSRLV
SLELLPMKPCDDIDVTIFGSGTVTDDDGSGFCFDAGAQSSSASEVPDVGGIPIYLSAIKE
WMIEVGASMVFISIRTDMAWYRLGKPSKQYAPWYETVLKTARLGVGIITLLKEQSRVARL
SFTEIIKRLSEFGKDHPAFTSSNPVAVERYVVVHGQILLQQFSEYPDNTIKNCPFVSGLR
EKMETRHHTKWLVKKKGVARKGANLNPMAKMVPIAKRKLMPATTTRLINRIWGEFYSNYS
PEELKDVAMVEMKEEEAQEEEDVEEDLEEEQEEIEKENASVDKTEKDSQASRPRKVNHSS
EGIKWEGEPIQKTSIGCFYKQATVHGDLVVVGGFVLVETSELEELPPIYLVESMYEKSSG
KKMAHGRLMLRGSQTVLGTAANEREVFLTNSCLDFELKDVRDSTVVQIRQKPWGYQHRKA
YALDEKIDRENAEDRKSKGLLLEYYCKSLYVPHKGAFFCLQKDLLATGNGTCHACKAREA
ENEKEILKVNSSDSGFVYKGVEYNIDDFFYVAPRYLAENEKGTETFKSSRNVGLKPYVIY
QLLEILKPKASKRSDPESIKVKARRYFRPEDISAEKAYRTDVREVYFSEQIQSLPIAAFQ
GKCEVRRKHDMSSLNYPAVFENVFFCEHLYDYDSGAIKQLPSSVRLSPVIDDFVARKKKG
KGKEVDDNENLDDKKSFKNQLATLDIFAGCGGLSEGLERSGVSQTKWAIEYEEPAGEAFN
LNHPEASLFVNNCNVILSAIMSACGDEDDCISTPEASGQAKKLDESEINKLPRPGQVDFI
NGGPPCQGFSGMNRFNKSAWSKVQCEMILAFLSFADYLRPKYFLLENVRNFVSFNKGQTF
RLAIASLLEMGYQVRFGILDAGAFGVSQSRKRAFIWAASPEETLPDWPEPMHVFAGSELK
INLGKDTQYAAVRSTATGAPFRSITVRDTIGDLPAVGNGACLTTMEYKNEAVSWFQKMIR
RDMMTLTDHISKEMNELNLIRCQKIPKHPGADWRDLPDEKVKLSTGQMVDLVPWCLPNTA
ERHNQWKGLFGRLDWEGNFPTSITDPQPMGKVGMCFHPDQDRIVTVRECARSQGFPDSYR
FAGNIQHRHRQIGNAVPPPLAFALGRKLKEAVENKCLQIS
NT seq 4623 nt   +upstreamnt  +downstreamnt
atggggaagggaggaaagacaggctctgagaacggggtatctgatgttgcccaatcaaaa
gggtcaactggtaaagtatgtaaggggaaacagaaaaagagagatcgggatgatgccaat
ggggaaaccaatgtggtttctcgaagaatgccaaagcgcgctgcagcatgttcagacttc
aaggaaaaggcagtacgtatgtctgagaaagacgatcttgtcgacagaaaaagggagatc
actgtagagaatgaaatagctgttattggcttgactacaggtcatgacgatcccagagcc
aatcgacgccttgtagacttcatttttcatgatggggaagggaaagcacagcccgtggag
ctgctggaagttactgacttgtttatttcaggtgttatcttaccacttgagccttctggc
gattcccttaaagataagggtgtaaaatgtgaaggttttggtcggattgaaacatgggat
atatccggttatgaagacggaacccctacaatttgggtatctactgatatagctgattat
gcatgtgtaaagcctgctgcctcctacaggaaaatatacgggctattttatgagaaggca
catgcctgcatagaaacctacaaaaaactgtcgagatcttctggaggcaatcctgatatt
actcttgatgagctgcttgctgctatagttcgtgcaatgaatggcagcaaaaatttccct
cctggggcttcaattaaggagttcatcctttcatggggtgagttcatttacaaccagctt
atcggattggatgctacgtccaacaaaaaggagcaaaagttcattgacctgcctgtgctt
gttgctcttcgtgatgaatgtaaaaagaatggtgagattgccccttcatttatgcccttg
gctactggtggggctctcaaaattggggatggtgaaacaaaaaaggagtcaaattcatca
atcccttctgaagaagacgaggatgcaaaattggccaggttattacaagaggaagaagat
tggcgatctatgaaccagaggaaggggagacgtcccactggtttgaagaagtactatatc
aagattaacgaagatgaaattgcaattgactatcctctccctgcttactacaaacctaac
agtgaggaaactgatgagtacatcatctttgacaatgatatggatgtcagtgaccctgac
caacttcctagaagcatgcttcataattggtcgctatataattctgactcccgtcttgtt
tctctggaacttttacccatgaagccttgtgatgatatcgatgttacaatttttggatcc
ggaactgtgactgatgatgatggaagtggattctgttttgatgctggtgctcagtcttca
tctgcttctgaggttcctgatgtagggggaattccgatttatttgagtgcaattaaggaa
tggatgatcgaggttggcgcatccatggttttcatatcaatcagaacagatatggcctgg
tatagacttggaaagccatcaaaacaatatgctccctggtatgaaacggtcttaaaaaca
gctaggcttggagttggcatcattacgctgttaaaagagcaaagtcgcgtggcacgtctg
tcctttacagaaattattaaacgtttgtctgaatttggaaaggaccaccctgcatttaca
tcttcaaatccagttgcagtggaaagatatgtggtggttcatggccaaatattactacaa
cagttctcagagtatcctgataataccatcaagaactgtccttttgtaagcggacttagg
gaaaaaatggaaacaaggcaccacacaaaatggttggttaagaaaaagggcgtggcaagg
aaaggagccaacttgaacccaatggctaaaatggtccctattgctaagagaaaattaatg
cctgcgacaaccactagattaattaacagaatatggggagagttttattcaaattattct
cctgaggaattgaaggacgtagccatggttgaaatgaaagaggaagaagctcaggaagag
gaagacgtggaagaagatcttgaagaggagcaagaagaaatagaaaaagaaaatgcctct
gttgacaagactgagaaagatagccaagccagcaggccaagaaaggttaatcattcatct
gagggaattaaatgggaaggagagcctattcagaaaacctctattggatgtttttacaaa
caagccactgtccacggagatttagttgttgttgggggttttgtgcttgttgaaacatct
gagttagaagagctaccccctatttatctagtggaatctatgtatgaaaaatctagtggg
aaaaaaatggctcatggacgattgatgctgagaggatctcagactgttttaggaactgct
gccaatgagagggaggtattcttgacaaatagttgcctggactttgaattaaaagatgtt
agggatagcacagtggttcaaattcgccagaagccatgggggtatcaacaccgaaaggct
tatgctttggatgaaaagattgatcgagaaaacgcagaggataggaagagcaaaggattg
ctgttggaatactactgcaaaagcttgtacgtgcctcataaaggtgctttcttttgtctg
caaaaagacttgttggcaactgggaatggtacctgtcacgcctgcaaagctagagaggct
gagaatgaaaaagaaattttaaaagtcaattcttcagatagtggttttgtttacaaagga
gttgagtacaacattgacgacttcttctatgtagcaccacgttatctagcagaaaacgag
aaaggaaccgaaactttcaaaagtagcagaaatgttggtttgaaaccatatgtgatttat
cagctcttggagattttgaagcctaaggcttctaaaagatctgatccagagtccattaaa
gttaaagctcgtagatactttagacctgaggacatctcagcagaaaaagcatatcgcact
gatgtacgagaggtttattttagtgagcaaatacaatcgttgcctatagctgctttccaa
gggaagtgtgaagtcagaagaaaacatgatatgtcatctttaaattacccagctgttttt
gagaatgtctttttctgcgagcatttatatgattatgatagtggagccatcaaacagctg
cccagcagtgtcagacttagtcctgttattgatgatttcgttgccagaaagaagaaagga
aagggtaaggaagttgatgataatgagaatttagatgataaaaagtctttcaagaatcag
ctggcaactcttgatatctttgctggctgtggtggcttatctgaagggttggaacgatca
ggcgtgtcacagaccaaatgggctattgagtatgaagagcccgctggtgaagcgtttaac
ctcaaccaccctgaggcctcgctgtttgttaacaactgcaatgtgatcctcagcgcaatc
atgtcagcctgtggggatgaagatgactgtatttcaactcctgaagcatcaggtcaggcg
aagaagcttgatgaaagtgaaatcaacaaattgcccagacctgggcaggttgactttata
aacggaggccctccatgtcagggtttttcaggaatgaataggtttaacaaaagtgcttgg
agtaaggtccagtgtgaaatgatcttggctttcctgtcatttgctgattacttgcgccct
aaatattttcttctggagaatgtgagaaactttgtgtcattcaacaaagggcagaccttt
cgcttagctattgcttctcttcttgaaatgggatatcaggttagatttggcatacttgac
gctggagcctttggtgtatcacaatctcgtaaacgtgcattcatatgggctgcatctcct
gaggagacactgccagattggcctgagccaatgcatgtttttgcgggttcagagctcaaa
atcaatctgggcaaagatactcagtatgctgcagttcgtagtacagcaaccggtgctcct
ttccgttctattacagttagagatactattggtgatctaccagctgttggaaatggcgct
tgtctaactactatggagtacaaaaatgaagcagtatcttggtttcaaaagatgattcga
cgggatatgatgacattgactgatcatatatcaaaagagatgaatgaattgaatttgata
cgttgtcaaaaaattcccaaacaccctggagctgattggcgagacctccctgacgagaag
gtaaaactgtctacagggcagatggttgacttggtaccatggtgtctgccaaacacagca
gaaagacacaatcaatggaagggattatttggaaggttggactgggaaggaaacttccct
acctctattactgatccacaacctatgggcaaggttgggatgtgctttcatcctgatcag
gatcgtattgttaccgttcgtgaatgtgctcgctctcaaggcttcccggacagctacaga
tttgccggtaacattcaacataggcaccgacagattggtaatgcagttccgccacccctg
gcctttgcattgggtaggaaacttaaagaggcagttgagaacaaatgtttgcaaatatca
tag

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