KEGG   Luidia clathrata (European starfish): 117303430
Entry
117303430         CDS       T10152                                 
Name
(RefSeq) DNA (cytosine-5)-methyltransferase PliMCI-like
  KO
K00558  DNA (cytosine-5)-methyltransferase 1 [EC:2.1.1.37]
Organism
arun  Luidia clathrata (European starfish)
Pathway
arun00270  Cysteine and methionine metabolism
arun01100  Metabolic pathways
Module
arun_M00035  Methionine degradation
Brite
Enzymes [BR:arun01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.37  DNA (cytosine-5-)-methyltransferase
     117303430
Transcription factors [BR:arun03000]
 Eukaryotic type
  Zinc finger
   CXXC CpG-binding proteins
    117303430
DNA replication proteins [BR:arun03032]
 Eukaryotic type
  DNA Replication Termination Factors
   DNA methylation enzymes
    117303430
Chromosome and associated proteins [BR:arun03036]
 Eukaryotic type
  Heterochromatin formation proteins
   Other heterochromatin formation proteins
    117303430
Prokaryotic defense system [BR:arun02048]
 Restriction and modification system (R-M system)
  Type II R-M system
   DNA methyltransferases
    117303430
SSDB
Other DBs
NCBI-GeneID: 117303430
NCBI-ProteinID: XP_033643514
LinkDB
Position
19:complement(10908616..10933182)
AA seq 1586 aa
MPSRLEGDVVIPQDVGGRLKDLEQDFNDGDLTEKGYIKKKCKLLFEHLTVEIQSSLKELE
EDLKDESLTEKGYLSKVGTLLTSALKKKPTTAVNGKATTPLRNGKATNGNGLEHSNGNGQ
SDADRDDATTGATQSEEDMETEQPTSSKKGKRGKKATTNGKRKVLGGDEKAPAAESAPED
DKTTPQSESVNGKRKRSPKVDPKQKSLLSMFTKLPSKRKSEEISSGGSGVDSDEKPSSSN
GDSSLEVKQEKEGQEEKRIKTEEDEAESMKEETDGSEVKVDESDEKPSLRKRPEPTVIPK
SPAKQAPPRCKECHQMLDDPDLKMFPGDPEDARDEFVTLTDPSLSLLSGDEQETMGYDER
LQFKITNFCVYDKNTHLCAFDSGLIEKNKELFFSGFVKPIYDDNSSTEGGIPTKAMGPIN
EWFTAGFDGGEKALIGFGTAFAEYVLMAPSEAYTPFWKAMQEKIYMSKILIEFLQNNPVA
EYEDLINQIQTTVPPENCSSFTEDSLLRHAQFVVEQVESYDEGADEEETLLITTPCMRDL
IKLAGVTLGKRRAVRKAARKPKAEKKTMQSMATVTPLVSKIFDIFFQGQIKKEQGNIIRK
RRCGICEVCQAPDCGKCSACQDMIKFGGTGRSKQACITRRCPNMAVQEADDNDDTENEEE
ENQIDTRRRGHKTALETKRKKRTAVDWLGDPINVEGTRSYYYSALVGEEQVDAGDYVLVH
PDDPERPLFIAQIVYMFQEKGDDLMFHARWFMYGSETVLGETSDPLELFQVDECQDTYLA
SVSSKCKVIYKEVSPDWYSIGGIENPEEDSVIKQDDHRTFFYQKWYDTELARFEDVKTLS
RPKGVPKHSFCPCCLKVELAQKRDSPQAGEELKNPEGDSNKVYYSSCSLLGVDYRVGESV
FLMPDAFDFNIKVKAAATKKYSKKEVDEELYPEYYRKTSDYIKGNNKACPEPFRIGRIVN
IFTKKGSNEVKLRIQKFYRPENTHKGASAGHQSDLNLLYWSTEEATIDLASVQGKPTVVC
GDDIPGSIQDYITGGQYRFYFLEAYNSDAKQFEDPPLEARNTSSRGKGKGKGKSKGKGKS
SEEAKKVPEEEETFFFKKLRSLDVFAGCGGLSEGFHQAGLCESNWAIEIDEPAAQAFRLN
NPGSTVFTDDCNILLRMVMEGEKTNDRGQRLPQKSEVEVLCGGPPCQGFSGMNRFNSREY
SKFKNSLISSYLSYCDYYRPKFFLLENVRNFVSYKKNMVLKLALRCLVRMGYQCTFGVLQ
AGHYGVPQTRRRAIILAAAPGEKLPMYPEPDHVFAPRACQLSVMVDDKKINSNISWLESA
PYRTITVRAAMSDLPEIHNGHDKLEISYDGEPQSAFQRKIRGNQYQPILRDHICKEMSQL
VATRMRHIPLAPGSDWRDLPNIQSTLPDGNVCRKLRYTHKDKKNGYANNGALRGVCVCSE
GEKCDSMYRQFNTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLH
PEQHRVVSVRECSRSQGFPDTYRFFGTILEKHRQVGNAVPPPLAAAIGREIKKCVVAKDK
EERSNRRKEEIQTKEEDVKTEEVKME
NT seq 4761 nt   +upstreamnt  +downstreamnt
atgccttcgagactggaaggagatgttgtcattccacaagacgtcggaggaagactgaaa
gatctggagcaagacttcaacgatggggacctgacagaaaaaggctacatcaagaagaaa
tgcaagctgctgtttgagcatttaaccgttgagatccagtcaagtttgaaagagttggaa
gaagatttgaaggatgaaagcttgacggagaaaggatatctgtccaaagttggtacactt
cttaccagtgccctcaagaaaaaacccacaactgccgtgaatggaaaagcaaccacccca
ttgaggaacggcaaagccaccaatgggaatggtctcgagcatagcaacgggaatggccaa
tcagatgctgatcgagatgacgccaccacaggggccacccaatcagaggaggatatggag
acagagcagcccacaagcagcaagaagggcaagaggggcaagaaggcaacgacaaatgga
aagaggaaagtcctagggggagatgaaaaggccccggcggcggagagcgcccccgaagat
gacaagacaactccacagtccgagtcagtcaatgggaagcgcaagaggtcaccgaaggtc
gatccgaaacagaagagccttctgagcatgtttacaaagttaccttcaaagcgaaagagt
gaagagatttcttcagggggtagcggcgtagattcagatgagaaacccagcagcagtaat
ggcgacagctccctggaggtcaagcaagagaaggaaggtcaagaagagaagaggattaag
actgaggaagatgaagcagaatcgatgaaggaggaaactgacgggtcggaggtcaaagtt
gatgagtctgatgagaagccaagcttgcgcaagaggccagaaccaacagtcattccaaaa
tcaccagcaaagcaagcgccgcctcgctgcaaggaatgccaccagatgctggacgaccct
gatcttaagatgttcccaggagatcctgaagacgctagggatgagtttgtgactctaact
gatccaagtctgtcgttactgagtggagatgagcaggagaccatgggttatgatgaaaga
ctccagtttaaaatcactaacttctgtgtttacgacaagaacacgcatctctgcgccttc
gactcgggcctgattgagaaaaacaaggagttgtttttcagcggatttgtcaaacccatc
tatgatgacaactcgagcacagaaggtggaattccaactaaagctatgggacccattaat
gaatggtttacagctgggtttgatggaggagagaaggcattgattggctttggaactgcg
tttgctgagtatgtcctgatggcgccatctgaagcctacactccattctggaaggcaatg
caagagaagatctacatgagtaaaatcttgattgagtttcttcagaataacccggtggct
gagtacgaggatcttattaaccaaatccagacgacggtgccgccagagaattgtagcagc
ttcactgaggactctttgcttcgtcatgcacagtttgttgttgaacaggttgagagttac
gatgaaggagcagatgaagaggagacactgctcatcacaacaccctgtatgagagatctt
attaagttagctggagtcaccctgggaaagaggcgagctgtgcgtaaagcagccaggaaa
cccaaggcggagaagaaaaccatgcagtccatggcgacagttactccactagtctccaaa
atctttgacatcttctttcaagggcagattaagaaggagcagggcaacatcatccgcaag
agacgatgcggtatatgtgaggtgtgccaagcgcccgattgtggaaagtgctctgcctgt
caagacatgatcaagttcggcgggacaggacgcagcaagcaggcgtgtatcactagacga
tgccccaacatggcggtccaggaagcagatgataacgacgataccgagaacgaggaagag
gagaatcagatcgatacgagacgacgaggtcacaagactgctctggagaccaagaggaag
aagaggacggcagtggactggctcggtgatccaatcaatgtggagggaaccaggagctat
tattactctgctcttgttggtgaggaacaggtggacgccggtgactacgtcctcgttcat
ccagatgacccagaacgacctctcttcattgctcagatcgtctatatgttccaggagaag
ggagatgatctgatgtttcatgctcgttggttcatgtatggctctgagactgtactggga
gaaacctctgatcctctggagctgtttcaggtggatgaatgtcaggacacgtacctggct
tccgtcagctcaaagtgcaaggttatctacaaggaggtgtctccagattggtattccatc
ggaggaatcgagaacccagaggaggactccgtcattaagcaggatgaccatcgtaccttc
ttctaccagaagtggtatgacaccgagctggcacgctttgaagacgttaagacccttagc
agacccaagggggtacccaagcacagcttctgtccctgttgcctcaaggtggagctggct
cagaagcgagacagtccccaagctggcgaggagctcaagaatccagagggagacagcaac
aaagtttactacagttcttgttctcttcttggagtggactaccgcgtcggtgaaagcgtt
ttcttaatgcctgatgcttttgacttcaacatcaaagtcaaggcagcggctacaaagaag
tactcaaagaaagaagtggatgaagagctgtatccggagtattaccgcaagacgtccgat
tacatcaaaggaaacaacaaagcatgccctgagcccttccgcatcggtcgtattgtcaat
atcttcaccaagaaaggctccaacgaggtcaagctacgaatccagaagttctaccgcccg
gagaatacacacaagggggcctcagcagggcaccagtcagatctgaacctgctgtactgg
agtactgaagaggcaacgattgacctagccagcgtgcagggtaaaccaacggtggtttgt
ggcgatgacataccggggtcaatccaagactacatcactggaggtcaatatcgcttctac
ttcctggaggcatacaacagtgacgcaaagcagtttgaggacccaccccttgaagctcgt
aatacaagcagcagaggaaagggcaagggtaaaggcaaaagtaaaggcaaagggaaatcc
tcagaagaagcaaagaaggtgccagaggaagaagagacattcttcttcaagaagcttcga
tcactggatgtcttcgctggctgtggaggattatcggagggcttccaccaggctgggtta
tgtgagagtaactgggctatcgagattgacgagcctgcagctcaggcatttaggctgaat
aacccaggcagcacggtgtttactgatgattgtaatatactactcagaatggtcatggag
ggtgagaagacaaatgaccgaggtcagaggttaccacagaagagtgaggtggaggtattg
tgtggtggacctccatgccagggattcagtggaatgaatcgattcaactccagagagtac
tccaaatttaagaattcgcttatttcatcttacctgagctactgcgactactacagaccc
aagttcttccttctggaaaatgttcgcaactttgtgtcttacaagaagaatatggtactc
aagctggccctgagatgtctcgttcgcatgggctatcagtgtacttttggtgtccttcaa
gccggccattacggagtcccacagactcgacgtcgagcaatcatccttgccgccgcccct
ggggagaagcttccgatgtaccccgagccggaccacgtctttgccccccgggcctgtcag
ctcagtgtcatggtagacgataagaagatcaatagtaatatttcatggttggagtctgca
ccttataggaccatcacagtgcgggctgccatgtcagatctgccggagattcacaatgga
catgataagctggagatatcgtatgatggggagccccagtctgcattccagagaaagatc
cgtggcaaccaataccagccaatcctccgtgatcacatctgtaaggagatgagccagcta
gtagctactcgtatgcgtcacattccgctggccccaggctctgattggagagacttacca
aacatccagagtacactgccggacggcaacgtctgccgtaaactgcgttacacgcacaaa
gacaagaagaacggctacgcaaacaacggcgccctccgaggggtgtgtgtttgttcggag
ggtgagaaatgcgactccatgtatcgtcagttcaacacgctaattccctggtgcttgcca
cacaccggtaaccggcataaccactgggcggggctgtatgggcggctggaatgggacggc
tttttcagcaccacagtgacgaaccctgagccaatgggaaaacagggtcgtgtgttgcat
cctgagcagcacagagtggtcagtgttcgagagtgttctcgctcacagggtttcccagac
acgtatcgcttctttggaaccatcttggagaaacacagacaggttggaaatgcagtccct
ccaccattggcagctgctatcggtcgtgaaatcaagaaatgcgtcgtcgctaaggacaag
gaagagaggagcaacaggaggaaggaagaaatccagactaaggaagaggatgtgaagaca
gaagaggtcaagatggaataa

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