Vicia villosa (hairy vetch): 131653257
Help
Entry
131653257 CDS
T09680
Name
(RefSeq) DNA (cytosine-5)-methyltransferase 1
KO
K00558
DNA (cytosine-5)-methyltransferase 1 [EC:
2.1.1.37
]
Organism
vvo
Vicia villosa (hairy vetch)
Pathway
vvo00270
Cysteine and methionine metabolism
vvo01100
Metabolic pathways
Brite
KEGG Orthology (KO) [BR:
vvo00001
]
09100 Metabolism
09105 Amino acid metabolism
00270 Cysteine and methionine metabolism
131653257
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03000 Transcription factors [BR:
vvo03000
]
131653257
03032 DNA replication proteins [BR:
vvo03032
]
131653257
03036 Chromosome and associated proteins [BR:
vvo03036
]
131653257
09183 Protein families: signaling and cellular processes
02048 Prokaryotic defense system [BR:
vvo02048
]
131653257
Enzymes [BR:
vvo01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.37 DNA (cytosine-5-)-methyltransferase
131653257
Transcription factors [BR:
vvo03000
]
Eukaryotic type
Zinc finger
CXXC CpG-binding proteins
131653257
DNA replication proteins [BR:
vvo03032
]
Eukaryotic type
DNA Replication Termination Factors
DNA methylation enzymes
131653257
Chromosome and associated proteins [BR:
vvo03036
]
Eukaryotic type
Heterochromatin formation proteins
Other heterochromatin formation proteins
131653257
Prokaryotic defense system [BR:
vvo02048
]
Restriction and modification system (R-M system)
Type II R-M system
DNA methyltransferases
131653257
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
DNMT1-RFD
DNA_methylase
BAH
DUF167
Motif
Other DBs
NCBI-GeneID:
131653257
NCBI-ProteinID:
XP_058779330
LinkDB
All DBs
Position
LG2:complement(186078051..186087472)
Genome browser
AA seq
1555 aa
AA seq
DB search
MGSASLLNPSDSSQPGGKDSTSKEEPVVSNTEEEVMAGGKQKKRNLSESSEQPAPTRKMP
KRSASAASKNLKEKSFSISDKSCLVETKKDQVAEEELLAVRMTAGPEEGRANRRLTDFIL
HDESGAAQALEMLEIKDLFITGLILPLEGNADKKKEQGVRCQGFGRIESWDISGYEDGSP
VIWISTEIADYDCQKPAGTYKKYYDLFFEKARACLEVYKKLAKSSGGDPDISLDELLAGM
ARSMSGSKHFSGTAAIKEFIISQGDFIYKQLIGLDMMLKANDKGFEDIPALIALRDESKK
QAHFANTQVRPSNATLRIGSGVADEEKNNQMDSVVDAEDEDAKLARLLQDEENWKSNRQR
KNPRSSSSSNKFYIKINEDEIANDYPLPAYYKTSLQETDEFIVFDNDSDIYDTEDLPRSM
LHNWALYNSDSRLISLELLPMKPCSEMDVTIFGSGIMTSDDGSGFNLDTEAGQSSIASGA
QDTDGIPIYLSAIKEWMIEFGSSMVFISIRTDLAWYRLGKPSKQYTPWYDTVLKTARIGI
SIITLLKEQSRVSRLSFPDVIKKVSEYTQDNKSYISSDPLAVERYIVVHGQIILQLFAEF
PDDKIRKSPFVTGLMNKMEERHHTKWLVKKKKLLPKSEPNLNPRASMAPVVSKRKAMQAT
TTKLINRIWGEYYSNHLPEESKEGTASEEKDDDEAEEQEENEDEDAEEETILLEETLKPH
LVSKQIKAISDDGEITWEGGPERKTRSGLPLYKQAIIHGEVVSVGISVSVEVDESDELPD
IYYIEYMFESKDGRKMFHGRVLQHGCHTVLGNAASEREVFLTNECRDLGLQDIKQINVAR
IRRTPWGHQHRKDSNAAGKIDRERAEERKKKGLPTEYYCKSLYWPERGAFFSLPFDSLGL
GSGVCHSCNIQEADKAKEIFKVNSSKSSFVLEGIEYSLNDYVYVSPFEFEEKIEQGTHKS
GRNVGLKAYVVCQVLEIIAKKETKQAEIKSTELKVRRFFRPEDVSSEKAYCSDVQEVYFS
DETYMISVQSVEGKCEVRKKIDIPEGSAPGAFHNVFFCELLYDPATGSLKKLPSHIKVKY
SSGPTADDAARKKKGKCKEGDSLPVPDLKSKTSNENRLATLDIFAGCGGLSEGLHQSGAS
STKWAIEYEEPAGNAFKANHPEALVFINNCNVILRAIMEKCGDINECISTAEAAELASKL
DDKDLNSLPLPGQVDFINGGPPCQGFSGMNRFNTSTWSKVQCEMILAFLSFADYFRPRYF
LLENVRNFVSFNKGQTFRLTLASLLEMGYQVRFGILEAGAFGVSQSRKRAFIWAASPEDV
LPEWPEPMHVFSAPELKIRLSENVHYAAVHSTADGAPLRAITVRDTIGELPAVGNGASRT
NMEYQSDPISWFQKKIRGNMAVLTDHISKEMNELNLIRCQKIPKRPGCDWRDLPEEKIKL
SSGQLVDLIPWCLPNTAKRHNQWKGLFGRLDWQGNFPTSITDPQPMGKVGMCFHPDQDRI
LTVRECARSQGFPDHYQFSGNIIHKHRQIGNAVPPPLAFALGRKLKEALDSKSSN
NT seq
4668 nt
NT seq
+upstream
nt +downstream
nt
atgggttccgcttctcttttgaatccctccgattcatctcaaccgggtggtaaggacagc
acgagtaaagaggagcctgttgtttcaaacaccgaagaggaagttatggccggtggtaag
caaaagaagcgaaatttgtcagagagtagtgagcagcctgctcctactagaaaaatgcca
aaacgatctgcgagtgcagccagtaaaaatttgaaggagaagtctttttccatatctgat
aagtcttgtcttgttgaaacaaagaaggatcaggttgcagaagaagaacttctagctgtc
cgtatgactgctggaccagaggaaggccgtgcaaatagaagacttacagactttatcctt
catgatgaaagtggtgcagcacaggcacttgagatgcttgaaattaaggatttattcatc
actggacttatattgccactagaaggaaatgctgacaagaaaaaagagcaaggtgttaga
tgtcaaggttttggtcgaattgaatcatgggatatatctggatatgaagatggctctcca
gtaatatggatttctactgaaattgctgactatgattgccagaaaccagctggtacctac
aaaaaatactatgatcttttctttgaaaaagctcgtgcttgcttggaagtatacaaaaag
cttgcaaagtcttctgggggagatcctgacataagtcttgatgagttacttgctggaatg
gcacggtcaatgagtggtagtaagcacttttctggaactgcggcaataaaagagttcatc
atttctcagggcgattttatttataagcagctcattggtttagacatgatgttgaaggca
aatgacaaggggtttgaagatattcctgctttgattgctcttagagatgagagcaagaaa
caagcacactttgcaaacacacaagtgaggccatcgaatgcaactttaaggattggttcg
ggagttgctgatgaagagaaaaataatcagatggattctgtagtagatgcagaggacgag
gatgcaaagttagctcgactattgcaggatgaagagaattggaaatctaataggcagagg
aaaaaccctcgatcatcatcttcatctaacaaattctatatcaaaattaatgaagacgag
attgcaaatgattatcctctccctgcttattataaaacttctcttcaagaaacagatgaa
tttatagtttttgataatgactctgacatatatgacactgaagatcttcctagaagcatg
ttgcataattgggctttatacaactctgattctagattgatttcgttggaacttcttcca
atgaaaccttgttcagagatggatgttacaatatttggatcaggtataatgacttcagat
gatggaagtgggttcaatcttgatacagaggctggccaatcctccattgcttctggagcg
caggacactgatggtattccaatttatctgagtgcaataaaagagtggatgattgaattt
ggatcgtctatggttttcatatccatccggacagatttggcctggtatagacttggcaaa
ccatcaaagcagtacactccttggtatgacacagtattgaaaactgcaagaattggtata
agcattatcacgttgttgaaggagcagagccgtgtatcacggctttcatttccagatgtt
atcaaaaaagtatctgaatatactcaggacaataagtcatatatttcttctgatccattg
gctgtagaaagatatattgttgtccatggacagataattctgcaactgtttgcagaattt
ccagatgacaagatcaggaagtctccttttgtgaccggtcttatgaacaaaatggaagaa
cggcaccataccaaatggttagtgaagaagaagaagctgttgccaaagagtgagccaaat
ttaaatcctagggcatcaatggctcctgttgtatccaaaaggaaagctatgcaagctaca
acaacaaagctaatcaatagaatatggggagagtattactcaaaccacttacctgaggaa
tcaaaagaaggaactgctagcgaagaaaaggatgatgatgaagcggaggaacaggaagag
aatgaagatgaggatgctgaggaagagacaatactgttggaggaaacactaaagccacat
ttagtttccaaacaaattaaagcaatttctgatgacggagagattacatgggaagggggt
cctgaaaggaagacccgttctggattgcctctttataagcaggcaattattcacggggaa
gttgtttctgtgggaatatctgtgtcggtcgaagttgatgaatcagatgagcttcctgat
atatattacattgaatatatgtttgaatcaaaggacgggagaaagatgtttcatggtagg
gtgttgcaacatggttgtcacactgttcttggcaatgctgcgagtgagagggaggtgttt
ttgactaatgaatgcagggatttgggactgcaagatattaagcagataaatgttgcaaga
atccgaagaacaccttgggggcatcaacatcgaaaggatagtaatgccgcgggtaaaatt
gatagagaaagagccgaagaaaggaagaagaaaggactgcctactgaatattactgtaaa
agcttgtactggcctgagaggggtgctttcttcagtcttccgtttgattcgctgggttta
gggtctggcgtctgccactcttgcaatatacaagaagctgacaaggcgaaggaaattttc
aaagtaaattcgtctaagtctagttttgtattggagggaatagaatattctctcaatgac
tatgtttatgtaagtccttttgaatttgaggaaaagatagagcagggaactcataagagt
gggaggaatgtagggctgaaagcttatgttgtatgccaagtgctcgagatcattgccaaa
aaggaaacaaaacaagctgaaataaaatctacagaactcaaagtcagaagattctttcga
ccggaagatgtatcaagtgagaaagcatactgctctgatgttcaagaggtgtatttcagc
gatgaaacatatatgatatctgttcaatccgtagaaggtaaatgtgaagtcaggaaaaag
attgatatccctgaaggaagtgcccctggagcctttcacaatgtctttttctgtgaactc
ctgtatgatcctgccacaggatcactcaagaagttgccatctcatatcaaagtaaaatat
tctagtggaccgacagctgatgatgcagctagaaagaaaaagggaaaatgtaaagaggga
gatagccttccagtgcctgatctaaaaagtaaaacatcaaatgaaaaccgtttagcaacc
ctggacatttttgcaggatgcggtggcttatcagaggggttgcatcagtctggtgcttca
tcaactaaatgggctattgagtatgaagaaccagctggcaatgcattcaaagctaatcat
cctgaagccttggtgtttattaacaactgtaatgtaattcttagggctataatggagaaa
tgtggtgatataaatgaatgtatctcaacagccgaggctgcagaattggcctctaagctt
gatgataaggatttgaatagtttaccgttacctgggcaagttgatttcattaatgggggg
cctccatgccagggtttctctgggatgaatagatttaacacaagcacttggagtaaagtc
cagtgtgaaatgatattagccttcttatcctttgctgattacttccggccaaggtatttc
ctgttggagaatgtgaggaactttgtgtcttttaataaaggacagactttccgtttaact
ttggcttcactactcgagatgggttatcaggtgaggtttggtatccttgaggccggagct
tttggtgtttctcagtcaagaaaaagggcatttatatgggctgcctctccagaagatgtg
cttcctgagtggccagaaccaatgcatgtcttctctgcccccgagttgaaaatccgattg
tcagaaaatgtccattatgctgccgtccacagtactgcagatggtgccccgttacgtgca
ataactgttcgggataccattggtgaactcccagctgttggcaatggagcctctaggaca
aacatggagtatcaaagcgatcctatctcgtggtttcaaaagaagattcgaggcaatatg
gctgtcttgactgatcatatatcaaaggaaatgaatgagttgaacttgattcgttgtcag
aaaatcccaaagagacctggttgtgattggcgtgatcttcctgaagaaaagataaaactt
tcaagtggtcaacttgttgatttgataccatggtgcttgccaaacacagctaaaaggcat
aatcaatggaaaggactgtttggtaggttggattggcaaggaaatttcccaacttccatc
accgaccctcaaccaatggggaaggttggaatgtgcttccatcctgatcaagatagaatt
cttactgttcgtgaatgtgcccgatctcaaggctttccagaccactatcaattttctggt
aacatcatacacaagcacaggcagattggtaacgccgttcctcctccactggcatttgca
ttaggaaggaagctcaaggaagcattggatagtaagagctccaattag
DBGET
integrated database retrieval system