Brenneria goodwinii: AWC36_16030
Help
Entry
AWC36_16030 CDS
T05061
Name
(GenBank) trans-aconitate methyltransferase
KO
K00598
trans-aconitate 2-methyltransferase [EC:
2.1.1.144
]
Organism
bgj
Brenneria goodwinii
Brite
KEGG Orthology (KO) [BR:
bgj00001
]
09190 Not Included in Pathway or Brite
09191 Unclassified: metabolism
99980 Enzymes with EC numbers
AWC36_16030
Enzymes [BR:
bgj01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.144 trans-aconitate 2-methyltransferase
AWC36_16030
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Methyltransf_25
Methyltransf_23
Methyltransf_31
Methyltransf_11
Methyltransf_12
MTS
FtsJ
NodS
MetW
Ubie_methyltran
Methyltransf_33
PCMT
Methyltransf_24
Methyltransf_32
Motif
Other DBs
NCBI-ProteinID:
ATA27048
UniProt:
A0A250BLB0
LinkDB
All DBs
Position
3664179..3664955
Genome browser
AA seq
258 aa
AA seq
DB search
MNDWNPPLYLRFENERTRPALELISRIAHPRADKISDLGCGPGNSTALLRQAWPQAQITG
IDTSEAMLAKAREHLPGCHFQRADIAAWRAEARQDIIYANASLQWVRDHERLIPHLVRQL
APDGVLAIQMPDNLDQPSHRLMREVANAQSWRDKLGDTDQVRQRLLTTEQYYDLLTAQGC
DVDIWRTTYYHVMPDAQAIVDWLRATGLRPFLAPLNEEEQSSFLQAYLSQLQLAYPARRD
GRCLLAFPRLFMIAAKQG
NT seq
777 nt
NT seq
+upstream
nt +downstream
nt
atgaacgactggaatcccccactctatctgcgtttcgaaaatgaacgaacccgccccgcc
cttgagctgatatcccgtattgcgcaccctcgggcggacaagatcagcgatctcggctgt
gggcccggcaacagcaccgcgttgttgcgtcaggcctggccgcaggcgcagattaccggt
atcgatacctcggaggccatgctggcaaaagcgcgggaacatttacccggctgccatttc
caacgggcggatatcgccgcctggagagcggaagcgcggcaggacatcatctacgccaat
gcttctctgcagtgggttcgggatcatgagcggctaattccccacctggtacggcagttg
gcgcccgatggcgtactggcgatccagatgcccgataacctcgaccagccaagccatcgt
ttaatgcgtgaggtcgccaatgcgcaaagttggcgcgacaaactgggggatacagaccag
gtccggcagaggctgctcacgaccgagcagtattacgacctgctgacggcgcaaggttgc
gacgtcgatatatggcgcaccacctattaccacgttatgccggatgcccaggcgattgtc
gactggttacgagcaaccgggctacggccgttccttgcgccgttaaatgaagaagagcaa
tcatcattcttgcaggcttatctgtcgcagttgcagctcgcgtacccggcacgtcgggac
ggacggtgtttgctggcgtttccacgcctgtttatgattgccgcaaaacagggataa
DBGET
integrated database retrieval system