Brevibacterium aurantiacum: BLSMQ_3173
Help
Entry
BLSMQ_3173 CDS
T04775
Name
(GenBank) DNA-3-methyladenine glycosylase
KO
K01246
DNA-3-methyladenine glycosylase I [EC:
3.2.2.20
]
Organism
blin
Brevibacterium aurantiacum
Pathway
blin03410
Base excision repair
Brite
KEGG Orthology (KO) [BR:
blin00001
]
09120 Genetic Information Processing
09124 Replication and repair
03410 Base excision repair
BLSMQ_3173
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03400 DNA repair and recombination proteins [BR:
blin03400
]
BLSMQ_3173
Enzymes [BR:
blin01000
]
3. Hydrolases
3.2 Glycosylases
3.2.2 Hydrolysing N-glycosyl compounds
3.2.2.20 DNA-3-methyladenine glycosylase I
BLSMQ_3173
DNA repair and recombination proteins [BR:
blin03400
]
Prokaryotic type
SSBR (single strand breaks repair)
BER (base exicision repair)
DNA glycosylases
BLSMQ_3173
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Adenine_glyco
Motif
Other DBs
NCBI-ProteinID:
AOP54875
UniProt:
A0A1D7W7D1
LinkDB
All DBs
Position
complement(3454314..3454940)
Genome browser
AA seq
208 aa
AA seq
DB search
MTETNAEQGSAVDGAVVGDDGLPRTPWAYGDPLLREYYDTEWGMPVRDESGMFERMSLEG
FQAGLSWLTILKKRERFRKVFKNFDAEVVAEFGEPEIEALLDDAGIIRHRGKIEACIGNA
KATLAMREDGGLGDFIWSFQPETTPRPRTLSEIPTTSPESVALSKALKKKGFRFVGPTTM
YALMEAVGMVDTHVLGSHRRGASGVWND
NT seq
627 nt
NT seq
+upstream
nt +downstream
nt
atgacagagacgaatgctgaacagggcagtgccgttgatggtgcggtggtcggtgatgac
gggctgcctcgaacgccgtgggcctatggtgatccgctgctgcgtgagtactacgacacc
gaatggggcatgcccgtccgtgacgaatccgggatgttcgagcgcatgagcctcgaaggc
ttccaagcagggttgtcatggctgacgatcctgaagaagcgcgaacgcttccgcaaggtc
ttcaaaaacttcgacgccgaggtggttgccgaattcggtgagcccgagatcgaagcgctc
ctcgacgacgctggaatcattcggcatcgcggcaagatcgaagcctgcatcggcaatgcc
aaagcaacactggcgatgcgtgaggacggtggcctcggcgacttcatctggagcttccag
cctgagaccaccccgcgcccccgcacactgagcgagattccgaccacgagtcccgaatcg
gtggcgctgtcgaaagcgctgaagaagaagggattccggttcgtgggaccgaccaccatg
tatgcgctcatggaggcggtcggtatggttgacacgcacgttctcggatcccatcgccga
ggtgcctccggagtgtggaatgactga
DBGET
integrated database retrieval system