Acinetobacter guillouiae: AS4_40740
Help
Entry
AS4_40740 CDS
T06251
Symbol
ompR
Name
(GenBank) two-component response regulator OmpR
KO
K07659
two-component system, OmpR family, phosphate regulon response regulator OmpR
Organism
agu
Acinetobacter guillouiae
Pathway
agu02020
Two-component system
Brite
KEGG Orthology (KO) [BR:
agu00001
]
09130 Environmental Information Processing
09132 Signal transduction
02020 Two-component system
AS4_40740 (ompR)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
02022 Two-component system [BR:
agu02022
]
AS4_40740 (ompR)
Two-component system [BR:
agu02022
]
OmpR family
EnvZ-OmpR (osmotic stress response)
AS4_40740 (ompR)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Response_reg
Trans_reg_C
GlnR_1st
Motif
Other DBs
NCBI-ProteinID:
BAP39014
LinkDB
All DBs
Position
4336041..4336805
Genome browser
AA seq
254 aa
AA seq
DB search
MSLVVPAENTDIVHNETDRVERILVVDDDVRLRTLLQRFLEDKGFVVKTAHDATQMDRLL
QRELFSLIVLDFMLPVEDGLSICRRLRSSNIDTPVIMLTARGSDSDRIAGLEAGADDYLP
KPFNPNELLARIRAVLRRQVREVPGAPSQNVEVVSFGPWSLDLSTRTLTREGQVVTLTTG
EFAVLKALVQHPREPLTRDKLMNLARGREWGAMERSIDVQVSRLRRLIEENPARARYIQT
VWGVGYVFVPDGAE
NT seq
765 nt
NT seq
+upstream
nt +downstream
nt
atgagtttggttgtacctgctgaaaatacagatatcgtacataacgaaactgaccgcgtc
gaacgcattttagtggtcgatgatgatgtgcgtttacgtacccttttacagcgtttcctt
gaagataaaggctttgtggtaaaaacagcccacgacgcaacgcagatggatcgcctatta
caacgtgagttattttcactcatcgttttagactttatgcttcctgtagaagatggttta
agtatttgtagacgtttacgctcatcaaatatagatacacctgtcattatgctgaccgca
cgaggcagtgactctgaccgtattgctggcttagaagctggtgcggatgattatttgcca
aaaccatttaatccaaatgagttattagcacgtatccgtgccgtactgcgtcgtcaggtt
cgtgaagttccaggtgcaccaagtcaaaacgtagaagttgtgtctttcggcccttggtct
ttagatttatcaacacgtaccctgacgcgtgaagggcaagtggtcacattaaccacaggt
gagtttgcggtcttgaaggcattagttcagcatccacgtgaaccattaacacgtgacaag
ctgatgaatcttgcacgtggtcgtgaatggggtgctatggaacgttcaatcgatgttcaa
gtttctcgcttacgtcgtctgattgaagaaaaccctgcacgtgcacgttatattcaaaca
gtttggggcgtaggttatgtgttcgttccagatggtgcggaataa
DBGET
integrated database retrieval system