Burkholderia pseudomallei NAU35A-3: BBU_530
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Entry
BBU_530 CDS
T03476
Name
(GenBank) hypothetical protein
KO
K05874
methyl-accepting chemotaxis protein I, serine sensor receptor
Organism
bpsa
Burkholderia pseudomallei NAU35A-3
Pathway
bpsa02020
Two-component system
bpsa02030
Bacterial chemotaxis
Brite
KEGG Orthology (KO) [BR:
bpsa00001
]
09130 Environmental Information Processing
09132 Signal transduction
02020 Two-component system
BBU_530
09140 Cellular Processes
09142 Cell motility
02030 Bacterial chemotaxis
BBU_530
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
02035 Bacterial motility proteins [BR:
bpsa02035
]
BBU_530
Bacterial motility proteins [BR:
bpsa02035
]
Flagellar system
Chemotaxis proteins
MCPs
BBU_530
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
MCPsignal
TarH
4HB_MCP_1
HAMP
COG6_N
Motif
Other DBs
NCBI-ProteinID:
AIS88110
LinkDB
All DBs
Position
1:complement(654957..656837)
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AA seq
626 aa
AA seq
DB search
MLLKNITIRARLAVTMALLSVLLCAVGALGLFGMSRANDANEQTSSNQLPSAIDVASAEL
FAARERLVLDRAALLAGTPDVAPTIERARQMRGVSDSWWKKYLDLPRDAQEDRLAQDLAS
KRQILQRELDAAAALINANDRDRILESAKRMQNVFNDFSLASEALRAFQLKQASVNFSDA
QSVYAASRLASIAALALGLALSLYCFLSLRAAIARPLADALGHFDAIAAGELRRPIVVER
RDEMGLLLEGLAKMQASLAGTVRAVRVGSESIATAARQIAAGNIDLSSRTEEQAAALEQT
ASSMEELTGTVRRNADNARQASALAASASEIANKGNAVVGQVVGTMGDINQSSAKIADII
TIIEGIAFQTNILALNAAVEAARAGEEGRGFAVVAGEVRSLAQRSSTAAKEIKELIDTSV
ERVRTGSMLVDDAGRTMSEVIGAVRRVTDIMGEIAAASDEQSTGIDQVSRAVSQMDEVTQ
QNAALVEQAAAAAQSLDEQAARLRATVSVFHVDDGDARDVASRPPARPGAGAVHRAAGAA
APAQAGASSGAHAAPAAHAARKPAPSTALAKAAPVASVASAASVTPAASAPTLAAAAAKP
KPAPAAPRAGSVTAASAASDDDWETF
NT seq
1881 nt
NT seq
+upstream
nt +downstream
nt
atgctgctgaagaacatcacgatcagagcgcgcctcgccgtcacgatggcgctcctttcc
gtcctgctgtgcgccgtcggtgcgctcggcctcttcggcatgagccgggccaacgacgcg
aacgagcaaacgtcgtcgaatcaactgccgagcgcgatcgacgtggcgagcgcggagttg
ttcgccgcccgagagcgcctcgtgctcgatcgcgcggcgctcctcgcgggcacgccggac
gtcgcgccgacgatcgagcgcgcgcgccagatgcgcggagtctccgattcgtggtggaaa
aaatacctcgacctgccgcgcgacgcgcaggaggaccgcctcgcgcaggacctcgcgtcg
aaacggcagattctgcagcgtgagctcgacgcggccgccgcgttgatcaacgcgaacgat
cgcgacagaatcctcgaatccgccaagcggatgcagaacgtattcaacgatttctcgctg
gcgagcgaggcgctgcgcgcgtttcagctcaagcaggcgagcgtcaacttcagcgatgcg
caaagcgtatacgcggcgagccggctcgccagcatcgccgcgctcgcgctcggcctcgcg
ctctcgctgtactgcttcctgagcctgcgcgcggcgatcgcccggccgctcgccgacgcg
ctcggtcatttcgacgcgatcgccgcgggcgagctgcgccgcccgatcgtcgtcgaacgg
cgcgacgagatgggcctgctgctcgaagggctcgcgaagatgcaggcaagcctcgcgggc
accgtgcgcgcggtgcgcgtcggcagcgaatcgatcgcgacggcggcccggcagatcgcg
gcgggcaacatcgatctgtcctcgcgcaccgaggagcaggcggcggcgctcgaacagacg
gcgtcgagcatggaggaactgacgggcacggtgcggcgcaacgcggataacgcgcggcag
gcgagcgcgctcgcggcgagcgcgtcggagatcgcgaacaagggcaacgcggtggtcggc
caggtggtcggcacgatgggcgacatcaaccagagctccgcgaagatcgccgacatcatc
acgatcatcgagggaatcgcgttccagaccaacatcctcgcgctgaacgcggcggtcgag
gcggcgcgcgcgggcgaggaagggcgcggcttcgcggtcgtcgcgggcgaggtgcgcagc
ctcgcgcagcgttcgtcgacggccgccaaggagatcaaggagctgatcgacacgtcggtc
gagcgcgtgcgcacgggctccatgctcgtcgacgacgcgggacgcacgatgagcgaggtg
atcggcgcggtgcggcgcgtgaccgacatcatgggcgagatcgcggcggcctcggacgag
cagagcaccggcatcgaccaggtgtcgcgcgccgtatcgcagatggacgaggtcacgcag
cagaacgcggcgctcgtcgagcaggccgcggcggccgcgcaatcgctcgacgagcaggcc
gcgcggctgcgcgcgaccgtttcggtgttccatgtcgatgacggcgatgcgcgcgatgtc
gcctcgcgcccgccggcccggccgggggccggcgccgtgcaccgggcggcgggcgcggcc
gcgccggcgcaggccggcgcgtcttcgggcgcgcacgccgcgccggcggcgcatgcggcg
cgcaagcccgcgccgtccactgcgctcgcgaaagccgcgcctgttgcgtccgttgcatcc
gctgcatccgttacgcccgctgcgtctgcgccgacgcttgccgcggcagcggcgaaaccc
aaacccgcgcccgccgcgccgcgcgccgggtcggttactgcggcgtccgccgcgagcgac
gacgattgggagaccttctaa
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