Burkholderia pseudomallei NAU35A-3: BBU_530 Help 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 OrthologParalogGene clusterGFIT Motif Pfam:  MCPsignal TarH 4HB_MCP_1 HAMP COG6_N Motif Other DBs NCBI-ProteinID:  AIS88110 LinkDB All DBs Position 1:complement(654957..656837) Genome browser AA seq 626 aa AA seqDB search MLLKNITIRARLAVTMALLSVLLCAVGALGLFGMSRANDANEQTSSNQLPSAIDVASAEL FAARERLVLDRAALLAGTPDVAPTIERARQMRGVSDSWWKKYLDLPRDAQEDRLAQDLAS KRQILQRELDAAAALINANDRDRILESAKRMQNVFNDFSLASEALRAFQLKQASVNFSDA QSVYAASRLASIAALALGLALSLYCFLSLRAAIARPLADALGHFDAIAAGELRRPIVVER RDEMGLLLEGLAKMQASLAGTVRAVRVGSESIATAARQIAAGNIDLSSRTEEQAAALEQT ASSMEELTGTVRRNADNARQASALAASASEIANKGNAVVGQVVGTMGDINQSSAKIADII TIIEGIAFQTNILALNAAVEAARAGEEGRGFAVVAGEVRSLAQRSSTAAKEIKELIDTSV ERVRTGSMLVDDAGRTMSEVIGAVRRVTDIMGEIAAASDEQSTGIDQVSRAVSQMDEVTQ QNAALVEQAAAAAQSLDEQAARLRATVSVFHVDDGDARDVASRPPARPGAGAVHRAAGAA APAQAGASSGAHAAPAAHAARKPAPSTALAKAAPVASVASAASVTPAASAPTLAAAAAKP KPAPAAPRAGSVTAASAASDDDWETF NT seq 1881 nt NT seq  +upstreamnt  +downstreamnt 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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