Involvement of the efflux pumps in chloramphenicol selected strains of Burkholderia thailandensis: proteomic and mechanistic evidenceBurkholderia thailandensis as a model system for the study of the virulence-associated type III secretion system of Burkholderia pseudomalleiPneumonia and septicemia caused by Burkholderia thailandensis in the United StatesPCR-based Methodologies Used to Detect and Differentiate the Burkholderia pseudomallei complex: B. pseudomallei, B. mallei, and B. thailandensisCrystal structure of a PduO-type ATP:cobalamin adenosyltransferase from Burkholderia thailandensisStructures of Burkholderia thailandensis nucleoside kinase: implications for the catalytic mechanism and nucleoside selectivityStructure and in silico substrate-binding mode of ADP-L-glycero-D-manno-heptose 6-epimerase from Burkholderia thailandensisDifferences in genomic macrorestriction patterns of arabinose-positive (Burkholderia thailandensis) and arabinose-negative Burkholderia pseudomalleiVirulent Burkholderia pseudomallei is more efficient than avirulent Burkholderia thailandensis in invasion of and adherence to cultured human epithelial cellsDifferential susceptibility of inbred mouse strains to Burkholderia thailandensis aerosol infectionBurkholderia thailandensis sp. nov., a Burkholderia pseudomallei-like speciesDifferential expression of small RNAs from Burkholderia thailandensis in response to varying environmental and stress conditionsFunctional reconstitution, gene isolation and topology modelling of porins from Burkholderia pseudomallei and Burkholderia thailandensisBurkholderia uboniae sp. nov., L-arabinose-assimilating but different from Burkholderia thailandensis and Burkholderia vietnamiensis.Competition between Burkholderia pseudomallei and B. thailandensis.Characterization of exogenous bacterial oligosaccharyltransferases in Escherichia coli reveals the potential for O-linked protein glycosylation in Vibrio cholerae and Burkholderia thailandensis.Influence of the molybdenum cofactor biosynthesis on anaerobic respiration, biofilm formation and motility in Burkholderia thailandensis.Burkholderia humptydooensis sp. nov., a new species related to Burkholderia thailandensis and the fifth member of the pseudomallei complexCloning and analysis of genomic differences unique to Burkholderia pseudomallei by comparison with B. thailandensis.Expression and refolding of Omp38 from Burkholderia pseudomallei and Burkholderia thailandensis, and its function as a diffusion porin.Genomic patterns of pathogen evolution revealed by comparison of Burkholderia pseudomallei, the causative agent of melioidosis, to avirulent Burkholderia thailandensis.Comparative proteomic profiles and the potential markers between Burkholderia pseudomallei and Burkholderia thailandensis.Recovery of a Burkholderia thailandensis-like isolate from an Australian water source.Differential intracellular fate of Burkholderia pseudomallei 844 and Burkholderia thailandensis UE5 in human monocyte-derived dendritic cells and macrophages.Burkholderia thailandensis harbors two identical rhl gene clusters responsible for the biosynthesis of rhamnolipids.Antimicrobial activities of LL-37 and its truncated variants against Burkholderia thailandensis.Quorum-sensing-regulated bactobolin production by Burkholderia thailandensis E264.PKC-η-MARCKS Signaling Promotes Intracellular Survival of Unopsonized Burkholderia thailandensisLigand-binding pocket bridges DNA-binding and dimerization domains of the urate-responsive MarR homologue MftR from Burkholderia thailandensisAntibodies from patients with melioidosis recognize Burkholderia mallei but not Burkholderia thailandensis antigens in the indirect hemagglutination assayBurkholderia thailandensis whole cell antigen cross-reacts with B. pseudomallei antibodies from patients with melioidosis in an immunofluorescent assay.Actin-based motility of Burkholderia thailandensis requires a central acidic domain of BimA that recruits and activates the cellular Arp2/3 complex.A new route to dTDP-6-deoxy-l-talose and dTDP-L-rhamnose: dTDP-L-rhamnose 4-epimerase in Burkholderia thailandensis.Quorum quenching: enzymatic disruption of N-acylhomoserine lactone-mediated bacterial communication in Burkholderia thailandensis.The Madagascar hissing cockroach as a novel surrogate host for Burkholderia pseudomallei, B. mallei and B. thailandensis.Burkholderia thailandensis is virulent in Drosophila melanogaster.In vitro activity of tigecycline against Burkholderia pseudomallei and Burkholderia thailandensis.Burkholderia thailandensis oacA mutants facilitate the expression of Burkholderia mallei-like O polysaccharides.Cross-species comparison of the Burkholderia pseudomallei, Burkholderia thailandensis, and Burkholderia mallei quorum-sensing regulons.Sequence-defined transposon mutant library of Burkholderia thailandensis
P921
Q21089981-CB998205-DDE1-451B-AF70-BB999E172952Q24648006-A859FF50-1522-4D7A-BBB8-0A8AED2DCF97Q24672787-E820CFC2-9FCE-4FA2-9C8B-F09C8031B295Q27028120-4483326B-51C9-46E9-BDD3-73B92D3D6D9EQ27650583-B85FE86D-2655-4B2A-BE61-56A547F503FBQ27675668-508CED25-2DA8-44E8-9B05-60EE07A5B2CFQ27684257-84CF9898-FC6B-46F7-8B41-3A220AD13D0CQ28145999-D3C56F7C-C103-4040-8449-AE710C3CB2B2Q28252660-3127AFBD-FCA6-40E7-8399-D2F249B8E16CQ28262367-23EBBB99-D931-42B6-B3C1-C138EE12448FQ28267499-9F874654-D35D-4A52-8CA3-3B3504581A0CQ28659211-F8E5A001-C696-45DE-A884-76799423A46AQ30164448-FF061221-5915-4B98-A176-8BAFCACD62F8Q30596899-9EF1D18C-917B-436B-8F42-474D82A23E88Q30629643-879D08EB-46AC-4ED5-9DF0-C364B4BEA60AQ31049511-8C50BEA3-2CC3-46E6-891E-A05D41B891F5Q31144008-0512B385-ACB5-4379-AA36-EE70FBD227F0Q31149633-A8A175C3-866A-4B6C-B1F5-ABD238DA395BQ31825728-D57E4A09-C431-40D2-8F00-0D9ED4213226Q33206233-364221C3-1E43-48F4-9622-9EDDD9005CEDQ33244722-3026DD37-CC6A-4C30-860E-49E2C467CD3BQ33259876-FABC9859-5603-4D87-9352-6C710CC7AEF2Q33326754-DBC9E9A8-411C-4A6B-A200-E1E8CD2CA963Q33435686-C194DF8F-0DEB-4610-B132-05C126F97678Q33519184-9E7D3768-630B-4797-8AD4-94F520773605Q33649274-2A1A54AA-CB1A-4862-8C49-41B483020363Q33649552-3122E6E9-5A85-4AAF-8847-F8E6017D6B97Q33770513-C80B6EB1-5788-4D5C-A743-8DE6F25D5985Q33910353-B0554E6F-7BC6-4666-9BF8-50BDEA0ECDCBQ34042439-89629E47-FCBB-42E0-93EA-96EE45231596Q34122705-5C31E1CC-0A3B-4BFE-8804-9BB92DCC4158Q34150670-AD5F272A-FBB8-41F9-A094-3314375FBEFFQ34189758-AD226D9C-C077-4B16-9EB7-9AA916F22142Q34355999-32221162-2C1F-4EBD-917C-CAB3A400D1FEQ34379527-1F238272-D45B-4F27-BE2D-976ACCA4DF33Q34499733-D1F79336-028B-420F-B036-4F411D4D7CB0Q34510538-C5040F5E-D293-4498-A0ED-160E6FBD7531Q34529504-49607F36-1338-422B-B1BD-ED2D59C566AEQ34593337-94332048-3F5D-418B-A29E-985FB986FA2FQ35032203-CD207DB9-F9E5-4D8D-8A28-3339FBC3E0CC
P921
description
Art der Gattung Burkholderia
@de
soort uit het geslacht Burkholderia
@nl
specie de bacterie
@ro
specie di batterio
@it
species of bacterium
@en
speiceas baictéar
@ga
вид прокариот
@bg
вид прокаріотів
@uk
نوع من بدائيات النوى
@ar
name
Burkholderia thailandensis
@ast
Burkholderia thailandensis
@bg
Burkholderia thailandensis
@de
Burkholderia thailandensis
@en
Burkholderia thailandensis
@es
Burkholderia thailandensis
@fr
Burkholderia thailandensis
@ga
Burkholderia thailandensis
@it
Burkholderia thailandensis
@la
Burkholderia thailandensis
@nl
type
label
Burkholderia thailandensis
@ast
Burkholderia thailandensis
@bg
Burkholderia thailandensis
@de
Burkholderia thailandensis
@en
Burkholderia thailandensis
@es
Burkholderia thailandensis
@fr
Burkholderia thailandensis
@ga
Burkholderia thailandensis
@it
Burkholderia thailandensis
@la
Burkholderia thailandensis
@nl
prefLabel
Burkholderia thailandensis
@ast
Burkholderia thailandensis
@bg
Burkholderia thailandensis
@de
Burkholderia thailandensis
@en
Burkholderia thailandensis
@es
Burkholderia thailandensis
@fr
Burkholderia thailandensis
@ga
Burkholderia thailandensis
@it
Burkholderia thailandensis
@la
Burkholderia thailandensis
@nl
P6366
P685
P105
P171
P1991
P225
Burkholderia thailandensis
P31
P5055
P6366
2779903982