SecReT6
SecReT6 contains data from 824 references related to type VI secretion systems (T6SSs). Last Update: March 21st, 2015

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Number of references found for the 'regulation' category : 308

References
(1) Blokesch M (2015) Competence-induced type VI secretion might foster intestinal colonization by Vibrio cholerae: Intestinal interbacterial killing by competence-induced V. cholera. Bioessays. doi: 10.1002/bies.201500101. [PMID:26445388]
(2) Watve SS et al (2015) CytR Is a Global Positive Regulator of Competence, Type VI Secretion, and Chitinases in Vibrio cholerae. PLoS One. 10(9):e0138834. [PMID:26401962]
(3) Cui Z et al (2015) Gene Expression of Type VI Secretion System Associated with Environmental Survival in Acidovorax avenae subsp. avenae by Principle Component Analysis. Int J Mol Sci. 16(9):22008-26. [PMID:26378528]
(4) Aubert DF et al (2015) Quantification of Type VI secretion system activity in macrophages infected with Burkholderia cenocepacia. Microbiology. doi: 10.1099/mic.0.000174. [PMID:26364149]
(5) Gao R et al (2015) Genome-wide RNA sequencing analysis of quorum sensing-controlled regulons in the plant-associated Burkholderia glumae strain PG1. Appl Environ Microbiol. pii: AEM.01043-15. [PMID:26362987]
(6) Bachmann V et al (2015) Bile Salts Modulate the Mucin-Activated Type VI Secretion System of Pandemic Vibrio cholerae. PLoS Negl Trop Dis. 9(8):e0004031. [PMID:26317760]
(7) Trampari E et al (2015) Bacterial Rotary Export ATPases Are Allosterically Regulated by the Nucleotide Second Messenger Cyclic-di-GMP. J Biol Chem. 290(40):24470-83. [PMID:26265469]
(8) Nelson MS et al (2015) Secretion systems and signal exchange between nitrogen-fixing rhizobia and legumes. Front Plant Sci. 6:491. [PMID:26191069]
(9) Weber BS et al (2015) A multidrug resistance plasmid contains the molecular switch for type VI secretion in Acinetobacter baumannii. Proc Natl Acad Sci U S A. 112(30):9442-7. [PMID:26170289]
(10) Liu L et al (2015) Pseudomonas fluorescens: identification of Fur-regulated proteins and evaluation of their contribution to pathogenesis. Dis Aquat Organ. 115(1):67-80. [PMID:26119301]
(11) Hammond JH et al (2015) Links between Anr and Quorum Sensing in Pseudomonas aeruginosa Biofilms. J Bacteriol. 197(17):2810-20. [PMID:26078448]
(12) Sabag-Daigle A et al (2015) Identification of sdiA-regulated genes in a mouse commensal strain of Enterobacter cloacae. Front Cell Infect Microbiol. 5:47. [PMID:26075189]
(13) Cheng AT et al (2015) Vibrio cholerae Response Regulator VxrB Controls Colonization and Regulates the Type VI Secretion System. PLoS Pathog. 11(5):e1004933. [PMID:26000450]
(14) Diniz JA et al (2015) Intra-species Competition in Serratia marcescens is Mediated by Type VI Secretion Rhs Effectors and a Conserved Effector-Associated Accessory Protein. J Bacteriol. pii: JB.00199-15. [PMID:25939831]
(15) Brunet YR et al (2015) H-NS silencing of the SPI-6-encoded Type VI secretion system limits Salmonella enterica serovar Typhimurium interbacterial killing. Infect Immun. pii: IAI.00198-15. [PMID:25916986]
(16) Kernell Burke A et al (2015) OpaR Controls a Network of Downstream Transcription Factors in Vibrio parahaemolyticus BB22OP. PLoS One. 10(4):e0121863. [PMID:25901572]
(17) Almblad H et al (2015) The cAMP-Vfr signaling pathway in Pseudomonas aeruginosa is inhibited by c-di-GMP. J Bacteriol. pii: JB.00193-15. [PMID:25897033]
(18) Sun S et al (2015) Quorum sensing-regulated chitin metabolism provides grazing resistance to Vibrio cholerae biofilms. ISME J. doi: 10.1038/ismej.2014.265. [PMID:25615438]
(19) Avican K et al (2015) Reprogramming of Yersinia from virulent to persistent mode revealed by complex in vivo RNA-seq analysis. PLoS Pathog. 11(1):e1004600. [PMID:25590628]
(20) Song C et al (2014) The Rsm regulon of plant growth-promoting Pseudomonas fluorescens SS101: role of small RNAs in regulation of lipopeptide biosynthesis. Microb Biotechnol. 8(2):296-310. [PMID:25488342]
(21) Gueguen E et al (2014) Transcriptional Frameshifting Rescues Citrobacter rodentium Type VI Secretion by the Production of Two Length Variants from the Prematurely Interrupted tssM Gene. PLoS Genet. 10(12):e1004869. [PMID:25474156]
(22) Yang W et al (2014) An invasive and low virulent Edwardsiella tarda esrB mutant promising as live attenuated vaccine in aquaculture. Appl Microbiol Biotechnol. 99(4):1765-77. [PMID:25431010]
(23) Wang S et al (2014) DotU expression is highly induced during in vivo infection and responsible for virulence and Hcp1 secretion in avian pathogenic Escherichia coli. Front Microbiol. 5:588. [PMID:25426107]
(24) Livny J et al (2014) Comparative RNA-Seq based dissection of the regulatory networks and environmental stimuli underlying Vibrio parahaemolyticus gene expression during infection. Nucleic Acids Res. 42(19):12212-23. [PMID:25262354]
(25) Moscoso JA et al (2014) The Diguanylate Cyclase SadC Is a Central Player in Gac/Rsm-Mediated Biofilm Formation in Pseudomonas aeruginosa . J Bacteriol. 196(23):4081-8. [PMID:25225264]
(26) Jitprasutwit S et al (2014) Transcriptional profiles of Burkholderia pseudomallei reveal the direct and indirect roles of Sigma E under oxidative stress conditions. BMC Genomics. 15(1):787. [PMID:25214426]
(27) Zhang J et al (2014) A new target for the old regulator: H-NS suppress T6SS secretory protein EvpP, the major virulence factor in the fish pathogen Edwardsiella tarda. Lett Appl Microbiol. 59(5):557-564. [PMID:25131176]
(28) Chirakul S et al (2014) Characterization of BPSS1521 (bprD), a Regulator of Burkholderia pseudomallei Virulence Gene Expression in the Mouse Model. PLoS One. 9(8):e104313. [PMID:25111708]
(29) Bielecki P et al (2014) In Vivo mRNA Profiling of Uropathogenic Escherichia coli from Diverse Phylogroups Reveals Common and Group-Specific Gene Expression Profiles. MBio. 5(4). [PMID:25096872]
(30) Chen Y et al (2014) Characterization and analysis of the Burkholderia pseudomallei BsaN virulence regulon. BMC Microbiol. 14(1):206. [PMID:25085508]
(31) Li B et al (2014) Transcriptome analysis of Acidovorax avenae subsp. avenae cultivated in vivo and co-culture with Burkholderia seminalis. Sci Rep. 4:5698. [PMID:25027476]
(32) Salomon D et al (2014) H-NS regulates the Vibrio parahaemolyticus type VI secretion system 1. Microbiology. 160(Pt 9):1867-73. [PMID:24987102]
(33) Heckel BC et al (2014) Agrobacterium tumefaciens ExoR Controls Acid Response Genes and Impacts Exopolysaccharide Synthesis, Horizontal Gene Transfer and Virulence Gene Expression. J Bacteriol. 196(18):3221-33. [PMID:24982308]
(34) Duca D et al (2014) Characterization of a nitrilase and a nitrile hydratase from Pseudomonas sp. UW4 that converts indole-3-acetonitrile to produce indole-3-acetic acid. Appl Environ Microbiol. 80(15):4640-9. [PMID:24837382]
(35) Sun K et al (2014) Screening for inhibition of the Vibrio cholerae VipA-VipB interaction identifies small molecule compounds active against type VI secretion. Antimicrob Agents Chemother. 58(7):4123-4130. [PMID:24798289]
(36) Grim CJ et al (2014) Functional Genomic Characterization of Virulence Factors from Necrotizing Fasciitis-Causing Strains of Aeromonas hydrophila. Appl Environ Microbiol. 80(14):4162-83. [PMID:24795370]
(37) Hachani A et al (2014) The VgrG proteins are "A la carte" delivery systems for bacterial type VI effectors. J Biol Chem. 289(25):17872-17884. [PMID:24794869]
(38) Sall KM et al (2014) A gacS Deletion in Pseudomonas aeruginosa Cystic Fibrosis Isolate CHA Shapes Its Virulence. PLoS One. 9(4):e95936. [PMID:24780952]
(39) Pegoraro G et al (2014) A high-content imaging assay for the quantification of the Burkholderia pseudomallei induced multinucleated giant cell (MNGC) phenotype in murine macrophages. BMC Microbiol. 14(1):98. [PMID:24750902]
(40) Bocsanczy AM et al (2014) Proteomic comparison of Ralstonia solanacearum strains reveals temperature dependent virulence factors. BMC Genomics. 15(1):280. [PMID:24725348]
(41) Yang X et al (2014) Molecular mechanism for self-protection against the type VI secretion system in Vibrio cholerae. Acta Crystallogr D Biol Crystallogr. 70(Pt 4):1094-103. [PMID:24699653]
(42) Shao Y et al (2014) Quorum regulatory small RNAs repress type VI secretion in Vibrio cholerae. Mol Microbiol. 92(5):921-30. [PMID:24698180]
(43) Unterweger D et al (2014) The Vibrio cholerae type VI secretion system employs diverse effector modules for intraspecific competition. Nat Commun. 5:3549. [PMID:24686479]
(44) Koskiniemi S et al (2014) Selection of Orphan Rhs Toxin Expression in Evolved Salmonella enterica Serovar Typhimurium. PLoS Genet. 10(3):e1004255. [PMID:24675981]
(45) Peano C et al (2014) Gene and Protein Expression in Response to Different Growth Temperatures and Oxygen Availability in Burkholderia thailandensis. PLoS One. 9(3):e93009. [PMID:24671187]
(46) Castagnola A et al (2014) Common Virulence Factors and Tissue Targets of Entomopathogenic Bacteria for Biological Control of Lepidopteran Pests. Insects. 5(1):139-166. [PMID:24634779]
(47) Lin JS et al (2014) Fha Interaction with Phosphothreonine of TssL Activates Type VI Secretion in Agrobacterium tumefaciens. PLoS Pathog. 10(3):e1003991. [PMID:24626341]
(48) Nguyen J et al (2014) Lipidation of the FPI Protein IglE contributes to Francisella tularensis subsp. novicida Intramacrophage Replication and Virulence. Pathog Dis. 72(1):10-8. [PMID:24616435]
(49) Aragon IM et al (2014) New insights into the role of indole-3-acetic acid in the virulence of Pseudomonas savastanoi pv. savastanoi. FEMS Microbiol Lett. 356(2):184-92. [PMID:24606017]
(50) Jones CJ et al (2014) ChIP-Seq and RNA-Seq Reveal an AmrZ-Mediated Mechanism for Cyclic di-GMP Synthesis and Biofilm Development by Pseudomonas aeruginosa. PLoS Pathog. 10(3):e1003984. [PMID:24603766]
(51) Hopf V et al (2014) BPSS1504, a cluster 1 type VI secretion gene, is involved in intracellular survival and virulence of Burkholderia pseudomallei. Infect Immun. 82(5):2006-15. [PMID:24595140]
(52) Uda A et al (2014) Role of Pathogenicity Determinant Protein C (PdpC) in Determining the Virulence of the Francisella tularensis Subspecies tularensis SCHU. PLoS One. 9(2):e89075. [PMID:24558472]
(53) Steinert M (2014) Pathogen intelligence. Front Cell Infect Microbiol. 4:8. [PMID:24551600]
(54) Decoin V et al (2014) A Type VI Secretion System Is Involved in Pseudomonas fluorescens Bacterial Competition. PLoS One. 9(2):e89411. [PMID:24551247]
(55) Fredlund J et al (2014) Cytoplasmic access by intracellular bacterial pathogens. Trends Microbiol. 22(3):128-137. [PMID:24530174]
(56) Moule MG et al (2014) Genome-wide saturation mutagenesis of Burkholderia pseudomallei K96243 predicts essential genes and novel targets for antimicrobial development. MBio. 5(1):e00926-13. [PMID:24520057]
(57) Sarkar A et al (2014) Transcriptional Profiling of Nitrogen Fixation and the Role of NifA in the Diazotrophic Endophyte Azoarcus sp. Strain BH72. PLoS One. 9(2):e86527. [PMID:24516534]
(58) Bishop AH et al (2014) Identification of Genes Required for Soil Survival in Burkholderia thailandensis by Transposon-Directed Insertion Site Sequencing. Curr Microbiol. 68(6):693-701. [PMID:24488501]
(59) Whitaker WB et al (2014) Loss of Sigma Factor RpoN Increases Intestinal Colonization of Vibrio parahaemolyticus in an Adult Mouse Model. Infect Immun. 82(2):544-56. [PMID:24478070]
(60) Broberg M et al (2014) The global response regulator ExpA controls virulence gene expression through RsmA-mediated and RsmA-independent pathways in Pectobacterium wasabiae SCC3193. Appl Environ Microbiol. 80(6):1972-84. [PMID:24441162]
(61) Toesca IJ et al (2014) The Type VI Secretion System Spike Protein VgrG5 Mediates Membrane Fusion during Intercellular Spread by Pseudomallei Group Burkholderia Species. Infect Immun. 82(4):1436-44. [PMID:24421040]
(62) Pezoa D et al (2014) Only one of the two type VI secretion systems encoded in the Salmonella enterica serotype Dublin genome is involved in colonization of the avian and murine hosts. Vet Res. 45(1):2. [PMID:24405577]
(63) Russell AB et al (2014) Type VI secretion system effectors: poisons with a purpose. Nat Rev Microbiol. 12(2):137-48. [PMID:24384601]
(64) Filloux A (2013) The rise of the Type VI secretion system. F1000Prime Rep. 5:52. [PMID:24381728]
(65) Miyata ST et al (2013) Dual Expression Profile of Type VI Secretion System Immunity Genes Protects Pandemic Vibrio cholerae. PLoS Pathog. 9(12):e1003752. [PMID:24348240]
(66) Fu Y et al (2013) Tn-Seq Analysis of Vibrio cholerae Intestinal Colonization Reveals a Role for T6SS-Mediated Antibacterial Activity in the Host. Cell Host Microbe. 14(6):652-63. [PMID:24331463]
(67) Jones C et al (2013) An rhs-encoding gene linked to the second type VI secretion cluster is a feature of the Pseudomonas aeruginosa strain PA14. J Bacteriol. 196(4):800-10. [PMID:24317402]
(68) Jones C et al (2013) Subinhibitory Concentration of Kanamycin Induces the Pseudomonas aeruginosa type VI Secretion System. PLoS One. 8(11):e81132. [PMID:24260549]
(69) Sana TG et al (2013) Divergent Control of Two Type VI Secretion Systems by RpoN in Pseudomonas aeruginosa. PLoS One. 8(10):e76030. [PMID:24204589]
(70) Li K et al (2013) SuhB Is a Regulator of Multiple Virulence Genes and Essential for Pathogenesis of Pseudomonas aeruginosa. MBio. 4(6):e00419-13. [PMID:24169572]
(71) Burtnick MN et al (2013) Burkholderia mallei and Burkholderia pseudomallei Cluster 1 Type VI Secretion System Gene Expression Is Negatively Regulated by Iron and Zinc. PLoS One. 8(10):e76767. [PMID:24146925]
(72) Singh AP et al (2013) Evolutionary Analysis of Burkholderia pseudomallei Identifies Putative Novel Virulence Genes, Including a Microbial Regulator of Host Cell Autophagy. J Bacteriol. 195(24):5487-98. [PMID:24097950]
(73) Das C et al (2013) Understanding the sequential activation of Type III and Type VI Secretion Systems in Salmonella typhimurium using Boolean modeling. Gut Pathog. 5(1):28. [PMID:24079299]
(74) Nykyri J et al (2013) Role and Regulation of the Flp/Tad Pilus in the Virulence of Pectobacterium atrosepticum SCRI1043 and Pectobacterium wasabiae SCC3193. PLoS One. 8(9):e73718. [PMID:24040039]
(75) Alteri CJ et al (2013) Multicellular Bacteria Deploy the Type VI Secretion System to Preemptively Strike Neighboring Cells. PLoS Pathog. 9(9):e1003608. [PMID:24039579]
(76) Khodai-Kalaki M et al (2013) Characterization of the AtsR hybrid sensor kinase phosphorelay pathway and identification of its response regulator in Burkholderia cenocepacia. J Biol Chem. 288(42):30473-84. [PMID:24014026]
(77) Marden JN et al (2013) An unusual CsrA family member operates in series with RsmA to amplify posttranscriptional responses in Pseudomonas aeruginosa. Proc Natl Acad Sci U S A. 110(37):15055-60. [PMID:23980177]
(78) Wang L et al (2013) Cell Density- and Quorum Sensing-Dependent Expression of Type VI Secretion System 2 in Vibrio parahaemolyticus. PLoS One. 8(8):e73363. [PMID:23977385]
(79) Robertson GT et al (2013) IglE is an outer membrane-associated lipoprotein essential for intracellular survival and murine virulence of Type A Francisella tularensis. Infect Immun. 81(11):4026-40. [PMID:23959721]
(80) Freeman BC et al (2013) Physiological and transcriptional responses to osmotic stress of two Pseudomonas syringae strains that differ in their epiphytic fitness and osmotolerance. J Bacteriol. 195(20):4742-52. [PMID:23955010]
(81) Zoued A et al (2013) TssK is a trimeric cytoplasmic protein interacting with components of both phage-like and membrane anchoring complexes of the Type VI secretion system. J Biol Chem. 288(38):27031-41. [PMID:23921384]
(82) Wenren LM et al (2013) Two Independent Pathways for Self-Recognition in Proteus mirabilis Are Linked by Type VI-Dependent Export. MBio. 4(4). [PMID:23882014]
(83) Cheng X, et al (2013) The Gac regulon of Pseudomonas fluorescens SBW25. Environ Microbiol Rep. 5(4):608-19. [PMID:23864577]
(84) Lin JS et al (2013) Systematic Dissection of the Agrobacterium Type VI Secretion System Reveals Machinery and Secreted Components for Subcomplex Formation. PLoS One. 8(7):e67647. [PMID:23861778]
(85) Fritsch MJ et al (2013) Proteomic identification of novel secreted anti-bacterial toxins of the Serratia marcescens Type VI secretion system. Mol Cell Proteomics. 12(10):2735-2749. [PMID:23842002]
(86) Sun F et al (2013) Biofilm-associated infections: antibiotic resistance and novel therapeutic strategies. Future Microbiol. 8:877-86. [PMID:23841634]
(87) Gueguen E et al (2013) Expression of a Yersinia pseudotuberculosis Type VI Secretion System Is Responsive to Envelope Stresses through the OmpR Transcriptional Activator. PLoS One. 8(6):e66615. [PMID:23840509]
(88) Novotny LA et al (2013) Structural Stability of Burkholderia cenocepacia Biofilms Is Reliant on eDNA Structure and Presence of a Bacterial Nucleic Acid Binding Protein. PLoS One. 8(6):e67629. [PMID:23799151]
(89) Frangipani E et al (2013) The Gac/Rsm and cyclic-di-GMP signalling networks coordinately regulate iron uptake in Pseudomonas aeruginosa. Environ Microbiol. 16(3):676-88. [PMID:23796404]
(90) Bleumink-Pluym NM et al (2013) Identification of a Functional Type VI Secretion System in Campylobacter jejuni Conferring Capsule Polysaccharide Sensitive Cytotoxicity. PLoS Pathog. 9(5):e1003393. [PMID:23737749]
(91) Alavi P et al (2013) Root-microbe systems: the effect and mode of interaction of Stress Protecting Agent (SPA) Stenotrophomonas rhizophila DSM14405(T.). Front Plant Sci. 4:141. [PMID:23717321]
(92) Wei X et al (2013) Global control of GacA on secondary metabolism, primary metabolism, secretion systems, and motility in the rhizobacterium Pseudomonas aeruginosa M18. J Bacteriol. 195(15):3387-400. [PMID:23708134]
(93) Horton RE et al (2013) Quorum sensing negatively regulates multinucleate cell formation during intracellular growth of Burkholderia pseudomallei in macrophage-like cells. PLoS One. 8(5):e63394. [PMID:23704903]
(94) Braun V et al (2013) Intercellular communication by related bacterial protein toxins: colicins, contact-dependent inhibitors, and proteins exported by the type VI secretion system. FEMS Microbiol Lett. 345(1):13-21. [PMID:23701660]
(95) Pezoa D et al (2013) The Type VI Secretion System Encoded in SPI-6 Plays a Role in Gastrointestinal Colonization and Systemic Spread of Salmonella enterica serovar Typhimurium in the Chicken. PLoS One. 8(5):e63917. [PMID:23691117]
(96) Eijkelkamp BA et al (2013) H-NS Plays a Role in Expression of Acinetobacter baumannii Virulence Features. Infect Immun. 81(7):2574-83. [PMID:23649094]
(97) Broms JE et al (2013) A functional VipA-VipB interaction is required for the type VI secretion system activity of Vibrio cholerae O1 strain A1552. BMC Microbiol. 13(1):96. [PMID:23642157]
(98) Zhang L et al (2013) Identification of genes involved in Pseudomonas aeruginosa biofilm-specific resistance to antibiotics. PLoS One. 8(4):e61625. [PMID:23637868]
(99) Varivarn K et al (2013) Colonization strategies of Pseudomonas fluorescens Pf0-1: activation of soil-specific genes important for diverse and specific environments. BMC Microbiol. 13(1):92. [PMID:23622502]
(100) Salomon D et al (2013) Vibrio parahaemolyticus Type VI Secretion System 1 Is Activated in Marine Conditions to Target Bacteria, and Is Differentially Regulated from System 2. PLoS One. 8(4):e61086. [PMID:23613791]
(101) Wang D et al (2013) Roles of the Gac-Rsm pathway in the regulation of phenazine biosynthesis in Pseudomonas chlororaphis 30-84. Microbiologyopen. 2(3):505-24. [PMID:23606419]
(102) Arvizu-Gomez JL et al (2013) Transcriptional profile of P. syringae pv. phaseolicola NPS3121 at low temperature: physiology of phytopathogenic bacteria. BMC Microbiol. 13:81. [PMID:23587016]
(103) Koskiniemi S et al (2013) Rhs proteins from diverse bacteria mediate intercellular competition. Proc Natl Acad Sci U S A. 110(17):7032-7. [PMID:23572593]
(104) Russell AB et al (2013) Diverse type VI secretion phospholipases are functionally plastic antibacterial effectors. Nature. 496(7446):508-12. [PMID:23552891]
(105) Celli J et al (2013) Mechanisms of Francisella tularensis intracellular pathogenesis. Cold Spring Harb Perspect Med. 3(4):a010314. [PMID:23545572]
(106) Hachani A et al (2013) A Visual Assay to Monitor T6SS-mediated Bacterial Competition. J Vis Exp. (73):e50103. [PMID:23542679]
(107) Coulthurst SJ (2013) The type VI secretion system - a widespread and versatile cell targeting system. Res Microbiol. 164(6):640-54. [PMID:23542428]
(108) Lindgren M et al (2013) Importance of PdpC, IglC, IglI, and IglG for modulation of a host cell death pathway induced by Francisella tularensis LVS. Infect Immun. 81(6):2076-84. [PMID:23529623]
(109) Hockett KL et al (2013) Thermo-Regulation of Genes Mediating Motility and Plant Interactions in Pseudomonas syringae. PLoS One. 8(3):e59850. [PMID:23527276]
(110) Carruthers MD et al (2013) Acinetobacter baumannii Utilizes a Type VI Secretion System for Bacterial Competition. PLoS One. 8(3):e59388. [PMID:23527179]
(111) Chaand M et al (2013) Vibrio cholerae VttR(A) and VttR(B) regulatory influences extend beyond the type 3 secretion system genomic island. J Bacteriol. 195(10):2424-36. [PMID:23524608]
(112) Sha J et al (2013) Evaluation of the roles played by Hcp and VgrG type 6 secretion system effectors in Aeromonas hydrophila SSU pathogenesis. Microbiology. 159(Pt 6):1120-35. [PMID:23519162]
(113) Ciofu O et al (2013) P. aeruginosa in the paranasal sinuses and transplanted lungs have similar adaptive mutations as isolates from chronically infected CF lungs. J Cyst Fibros. 12(6):729-36. [PMID:23478131]
(114) Miyata ST et al (2013) Type VI secretion system regulation as a consequence of evolutionary pressure. J Med Microbiol. 62(Pt 5):663-76. [PMID:23429693]
(115) Afroz A et al (2013) Plant-bacterium interactions analyzed by proteomics. Front Plant Sci. 4:21. [PMID:23424014]
(116) van Delden C et al (2013) Involvement of Fe uptake systems and AmpC beta-lactamase in susceptibility to the siderophore monosulfactam BAL30072 in Pseudomonas aeruginosa. Antimicrob Agents Chemother. 57(5):2095-102. [PMID:23422914]
(117) Basler M et al (2013) Tit-for-Tat: Type VI Secretion System Counterattack during Bacterial Cell-Cell Interactions. Cell. 152(4):884-94. [PMID:23415234]
(118) Hornung C et al (2013) The Janthinobacterium sp. HH01 genome encodes a homologue of the V. cholerae CqsA and L. pneumophila LqsA autoinducer synthases. PLoS One. 8(2):e55045. [PMID:23405110]
(119) Koiv V et al (2013) Lack of RsmA-mediated control results in constant hypervirulence, cell elongation, and hyperflagellation in Pectobacterium wasabiae. PLoS One. 8(1):e54248. [PMID:23372695]
(120) Weber BS et al (2013) Genomic and Functional Analysis of the Type VI Secretion System in Acinetobacter. PLoS One. 8(1):e55142. [PMID:23365692]
(121) Tashiro Y et al (2013) Interspecies Interaction between Pseudomonas aeruginosa and Other Microorganisms. Microbes Environ. 28(1):13-24. [PMID:23363620]
(122) Lindgren M et al (2013) The Francisella tularensis LVS DeltapdpC mutant exhibits a unique phenotype during intracellular infection. BMC Microbiol. 13(1):20. [PMID:23356941]
(123) Erken M et al (2013) The rise of pathogens: predation as a factor driving the evolution of human pathogens in the environment. Microb Ecol. 65(4):860-8. [PMID:23354181]
(124) Brooks TM et al (2013) Lytic Activity of the Vibrio cholerae Type VI Secretion Toxin VgrG-3 is Inhibited by the Antitoxin TsaB. J Biol Chem. 288(11):7618-25. [PMID:23341465]
(125) Johnson CN (2013) Fitness factors in vibrios: a mini-review. Microb Ecol. 65(4):826-51. [PMID:23306394]
(126) Kidarsa TA et al (2013) Genes expressed by the biological control bacterium Pseudomonas protegens Pf-5 on seed surfaces under the control of the global regulators GacA and RpoS . Environ Microbiol. 15(3):716-35. [PMID:23297839]
(127) Brunet YR et al (2013) Imaging Type VI Secretion-Mediated Bacterial Killing. Cell Rep. 3(1):36-41. [PMID:23291094]
(128) Wang L et al (2013) AphA is required for biofilm formation, motility, and virulence in pandemic Vibrio parahaemolyticus. Int J Food Microbiol. 160(3):245-51. [PMID:23290231]
(129) Kapitein N et al (2013) Deadly syringes: type VI secretion system activities in pathogenicity and interbacterial competition. Curr Opin Microbiol. 16(1):52-8. [PMID:23290191]
(130) Kapitein N et al (2013) ClpV recycles VipA/VipB tubules and prevents non-productive tubule formation to ensure efficient type VI protein secretion. Mol Microbiol. 87(5):1013-28. [PMID:23289512]
(131) Long ME et al (2013) Disruption of Francisella tularensis Schu S4 iglI, iglJ, and pdpC genes results in attenuation for growth in human macrophages and in vivo virulence in mice, and reveals a unique phenotype for pdpC. Infect Immun. 81(3):850-61. [PMID:23275090]
(132) McCaig WD et al (2013) Production of Outer Membrane Vesicles and Outer Membrane Tubes by Francisella novicida. J Bacteriol. 195(6):1120-32. [PMID:23264574]
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