SecReT6 contains data from 896 references related to type VI secretion systems (T6SSs). Last Update: March 21st, 2015

Categories (Literatures contain following contents are categorized)
reviews experimental studies bioinformatics genome sequencing T6SS component T6SS effectors
effector translocation structural study regulation other

Number of references found for the 'effector' category : 166

(1) Giuseppina Mariano, Katharina Trunk, David J Williams, Laura Monlezun, Henrik Strahl, Samantha J Pitt, Sarah J Coulthurst (2019) A Family of Type VI Secretion System Effector Proteins That Form Ion-Selective Pores. Nat Commun. 10(1):5484. [PMID:31792213]
(2) Ahmad S, Wang B, Walker MD, Tran HR, Stogios PJ, Savchenko A, Grant RA, McArthur AG, Laub MT, Whitney JC (2019) An interbacterial toxin inhibits target cell growth by synthesizing (p)ppApp. Nature. 575(7784):674-678. [PMID:31695193]
(3) Berni B, Soscia C, Djermoun S, Ize B, Bleves S (2019) A Type VI Secretion System Trans-Kingdom Effector Is Required for the Delivery of a Novel Antibacterial Toxin in Pseudomonas aeruginosa. Front Microbiol. 10:1218. [PMID:31231326]
(4) Tan J, Yang D, Wang Z, Zheng X, Zhang Y, Liu Q (2019) EvpP inhibits neutrophils recruitment via Jnk-caspy inflammasome signaling in vivo. Fish Shellfish Immunol. 92:851-860. [PMID:31129187]
(5) Panayiota Pissaridou, Luke P Allsopp, Sarah Wettstadt, Sophie A Howard, Despoina A I Mavridou, Alain Filloux (2018) The Pseudomonas aeruginosa T6SS-VgrG1b Spike Is Topped by a PAAR Protein Eliciting DNA Damage to Bacterial Competitors. Proc Natl Acad Sci U S A. 115(49):12519-12524. [PMID:30455305]
(6) Ting SY, Bosch DE, Mangiameli SM, Radey MC, Huang S, Park YJ, Kelly KA, Filip SK, Goo YA, Eng JK, Allaire M, Veesler D, Wiggins PA, Peterson SB, Mougous JD (2018) Bifunctional Immunity Proteins Protect Bacteria against FtsZ-Targeting ADP-Ribosylating Toxins. Cell. 175(5):1380-1392.e14. [PMID:30343895]
(7) Ledvina HE, Kelly KA, Eshraghi A, Plemel RL, Peterson SB, Lee B, Steele S, Adler M, Kawula TH, Merz AJ, Skerrett SJ, Celli J, Mougous JD (2018) A Phosphatidylinositol 3-Kinase Effector Alters Phagosomal Maturation to Promote Intracellular Growth of Francisella. Cell Host Microbe. 24(2):285-295.e8. [PMID:30057173]
(8) Katharina Trunk, Julien Peltier, Yi-Chia Liu, Brian D Dill, Louise Walker, Neil A R Gow, Michael J R Stark, Janet Quinn, Henrik Strahl, Matthias Trost, Sarah J Coulthurst (2018) The Type VI Secretion System Deploys Antifungal Effectors Against Microbial Competitors. Nat Microbiol. 3(8):920-931. [PMID:30038307]
(9) Gong Y, Zhang Z, Liu Y, Zhou XW, Anwar MN, Li ZS, Hu W1, Li YZ (2018) A nuclease-toxin and immunity system for kin discrimination in Myxococcus xanthus. Environ Microbiol. 20(7):2552-2567. [PMID:29806725]
(10) Fitzsimons TC, Lewis JM, Wright A, Kleifeld O, Schittenhelm RB, Powell D, Harper M#, Boyce JD (2018) Identification of Novel Acinetobacter baumannii Type VI Secretion System Antibacterial Effector and Immunity Pairs. Infect Immun. 86(8). pii: e00297-18. [PMID:29735524]
(11) Burkinshaw BJ, Liang X, Wong M, Le ANH, Lam L, Dong TG (2018) A type VI secretion system effector delivery mechanism dependent on PAAR and a chaperone-co-chaperone complex. Nat Microbiol. 3(5):632-640. [PMID:29632369]
(12) Ma J, Sun M, Pan Z, Song W, Lu C, Yao H (2018) Three Hcp homologs with divergent extended loop regions exhibit different functions in avian pathogenic Escherichia coli. Emerg Microbes Infect. 7(1):49. [PMID:29593238]
(13) Zepeda-Rivera MA, Saak CC, Gibbs KA (2018) A Proposed Chaperone of the Bacterial Type VI Secretion System Functions To Constrain a Self-Identity Protein. J Bacteriol. 200(14). pii: e00688-17. [PMID:29555703]
(14) Zhang L, Jiang Z, Fang S, Huang Y, Yang D, Wang Q, Zhang Y, Liu Q (2018) Systematic Identification of Intracellular-Translocated Candidate Effectors in Edwardsiella piscicida. Front Cell Infect Microbiol. 8:37. [PMID:29503811]
(15) Troselj V, Treuner-Lange A, Søgaard-Andersen L, Wall D (2018) Physiological Heterogeneity Triggers Sibling Conflict Mediated by the Type VI Secretion System in an Aggregative Multicellular Bacterium. mBio. 9(1). pii: e01645-17. [PMID:29437919]
(16) Tang JY, Bullen NP, Ahmad S, Whitney JC (2018) Diverse NADase effector families mediate interbacterial antagonism via the type VI secretion system. J Biol Chem. 293(5):1504-1514. [PMID:29237732]
(17) Ringel PD, Hu D, Basler M (2017) The Role of Type VI Secretion System Effectors in Target Cell Lysis and Subsequent Horizontal Gene Transfer. Cell Rep. 21(13):3927-3940. [PMID:29281838]
(18) Ho BT, Fu Y, Dong TG, Mekalanos JJ (2017) Vibrio cholerae type 6 secretion system effector trafficking in target bacterial cells. Proc Natl Acad Sci U S A. 114(35):9427-9432. [PMID:28808000]
(19) Lingyu Zhang, George Osei-Adjei, Ying Zhang, He Gao, Wenhui Yang, Dongsheng Zhou, Xinxiang Huang, Huiying Yang, Yiquan Zhang (2017) CalR Is Required for the Expression of T6SS2 and the Adhesion of Vibrio Parahaemolyticus to HeLa Cells. Arch Microbiol. 199(6):931-938. [PMID:28378143]
(20) Lin J, Zhang W, Cheng J, Yang X, Zhu K, Wang Y, Wei G, Qian PY, Luo ZQ, Shen X (2017) A Pseudomonas T6SS effector recruits PQS-containing outer membrane vesicles for iron acquisition. Nat Commun. 28;8:14888. [PMID:28348410]
(21) Wan B, Zhang Q, Ni J, Li S, Wen D, Li J, Xiao H, He P, Ou HY, Tao J, Teng Q, Lu J, Wu W, Yao YF (2017) Type VI secretion system contributes to Enterohemorrhagic Escherichia coli virulence by secreting catalase against host reactive oxygen species (ROS). PLoS Pathog. 13(3):e1006246. [PMID:28288207]
(22) Chen H, Yang D, Han F, Tan J, Zhang L, Xiao J, Zhang Y, Liu Q (2017) The Bacterial T6SS Effector EvpP Prevents NLRP3 Inflammasome Activation by Inhibiting the Ca2+ -Dependent MAPK-Jnk Pathway. Cell Host Microbe. 21(1):47-58. [PMID:28081443]
(23) Ma J, Sun M, Dong W, Pan Z, Lu C, Yao H (2017) PAAR-Rhs proteins harbor various C-terminal toxins to diversify the antibacterial pathways of type VI secretion systems. Environ Microbiol. (1):345-360. [PMID:27871130]
(24) Eshraghi A, Kim J, Walls AC, Ledvina HE, Miller CN, Ramsey KM, Whitney JC, Radey MC, Peterson SB, Ruhland BR, Tran BQ, Goo YA, Goodlett DR, Dove SL, Celli J, Veesler D, Mougous JD (2016) Secreted Effectors Encoded within and outside of the Francisella Pathogenicity Island Promote Intramacrophage Growth. Cell Host Microbe. 20(5):573-583. [PMID:27832588]
(25) Sana TG, Flaugnatti N, Lugo KA, Lam LH, Jacobson A, Baylot V, Durand E, Journet L, Cascales E, Monack DM (2016) Salmonella Typhimurium utilizes a T6SS-mediated antibacterial weapon to establish in the host gut. Proc Natl Acad Sci U S A. 113(34):E5044-51. [PMID:27503894]
(26) Jiang F, Wang X, Wang B, Chen L, Zhao Z, Waterfield NR, Yang G, Jin Q (2016) The Pseudomonas aeruginosa Type VI Secretion PGAP1-like Effector Induces Host Autophagy by Activating Endoplasmic Reticulum Stress. Cell Rep. 16(6):1502-1509. [PMID:27477276]
(27) Francesca R Cianfanelli, Juliana Alcoforado Diniz, Manman Guo, Virginia De Cesare, Matthias Trost, Sarah J Coulthurst (2016) VgrG and PAAR Proteins Define Distinct Versions of a Functional Type VI Secretion System. PLoS Pathog. 12(6):e1005735. [PMID:27352036]
(28) Bondage DD, Lin JS, Ma LS, Kuo CH, Lai EM (2016) VgrG C terminus confers the type VI effector transport specificity and is required for binding with PAAR and adaptor-effector complex. Proc Natl Acad Sci U S A. 113(27):E3931-40. [PMID:27313214]
(29) Daniel F Aubert, Hao Xu, Jieling Yang, Xuyan Shi, Wenqing Gao, Lin Li, Fabiana Bisaro, She Chen, Miguel A Valvano, Feng Shao (2016) A Burkholderia Type VI Effector Deamidates Rho GTPases to Activate the Pyrin Inflammasome and Trigger Inflammation. Cell Host Microbe. 19(5):664-74. [PMID:27133449]
(30) Chatzidaki-Livanis M, Geva-Zatorsky N, Comstock LE (2016) Bacteroides fragilis type VI secretion systems use novel effector and immunity proteins to antagonize human gut Bacteroidales species. Proc Natl Acad Sci U S A. 113(13):3627-32. [PMID:26951680]
(31) Flaugnatti N, Le TT, Canaan S, Aschtgen MS, Nguyen VS, Blangy S, Kellenberger C, Roussel A, Cambillau C, Cascales E, Journet L (2016) A phospholipase A1 antibacterial Type VI secretion effector interacts directly with the C-terminal domain of the VgrG spike protein for delivery. Mol Microbiol. 99(6):1099-118. [PMID:26714038]
(32) Whitney JC, Quentin D, Sawai S, LeRoux M, Harding BN, Ledvina HE, Tran BQ, Robinson H, Goo YA, Goodlett DR, Raunser S, Mougous JD (2015) An interbacterial NAD(P)(+) glycohydrolase toxin requires elongation factor Tu for delivery to target cells. Cell. 163(3):607-19. [PMID:26456113]
(33) Alcoforado Diniz J et al (2015) Molecular weaponry: diverse effectors delivered by the Type VI secretion system. Cell Microbiol. doi: 10.1111/cmi.12532. [PMID:26432982]
(34) Salomon D et al (2015) Type VI Secretion System Toxins Horizontally Shared between Marine Bacteria. PLoS Pathog. 11(8):e1005128. [PMID:26305100]
(35) Unterweger D et al (2015) Chimeric adaptor proteins translocate diverse type VI secretion system effectors in Vibrio cholerae. EMBO J. 34(16):2198-210. [PMID:26194724]
(36) Liang X et al (2015) Identification of divergent type VI secretion effectors using a conserved chaperone domain. Proc Natl Acad Sci U S A. 112(29):9106-11. [PMID:26150500]
(37) Wang T et al (2015) Type VI Secretion System Transports Zn2+ to Combat Multiple Stresses and Host Immunity. PLoS Pathog. 11(7):e1005020. [PMID:26134274]
(38) Wang N et al (2015) Protective efficacy of recombinant hemolysin co-regulated protein (Hcp) of Aeromonas hydrophila in common carp (Cyprinus carpio). Fish Shellfish Immunol. 46(2):297-304. [PMID:26093203]
(39) Ruiz FM et al (2015) Crystal Structure of Hcp from Acinetobacter baumannii: A Component of the Type VI Secretion System. PLoS One. 10(6):e0129691. [PMID:26079269]
(40) Sana TG et al (2015) Internalization of Pseudomonas aeruginosa Strain PAO1 into Epithelial Cells Is Promoted by Interaction of a T6SS Effector with the Microtubule Network. MBio. 6(3):e00712. [PMID:26037124]
(41) 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]
(42) Altindis E et al (2015) Secretome Analysis of Vibrio cholerae Type VI Secretion System Reveals a New Effector-Immunity Pair. MBio. pii: e00075-15. [PMID:25759499]
(43) Ryu CM (2015) Against friend and foe: Type 6 effectors in plant-associated bacteria. J Microbiol. 53(3):201-8. [PMID:25732741]
(44) Lim YT et al (2015) Extended Loop Region of Hcp1 is Critical for the Assembly and Function of Type VI Secretion System in Burkholderia pseudomallei. Sci Rep. 5:8235. [PMID:25648885]
(45) Li J et al (2015) SecReT6: a web-based resource for type VI secretion systems found in bacteria. Environ Microbiol. doi: 10.1111/1462-2920.12794. [PMID:25640659]
(46) Chieng S et al (2015) Transcriptome analysis of Burkholderia pseudomallei T6SS identifies Hcp1 as a potential serodiagnostic marker. Microb Pathog. 79:47-56. [PMID:25616255]
(47) Spencer C et al (2015) Biochemical Characterization of a Pseudomonas aeruginosa Phospholipase D. Biochemistry. 54(5):1208-18. [PMID:25565226]
(48) Borgeaud S et al (2015) Bacterial evolution. The type VI secretion system of Vibrio cholerae fosters horizontal gene transfer. Science. 347(6217):63-7. [PMID:25554784]
(49) Lu D et al (2014) The structural basis of the Tle4-Tli4 complex reveals the self-protection mechanism of H2-T6SS in Pseudomonas aeruginosa. Acta Crystallogr D Biol Crystallogr. 70(Pt 12):3233-43. [PMID:25478841]
(50) Chou S et al (2014) Transferred interbacterial antagonism genes augment eukaryotic innate immune function. Nature. 518(7537):98-101. [PMID:25470067]
(51) Hu W et al (2014) A Disordered Region in the EvpP Protein from the Type VI Secretion System of Edwardsiella tarda is Essential for EvpC Binding. PLoS One. 9(11):e110810. [PMID:25401506]
(52) Egan F et al (2014) Tle Distribution and Diversity in Metagenomic Datasets Reveals Niche Specialisation. Environ Microbiol Rep. 7(2):194-203. [PMID:25345349]
(53) 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]
(54) Hu H et al (2014) Structure of the type VI secretion phospholipase effector Tle1 provides insight into its hydrolysis and membrane targeting. Acta Crystallogr D Biol Crystallogr. 70(Pt 8):2175-2185. [PMID:25084336]
(55) Russell AB et al (2014) A Type VI Secretion-Related Pathway in Bacteroidetes Mediates Interbacterial Antagonism. Cell Host Microbe. 16(2):227-36. [PMID:25070807]
(56) Durand E et al (2014) VgrG, Tae, Tle, and beyond: the versatile arsenal of Type VI secretion effectors. Trends Microbiol. 22(9):498-507. [PMID:25042941]
(57) Kapitein N et al (2014) Type VI Secretion System Helps Find a Niche. Cell Host Microbe. 16(1):5-6. [PMID:25011102]
(58) Ma LS et al (2014) Agrobacterium tumefaciens Deploys a Superfamily of Type VI Secretion DNase Effectors as Weapons for Interbacterial Competition In Planta. Cell Host Microbe. 16(1):94-104. [PMID:24981331]
(59) Salomon D et al (2014) Marker for type VI secretion system effectors. Proc Natl Acad Sci U S A. 111(25):9271-6. [PMID:24927539]
(60) Bleves S et al (2014) The target cell genus does not matter. Trends Microbiol. 22(6):304-6. [PMID:24836109]
(61) Jiang F et al (2014) A Pseudomonas aeruginosa Type VI Secretion Phospholipase D Effector Targets Both Prokaryotic and Eukaryotic Cells. Cell Host Microbe. 15(5):600-10. [PMID:24832454]
(62) 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]
(63) English G et al (2014) Biochemical analysis of TssK, a core component of the bacterial Type VI secretion system, reveals distinct oligomeric states of TssK and identifies a TssK-TssFG sub-complex. Biochem J. 461(2):291-304. [PMID:24779861]
(64) Zhang J et al (2014) Structural basis for recognition of the type VI spike protein VgrG3 by a cognate immunity protein. FEBS Lett. 588(10):1891-8. [PMID:24751834]
(65) Lu D et al (2014) Structural insights into the T6SS effector protein Tse3 and the Tse3-Tsi3 complex from Pseudomonas aeruginosa reveal a calcium-dependent membrane-binding mechanism. Mol Microbiol. 92(5):1092-112. [PMID:24724564]
(66) 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]
(67) 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]
(68) Cava F et al (2014) Peptidoglycan plasticity in bacteria: emerging variability of the murein sacculus and their associated biological functions. Curr Opin Microbiol. 18C:46-53. [PMID:24607990]
(69) Zhang J et al (2014) Crystallization and preliminary X-ray study of TsiV3 from Vibrio cholerae. Acta Crystallogr F Struct Biol Commun. 70(Pt 3):335-8. [PMID:24598921]
(70) 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]
(71) Whitney JC et al (2014) Genetically distinct pathways guide effector export through the type VI secretion system. Mol Microbiol. 92(3):529-42. [PMID:24589350]
(72) Decoin V et al (2014) A Type VI Secretion System Is Involved in Pseudomonas fluorescens Bacterial Competition. PLoS One. 9(2):e89411. [PMID:24551247]
(73) Douzi B et al (2014) Crystal Structure and Self-Interaction of the Type VI Secretion Tail-Tube Protein from Enteroaggregative Escherichia coli. PLoS One. 9(2):e86918. [PMID:24551044]
(74) Castro-Gomes T et al (2014) Identification of secreted virulence factors of Chromobacterium violaceum. J Microbiol. 52(4):350-3. [PMID:24535738]
(75) Brunet YR et al (2014) Type VI secretion and bacteriophage tail tubes share a common assembly pathway. EMBO Rep. 15(3):315-21. [PMID:24488256]
(76) Schwarz S et al (2014) VgrG-5 is a Burkholderia type VI secretion exported protein required for multinucleated giant cell formation and virulence. Infect Immun. 82(4):1445-52. [PMID:24452686]
(77) 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]
(78) Russell AB et al (2014) Type VI secretion system effectors: poisons with a purpose. Nat Rev Microbiol. 12(2):137-48. [PMID:24384601]
(79) 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]
(80) 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]
(81) 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]
(82) Srikannathasan V et al (2013) Structural basis for type VI secreted peptidoglycan DL-endopeptidase function, specificity and neutralization in Serratia marcescens. Acta Crystallogr D Biol Crystallogr. 69(Pt 12):2468-82. [PMID:24311588]
(83) Uchida K et al (2013) Structure and properties of the C-terminal beta-helical domain of VgrG protein from Escherichia coli O157. J Biochem. 155(3):173-82. [PMID:24307403]
(84) Jones C et al (2013) Subinhibitory Concentration of Kanamycin Induces the Pseudomonas aeruginosa type VI Secretion System. PLoS One. 8(11):e81132. [PMID:24260549]
(85) Rosenzweig JA et al (2013) Modulation of host immune defenses by Aeromonas and Yersinia species: convergence on toxins secreted by various secretion systems. Front Cell Infect Microbiol. 3:70. [PMID:24199174]
(86) Wang T et al (2013) Complex structure of type VI peptidoglycan muramidase effector and a cognate immunity protein. Acta Crystallogr D Biol Crystallogr. 69(Pt 10):1889-1900. [PMID:24100309]
(87) 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]
(88) Li L et al (2013) Structural Insights on the Bacteriolytic and Self-protection Mechanism of Muramidase Effector Tse3 in Pseudomonas aeruginosa. J Biol Chem. 288(42):30607-13. [PMID:24025333]
(89) Zhang H et al (2013) Insights into the Cross-Immunity Mechanism within Effector Families of Bacteria Type VI Secretion System from the Structure of StTae4-EcTai4 Complex. PLoS One. 8(9):e73782. [PMID:24023903]
(90) Lu C et al (2013) Hexamers of the type II secretion ATPase GspE from Vibrio cholerae with increased ATPase activity. Structure. 21(9):1707-17. [PMID:23954505]
(91) Silverman JM et al (2013) Haemolysin Coregulated Protein Is an Exported Receptor and Chaperone of Type VI Secretion Substrates. Mol Cell. 51(5):584-93. [PMID:23954347]
(92) 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]
(93) Whitney JC et al (2013) Identification, structure and function of a novel type VI secretion peptidoglycan glycoside hydrolase effector-immunity pair. J Biol Chem. 288(37):26616-24. [PMID:23878199]
(94) 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]
(95) 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]
(96) Benz J et al (2013) Structural Insights into the Effector - Immunity System Tae4/Tai4 from Salmonella typhimurium. PLoS One. 8(6):e67362. [PMID:23826277]
(97) Suanyuk N et al (2013) Mortality and pathology of hybrid catfish, Clarias macrocephalus (Gunther) X Clarias gariepinus (Burchell), associated with Edwardsiella ictaluri infection in southern Thailand. J Fish Dis. 37(4):385-395. [PMID:23763374]
(98) Marchi M et al (2013) Genomic analysis of the biocontrol strain Pseudomonas fluorescens Pf29Arp with evidence of T3SS and T6SS gene expression on plant roots. Environ Microbiol Rep. 5(3):393-403. [PMID:23754720]
(99) 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]
(100) Dong C et al (2013) Structural insights into the inhibition of type VI effector Tae3 by its immunity protein Tai3. Biochem J. 454(1):59-68. [PMID:23730712]
(101) 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]
(102) Lu D et al (2013) Expression, purification and preliminary crystallographic analysis of the T6SS effector protein Tse3 from Pseudomonas aeruginosa. Acta Crystallogr Sect F Struct Biol Cryst Commun. 69(Pt 5):524-7. [PMID:23695568]
(103) Hogan DA et al (2013) Bacterial type 6 secreted phospholipases play family feud. Cell Host Microbe. 13(5):507-8. [PMID:23684302]
(104) 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]
(105) Russell AB et al (2013) Diverse type VI secretion phospholipases are functionally plastic antibacterial effectors. Nature. 496(7446):508-12. [PMID:23552891]
(106) Wang Y et al (2013) Proteomic analysis of a twin-arginine translocation-deficient mutant unravel its functions involved in stress adaptation and virulence in fish pathogen Edwardsiella tarda. FEMS Microbiol Lett. 343(2):145-55. [PMID:23551118]
(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) 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]
(109) Ciprandi A et al (2013) Chromobacterium violaceum: important insights for virulence and biotechnological potential by exoproteomic studies. Curr Microbiol. 67(1):100-6. [PMID:23455494]
(110) 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]
(111) Dong TG et al (2013) Identification of T6SS-dependent effector and immunity proteins by Tn-seq in Vibrio cholerae. Proc Natl Acad Sci U S A . 110(7):2623-8. [PMID:23362380]
(112) Blondel CJ et al (2013) The Type VI Secretion System encoded in SPI-19 is required for Salmonella Gallinarum survival within infected macrophages. Infect Immun. 81(4):1207-20. [PMID:23357385]
(113) 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]
(114) Brunet YR et al (2013) Imaging Type VI Secretion-Mediated Bacterial Killing. Cell Rep. 3(1):36-41. [PMID:23291094]
(115) 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]
(116) Zhang H et al (2013) Structure of the type VI effector-immunity complex (Tae4-Tai4) provides novel insights into the inhibition mechanism of the effector by its immunity protein. J Biol Chem. 288(8):5928-39. [PMID:23288853]
(117) Broms JE et al (2012) Unique Substrates Secreted by the Type VI Secretion System of Francisella tularensis during Intramacrophage Infection. PLoS One. 7(11):e50473. [PMID:23185631]
(118) Yu Y et al (2012) VPA1045 and VPA1049 of Vibrio parahaemolyticus regulate translocation of Hcp2. Wei Sheng Wu Xue Bao. 52(8):954-61. [PMID:23173431]
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