SecReT6
SecReT6 contains data from 824 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
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Number of references found for the 'review' category : 64

References
(1) LeRoux M et al (2015) Bacterial danger sensing. J Mol Biol. pii: S0022-2836(15)00541-0. [PMID:26434507]
(2) 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]
(3) Basler M (2015) Type VI secretion system: secretion by a contractile nanomachine. Philos Trans R Soc Lond B Biol Sci. 5-Oct. [PMID:26370934]
(4) Durand E et al (2015) Biogenesis and structure of a type VI secretion membrane core complex. Nature. 523(7562):555-60. [PMID:26200339]
(5) Costa TR et al (2015) Secretion systems in Gram-negative bacteria: structural and mechanistic insights. Nat Rev Microbiol. 13(6):343-359. [PMID:25978706]
(6) Pieretti I et al (2015) What makes Xanthomonas albilineans unique amongst xanthomonads?. Front Plant Sci. 6:289. [PMID:25964795]
(7) Jamet A et al (2015) New Players in the Toxin Field: Polymorphic Toxin Systems in Bacteria. MBio. 6(3). [PMID:25944858]
(8) Ceuleneer MD et al (2015) Role of the Bacterial Type VI Secretion System in the Modulation of Mammalian Host Cell Immunity. Curr Med Chem. 22(14):1734-44. [PMID:25882545]
(9) Salomon D et al (2015) Type VI secretion system. Curr Biol. 25(7):R265-6. [PMID:25829005]
(10) Wang R et al (2015) The pathogenesis, detection, and prevention of Vibrio parahaemolyticus. Front Microbiol. 6:144. [PMID:25798132]
(11) Nunes-Alves C (2015) Structural biology: Hand in hand structure and function of T6SSs. Nat Rev Microbiol. 13(4):186-7. [PMID:25749451]
(12) Ryu CM (2015) Against friend and foe: Type 6 effectors in plant-associated bacteria. J Microbiol. 53(3):201-8. [PMID:25732741]
(13) Chen L et al (2015) Composition, function, and regulation of T6SS in Pseudomonas aeruginosa. Microbiol Res. 172C:19-25. [PMID:25721475]
(14) Li J et al (2015) Generation and evaluation of virulence attenuated mutants of Edwardsiella tarda as vaccine candidates to combat edwardsiellosis in flounder (Paralichthys olivaceus). Fish Shellfish Immunol. 43(1):175-80. [PMID:25541077]
(15) 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]
(16) Zoued A et al (2014) Architecture and assembly of the Type VI secretion system. Biochim Biophys Acta. 1843(8):1664-73. [PMID:24681160]
(17) Benz J et al (2014) Antibacterial effector/immunity systems: it's just the tip of the iceberg. Curr Opin Microbiol. 17C:1-10. [PMID:24581686]
(18) Steinert M (2014) Pathogen intelligence. Front Cell Infect Microbiol. 4:8. [PMID:24551600]
(19) Russell AB et al (2014) Type VI secretion system effectors: poisons with a purpose. Nat Rev Microbiol. 12(2):137-48. [PMID:24384601]
(20) Filloux A (2013) The rise of the Type VI secretion system. F1000Prime Rep. 5:52. [PMID:24381728]
(21) Ceccarelli D et al (2013) Distribution and dynamics of epidemic and pandemic Vibrio parahaemolyticus virulence factors. Front Cell Infect Microbiol. 3:97. [PMID:24377090]
(22) Pukatzki S et al (2013) Vibrio cholerae as a predator: lessons from evolutionary principles. Front Microbiol. 4:384. [PMID:24368907]
(23) Ho BT et al (2013) A View to a Kill: The Bacterial Type VI Secretion System. Cell Host Microbe. 15(1):9-21. [PMID:24332978]
(24) 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]
(25) Coulthurst SJ (2013) The type VI secretion system - a widespread and versatile cell targeting system. Res Microbiol. 164(6):640-54. [PMID:23542428]
(26) Miller JF (2013) Gaming the competition in microbial cell-cell interactions. EMBO J. 32(6):778-80. [PMID:23443046]
(27) 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]
(28) Tashiro Y et al (2013) Interspecies Interaction between Pseudomonas aeruginosa and Other Microorganisms. Microbes Environ. 28(1):13-24. [PMID:23363620]
(29) 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]
(30) 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]
(31) Silverman JM et al (2012) Structure and Regulation of the Type VI Secretion System. Annu Rev Microbiol. 66:453-72. [PMID:22746332]
(32) Cascales E et al (2012) Structural biology of type VI secretion systems. Philos Trans R Soc Lond B Biol Sci. 367(1592):1102-11. [PMID:22411981]
(33) Zechner EL et al (2012) Assembly and mechanisms of bacterial type IV secretion machines. Philos Trans R Soc Lond B Biol Sci. 367(1592):1073-87. [PMID:22411979]
(34) Dalbey RE et al (2012) Protein traffic in Gram-negative bacteria--how exported and secreted proteins find their way. FEMS Microbiol Rev. 36(6):1023-45. [PMID:22250915]
(35) Hodges K et al (2012) Interspecies communication in the gut, from bacterial delivery to host-cell response. J Physiol. 590(Pt 3):433-40. [PMID:22106176]
(36) Leung KY et al (2012) Edwardsiella tarda - virulence mechanisms of an emerging gastroenteritis pathogen. Microbes Infect. 14(1):26-34. [PMID:21924375]
(37) Veesler D et al (2011) A common evolutionary origin for tailed-bacteriophage functional modules and bacterial machineries. Microbiol Mol Biol Rev. 75(3):423-33. [PMID:21885679]
(38) Li J et al (2011) [Advances in bacterial type VI secretion system--a review]. Wei Sheng Wu Xue Bao. 51(3):291-6. [PMID:21604542]
(39) Silby MW et al (2011) Pseudomonas genomes: diverse and adaptable. FEMS Microbiol Rev. 35(4):652-80. [PMID:21361996]
(40) Kitaoka M et al (2011) Antibiotic resistance mechanisms of Vibrio cholerae. J Med Microbiol. 60(Pt 4):397-407. [PMID:21252269]
(41) O'Brien HE et al (2011) Next-generation genomics of Pseudomonas syringae. Curr Opin Microbiol. 14(1):24-30. [PMID:21233007]
(42) Leung KY et al (2011) Type VI secretion regulation: crosstalk and intracellular communication. Curr Opin Microbiol. 14(1):9-15. [PMID:20971679]
(43) Miyata ST et al (2010) The Vibrio Cholerae Type VI Secretion System: Evaluating its Role in the Human Disease Cholera. Front Microbiol. 1:117. [PMID:21607085]
(44) Hayes CS et al (2010) Bacterial contact-dependent delivery systems. Annu Rev Genet. 44:71-90. [PMID:21047256]
(45) Schwarz S et al (2010) What is type VI secretion doing in all those bugs. Trends Microbiol. 18(12):531-7. [PMID:20961764]
(46) Bleves S et al (2010) Protein secretion systems in Pseudomonas aeruginosa: A wealth of pathogenic weapons. Int J Med Microbiol. 300(8):534-43. [PMID:20947426]
(47) Jani AJ et al (2010) Type VI secretion: not just for pathogenesis anymore. Cell Host Microbe. 8(1):2-6. [PMID:20638635]
(48) Bernard CS et al (2010) Nooks and crannies in type VI secretion regulation. J Bacteriol. 192(15):3850-60. [PMID:20511495]
(49) Bonemann G et al (2010) Tubules and donuts: a type VI secretion story. Mol Microbiol. 76(4):815-21. [PMID:20444095]
(50) Holland IB (2010) The extraordinary diversity of bacterial protein secretion mechanisms. Methods Mol Biol. 619:1-20. [PMID:20419401]
(51) Santic M et al (2010) Cell biology and molecular ecology of Francisella tularensis. Cell Microbiol. 12(2):129-39. [PMID:19863554]
(52) Ray K et al (2009) Life on the inside: the intracellular lifestyle of cytosolic bacteria. Nat Rev Microbiol. 7(5):333-40. [PMID:19369949]
(53) Satchell KJ (2009) Bacterial martyrdom: phagocytes disabled by type VI secretion after engulfing bacteria. Cell Host Microbe. 5(3):213-4. [PMID:19286128]
(54) Matsumoto H et al (2009) Translocated effectors of Yersinia. Curr Opin Microbiol. 12(1):94-100. [PMID:19185531]
(55) Pukatzki S et al (2009) The type VI secretion system: translocation of effectors and effector-domains. Curr Opin Microbiol. 12(1):11-7. [PMID:19162533]
(56) Filloux A et al (2008) The bacterial type VI secretion machine: yet another player for protein transport across membranes. Microbiology. 154(Pt 6):1570-83. [PMID:18524912]
(57) Bingle LE et al (2008) Type VI secretion: a beginner's guide. Curr Opin Microbiol. 11(1):3-8. [PMID:18289922]
(58) Gerlach RG et al (2007) Protein secretion systems and adhesins: the molecular armory of Gram-negative pathogens. Int J Med Microbiol. 297(6):401-15. [PMID:17482513]
(59) Tamayo R et al (2007) Roles of cyclic diguanylate in the regulation of bacterial pathogenesis. Annu Rev Microbiol. 61:131-48. [PMID:17480182]
(60) Titball RW et al (2007) Francisella tularensis genomics and proteomics. Ann N Y Acad Sci. 1105:98-121. [PMID:17435122]
(61) Nano FE et al (2007) The Francisella pathogenicity island. Ann N Y Acad Sci. 1105:122-37. [PMID:17395722]
(62) Cambronne ED et al (2006) Recognition and delivery of effector proteins into eukaryotic cells by bacterial secretion systems. Traffic. 7(8):929-39. [PMID:16734660]
(63) Venturi V. (2006) Regulation of quorum sensing in Pseudomonas. FEMS Microbiol Rev. 30(2):274-91. [PMID:16472307]
(64) Costerton JW et al (1999) Bacterial biofilms: a common cause of persistent infections. Science. 284(5418):1318-22. [PMID:10334980]