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

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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 'structure' category : 82

References
(1) Gerc AJ et al (2015) Visualization of the Serratia Type VI Secretion System Reveals Unprovoked Attacks and Dynamic Assembly. Cell Rep. 12(12):2131-42. [PMID:26387948]
(2) Basler M (2015) Type VI secretion system: secretion by a contractile nanomachine. Philos Trans R Soc Lond B Biol Sci. 5-Oct. [PMID:26370934]
(3) Durand E et al (2015) Biogenesis and structure of a type VI secretion membrane core complex. Nature. 523(7562):555-60. [PMID:26200339]
(4) 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]
(5) Ge P et al (2015) Atomic structures of a bactericidal contractile nanotube in its pre- and postcontraction states. Nat Struct Mol Biol. doi: 10.1038/nsmb.2995. [PMID:25822993]
(6) Nguyen VS et al (2015) Inhibition of Type VI Secretion by an Anti-TssM Llama Nanobody. PLoS One. 10(3):e0122187. [PMID:25811612]
(7) Nguyen VS et al (2015) Production, crystallization and X-ray diffraction analysis of a complex between a fragment of the TssM T6SS protein and a camelid nanobody. Acta Crystallogr F Struct Biol Commun. 71(Pt 3):266-71. [PMID:25760699]
(8) Nunes-Alves C (2015) Structural biology: Hand in hand structure and function of T6SSs. Nat Rev Microbiol. 13(4):186-7. [PMID:25749451]
(9) Kudryashev M et al (2015) Structure of the Type VI Secretion System Contractile Sheath. Cell. 160(5):952-62. [PMID:25723169]
(10) Clemens DL et al (2015) Atomic Structure of T6SS Reveals Interlaced Array Essential to Function. Cell. 160(5):940-51. [PMID:25723168]
(11) Wang RY et al (2015) De novo protein structure determination from near-atomic-resolution cryo-EM maps. Nat Methods. 12(4):335-338. [PMID:25707029]
(12) 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]
(13) Chang JH et al (2014) Crystal structure of the bacterial type VI secretion system component TssL from Vibrio cholerae. J Microbiol. 53(1):32-7. [PMID:25471186]
(14) 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]
(15) Forster A et al (2014) Coevolution of the ATPase ClpV, the Sheath Proteins TssB and TssC and the Accessory Protein TagJ/HsiE1 Distinguishes Type VI Secretion Classes. J Biol Chem. 289(47):33032-43. [PMID:25305017]
(16) Jeong JH et al (2014) Purification, crystallization and preliminary X-ray crystallographic analysis of TssL from Vibrio cholerae. Acta Crystallogr F Struct Biol Commun. 70(Pt 9):1260-3. [PMID:25195905]
(17) 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]
(18) Kube S et al (2014) Structure of the VipA/B Type VI Secretion Complex Suggests a Contraction-State-Specific Recycling Mechanism. Cell Rep. 16(1):94-104. [PMID:24953649]
(19) Chang YW et al (2014) Correlated cryogenic photoactivated localization microscopy and cryo-electron tomography. Nat Methods. 11(7):737-9. [PMID:24813625]
(20) 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]
(21) 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]
(22) 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]
(23) Zoued A et al (2014) Architecture and assembly of the Type VI secretion system. Biochim Biophys Acta. 1843(8):1664-73. [PMID:24681160]
(24) 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]
(25) 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]
(26) 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]
(27) 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]
(28) 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]
(29) 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]
(30) 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]
(31) 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]
(32) 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]
(33) 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]
(34) 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]
(35) Shneider MM et al (2013) PAAR-repeat proteins sharpen and diversify the type VI secretion system spike. Nature. 500(7462):350-3. [PMID:23925114]
(36) 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]
(37) 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]
(38) Heymann JB et al (2013) Three-dimensional structure of the toxin-delivery particle antifeeding prophage of Serratia entomophila. J Biol Chem. 288(35):25276-84. [PMID:23857636]
(39) Benz J et al (2013) Structural Insights into the Effector - Immunity System Tae4/Tai4 from Salmonella typhimurium. PLoS One. 8(6):e67362. [PMID:23826277]
(40) 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]
(41) Robb CS et al (2013) Structure of the T6SS lipoprotein TssJ1 from Pseudomonas aeruginosa. Acta Crystallogr Sect F Struct Biol Cryst Commun. 69(Pt 6):607-10. [PMID:23722835]
(42) 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]
(43) 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]
(44) Coulthurst SJ (2013) The type VI secretion system - a widespread and versatile cell targeting system. Res Microbiol. 164(6):640-54. [PMID:23542428]
(45) Lossi NS et al (2013) The HsiB1C1 (TssB/TssC) complex of the Pseudomonas aeruginosa type VI secretion system forms a bacteriophage tail sheath-like structure. J Biol Chem. 288(11):7536-48. [PMID:23341461]
(46) Brunet YR et al (2013) Imaging Type VI Secretion-Mediated Bacterial Killing. Cell Rep. 3(1):36-41. [PMID:23291094]
(47) 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]
(48) 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]
(49) Bebeacua C et al (2013) Visualizing a Complete Siphoviridae Member by Single-Particle Electron Microscopy: the Structure of Lactococcal Phage TP901-1. J Virol. 87(2):1061-8. [PMID:23135714]
(50) English G et al (2012) New secreted toxins and immunity proteins encoded within the Type VI secretion system gene cluster of Serratia marcescens. Mol Microbiol. 86(4):921-36. [PMID:22957938]
(51) Aschtgen MS et al (2012) The C-tail anchored TssL subunit, an essential protein of the enteroaggregative Escherichia coli Sci-1 Type VI secretion system, is inserted by YidC. Microbiologyopen. 1(1):71-82. [PMID:22950014]
(52) Shang G et al (2012) Structural insight into how Pseudomonas aeruginosa peptidoglycanhydrolase Tse1 and its immunity protein Tsi1 function. Biochem J. 448(2):201-11. [PMID:22931054]
(53) Lossi NS et al (2012) The archetype Pseudomonas aeruginosa proteins TssB and TagJ form a novel subcomplex in the bacterial type VI secretion system. Mol Microbiol. 86(2):437-56. [PMID:22906320]
(54) Durand E et al (2012) Crystal structure of the VgrG1 actin cross-linking domain of the Vibrio cholerae Type VI secretion system. J Biol Chem. 287(45):38190-9. [PMID:22898822]
(55) Chou S et al (2012) Structure of a Peptidoglycan Amidase Effector Targeted to Gram-Negative Bacteria by the Type VI Secretion System. Cell Rep. 1(6):656-64. [PMID:22813741]
(56) Benz J et al (2012) Structural insights into the effector-immunity system Tse1/Tsi1 from Pseudomonas aeruginosa. PLoS One. 7(7):e40453. [PMID:22792331]
(57) Zhang H et al (2012) Crystal structure of type VI effector Tse1 from Pseudomonas aeruginosa. FEBS Lett. 586(19):3193-9. [PMID:22750141]
(58) Kefala K et al (2012) Purification, crystallization and preliminary X-ray diffraction analysis of the C-terminal fragment of the MvfR protein from Pseudomonas aeruginosa. Acta Crystallogr Sect F Struct Biol Cryst Commun. 68(Pt 6):695-7. [PMID:22684073]
(59) Li M et al (2012) Structural basis for type VI secretion effector recognition by a cognate immunity protein. PLoS Pathog. 8(4):e1002613. [PMID:22511866]
(60) Robb CS et al (2012) The structure of the conserved type six secretion protein TssL (DotU) from Francisella novicida. J Mol Biol. 419(5):277-83. [PMID:22504227]
(61) 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]
(62) 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]
(63) Durand E et al (2012) Structural characterization and oligomerization of the TssL protein, a component shared by bacterial type VI and type IVb secretion systems. J Biol Chem. 287(17):14157-68. [PMID:22371492]
(64) Basler M et al (2012) Type VI secretion requires a dynamic contractile phage tail-like structure. Nature. 483(7388):182-6. [PMID:22367545]
(65) Zou T et al (2012) Crystal structure of Pseudomonas aeruginosa Tsi2 reveals a stably folded superhelical antitoxin. J Mol Biol. 417(4):351-61. [PMID:22310046]
(66) Leiman PG et al (2012) Contractile tail machines of bacteriophages. Adv Exp Med Biol. 726:93-114. [PMID:22297511]
(67) Rao VA et al (2011) The structure of Serratia marcescens Lip, a membrane-bound component of the type VI secretion system. Acta Crystallogr D Biol Crystallogr. 67(Pt 12):1065-72. [PMID:22120744]
(68) Felisberto-Rodrigues C et al (2011) Towards a structural comprehension of bacterial type VI secretion systems: characterization of the TssJ-TssM complex of an Escherichia coli pathovar. PLoS Pathog. 7(11):e1002386. [PMID:22102820]
(69) 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]
(70) Lossi NS et al (2011) Structure-function analysis of HsiF, a gp25-like component of the type VI secretion system, in Pseudomonas aeruginosa. Microbiology. 157(Pt 12):3292-305. [PMID:21873404]
(71) Osipiuk J et al (2011) Crystal structure of secretory protein Hcp3 from Pseudomonas aeruginosa. J Struct Funct Genomics. 12(1):21-6. [PMID:21476004]
(72) Records AR (2011) The type VI secretion system: a multipurpose delivery system with a phage-like machinery. Mol Plant Microbe Interact. 24(7):751-7. [PMID:21361789]
(73) Navarro MV et al (2011) Structural basis for c-di-GMP-mediated inside-out signaling controlling periplasmic proteolysis. PLoS Biol. 9(2):e1000588. [PMID:21304926]
(74) Robb CS et al (2010) Cloning, expression, purification, crystallization and preliminary X-ray diffraction analysis of intracellular growth locus E (IglE) protein from Francisella tularensis subsp. novicida. Acta Crystallogr Sect F Struct Biol Cryst Commun. 66(Pt 12):1596-8. [PMID:21139203]
(75) Jobichen C et al (2010) Structural basis for the secretion of EvpC: a key type VI secretion system protein from Edwardsiella tarda. PLoS One. 5(9):e12910. [PMID:20886112]
(76) Bonemann G et al (2010) Tubules and donuts: a type VI secretion story. Mol Microbiol. 76(4):815-21. [PMID:20444095]
(77) Pell LG et al (2009) The phage lambda major tail protein structure reveals a common evolution for long-tailed phages and the type VI bacterial secretion system. Proc Natl Acad Sci U S A. 106(11):4160-5. [PMID:19251647]
(78) Leiman PG et al (2009) Type VI secretion apparatus and phage tail-associated protein complexes share a common evolutionary origin. Proc Natl Acad Sci U S A. 106(11):4154-9. [PMID:19251641]
(79) Filloux A (2009) The type VI secretion system: a tubular story. EMBO J. 28(4):309-10. [PMID:19225443]
(80) Broms JE et al (2009) A conserved alpha-helix essential for a type VI secretion-like system of Francisella tularensis. J Bacteriol. 191(8):2431-46. [PMID:19201795]
(81) Ballister ER et al (2008) In vitro self-assembly of tailorable nanotubes from a simple protein building block. Proc Natl Acad Sci U S A. 105(10):3733-8. [PMID:18310321]
(82) Forouhar F et al (2007) Functional insights from structural genomics. J Struct Funct Genomics. 8(2-3):37-44. [PMID:17588214]