SecReT4
SecReT4 contains data from 1565 references related to type IV secretion systems (T4SSs). Last Update: Sep 30, 2019

Categories (Literatures contain following contents are categorized)
reviews experimental studies bioinformatics genome sequencing T4SS component T4SS effectors
conjugation DNA uptake and release effector translocation structural study protein interaction other
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Number of references found for the 'all' category : 1565

References
(1) Hüttener M, Prieto A, Aznar S, Bernabeu M, Glaría E, Valledor AF, Paytubi S, Merino S, Tomás J, Juárez A (2019). Expression of a novel class of bacterial Ig-like proteins is required for IncHI plasmid conjugation. PLoS Genet. 15(9):e1008399. [PudMed:31527905]
(2) Zhao H, Xu L, Xu Z, Ding Y, Yu H, Zhang Y, Wu Y, Li B, Ji X (2019). Investigation on the role of gene hp0788 in Helicobacter pylori in infecting gastric epithelial cells. Microb Pathog. 137:103739. [PudMed:31513896]
(3) Bayer-Santos E, Cenens W, Matsuyama BY, Oka GU, Di Sessa G, Mininel IDV, Alves TL, Farah CS (2019). The opportunistic pathogen Stenotrophomonas maltophilia utilizes a type IV secretion system for interbacterial killing. PLoS Pathog. 15(9):e1007651. [PudMed:31513674]
(4) Semper RP, Vieth M, Gerhard M, Mejías-Luque R (2019). Helicobacter pylori Exploits the NLRC4 Inflammasome to Dampen Host Defenses. J Immunol. pii: ji1900351. [PudMed:31511355]
(5) Azam S, Parthasarathy S, Singh C, Kumar S, Siddavattam D (2019). Genome Organization and Adaptive Potential of Archetypal Organophosphate Degrading Sphingobium fuliginis ATCC 27551. Genome Biol Evol. 11(9):2557-2562. [PudMed:31504476]
(6) Wroblewski LE, Choi E, Petersen C, Delgado AG, Piazuelo MB, Romero-Gallo J, Lantz TL, Zavros Y, Coffey RJ, Goldenring JR, Zemper AE, Peek RM Jr (2019). Targeted mobilization of Lrig1+ gastric epithelial stem cell populations by a carcinogenic Helicobacter pylori type IV secretion system. Proc Natl Acad Sci U S A. 116(39):19652-19658. [PudMed:31488717]
(7) Chmiela M, Kupcinskas J (2019). Review: Pathogenesis of Helicobacter pylori infection. Helicobacter. 24 Suppl 1:e12638. [PudMed:31486234]
(8) Varesio LM, Willett JW, Fiebig A, Crosson S (2019). A carbonic anhydrase pseudogene sensitizes select Brucella lineages to low CO2 tension. J Bacteriol. pii: JB.00509-19. [PudMed:31481543]
(9) Zhi F, Zhou D, Bai F, Li J, Xiang C, Zhang G, Jin Y, Wang A (2019). VceC Mediated IRE1 Pathway and Inhibited CHOP-induced Apoptosis to Support Brucella Replication in Goat Trophoblast Cells. Int J Mol Sci. 20(17). pii: E4104. [PudMed:31443507]
(10) Sen R, Tagore S, De RK (2019). Cluster Quality based Non-Reductional (CQNR) oversampling technique and effector protein predictor based on 3D structure (EPP3D) of proteins. Comput Biol Med. 112:103374. [PudMed:31419629]
(11) Pachathundikandi SK, Gutiérrez-Escobar AJ, Tegtmeyer N (2019). Tailor-Made Detection of Individual Phosphorylated and Non-Phosphorylated EPIYA-Motifs of Helicobacter pylori Oncoprotein CagA. Cancers (Basel). 11(8). pii: E1163. [PudMed:31412675]
(12) Christie PJ (2019). The Rich Tapestry of Bacterial Protein Translocation Systems. Protein J. 38(4):389-408. [PudMed:31407127]
(13) Klinges JG, Rosales SM, McMinds R, Shaver EC, Shantz AA, Peters EC, Eitel M, Wörheide G, Sharp KH, Burkepile DE, Silliman BR, Vega Thurber RL (2019). Phylogenetic, genomic, and biogeographic characterization of a novel and ubiquitous marine invertebrate-associated Rickettsiales parasite, Candidatus Aquarickettsia rohweri, gen. nov., sp. nov. ISME J. . [PudMed:31384012]
(14) Levican A, Ramos-Tapia I, Briceño I, Guerra F, Mena B, Varela C, Porte L (2019). Genomic Analysis of Chilean Strains of Campylobacter jejuni from Human Faeces. Biomed Res Int. 2019:1902732. [PudMed:31360704]
(15) Demars A, Lison A, Machelart A, Van Vyve M, Potemberg G, Vanderwinden JM, De Bolle X, Letesson JJ, Muraille E (2019). Route of Infection Strongly Impacts the Host-Pathogen Relationship. Front Immunol. 10:1589. [PudMed:31354728]
(16) Liu X, Shin S (2019). Viewing Legionella pneumophila Pathogenesis through an Immunological Lens. J Mol Biol. pii: S0022-2836(19)30472-3. [PudMed:31351897]
(17) Byndloss MX, Tsai AY, Walker GT, Miller CN, Young BM, English BC, Seyffert N, Kerrinnes T, de Jong MF, Atluri VL, Winter MG, Celli J, Tsolis RM (2019). Brucella abortus Infection of Placental Trophoblasts Triggers Endoplasmic Reticulum Stress-Mediated Cell Death and Fetal Loss via Type IV Secretion System-Dependent Activation of CHOP. MBio. 10(4). pii: e01538-19. [PudMed:31337727]
(18) Bhogaraju S, Bonn F, Mukherjee R, Adams M, Pfleiderer MM, Galej WP, Matkovic V, Lopez-Mosqueda J, Kalayil S, Shin D, Dikic I (2019). Inhibition of bacterial ubiquitin ligases by SidJ-calmodulin catalysed glutamylation. Nature. 572(7769):382-386. [PudMed:31330532]
(19) Gan N, Zhen X, Liu Y, Xu X, He C, Qiu J, Liu Y, Fujimoto GM, Nakayasu ES, Zhou B, Zhao L, Puvar K, Das C, Ouyang S, Luo ZQ (2019). Regulation of phosphoribosyl ubiquitination by a calmodulin-dependent glutamylase. Nature. 572(7769):387-391. [PudMed:31330531]
(20) Esna Ashari Z, Brayton KA, Broschat SL (2019). Prediction of T4SS Effector Proteins for Anaplasma phagocytophilum Using OPT4e, A New Software Tool. Front Microbiol. 10:1391. [PudMed:31293540]
(21) Yang R, Santos Garcia D, Pérez Montaño F, da Silva GM, Zhao M, Jiménez Guerrero I, Rosenberg T, Chen G, Plaschkes I, Morin S, Walcott R, Burdman S (2019). Complete Assembly of the Genome of an Acidovorax citrulli Strain Reveals a Naturally Occurring Plasmid in This Species. Front Microbiol. 10:1400. [PudMed:31281298]
(22) Nas MY, White RC, DuMont AL, Lopez AE, Cianciotto NP (2019). Stenotrophomonas maltophilia Encodes a VirB/VirD4 Type IV Secretion System That Modulates Apoptosis in Human Cells and Promotes Competition against Heterologous Bacteria, Including Pseudomonas aeruginosa. Infect Immun. 87(9). pii: e00457-19. [PudMed:31235638]
(23) Québatte M, Dehio C (2019). Bartonella gene transfer agent: Evolution, function, and proposed role in host adaptation. Cell Microbiol. e13068. [PudMed:31231937]
(24) Pena RT, Blasco L, Ambroa A, González-Pedrajo B, Fernández-García L, López M, Bleriot I, Bou G, García-Contreras R, Wood TK, Tomás M (2019). Relationship Between Quorum Sensing and Secretion Systems. Front Microbiol. 10:1100. [PudMed:31231316]
(25) Wu X, Zhao Y, Sun L, Jiang M, Wang Q, Wang Q, Yang W, Wu Y (2019). Crystal structure of CagV, the Helicobacter pylori homologue of the T4SS protein VirB8. FEBS J. . [PudMed:31230405]
(26) Chung JM, Sheedlo MJ, Campbell AM, Sawhney N, Frick-Cheng AE, Lacy DB, Cover TL, Ohi MD (2019). Structure of the Helicobacter pylori Cag type IV secretion system. Elife. 8. pii: e47644. [PudMed:31210639]
(27) Tsai AY, English BC, Tsolis RM (2019). Hostile Takeover: Hijacking of Endoplasmic Reticulum Function by T4SS and T3SS Effectors Creates a Niche for Intracellular Pathogens. Microbiol Spectr. 7(3). [PudMed:31198132]
(28) Buß M, Tegtmeyer N, Schnieder J, Dong X, Li J, Springer TA, Backert S, Niemann HH (2019). Specific high affinity interaction of Helicobacter pylori CagL with integrin αV β6 promotes type IV secretion of CagA into human cells. FEBS J. . [PudMed:31197920]
(29) Kohler V, Keller W, Grohmann E (2019). Regulation of Gram-Positive Conjugation. Front Microbiol. 10:1134. [PudMed:31191478]
(30) Kumari R, Shariq M, Sharma S, Kumar A, Mukhopadhyay G (2019). CagW, a VirB6 homologue interacts with Cag-type IV secretion system substrate CagA in Helicobacter pylori. Biochem Biophys Res Commun. 515(4):712-718. [PudMed:31182283]
(31) Sgro GG, Oka GU, Souza DP, Cenens W, Bayer-Santos E, Matsuyama BY, Bueno NF, Dos Santos TR, Alvarez-Martinez CE, Salinas RK, Farah CS (2019). Bacteria-Killing Type IV Secretion Systems. Front Microbiol. 10:1078. [PudMed:31164878]
(32) Kang YS, Kirby JE (2019). A Chemical Genetics Screen Reveals Influence of p38 Mitogen-Activated Protein Kinase and Autophagy on Phagosome Development and Intracellular Replication of Brucella neotomae in Macrophages. Infect Immun. 87(8). pii: e00044-19. [PudMed:31160361]
(33) Rehman S, Li YG, Schmitt A, Lassinantti L, Christie PJ, Berntsson RP (2019). Enterococcal PcfF Is a Ribbon-Helix-Helix Protein That Recruits the Relaxase PcfG Through Binding and Bending of the oriT Sequence. Front Microbiol. 10:958. [PudMed:31134011]
(34) Wagner A, Tittes C, Dehio C (2019). Versatility of the BID Domain: Conserved Function as Type-IV-Secretion-Signal and Secondarily Evolved Effector Functions Within Bartonella-Infected Host Cells. Front Microbiol. 10:921. [PudMed:31130928]
(35) Knorr J, Ricci V, Hatakeyama M, Backert S (2019). Classification of Helicobacter pylori Virulence Factors: Is CagA a Toxin or Not. Trends Microbiol. 27(9):731-738. [PudMed:31130493]
(36) Mathews SL, Hannah H, Samagaio H, Martin C, Rodriguez-Rassi E, Matthysse AG (2019). Glycoside Hydrolase Genes Are Required for Virulence of Agrobacterium tumefaciens on Bryophyllum daigremontiana and Tomato. Appl Environ Microbiol. 85(15). pii: e00603-19. [PudMed:31126942]
(37) Wan M, Wang X, Huang C, Xu D, Wang Z, Zhou Y, Zhu Y (2019). A bacterial effector deubiquitinase specifically hydrolyses linear ubiquitin chains to inhibit host inflammatory signalling. Nat Microbiol. 10.1038. [PudMed:31110362]
(38) Deng H, Zhou J, Gong B, Xiao M, Zhang M, Pang Q, Zhang X, Zhao B, Zhou X (2019). Screening and identification of a human domain antibody against Brucella abortus VirB5. Acta Trop. 197:105026. [PudMed:31103700]
(39) McCarthy RR, Yu M, Eilers K, Wang YC, Lai EM, Filloux A (2019). Cyclic di-GMP inactivates T6SS and T4SS activity in Agrobacterium tumefaciens. Mol Microbiol. 112(2):632-648. [PudMed:31102484]
(40) Ngwaga T, Hydock AJ, Ganesan S, Shames SR (2019). Potentiation of Cytokine-Mediated Restriction of Legionella Intracellular Replication by a Dot/Icm-Translocated Effector. J Bacteriol. 201(14). pii: e00755-18. [PudMed:31036725]
(41) Koppenhöfer S, Wang H, Scharfe M, Kaever V, Wagner-Döbler I, Tomasch J (2019). Integrated Transcriptional Regulatory Network of Quorum Sensing, Replication Control, and SOS Response in Dinoroseobacter shibae. Front Microbiol. 10:803. [PudMed:31031742]
(42) Arya T, Oudouhou F, Casu B, Bessette B, Sygusch J, Baron C (2019). Fragment-based screening identifies inhibitors of ATPase activity and of hexamer formation of Cagα from the Helicobacter pylori type IV secretion system. Sci Rep. 9(1):6474. [PudMed:31019200]
(43) Ghosal D, Jeong KC, Chang YW, Gyore J, Teng L, Gardner A, Vogel JP, Jensen GJ (2019). Molecular architecture, polar targeting and biogenesis of the Legionella Dot/Icm T4SS. Nat Microbiol. 4(7):1173-1182. [PudMed:31011165]
(44) Nimrod Nachmias, Tal Zusman, Gil Segal (2019). Study of Legionella Effector Domains Revealed Novel and Prevalent Phosphatidylinositol 3-Phosphate Binding Domains. Infect Immun. 87(6). pii: e00153-19. [PudMed:30962397]
(45) Oikonomou CM, Jensen GJ (2019). Electron Cryotomography of Bacterial Secretion Systems. Microbiol Spectr. 7(2). [PudMed:30953431]
(46) Noroy C, Lefrançois T, Meyer DF (2019). Searching algorithm for Type IV effector proteins (S4TE) 2.0: Improved tools for Type IV effector prediction, analysis and comparison in proteobacteria. PLoS Comput Biol. 15(3):e1006847. [PudMed:30908487]
(47) Zhu J, He M, Xu W, Li Y, Huang R, Wu S, Niu H. (2019). Development of TEM-1 β-lactamase based protein translocation assay for identification of Anaplasma phagocytophilum type IV secretion system effector proteins. Scientific Reports. 9(1):4235. [PudMed:30862835]
(48) Celli J (2019). The Intracellular Life Cycle of Brucella spp. Microbiol Spectr. 7(2). [PudMed:30848234]
(49) Zhang L, Wu Z, Wang X, Tan G, Song J (2019). Insights into the Draft Genome Sequence of the Kiwifruit-Associated Pathogenic Isolate Pseudomonas fluorescens AHK-1. Curr Microbiol. 76(5):552-557. [PudMed:30824950]
(50) Dias GM, de Sousa Pires A, Grilo VS, Castro MR, de Figueiredo Vilela L, Neves BC (2019). Comparative genomics of Paraburkholderia kururiensis and its potential in bioremediation, biofertilization, and biocontrol of plant pathogens. Microbiologyopen. 8(8):e00801. [PudMed:30811107]
(51) Zhang J, Li M, Li Z, Shi J, Zhang Y, Deng X, Liu L, Wang Z, Qi Y, Zhang H (2019). Deletion of the Type IV Secretion System Effector VceA Promotes Autophagy and Inhibits Apoptosis in Brucella-Infected Human Trophoblast Cells. Curr Microbiol. 76(4):510-519. [PudMed:30805699]
(52) Flores-Ríos R, Moya-Beltrán A, Pareja-Barrueto C, Arenas-Salinas M, Valenzuela S, Orellana O, Quatrini R (2019). The Type IV Secretion System of ICEAfe1: Formation of a Conjugative Pilus in Acidithiobacillus ferrooxidans. Front Microbiol. 10:30. [PudMed:30804894]
(53) Singhal K, Mohanty S (2019). Genome organisation and comparative genomics of four novel Wolbachia genome assemblies from Indian Drosophila host. Funct Integr Genomics. 19(4):617-632. [PudMed:30798391]
(54) Watts TD, Vidor CJ, Awad MM, Lyras D, Rood JI, Adams V (2019). pCP13, a representative of a new family of conjugative toxin plasmids in Clostridium perfringen. Plasmid. 102:37-45. [PudMed:30790588]
(55) Pike CM, Boyer-Andersen R, Kinch LN, Caplan JL, Neunuebel MR (2019). The Legionella effector RavD binds phosphatidylinositol-3-phosphate and helps suppress endolysosomal maturation of the Legionella-containing vacuole. J Biol Chem. 294(16):6405-6415. [PudMed:30733336]
(56) Larson CL, Sandoz KM, Cockrell DC, Heinzen RA (2019). Noncanonical Inhibition of mTORC1 by Coxiella burnetii Promotes Replication within a Phagolysosome-Like Vacuole. MBio. 10(1). pii: e02816-18. [PudMed:30723133]
(57) McDonald ND, Regmi A, Morreale DP, Borowski JD, Boyd EF (2019). CRISPR-Cas systems are present predominantly on mobile genetic elements in Vibrio species. BMC Genomics. 20(1):105. [PudMed:30717668]
(58) Sinha A, Li Z, Sun L, Carlow CKS (2019). Complete Genome Sequence of the Wolbachia wAlbB Endosymbiont of Aedes albopictus. Genome Biol Evol. 11(3):706-720. [PudMed:30715337]
(59) Esna Ashari Z, Brayton KA, Broschat SL (2019). Using an optimal set of features with a machine learning-based approach to predict effector proteins for Legionella pneumophila. PLoS One. 14(1):e0202312. [PudMed:30682021]
(60) Gomez-Valero L, Rusniok C, Carson D, Mondino S, Pérez-Cobas AE, Rolando M, Pasricha S, Reuter S, Demirtas J, Crumbach J, Descorps-Declere S, Hartland EL, Jarraud S, Dougan G, Schroeder GN, Frankel G, Buchrieser C (2019). More than 18,000 effectors in the Legionella genus genome provide multiple, independent combinations for replication in human cells. Proc Natl Acad Sci U S A. 116(6):2265-2273. [PudMed:30659146]
(61) Wagner A, Dehio C (2019). Role of distinct type-IV-secretion systems and secreted effector sets in host adaptation by pathogenic Bartonella species. Cell Microbiol. 21(3):e13004. [PudMed:30644157]
(62) Pan Z, Liu J, Zhang Y, Chen S, Ma J, Dong W, Wu Z, Yao H (2019). A novel integrative conjugative element mediates transfer of multi-drug resistance between Streptococcus suis strains of different serotypes. Vet Microbiol. 229:110-116. [PudMed:30642585]
(63) Hayek I, Berens C, Lührmann A (2019). Modulation of host cell metabolism by T4SS-encoding intracellular pathogens. Curr Opin Microbiol. 47:59-65.. [PudMed:30640035]
(64) Waksman G (2019). From conjugation to T4S systems in Gram-negative bacteria: a mechanistic biology perspective.. EMBO Rep. 20(2). pii: e47012. [PudMed:30602585]
(65) Levanova N, Mattheis C, Carson D, To KN, Jank T, Frankel G, Aktories K, Schroeder GN (2019). The Legionella effector LtpM is a new type of phosphoinositide-activated glucosyltransferase. J Biol Chem. 294(8):2862-2879. [PudMed:30573678]
(66) Wang C, Fu J, Wang M, Cai Y, Hua X, Du Y, Yang Z, Li Y, Wang Z, Sheng H, Yin N, Liu X, Koehler JE, Yuan C (2019). Bartonella quintana type IV secretion effector BepE-induced selective autophagy by conjugation with K63 polyubiquitin chain. Cell Microbiol. 21(4):e12984. [PudMed:30463105]
(67) Gan N, Nakayasu ES, Hollenbeck PJ, Luo ZQ (2019). Legionella pneumophila inhibits immune signalling via MavC-mediated transglutaminase-induced ubiquitination of UBE2N. Nat Microbiol. 4(1):134-143. [PudMed:30420781]
(68) Groenewold MK, Hebecker S, Fritz C, Czolkoss S, Wiesselmann M, Heinz DW, Jahn D, Narberhaus F, Aktas M, Moser J (2019). Virulence of Agrobacterium tumefaciens requires lipid homeostasis mediated by the lysyl-phosphatidylglycerol hydrolase AcvB. Mol Microbiol. 111(1):269-286. [PudMed:30353924]
(69) González-Rivera C, Khara P, Awad D, Patel R, Li YG, Bogisch M, Christie PJ (2019). Two pKM101-encoded proteins, the pilus-tip protein TraC and Pep, assemble on the Escherichia coli cell surface as adhesins required for efficient conjugative DNA transfer. Mol Microbiol. 111(1):96-117. [PudMed:30264928]
(70) Mary C, Baron C (2019). Bases moléculaires de l’infection de plantes par Agrobacterium tumefaciens via un système de sécrétion de type IV. Biochem Cell Biol. 97(3):215-223. [PudMed:30142282]
(71) Wang J, Yang B, An Y, Marquez-Lago T, Leier A, Wilksch J, Hong Q, Zhang Y, Hayashida M, Akutsu T, Webb GI, Strugnell RA, Song J, Lithgow T (2019). Systematic analysis and prediction of type IV secreted effector proteins by machine learning approaches. Brief Bioinform. 20(3):931-951. [PudMed:29186295]
(72) Rikihisa Y (2019). Subversion of RAB5-regulated autophagy by the intracellular pathogen Ehrlichia chaffeensis. Small GTPases. 10(5):343-349. [PudMed:28650718]
(73) Bai F, Li X, Niu B, Zhang Z, Malakar PK, Liu H, Pan Y, Zhao Y (2018). A mcr-1-Carrying Conjugative IncX4 Plasmid in Colistin-Resistant Escherichia coli ST278 Strain Isolated From Dairy Cow Feces in Shanghai, China. Front Microbiol. 9:2833. [PudMed:30559724]
(74) Weber S, Steiner B, Welin A, Hilbi H (2018). Legionella-Containing Vacuoles Capture PtdIns(4)P-Rich Vesicles Derived from the Golgi Apparatus. MBio. 9(6). pii: e02420-18. [PudMed:30538188]
(75) Waskito LA, Yih-Wu J, Yamaoka Y (2018). The role of integrating conjugative elements in Helicobacter pylori: a review. J Biomed Sci. 25(1):86. [PudMed:30497458]
(76) Xiong Y, Wang Q, Yang J, Zhu X, Wei DQ (2018). PredT4SE-Stack: Prediction of Bacterial Type IV Secreted Effectors From Protein Sequences Using a Stacked Ensemble Method. Front Microbiol. 9:2571.. [PudMed:30416498]
(77) Zhao Q, Busch B, Jiménez-Soto LF, Ishikawa-Ankerhold H, Massberg S, Terradot L, Fischer W, Haas R (2018). Integrin but not CEACAM receptors are dispensable for Helicobacter pylori CagA translocation. PLoS Pathog. 14(10):e1007359. [PudMed:30365569]
(78) Sgro GG, Costa TRD, Cenens W, Souza DP, Cassago A, Coutinho de Oliveira L, Salinas RK, Portugal RV, Farah CS, Waksman G (2018). Cryo-EM structure of the bacteria-killing type IV secretion system core complex from Xanthomonas citri. Nat Microbiol. 3(12):1429-1440. [PudMed:30349081]
(79) Carpinone EM, Li Z, Mills MK, Foltz C, Brannon ER, Carlow CKS, Starai VJ (2018). Identification of putative effectors of the Type IV secretion system from the Wolbachia endosymbiont of Brugia malayi. PLoS One. 13(9):e0204736. [PudMed:30261054]
(80) Dyer V, Brüggemann H, Sörensen M, Kühl AA, Hoffman K, Brinkmann V, Reines MDM, Zimmerman S, Meyer TF, Koch M (2018). Genomic features of the Helicobacter pylori strain PMSS1 and its virulence attributes as deduced from its in vivo colonisation patterns. Mol Microbiol. 110(5):761-776. [PudMed:30230643]
(81) Yan Q, Lin M, Huang W, Teymournejad O, Johnson JM, Hays FA, Liang Z, Li G, Rikihisa Y (2018). Ehrlichia type IV secretion system effector Etf-2 binds to active RAB5 and delays endosome maturation. Proc Natl Acad Sci U S A. 115(38):E8977-E8986. [PudMed:30181274]
(82) Kohler V, Goessweiner-Mohr N, Aufschnaiter A, Fercher C, Probst I, Pavkov-Keller T, Hunger K, Wolinski H, Büttner S, Grohmann E, Keller W (2018). TraN: A novel repressor of an Enterococcus conjugative type IV secretion system.. Nucleic Acids Res. 46(17):9201-9219. [PudMed:30060171]
(83) Koraimann G (2018). Spread and Persistence of Virulence and Antibiotic Resistance Genes: A Ride on the F Plasmid Conjugation Module. EcoSal Plus. 8(1). [PudMed:30022749]
(84) Dmowski M, Gołębiewski M, Kern-Zdanowicz I (2018). Characteristics of the Conjugative Transfer System of the IncM Plasmid pCTX-M3 and Identification of Its Putative Regulators. J Bacteriol. 200(18). pii: e00234-18. [PudMed:29986941]
(85) Mary C, Fouillen A, Bessette B, Nanci A, Baron C (2018). Interaction via the N terminus of the type IV secretion system (T4SS) protein VirB6 with VirB10 is required for VirB2 and VirB5 incorporation into T-pili and for T4SS function. J Biol Chem. 293(35):13415-13426. [PudMed:29976757]
(86) Shala-Lawrence A, Bragagnolo N, Nowroozi-Dayeni R, Kheyson S, Audette GF (2018). The interaction of TraW and TrbC is required to facilitate conjugation in F-like plasmids. Biochem Biophys Res Commun. 503(4):2386-2392. [PudMed:29966652]
(87) Lehman SS, Noriea NF, Aistleitner K, Clark TR, Dooley CA, Nair V, Kaur SJ, Rahman MS, Gillespie JJ, Azad AF, Hackstadt T (2018). The Rickettsial Ankyrin Repeat Protein 2 Is a Type IV Secreted Effector That Associates with the Endoplasmic Reticulum. MBio. 9(3):e00975-18. [PudMed:29946049]
(88) Rüter C, Lubos ML, Norkowski S, Schmidt MA (2018). All in-Multiple parallel strategies for intracellular delivery by bacterial pathogens. Int J Med Microbiol. 308(7):872-881. [PudMed:29936031]
(89) Yuan XY, Wang Y, Wang MY (2018). The type IV secretion system in Helicobacter pylori. Future Microbiol. 13:1041-1054. [PudMed:29927340]
(90) Nikoh N, Tsuchida T, Maeda T, Yamaguchi K, Shigenobu S, Koga R, Fukatsu T (2018). Genomic Insight into Symbiosis-Induced Insect Color Change by a Facultative Bacterial Endosymbiont, "Candidatus Rickettsiella viridis". MBio. 9(3). pii: e00890-18. [PudMed:29895637]
(91) Kohler V, Keller W, Grohmann E (2018). Enterococcus adhesin PrgB facilitates type IV secretion by condensation of extracellular DNA. Mol Microbiol. 109(3):263-267. [PudMed:29873122]
(92) Pruneau L, Lebrigand K, Mari B, Lefrançois T, Meyer DF, Vachiery N (2018). Comparative Transcriptome Profiling of Virulent and Attenuated Ehrlichia ruminantium Strains Highlighted Strong Regulation of map1- and Metabolism Related Genes. Front Cell Infect Microbiol. 8:153. [PudMed:29868509]
(93) Sternon JF, Godessart P, Gonçalves de Freitas R, Van der Henst M, Poncin K, Francis N, Willemart K, Christen M, Christen B, Letesson JJ, De Bolle X (2018). Transposon Sequencing of Brucella abortus Uncovers Essential Genes for Growth In Vitro and Inside Macrophages. Infect Immun. 86(8). pii: e00312-18. [PudMed:29844240]
(94) Chetrit D, Hu B, Christie PJ, Roy CR, Liu J (2018). A unique cytoplasmic ATPase complex defines the Legionella pneumophila type IV secretion channel. Nat Microbiol. 3(6):678-686. [PudMed:29784975]
(95) Casu B, Mary C, Sverzhinsky A, Fouillen A, Nanci A, Baron C (2018). VirB8 homolog TraE from plasmid pKM101 forms a hexameric ring structure and interacts with the VirB6 homolog TraD. Proc Natl Acad Sci U S A. 115(23):5950-5955. [PudMed:29784815]
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