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For: Pha K, Navarro L. Yersinia type III effectors perturb host innate immune responses. World J Biol Chem 2016; 7(1): 1-13 [PMID: 26981193 DOI: 10.4331/wjbc.v7.i1.1]
URL: https://www.wjgnet.com/1949-8454/full/v7/i1/1.htm
Number Citing Articles
1
Vartika Sharma, Surbhi Verma, Elena Seranova, Sovan Sarkar, Dhiraj Kumar. Selective Autophagy and Xenophagy in Infection and DiseaseFrontiers in Cell and Developmental Biology 2018; 6 doi: 10.3389/fcell.2018.00147
2
Jessica F. Brinkworth, Alexander S. Alvarado. Cell-Autonomous Immunity and The Pathogen-Mediated Evolution of Humans: Or How Our Prokaryotic and Single-Celled Origins Affect The Human Evolutionary StoryThe Quarterly Review of Biology 2020; 95(3) doi: 10.1086/710389
3
Huanying Pang, Mingsheng Qiu, Jingmin Zhao, Rowena Hoare, Sean J. Monaghan, Dawei Song, Yunsheng Chang, Jichang Jian. Construction of a Vibrio alginolyticus hopPmaJ (hop) mutant and evaluation of its potential as a live attenuated vaccine in orange-spotted grouper (Epinephelus coioides)Fish & Shellfish Immunology 2018; 76 doi: 10.1016/j.fsi.2018.02.012
4
Svetlana N. Klyueva, Svetlana A. Bugorkova, Pavel S. Erokhin, Anastasiya Yu. Goncharova, Aleksandr L. Kravtsov. Influence of <i>Yersinia pestis</i> with different plasmid composition on the erythrocyte membrane in the blood of guinea pigsJournal of microbiology, epidemiology and immunobiology 2024; 101(3) doi: 10.36233/0372-9311-471
5
Weijie Zhang, Chao Huang, Zhihang Chen, Dawei Song, Yujia Zhang, Shuai Yang, Na Wang, Jichang Jian, Huanying Pang. Vibrio alginolyticus Reprograms CIK Cell Metabolism via T3SS Effector VopS to Promote Host Cell FerroptosisAnimals 2024; 14(22) doi: 10.3390/ani14223250
6
Wiebke Heine, Michael Beckstette, Ann Kathrin Heroven, Sophie Thiemann, Ulrike Heise, Aaron Mischa Nuss, Fabio Pisano, Till Strowig, Petra Dersch, Denise M. Monack. Loss of CNFY toxin-induced inflammation drives Yersinia pseudotuberculosis into persistencyPLOS Pathogens 2018; 14(2) doi: 10.1371/journal.ppat.1006858
7
Karen Helena Keddy, Anthony M. Smith. Gastrointestinal Diseases and their Associated Infections2019;  doi: 10.1016/B978-0-323-54843-4.00012-X
8
Alexandra N. Ii, Shih-Chao Lin, Benjamin Lepene, Weidong Zhou, Kylene Kehn-Hall, Monique L. van Hoek. Use of magnetic nanotrap particles in capturing Yersinia pestis virulence factors, nucleic acids and bacteriaJournal of Nanobiotechnology 2021; 19(1) doi: 10.1186/s12951-021-00859-8
9
Erwin Bohn, Michael Sonnabend, Kristina Klein, Ingo B. Autenrieth. Bacterial adhesion and host cell factors leading to effector protein injection by type III secretion systemInternational Journal of Medical Microbiology 2019; 309(5) doi: 10.1016/j.ijmm.2019.05.008
10
Yangxi Xiang, Weikang Liang, Fa Dai, Yina Shao, Si Zhu, Chenghua Li. Vibrio splendidus virulence factor hop mediates coelomocytes apoptosis by interacting with HSC70 to promote JNK phosphorylation in Apostichopus japonicusAquaculture 2025; 602 doi: 10.1016/j.aquaculture.2025.742326
11
Samantha G. Palace, Megan K. Proulx, Rose L. Szabady, Jon D. Goguen, Craig R. Roy. Gain-of-Function Analysis Reveals Important Virulence Roles for the Yersinia pestis Type III Secretion System Effectors YopJ, YopT, and YpkAInfection and Immunity 2018; 86(9) doi: 10.1128/IAI.00318-18
12
Hanh Lam, Joshua Schwochert, Yongtong Lao, Tannia Lau, Cameron Lloyd, Justin Luu, Olivia Kooner, Jessica Morgan, Scott Lokey, Victoria Auerbuch. Synthetic Cyclic Peptomers as Type III Secretion System InhibitorsAntimicrobial Agents and Chemotherapy 2017; 61(9) doi: 10.1128/AAC.00060-17
13
Natasha P. Medici, Maheen Rashid, James B. Bliska, Craig R. Roy. Characterization of Pyrin Dephosphorylation and Inflammasome Activation in Macrophages as Triggered by the Yersinia Effectors YopE and YopT Infection and Immunity 2019; 87(3) doi: 10.1128/IAI.00822-18
14
Gertrudis Horna, Joaquim Ruiz. Type 3 secretion system as an anti-Pseudomonal targetMicrobial Pathogenesis 2021; 155 doi: 10.1016/j.micpath.2021.104907
15
Jaclyn S. Pearson, James M. Murphy. Down the rabbit hole: Is necroptosis truly an innate response to infection?Cellular Microbiology 2017; 19(8) doi: 10.1111/cmi.12750
16
Sarp Bamyaci, Roland Nordfelth, Åke Forsberg. Identification of specific sequence motif of YopN ofYersinia pseudotuberculosisrequired for systemic infectionVirulence 2019; 10(1) doi: 10.1080/21505594.2018.1551709
17
Jyoti M. Gurung, Ayad A. A. Amer, Shiyun Chen, Andreas Diepold, Matthew S. Francis. TypeIIIsecretion byYersinia pseudotuberculosisis reliant upon an authentic N‐terminalYscXsecretor domainMolecular Microbiology 2022; 117(4) doi: 10.1111/mmi.14880
18
Soheila Javadi, Stephan Pienkoß, Dominik Meggers, Andrea Wimbert, Vivian B. Brandenburg, Pascal Dietze, Sina Schäkermann, Lilo Greune, Petra Dersch, Franz Narberhaus, Eric Oswald. Fis suppresses late-stage virulence gene expression in Yersinia pseudotuberculosis at environmental temperaturesPLOS Pathogens 2026; 22(3) doi: 10.1371/journal.ppat.1014105
19
Jarett A. Seabaugh, Deborah M. Anderson. Pathogenicity and virulence of Yersinia Virulence 2024; 15(1) doi: 10.1080/21505594.2024.2316439
20
Francesca Ermoli, Gabriele Malengo, Christoph Spahn, Corentin Brianceau, Timo Glatter, Andreas Diepold, Jon Paczkowski. Yersinia actively downregulates type III secretion and adhesion at higher cell densitiesPLOS Pathogens 2025; 21(8) doi: 10.1371/journal.ppat.1013423
21
Kaiwen Mu, Danni Wang, David D. Kitts. Molecular Mechanisms That Define Redox Balance Function in Pathogen-Host Interactions—Is There a Role for Dietary Bioactive Polyphenols?International Journal of Molecular Sciences 2019; 20(24) doi: 10.3390/ijms20246222
22
N. A. Terentieva, N. F. Timchenko, V. A. Golotin, V. A. Rasskazov. BIOLOGICAL ACTIVITY OF YERSINIA PSEUDOTUBERCULOSIS TOXINSJournal of microbiology, epidemiology and immunobiology 2016; 93(6) doi: 10.36233/0372-9311-2016-6-10-19
23
Yuding Weng, Fei Chen, Yiwei Liu, Qiang Zhao, Ronghao Chen, Xiaolei Pan, Chang Liu, Zhihui Cheng, Shouguang Jin, Yongxin Jin, Weihui Wu. Pseudomonas aeruginosa Enolase Influences Bacterial Tolerance to Oxidative Stresses and VirulenceFrontiers in Microbiology 2016; 7 doi: 10.3389/fmicb.2016.01999
24
Shihui Zhou, Xueting Tu, Huanying Pang, Rowena Hoare, Sean J. Monaghan, Jiajun Luo, Jichan Jian. A T3SS Regulator Mutant of Vibrio alginolyticus Affects Antibiotic Susceptibilities and Provides Significant Protection to Danio rerio as a Live Attenuated VaccineFrontiers in Cellular and Infection Microbiology 2020; 10 doi: 10.3389/fcimb.2020.00183
25
V. I. Tynyanova, E. P. Sokolova, V. P. Zyuzina, G. V. Demidova. Yersinia pestis pathogenicityJournal of microbiology, epidemiology and immunobiology 2019; 96(3) doi: 10.36233/0372-9311-2019-3-99-109
26
Laurie Pinaud, Philippe J. Sansonetti, Armelle Phalipon. Host Cell Targeting by Enteropathogenic Bacteria T3SS EffectorsTrends in Microbiology 2018; 26(4) doi: 10.1016/j.tim.2018.01.010
27
Christy E. Manyi-Loh, Ryk Lues. A South African Perspective on the Microbiological and Chemical Quality of Meat: Plausible Public Health ImplicationsMicroorganisms 2023; 11(10) doi: 10.3390/microorganisms11102484
28
Halie K. Miller, Leah Schwiesow, Winnie Au-Yeung, Victoria Auerbuch. Hereditary Hemochromatosis Predisposes Mice to Yersinia pseudotuberculosis Infection Even in the Absence of the Type III Secretion SystemFrontiers in Cellular and Infection Microbiology 2016; 6 doi: 10.3389/fcimb.2016.00069
29
Roisin Sullivan, Joy A. Becker, Ruth N. Zadoks, Carola Venturini, Ana I. S. Esteves, Suresh Benedict, Dani L. Fornarino, Hannah Andrews, God’spower R. Okoh, Vidya Bhardwaj, Mark Sistrom, Mark E. Westman, Nguyen Ngoc Phuoc, Francisca Samsing, Inbakandan Dhinakarasamy. Vibrio harveyi plasmids as drivers of virulence in barramundi (Lates calcarifer)PLOS One 2025; 20(5) doi: 10.1371/journal.pone.0319450
30
Salah I. Farag, Monika K. Francis, Jyoti M. Gurung, Sun Nyunt Wai, Hans Stenlund, Matthew S. Francis, Aftab Nadeem. Macrophage innate immune responses delineate between defective translocon assemblies produced by Yersinia pseudotuberculosis YopD mutants Virulence 2023; 14(1) doi: 10.1080/21505594.2023.2249790
31
Adam A. Aboalroub. Pathogenic Proteins Through the Lens of NMR Spectroscopy: Structural and Functional Insights into DiseaseCell Biochemistry and Biophysics 2025; 83(4) doi: 10.1007/s12013-025-01869-1
32
Karen Hug, Erin Mettert, Melissa Estrada Escobar, Cristina Vargas Vazquez, David Balderas, Sarvind Tripathi, Laya Ashley, Patricia J. Kiley, Victoria Auerbuch. Regulation of the Yersinia pseudotuberculosis Type III Secretion System by the CpxAR Two‐Component SystemMolecular Microbiology 2026; 126(1) doi: 10.1111/mmi.70076
33
Qiuting Zhuang, Fa Dai, Xuelin Zhao, Yina Shao, Ming Guo, Zhimeng Lv, Chenghua Li, Weiwei Zhang. Cloning and characterization of the virulence factor Hop from Vibrio splendidusMicrobial Pathogenesis 2020; 139 doi: 10.1016/j.micpath.2019.103900
34
Benjamin Grabowski, M. Alexander Schmidt, Christian Rüter. Immunomodulatory Yersinia outer proteins (Yops)–useful tools for bacteria and humans alikeVirulence 2017; 8(7) doi: 10.1080/21505594.2017.1303588
35
Amber R Paulson, Maureen O’Callaghan, Xue-Xian Zhang, Paul B Rainey, Mark R H Hurst, B Oliver. In vivo transcriptome analysis provides insights into host-dependent expression of virulence factors by Yersinia entomophaga MH96, during infection of Galleria mellonella G3 Genes|Genomes|Genetics 2021; 11(1) doi: 10.1093/g3journal/jkaa024
36
Matthew S. Francis, Victoria Auerbuch. Editorial: The Pathogenic Yersiniae–Advances in the Understanding of Physiology and Virulence, Second EditionFrontiers in Cellular and Infection Microbiology 2019; 9 doi: 10.3389/fcimb.2019.00119
37
Bailey Milne-Davies, Carlos Helbig, Stephan Wimmi, Dorothy W. C. Cheng, Nicole Paczia, Andreas Diepold. Life After Secretion—Yersinia enterocolitica Rapidly Toggles Effector Secretion and Can Resume Cell Division in Response to Changing External ConditionsFrontiers in Microbiology 2019; 10 doi: 10.3389/fmicb.2019.02128
38
Samantha G. Palace, Olga Vitseva, Megan K. Proulx, Jane E. Freedman, Jon D. Goguen, Milka Koupenova. Yersinia pestis escapes entrapment in thrombi by targeting platelet functionJournal of Thrombosis and Haemostasis 2020; 18(12) doi: 10.1111/jth.15065
39
Özge Uğurlu, Fırat Barış Barlas, Serap Evran, Suna Timur. The cell-penetrating YopM protein-functionalized quantum dot-plasmid DNA conjugate as a novel gene delivery vectorPlasmid 2020; 110 doi: 10.1016/j.plasmid.2020.102513
40
G. A. Eroshenko, L. M. Kukleva. Pathogenicity Factors and Interaction of the Plague Pathogen with the Organism of Warm-Blooded CarriersProblems of Particularly Dangerous Infections 2025; (3) doi: 10.21055/0370-1069-2025-3-37-48
41
Dandan Zheng, Lihong Chen, Guansong Pang, Jian Yang. PLM-effector: unleashing the potential of protein language models for bacterial secreted protein predictionBriefings in Bioinformatics 2026; 27(2) doi: 10.1093/bib/bbag143
42
Andi Dhroso, Samantha Eidson, Dmitry Korkin. Genome-wide prediction of bacterial effector candidates across six secretion system types using a feature-based statistical frameworkScientific Reports 2018; 8(1) doi: 10.1038/s41598-018-33874-1
43
Keke Fei, Huan Yan, Xiaoyan Zeng, Shaojia Huang, Wei Tang, Matthew S. Francis, Shiyun Chen, Yangbo Hu, Jeff F. Miller. LcrQ Coordinates with the YopD-LcrH Complex To Repress lcrF Expression and Control Type III Secretion by Yersinia pseudotuberculosis mBio 2021; 12(3) doi: 10.1128/mBio.01457-21
44
Amanda R. Pulsifer, Aruna Vashishta, Shane A. Reeves, Jennifer K. Wolfe, Samantha G. Palace, Megan K. Proulx, Jon Goguen, Sobha R. Bodduluri, Bodduluri Haribabu, Silvia M. Uriarte, Matthew B. Lawrenz, Igor E. Brodsky. Redundant and Cooperative Roles for Yersinia pestis Yop Effectors in the Inhibition of Human Neutrophil Exocytic Responses Revealed by Gain-of-Function ApproachInfection and Immunity 2020; 88(3) doi: 10.1128/IAI.00909-19
45
Stephan Wimmi, Alexander Balinovic, Hannah Jeckel, Lisa Selinger, Dimitrios Lampaki, Emma Eisemann, Ina Meuskens, Dirk Linke, Knut Drescher, Ulrike Endesfelder, Andreas Diepold. Dynamic relocalization of cytosolic type III secretion system components prevents premature protein secretion at low external pHNature Communications 2021; 12(1) doi: 10.1038/s41467-021-21863-4