HrcQ Provides a Docking Site for Early and Late Type III Secretion Substrates from Xanthomonas

Lorenz, Robert Christian; Hausner, Jens; Büttner, Daniela

doi:10.1371/journal.pone.0051063

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HrcQ Provides a Docking Site for Early and Late Type III Secretion Substrates from Xanthomonas

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Author(s): Christian Lorenz , Jens Hausner , Daniela Büttner ^*

Editor(s): Eric Cascales

Publication date (Electronic): 30 November 2012

Journal: PLoS ONE

Publisher: Public Library of Science

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Abstract

Pathogenicity of many Gram-negative bacteria depends on a type III secretion (T3S) system which translocates bacterial effector proteins into eukaryotic cells. The membrane-spanning secretion apparatus is associated with a cytoplasmic ATPase complex and a predicted cytoplasmic (C) ring structure which is proposed to provide a substrate docking platform for secreted proteins. In this study, we show that the putative C ring component HrcQ from the plant pathogenic bacterium Xanthomonas campestris pv. vesicatoria is essential for bacterial pathogenicity and T3S. Fractionation studies revealed that HrcQ localizes to the cytoplasm and associates with the bacterial membranes under T3S-permissive conditions. HrcQ binds to the cytoplasmic T3S-ATPase HrcN, its predicted regulator HrcL and the cytoplasmic domains of the inner membrane proteins HrcV and HrcU. Furthermore, we observed an interaction between HrcQ and secreted proteins including early and late T3S substrates. HrcQ might therefore act as a general substrate acceptor site of the T3S system and is presumably part of a larger protein complex. Interestingly, the N-terminal export signal of the T3S substrate AvrBs3 is dispensable for the interaction with HrcQ, suggesting that binding of AvrBs3 to HrcQ occurs after its initial targeting to the T3S system.

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Most cited references 64

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Replication of an origin-containing derivative of plasmid RK2 dependent on a plasmid function provided in trans.

D Figurski, D Helinski (1979)

pRK212.2, a derivative of the broad host range plasmid RK2, contains two EcoRI cleavage fragments, A and B, neither of which can replicate by itself in Escherichia coli. Fragment A (41.7 kilobases), but not fragment B (14.4 kilobases), can be cloned by insertion into the unrelated plasmids mini-F and ColE1. Fragment B contains the origin of replication and the ampicillin-resistance determinant of RK2. Transformation of E. coli cells containing the mini-F-fragment A hybrid plasmid with fragment B DNA results in the recircularization and replication of fragment B as a nonmobilizable plasmid (pRK2067) with the copy number and incompatibility properties of RK2. Fragment B cannot be cloned in the absence of fragment A because the latter fragment suppresses a function, specified by fragment B, that results in loss of host cell viability. A small segment (2.4 kilobases) of fragment B that contains the RK2 origin of replication but no longer affects host cell growth in the absence of fragment A had been cloned previously by insertion into a ColE1 plasmid. This hybrid plasmid, designated pRK256, will replicate in E. coli polA mutants only when a fragment A-bearing helper plasmid is present. These results demonstrate that the potentially lethal function specified by fragment B of RK2 is not necessary for replication and that at least one trans-acting function is directly involved in RK2 replication.

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Regulation and secretion of Xanthomonas virulence factors.

Daniela Büttner, Ulla Bonas (2010)

Plant pathogenic bacteria of the genus Xanthomonas cause a variety of diseases in economically important monocotyledonous and dicotyledonous crop plants worldwide. Successful infection and bacterial multiplication in the host tissue often depend on the virulence factors secreted including adhesins, polysaccharides, LPS and degradative enzymes. One of the key pathogenicity factors is the type III secretion system, which injects effector proteins into the host cell cytosol to manipulate plant cellular processes such as basal defense to the benefit of the pathogen. The coordinated expression of bacterial virulence factors is orchestrated by quorum-sensing pathways, multiple two-component systems and transcriptional regulators such as Clp, Zur, FhrR, HrpX and HpaR. Furthermore, virulence gene expression is post-transcriptionally controlled by the RNA-binding protein RsmA. In this review, we summarize the current knowledge on the infection strategies and regulatory networks controlling secreted virulence factors from Xanthomonas species.

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Protein export according to schedule: architecture, assembly, and regulation of type III secretion systems from plant- and animal-pathogenic bacteria.

Daniela Büttner (2012)

Flagellar and translocation-associated type III secretion (T3S) systems are present in most gram-negative plant- and animal-pathogenic bacteria and are often essential for bacterial motility or pathogenicity. The architectures of the complex membrane-spanning secretion apparatuses of both systems are similar, but they are associated with different extracellular appendages, including the flagellar hook and filament or the needle/pilus structures of translocation-associated T3S systems. The needle/pilus is connected to a bacterial translocon that is inserted into the host plasma membrane and mediates the transkingdom transport of bacterial effector proteins into eukaryotic cells. During the last 3 to 5 years, significant progress has been made in the characterization of membrane-associated core components and extracellular structures of T3S systems. Furthermore, transcriptional and posttranscriptional regulators that control T3S gene expression and substrate specificity have been described. Given the architecture of the T3S system, it is assumed that extracellular components of the secretion apparatus are secreted prior to effector proteins, suggesting that there is a hierarchy in T3S. The aim of this review is to summarize our current knowledge of T3S system components and associated control proteins from both plant- and animal-pathogenic bacteria.

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Author and article information

Contributors

Eric Cascales: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, USA )

ISSN (Electronic): 1932-6203

Publication date Collection: 2012

Publication date (Electronic): 30 November 2012

Volume: 7

Issue: 11

Electronic Location Identifier: e51063

Affiliations

[1]Institute of Biology, Genetics Department, Martin Luther University Halle-Wittenberg, Halle (Saale), Germany

Centre National de la Recherche Scientifique, Aix-Marseille Université, France

Author notes

* E-mail: daniela.buettner@ 123456genetik.uni-halle.de

Competing Interests: The authors have declared that no competing interests exist.

Conceived and designed the experiments: CL JH DB. Performed the experiments: CL JH DB. Analyzed the data: CL JH DB. Contributed reagents/materials/analysis tools: CL JH DB. Wrote the paper: DB.

[¤]

Current address: Department of Microbiology and Molecular Genetics, Harvard Medical School, Boston, Massachusetts, United States of America

Article

Publisher ID: PONE-D-12-22101

DOI: 10.1371/journal.pone.0051063

PMC ID: 3511370

PubMed ID: 23226460

SO-VID: 76871d51-3fdc-4470-835b-56019ca03146

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This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 26 July 2012

Date accepted : 29 October 2012

Page count

Pages: 14

Funding

This work was supported by grants from the Deutsche Forschungsgemeinschaft (BU 2145/5-1; Sonderforschungsbereich SFB 648) to D.B. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

HrcQ Provides a Docking Site for Early and Late Type III Secretion Substrates from Xanthomonas

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Most cited references 64

Replication of an origin-containing derivative of plasmid RK2 dependent on a plasmid function provided in trans.

Regulation and secretion of Xanthomonas virulence factors.

Protein export according to schedule: architecture, assembly, and regulation of type III secretion systems from plant- and animal-pathogenic bacteria.

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