Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.

Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.

During evolution, pathogens have developed a variety of strategies to suppress plant-triggered immunity and promote successful infection. In Gram-negative phytopathogenic bacteria, the so-called type III protein secretion system works as a molecular syringe to inject type III effectors (T3Es) into p...

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Main Authors: Joanne Canonne, Daniel Marino, Laurent D Noël, Ignacio Arechaga, Carole Pichereaux, Michel Rossignol, Dominique Roby, Susana Rivas
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-12-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3008746?pdf=render
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spelling doaj-b59d86e9b1864d8899ab9a96a024cdaa2020-11-24T21:52:55ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-12-01512e1577310.1371/journal.pone.0015773Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.Joanne CanonneDaniel MarinoLaurent D NoëlIgnacio ArechagaCarole PichereauxMichel RossignolDominique RobySusana RivasDuring evolution, pathogens have developed a variety of strategies to suppress plant-triggered immunity and promote successful infection. In Gram-negative phytopathogenic bacteria, the so-called type III protein secretion system works as a molecular syringe to inject type III effectors (T3Es) into plant cells. The XopD T3E from the strain 85-10 of Xanthomonas campestris pathovar vesicatoria (Xcv) delays the onset of symptom development and alters basal defence responses to promote pathogen growth in infected tomato leaves. XopD was previously described as a modular protein that contains (i) an N-terminal DNA-binding domain (DBD), (ii) two tandemly repeated EAR (ERF-associated amphiphillic repression) motifs involved in transcriptional repression, and (iii) a C-terminal cysteine protease domain, involved in release of SUMO (small ubiquitin-like modifier) from SUMO-modified proteins. Here, we show that the XopD protein that is produced and secreted by Xcv presents an additional N-terminal extension of 215 amino acids. Closer analysis of this newly identified N-terminal domain shows a low complexity region rich in lysine, alanine and glutamic acid residues (KAE-rich) with high propensity to form coiled-coil structures that confers to XopD the ability to form dimers when expressed in E. coli. The full length XopD protein identified in this study (XopD(1-760)) displays stronger repression of the XopD plant target promoter PR1, as compared to the XopD version annotated in the public databases (XopD(216-760)). Furthermore, the N-terminal extension of XopD, which is absent in XopD(216-760), is essential for XopD type III-dependent secretion and, therefore, for complementation of an Xcv mutant strain deleted from XopD in its ability to delay symptom development in tomato susceptible cultivars. The identification of the complete sequence of XopD opens new perspectives for future studies on the XopD protein and its virulence-associated functions in planta.http://europepmc.org/articles/PMC3008746?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Joanne Canonne
Daniel Marino
Laurent D Noël
Ignacio Arechaga
Carole Pichereaux
Michel Rossignol
Dominique Roby
Susana Rivas
spellingShingle Joanne Canonne
Daniel Marino
Laurent D Noël
Ignacio Arechaga
Carole Pichereaux
Michel Rossignol
Dominique Roby
Susana Rivas
Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.
PLoS ONE
author_facet Joanne Canonne
Daniel Marino
Laurent D Noël
Ignacio Arechaga
Carole Pichereaux
Michel Rossignol
Dominique Roby
Susana Rivas
author_sort Joanne Canonne
title Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.
title_short Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.
title_full Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.
title_fullStr Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.
title_full_unstemmed Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD.
title_sort detection and functional characterization of a 215 amino acid n-terminal extension in the xanthomonas type iii effector xopd.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-12-01
description During evolution, pathogens have developed a variety of strategies to suppress plant-triggered immunity and promote successful infection. In Gram-negative phytopathogenic bacteria, the so-called type III protein secretion system works as a molecular syringe to inject type III effectors (T3Es) into plant cells. The XopD T3E from the strain 85-10 of Xanthomonas campestris pathovar vesicatoria (Xcv) delays the onset of symptom development and alters basal defence responses to promote pathogen growth in infected tomato leaves. XopD was previously described as a modular protein that contains (i) an N-terminal DNA-binding domain (DBD), (ii) two tandemly repeated EAR (ERF-associated amphiphillic repression) motifs involved in transcriptional repression, and (iii) a C-terminal cysteine protease domain, involved in release of SUMO (small ubiquitin-like modifier) from SUMO-modified proteins. Here, we show that the XopD protein that is produced and secreted by Xcv presents an additional N-terminal extension of 215 amino acids. Closer analysis of this newly identified N-terminal domain shows a low complexity region rich in lysine, alanine and glutamic acid residues (KAE-rich) with high propensity to form coiled-coil structures that confers to XopD the ability to form dimers when expressed in E. coli. The full length XopD protein identified in this study (XopD(1-760)) displays stronger repression of the XopD plant target promoter PR1, as compared to the XopD version annotated in the public databases (XopD(216-760)). Furthermore, the N-terminal extension of XopD, which is absent in XopD(216-760), is essential for XopD type III-dependent secretion and, therefore, for complementation of an Xcv mutant strain deleted from XopD in its ability to delay symptom development in tomato susceptible cultivars. The identification of the complete sequence of XopD opens new perspectives for future studies on the XopD protein and its virulence-associated functions in planta.
url http://europepmc.org/articles/PMC3008746?pdf=render
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