Proteomics analysis of the regulatory role of Rpf/DSF cell-to-cell signaling system in the virulence of xanthomonas campestris
Proteomics analysis of the regulatory role of Rpf/DSF cell-to-cell signaling system in the virulence of xanthomonas campestris
The black rot pathogen Xanthomonas campestris utilizes molecules of the diffusible signal factor (DSF) family as signals to regulate diverse processes contributing to virulence. DSF signal synthesis and transduction requires proteins encoded by the rpf gene cluster. RpfF catalyzes DSF synthesis, whereas the RpfCG two-component system links the perception of DSF to alteration in the level of the second messenger cyclic di-GMP. As this nucleotide can exert a regulatory influence at the post-transcriptional and posttranslational levels, we have used comparative proteomics to identify Rpf-regulated processes in X. campestris that may not be revealed by transcriptomics. The abundance of a number of proteins was altered in rpfF, rpfC, or rpfG mutants compared with the wild type. These proteins belonged to several functional categories, including biosynthesis and intermediary metabolism, regulation, oxidative stress or antibiotic resistance, and DNA replication. For many of these proteins, the alteration in abundance was not associated with alteration in transcript level. A directed mutational analysis allowed us to describe a number of new virulence factors among these proteins, including elongation factor P and a putative outer membrane protein, which are both widely conserved in bacteria.
1131-1137
O'Connell, Aileen
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An, Shi Qi
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McCarthy, Yvonne
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Schulte, Fabian
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Niehaus, Karsten
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He, Yong Qiang
054fa877-72e1-456d-85b2-fc607eba4700
Tang, Ji Liang
74e46e1a-4f75-4c94-871d-317339f309f2
Ryan, Robert P.
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Dow, J. Maxwell
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October 2013
O'Connell, Aileen
b778c8c9-baf5-4bcd-b089-d76632a005d5
An, Shi Qi
0e05f480-cec1-4c0e-bc1d-359d30ea9a6e
McCarthy, Yvonne
63ab1257-a428-427a-a560-30d6bd3922e3
Schulte, Fabian
109d941a-cc07-417b-9853-294d53b384f3
Niehaus, Karsten
ada66560-de11-453f-8559-5bb07b1ce7ed
He, Yong Qiang
054fa877-72e1-456d-85b2-fc607eba4700
Tang, Ji Liang
74e46e1a-4f75-4c94-871d-317339f309f2
Ryan, Robert P.
cd9f1e35-9ffe-456f-a64e-798b1f520298
Dow, J. Maxwell
a904f493-80b4-4868-999f-af843fff1063
O'Connell, Aileen, An, Shi Qi, McCarthy, Yvonne, Schulte, Fabian, Niehaus, Karsten, He, Yong Qiang, Tang, Ji Liang, Ryan, Robert P. and Dow, J. Maxwell
(2013)
Proteomics analysis of the regulatory role of Rpf/DSF cell-to-cell signaling system in the virulence of xanthomonas campestris.
Molecular Plant-Microbe Interactions, 26 (10), .
(doi:10.1094/MPMI-05-13-0155-R).
Abstract
The black rot pathogen Xanthomonas campestris utilizes molecules of the diffusible signal factor (DSF) family as signals to regulate diverse processes contributing to virulence. DSF signal synthesis and transduction requires proteins encoded by the rpf gene cluster. RpfF catalyzes DSF synthesis, whereas the RpfCG two-component system links the perception of DSF to alteration in the level of the second messenger cyclic di-GMP. As this nucleotide can exert a regulatory influence at the post-transcriptional and posttranslational levels, we have used comparative proteomics to identify Rpf-regulated processes in X. campestris that may not be revealed by transcriptomics. The abundance of a number of proteins was altered in rpfF, rpfC, or rpfG mutants compared with the wild type. These proteins belonged to several functional categories, including biosynthesis and intermediary metabolism, regulation, oxidative stress or antibiotic resistance, and DNA replication. For many of these proteins, the alteration in abundance was not associated with alteration in transcript level. A directed mutational analysis allowed us to describe a number of new virulence factors among these proteins, including elongation factor P and a putative outer membrane protein, which are both widely conserved in bacteria.
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Published date: October 2013
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Local EPrints ID: 425816
URI: http://eprints.soton.ac.uk/id/eprint/425816
ISSN: 0894-0282
PURE UUID: ab80291d-382f-40ef-b551-9a19fa91a5ff
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Date deposited: 05 Nov 2018 17:30
Last modified: 15 Mar 2024 22:29
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Author:
Aileen O'Connell
Author:
Shi Qi An
Author:
Yvonne McCarthy
Author:
Fabian Schulte
Author:
Karsten Niehaus
Author:
Yong Qiang He
Author:
Ji Liang Tang
Author:
Robert P. Ryan
Author:
J. Maxwell Dow
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