Proteomics

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Detailed map of the Pseudomonas aeruginosa Crc regulon using a new parameter for tracking post-transcriptional regulation


ABSTRACT: Bacterial physiology in general and the bacterial response to the presence of nutrients and to external signals in particular is regulated at different levels, from mRNA synthesis to translational regulation and protein modification. However, there are not standardized parameters for defining post-transcriptional regulation. Herein, we propose a simple parameter, dubbed post-transcriptional variation (PTV), that allow extracting information on translational regulation from the combined analysis of transcriptomic and proteomic data. We have applied this parameter for precisely defining the regulon of the Pseudomonas aeruginosa post-transcriptional regulator Crc. P. aeruginosa is a free-living microorganism that, besides colonizing a diversity of environmental habitats, is able to infect a large number of patients at hospitals. Part of the ability of P. aeruginosa for colonizing such a variety of habitats relies on its capability of using a large number of carbon sources. This hierarchical assimilation is regulated by Crc, which together with Hfq, binds its target RNA impeding their translation when catabolite repression is triggered. Most studies cannot provide information on post-transcriptional regulation when analysed independently. Using the defined PTV parameter, we present a comprehensive map of the Crc post-transcriptional regulon.

INSTRUMENT(S): TripleTOF 5600

ORGANISM(S): Pseudomonas Aeruginosa Pao1

TISSUE(S): Cell Culture

SUBMITTER: Concha Gil  

LAB HEAD: José Luis Martínez

PROVIDER: PXD009809 | Pride | 2018-11-13

REPOSITORIES: Pride

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Publications

The global regulator Crc orchestrates the metabolic robustness underlying oxidative stress resistance in Pseudomonas aeruginosa.

Corona Fernando F   Martínez José Luis JL   Nikel Pablo I PI  

Environmental microbiology 20181216 3


The remarkable metabolic versatility of bacteria of the genus Pseudomonas enable their survival across very diverse environmental conditions. P. aeruginosa, one of the most relevant opportunistic pathogens, is a prime example of this adaptability. The interplay between regulatory networks that mediate these metabolic and physiological features is just starting to be explored in detail. Carbon catabolite repression, governed by the Crc protein, controls the availability of several enzymes and tra  ...[more]

Publication: 1/2

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