Nucleoside Uptake in Vibrio Cholerae and Its Role in the Transition Fitness from Host to Environment

Overview

Journal Mol Microbiol

Specialties Microbiology
Molecular Biology

Date 2015 Jul 24

PMID 26202476

Citations 18

Authors

Tanja Gumpenberger

Dina Vorkapic

Franz G Zingl

Katharina Pressler

Stefanie Lackner

Andrea Seper

Joachim Reidl

Stefan Schild

Affiliations

Soon will be listed here.

Abstract

As it became evident recently, extracellular DNA could be a versatile nutrient source of the facultative pathogen Vibrio cholerae along the different stages of its life cycle. By the use of two extracellular nucleases and periplasmic phosphatases, V. cholerae degrades extracellular DNA to nucleosides. In this study, we investigated the nucleoside uptake via identification and characterization of VCA0179, VC1953 and VC2352 representing the three nucleoside transport systems in V. cholerae. Based on our results VC2352 seems to be the dominant nucleoside transporter. Nevertheless, all three transporters are functional and can contribute to the utilization of nucleosides as a sole source of carbon or nitrogen. We found that the transcriptional activity of these three distal genes is equally promoted or antagonized by CRP or CytR respectively. Finally, mutants impaired for nucleoside uptake exhibit decreased transition fitness from the host into low carbon environments along the life cycle of V. cholerae.

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