Import of Aspartate and Malate by DcuABC Drives H2/Fumarate Respiration to Promote Initial Salmonella Gut-Lumen Colonization in Mice

Bidong D. Nguyen; V Miguelangel Cuenca; Johannes Hartl; Ersin Gül; Rebekka Bauer; Susanne Meile; Joel Rüthi; Céline Margot; Laura Heeb; Franziska Besser; Shinichi Sunagawa; Beat Christen; Wolf-Dietrich Hardt

doi:https://doi.org/10.1016/j.chom.2020.04.013

doi.org/10.1016/j.chom.2020.04.013

Import of Aspartate and Malate by DcuABC Drives H2/Fumarate Respiration to Promote Initial Salmonella Gut-Lumen Colonization in Mice

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..., Wolf-Dietrich Hardt

68

Cell Host & Microbe30.30

Volume: 27, Issue: 6, Pages: 922 - 936.e6

Published: Jun 1, 2020

Abstract

Initial enteropathogen growth in the microbiota-colonized gut is poorly understood. Salmonella Typhimurium is metabolically adaptable and can harvest energy by anaerobic respiration using microbiota-derived hydrogen (H2) as an electron donor and fumarate as an electron acceptor. As fumarate is scarce in the gut, the source of this electron acceptor is unclear. Here, transposon sequencing analysis along the colonization trajectory of S....

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Paper Details

Title

Import of Aspartate and Malate by DcuABC Drives H2/Fumarate Respiration to Promote Initial Salmonella Gut-Lumen Colonization in Mice

DOI

doi.org/10.1016/j.chom.2020.04.013

Published Date

Jun 1, 2020

Journal

Cell Host & Microbe

Volume

27

Issue

6

Pages

922 - 936.e6

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