Benjamin Gourion

Overview

Explore the profile of Benjamin Gourion including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 34

Citations 802

Followers 0

Related Specialties

Biology

Science

Microbiology

Top 10 Co-Authors

Pascal Ratet

Fathi Berrabah

Julia A Vorholt

Marie Bourcy

Benoit Alunni

Eric Giraud

Anne Francez-Charlot

Marie-Francoise Jardinaud

Claire Benezech

Veronique Gruber

Published In

New Phytol

Mol Plant Microbe Interact

PLoS One

Proc Natl Acad Sci U S A

Plant Signal Behav

Affiliations

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Recent Articles

11.

--: A Model System to Investigate Pathogen-Triggered Inhibition of Nodulation

Benezech C, Le Scornet A, Gourion B

Mol Plant Microbe Interact . 2021 Feb; 34(5):499-503. PMID: 33596110

How plants deal with beneficial and pathogenic microorganisms and how they can tolerate beneficial ones and face pathogens at the same time are questions that remain puzzling to plant biologists....

12.

Medicago-Sinorhizobium-Ralstonia Co-infection Reveals Legume Nodules as Pathogen Confined Infection Sites Developing Weak Defenses

Benezech C, Berrabah F, Jardinaud M, Le Scornet A, Milhes M, Jiang G, et al.

Curr Biol . 2020 Jan; 30(2):351-358.e4. PMID: 31902730

Legumes have the capacity to develop root nodules hosting nitrogen-fixing bacteria, called rhizobia. For the plant, the benefit of the symbiosis is important in nitrogen-deprived conditions, but it requires hosting...

13.

Legumes tolerance to rhizobia is not always observed and not always deserved

Benezech C, Doudement M, Gourion B

Cell Microbiol . 2019 Oct; 22(1):e13124. PMID: 31610071

Rhizobia display dual lifestyle. These bacteria are soil inhabitants but can also elicit the formation of a special niche on the root of legume plants, the nodules. In such organs,...

14.

Legume Nodules: Massive Infection in the Absence of Defense Induction

Berrabah F, Ratet P, Gourion B

Mol Plant Microbe Interact . 2018 Sep; 32(1):35-44. PMID: 30252618

Plants of the legume family host massive intracellular bacterial populations in the tissues of specialized organs, the nodules. In these organs, the bacteria, named rhizobia, can fix atmospheric nitrogen and...

15.

Control of the ethylene signaling pathway prevents plant defenses during intracellular accommodation of the rhizobia

Berrabah F, Balliau T, Ait-Salem E, George J, Zivy M, Ratet P, et al.

New Phytol . 2018 Apr; 219(1):310-323. PMID: 29668080

Massive intracellular populations of symbiotic bacteria, referred to as rhizobia, are housed in legume root nodules. Little is known about the mechanisms preventing the development of defense in these organs...

16.

Strain-Specific Symbiotic Genes: A New Level of Control in the Intracellular Accommodation of Rhizobia Within Legume Nodule Cells

Gourion B, Alunni B

Mol Plant Microbe Interact . 2018 Jan; 31(3):287-288. PMID: 29337641

This is a short commentary on the article by Wang et al. published in MPMI Vol. 31, No. 2, pages 240-248.

17.

Metabolic profiling of two maize (Zea mays L.) inbred lines inoculated with the nitrogen fixing plant-interacting bacteria Herbaspirillum seropedicae and Azospirillum brasilense

Brusamarello-Santos L, Gilard F, Brule L, Quillere I, Gourion B, Ratet P, et al.

PLoS One . 2017 Apr; 12(3):e0174576. PMID: 28362815

Maize roots can be colonized by free-living atmospheric nitrogen (N2)-fixing bacteria (diazotrophs). However, the agronomic potential of non-symbiotic N2-fixation in such an economically important species as maize, has still not...

18.

DNA double-strand break repair is involved in desiccation resistance of Sinorhizobium meliloti, but is not essential for its symbiotic interaction with Medicago truncatula

Dupuy P, Gourion B, Sauviac L, Bruand C

Microbiology (Reading) . 2016 Dec; 163(3):333-342. PMID: 27902438

The soil bacterium Sinorhizobium meliloti, a nitrogen-fixing symbiont of legume plants, is exposed to numerous stress conditions in nature, some of which cause the formation of harmful DNA double-strand breaks...

19.

Terminal bacteroid differentiation in the legume-rhizobium symbiosis: nodule-specific cysteine-rich peptides and beyond

Alunni B, Gourion B

New Phytol . 2016 Jun; 211(2):411-7. PMID: 27241115

Contents 411 I. 411 II. 412 III. 412 IV. 413 V. 414 VI. 414 VII. 415 VIII. 415 416 References 416 SUMMARY: Terminal bacteroid differentiation (TBD) is a remarkable case...

20.

Multiple steps control immunity during the intracellular accommodation of rhizobia

Berrabah F, Ratet P, Gourion B

J Exp Bot . 2015 Feb; 66(7):1977-85. PMID: 25682610

Medicago truncatula belongs to the legume family and forms symbiotic associations with nitrogen fixing bacteria, the rhizobia. During these interactions, the plants develop root nodules in which bacteria invade the...