Terminal bacteroid differentiation in the legume−rhizobium symbiosis: nodule‐specific cysteine‐rich peptides and beyond-Reference-Cited by-同舟云学术

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

Published:2016-05-31 Issue:2 Volume:211 Page:411-417
ISSN:0028-646X
Container-title:New Phytologist
language:en
Short-container-title:New Phytol

Author:

Alunni Benoît¹,Gourion Benjamin²

Affiliation:

1. Institute for Integrative Biology of the Cell UMR 9198, CNRS/Université Paris‐Sud/CEA Gif‐sur‐Yvette France

2. LIPM Université de Toulouse INRA CNRS Castanet‐Tolosan France

Funder

Labex

Agence Nationale de la Recherche

Labex Saclay Plant Sciences-SPS

Publisher

Wiley

Subject

Plant Science,Physiology

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/nph.14025

Reference40 articles.

1. Genomic organization and evolutionary insights on GRP and NCR genes, two large nodule‐specific gene families in Medicago truncatula;Alunni B;Molecular Plant‐microbe Interactions,2007

2. Two Sinorhizobium meliloti glutaredoxins regulate iron metabolism and symbiotic bacteroid differentiation;Benyamina SM;Environmental Microbiology,2013

3. A nonRD receptor‐like kinase prevents nodule early senescence and defense‐like reactions during symbiosis;Berrabah F;New Phytologist,2014

4. Multiple steps control immunity during the intracellular accommodation of rhizobia;Berrabah F;Journal of Experimental Botany,2015

5. Only one of five groEL genes is required for viability and successful symbiosis in Sinorhizobium meliloti;Bittner AN;Journal of Bacteriology,2007

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4. Taxonomic distribution of SbmA/BacA and BacA-like antimicrobial peptide transporters suggests independent recruitment and convergent evolution in host-microbe interactions;2024-02-25

5. VapC10 toxin of the legume symbiont Sinorhizobium meliloti targets tRNASer and controls intracellular lifestyle;The ISME Journal;2024-01-01

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