David G Barker1, Mireille Chabaud1, Guilia Russo2, Andrea Genre2. 1. Laboratory of Plant-Microbe Interactions (LIPM), INRA-CNRS-Toulouse University, 31326, Castanet-Tolosan, France. 2. Department of Life Sciences and Systems Biology, Turin University, Viale Mattioli 25, 10125, Turin, Italy.
Abstract
Contents 533 I. 533 II. 534 III. 536 IV. 536 537 References 537 SUMMARY: Root endosymbioses are beneficial associations formed between terrestrial plants and either bacterial or fungal micro-organisms. A common feature of these intracellular symbioses is the requirement for mutual recognition between the two partners before host-regulated microbial entry. As part of this molecular dialogue, symbiosis-specific microbial factors set in motion a highly conserved plant signal transduction pathway, of which a central component is the activation of sustained nuclear Ca2+ oscillations in target cells of the host epidermis. Here, we focus on recent findings concerning this crucial Ca2+ -dependent signalling step for endosymbiotic associations involving either arbuscular mycorrhizal fungi or nitrogen-fixing Frankia actinomycetes, and in particular how this knowledge is contributing to the identification of the respective microbial factors.
Contents 533 I. 533 II. 534 III. 536 IV. 536 537 References 537 SUMMARY: Root endosymbioses are beneficial associations formed between terrestrial plants and either bacterial or fungal micro-organisms. A common feature of these intracellular symbioses is the requirement for mutual recognition between the two partners before host-regulated microbial entry. As part of this molecular dialogue, symbiosis-specific microbial factors set in motion a highly conserved plant signal transduction pathway, of which a central component is the activation of sustained nuclear Ca2+ oscillations in target cells of the host epidermis. Here, we focus on recent findings concerning this crucial Ca2+ -dependent signalling step for endosymbiotic associations involving either arbuscular mycorrhizal fungi or nitrogen-fixing Frankia actinomycetes, and in particular how this knowledge is contributing to the identification of the respective microbial factors.
Authors: Cheng-Wu Liu; Andrew Breakspear; Nicola Stacey; Kim Findlay; Jin Nakashima; Karunakaran Ramakrishnan; Miaoxia Liu; Fang Xie; Gabriella Endre; Fernanda de Carvalho-Niebel; Giles E D Oldroyd; Michael K Udvardi; Joëlle Fournier; Jeremy D Murray Journal: Nat Commun Date: 2019-06-28 Impact factor: 14.919