Plastid proteins crucial for symbiotic fungal and bacterial entry into plant roots |
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| Authors: | Imaizumi-Anraku Haruko Takeda Naoya Charpentier Myriam Perry Jillian Miwa Hiroki Umehara Yosuke Kouchi Hiroshi Murakami Yasuhiro Mulder Lonneke Vickers Kate Pike Jodie Downie J Allan Wang Trevor Sato Shusei Asamizu Erika Tabata Satoshi Yoshikawa Makoto Murooka Yoshikatsu Wu Guo-Jiang Kawaguchi Masayoshi Kawasaki Shinji Parniske Martin Hayashi Makoto |
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| Affiliation: | National Institute of Agrobiological Sciences, 2-1-2 Kannondai, Tsukuba, Ibaraki 305-8602, Japan. |
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| Abstract: | The roots of most higher plants form arbuscular mycorrhiza, an ancient, phosphate-acquiring symbiosis with fungi, whereas only four related plant orders are able to engage in the evolutionary younger nitrogen-fixing root-nodule symbiosis with bacteria. Plant symbioses with bacteria and fungi require a set of common signal transduction components that redirect root cell development. Here we present two highly homologous genes from Lotus japonicus, CASTOR and POLLUX, that are indispensable for microbial admission into plant cells and act upstream of intracellular calcium spiking, one of the earliest plant responses to symbiotic stimulation. Surprisingly, both twin proteins are localized in the plastids of root cells, indicating a previously unrecognized role of this ancient endosymbiont in controlling intracellular symbioses that evolved more recently. |
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