Plastid proteins crucial for symbiotic fungal and bacterial entry into plant roots
Haruko Imaizumi‐Anraku(Institute of Agrobiological Sciences), Makoto Hayashi(Institute of Agrobiological Sciences), Yosuke Umehara(Institute of Agrobiological Sciences), J. Allan Downie(John Innes Centre), Hiroki Miwa(John Innes Centre), Jillian Perry(Sainsbury Laboratory), Yoshikatsu Murooka(The University of Osaka), Makoto Yoshikawa(The University of Osaka), Kate Vickers(Sainsbury Laboratory), Erika Asamizu(Kazusa DNA Research Institute), Lonneke Mulder(John Innes Centre), Martin Parniske(Sainsbury Laboratory), Myriam Charpentier(John Innes Centre), Hiroshi Kouchi(Institute of Agrobiological Sciences), Masayoshi Kawaguchi(National Institute for Basic Biology), Trevor Wang(John Innes Centre), Naoya Takeda(The University of Osaka), Shinji Kawasaki(Institute of Agrobiological Sciences), Guo-Jiang Wu(The University of Tokyo), Satoshi Tabata(Kazusa DNA Research Institute), Shusei Sato(Kazusa DNA Research Institute), Yasuhiro Murakami(Institute of Agrobiological Sciences), Jodie Pike(John Innes Centre)
Cited by 415
Related Papers
Genome of an arbuscular mycorrhizal fungus provides insight into the oldest plant symbiosis
|Proceedings of the National Academy of Sciences|2013|877
Genome Structure of the Legume, Lotus japonicus
|DNA Research|2008|714
Klebsormidium flaccidum genome reveals primary factors for plant terrestrial adaptation
|Nature Communications|2014|624
HAR1 mediates systemic regulation of symbiotic organ development
|Nature|2002|525