A virus-targeted plant receptor-like kinase promotes cell-to-cell spread of RNAi

Tábata Rosas‐Díaz(Chinese Academy of Sciences), Dan Zhang(Chinese Academy of Sciences), Pengfei Fan(Chinese Academy of Sciences), Liping Wang(Chinese Academy of Sciences), Xue Ding(Chinese Academy of Sciences), Yuli Jiang(Chinese Academy of Sciences), Tamara Jiménez‐Góngora(Chinese Academy of Sciences), Laura Medina‐Puche(Chinese Academy of Sciences), Xinyan Zhao(Chinese Academy of Sciences), Zhengyan Feng(Chinese Academy of Sciences), Guiping Zhang(Chinese Academy of Sciences), Xiaokun Liu(John Innes Centre), Eduardo R. Bejarano(Instituto de Hortofruticultura Subtropical y Mediterránea "La Mayora"), Li Tan(Chinese Academy of Sciences), Heng Zhang(Chinese Academy of Sciences), Jian‐Kang Zhu(Chinese Academy of Sciences), Weiman Xing(Chinese Academy of Sciences), Christine Faulkner(John Innes Centre), Shingo Nagawa(Chinese Academy of Sciences), Rosa Lozano‐Durán(Chinese Academy of Sciences)
Proceedings of the National Academy of Sciences
January 23, 2018
10.1073/pnas.1715556115
Cited by 273Open Access
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Abstract

can inhibit the intercellular spread of RNAi. Using this viral protein as a probe, we have identified the receptor-like kinase (RLK) BARELY ANY MERISTEM 1 (BAM1) as a positive regulator of the cell-to-cell movement of RNAi, and determined that BAM1 and its closest homolog, BAM2, play a redundant role in this process. C4 interacts with the intracellular domain of BAM1 and BAM2 at the plasma membrane and plasmodesmata, the cytoplasmic connections between plant cells, interfering with the function of these RLKs in the cell-to-cell spread of RNAi. Our results identify BAM1 as an element required for the cell-to-cell spread of RNAi and highlight that signaling components have been coopted to play multiple functions in plants.

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