Phenolic acid-induced stress granule formation mediates plant interspecific competition

Zhouli Xie

Presentation information

Concurrent

Concurrent » Concurrent 19-24

[Concurrent 22] Molecular condensation for reproductive and biotic stress regulation: From cell biology to biophysical mechanism

Biomolecular condensation (BMC) has emerged as a critical regulatory mechanism that dynamically tunes the constituents and biophysical properties of signaling complexes during plant response to diverse developmental and environmental cues. This session focuses on BMC-mediated signaling research that integrates advanced imaging, biochemical, biophysical, and mathematical approaches to understand the spatiotemporal regulation of plant immune responses and reproduction.

Wed. Jun 7, 2023 11:00 AM - 12:30 PM Makuhari Messe 2F(Room 4)

Chair:Yansong Miao(Nanyang Technological University, Singapore), Yangnan Gu(University of California Berkeley)

11:51 AM - 12:06 PM

[Concurrent_22-04] Phenolic acid-induced stress granule formation mediates plant interspecific competition

[on-site]

Zhouli Xie^1,2, Shuai Zhao^1,2, Ying Li^1,2, Yuhua Deng¹, Yabo Shi¹, Xiaoyuan Chen¹, Yue Li¹, Haiwei Li^3,4, Changtian Chen^1,2,5, Xingwei Wang¹, Enhui Liu^3,4, Yuchen Tu¹, Peng Shi^1,2, Jinjin Tong^1,2, Emilio Gutierrez-Beltran^6,7, Peter Bozhkov⁶, Weiqiang Qian^1,2, Mian Zhou^3,4,5, *Wei Wang^1,2,5 (1. Peking University, China, 2. Center for Life Sciences, China, 3. Capital Normal University, China, 4. Beijing Key Laboratory of Plant Gene Resources and Biotechnology for Carbon Reduction and Environmental Improvement, China, 5. Iowa State University, USA, 6. Swedish University of Agricultural Sciences and Linnean Center for Plant Biology, Sweden, 7. Universidad de Sevilla, Spain)

Keywords:Transcription/translation, Phase separation, Hormone signaling, Chemical biology, Ecology/population