M
Meng Ye
Researcher at University of Bern
Publications - 27
Citations - 1458
Meng Ye is an academic researcher from University of Bern. The author has contributed to research in topics: Jasmonic acid & Plant defense against herbivory. The author has an hindex of 12, co-authored 23 publications receiving 842 citations. Previous affiliations of Meng Ye include Zhejiang University & Institute of Insect Sciences, Zhejiang University.
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Journal ArticleDOI
Root exudate metabolites drive plant-soil feedbacks on growth and defense by shaping the rhizosphere microbiota
Lingfei Hu,Christelle A. M. Robert,Selma Cadot,Xi Zhang,Meng Ye,Beibei Li,Daniele Manzo,Noémie Chervet,Thomas Steinger,Marcel G. A. van der Heijden,Marcel G. A. van der Heijden,Klaus Schlaeppi,Matthias Erb +12 more
TL;DR: The results reveal a mechanism by which plants determine the composition of rhizosphere microbiota, plant performance and plant-herbivore interactions of the next generation by modifying root-associated microbiota.
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Antagonism between phytohormone signalling underlies the variation in disease susceptibility of tomato plants under elevated CO2
Shuai Zhang,Xin Li,Zenghui Sun,Shujun Shao,Lingfei Hu,Meng Ye,Yan-Hong Zhou,Xiao-Jian Xia,Jing-Quan Yu,Kai Shi +9 more
TL;DR: Under elevated CO2, interactions between tomato and pathogens with different infection strategies were compared and modulated SA/JA cross talk contributes to variation in disease susceptibility under elevatedCO2.
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Plant iron acquisition strategy exploited by an insect herbivore
Lingfei Hu,Pierre Mateo,Meng Ye,Xi Zhang,Jean Daniel Berset,Vinzenz Handrick,D. Radisch,Veit Grabe,Tobias G. Köllner,Jonathan Gershenzon,Christelle A. M. Robert,Matthias Erb +11 more
TL;DR: It is shown that the root-feeding larvae use complexes between iron and benzoxazinoid secondary metabolites to identify maize as a host, to forage within the maize root system, and to increase their growth.
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The Rice Transcription Factor WRKY53 Suppresses Herbivore-Induced Defenses by Acting as a Negative Feedback Modulator of Mitogen-Activated Protein Kinase Activity
TL;DR: Results show that OsWRKY53 functions as a negative feedback modulator of MPK3/MPK6 and thereby acts as an early suppressor of induced defenses, which enables rice plants to control the magnitude of their defensive investment during early signaling.
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Molecular Dissection of Early Defense Signaling Underlying Volatile-Mediated Defense Regulation and Herbivore Resistance in Rice
TL;DR: Herbivore-induced plant volatiles increase plant resistance to herbivores by positively regulating early defense signaling components, including a mitogen-activated protein kinase.