Unravelling novel mechanisms of defense gene activation: a gateway to elevate disease resistance in plants

ERC (European Research Council)HORIZON-ERCID: 101039824
EC Contribution
€23,641
Consortium Size
1 orgs
Start Year
2022
Summary

Plant diseases are widespread and constitute a major threat to food production. Understanding the molecular mechanisms by which plants resist pathogens is essential to design better strategies for protecting crops from diseases. Strict regulation of plant defense gene expression plays a critical role in establishing an effective and fine-tuned immune response; their insufficient expression leads to diseases, while their overexpression can result in autoimmunity and severe fitness penalties. My own recent work using systems biology approaches reveals hidden components inferred by defense gene regulatory networks as essential players in plant immunity. The next challenge lies in establishing how the recognition of pathogens by plant immune receptors is converted to changes in defense gene expression and results in effective immunity. In particular, it is unknown how defense gene regulatory mechanisms are dynamically regulated, whether the mechanisms are shared by different plant species, and how different types of plant cells respond to pathogen attacks. My long-term goal is to develop robust tools to control plant pathogens. To tackle these challenging questions, the R-ELEVATION program addresses three core objectives:1. Determine how master transcription factors regulate the expression of defense genes.2. Identify and characterize new and conserved regulatory components during immune activation.3. Elucidate and compare cell-type-specific gene regulatory networks between resistant and susceptible plants.With my team, I aim to advance the fundamental understanding of dynamic gene regulatory mechanisms during plant immune activation that are conserved in different plant species. I additionally aim to revolutionize plant protection strategies at the cell-type-specific level. Translating our results into crop plants will enable the development of management strategies, including selectable traits for plant breeding, for more durable and fine-tunable resistance.

Consortium (1)

Project Results (9)

Source: CORDIS, the EU research results database.

Publications (8)
Unlocking gene regulatory networks for crop resilience and sustainable agriculture
Nature Biotechnology· 2025DOI
Richalynn Leong, Xin He, Bob Sebastiaan Beijen, Toshiyuki Sakai, Jorge Goncalves, Pingtao Ding
Alleviating protein-condensation-associated damage at the endoplasmic reticulum enhances plant disease tolerance
Cell Host & Microbe· 2024DOI
Zhijuan Tang, Shaosong Shi, Ruixia Niu, Yulu Zhou, Zhao Wang, Rongrong Fu, Rui Mou, Suming Chen, Pingtao Ding, Guoyong Xu
Seed longevity is controlled by metacaspases
Nature Communications· 2024DOI
Panagiotis Moschou; Chen Liu; Ioannis Chatzianestis; Thorsten Pfirrmann; Reza Salim; Elena Minina; Ali Moazzami; Simon Stael; Emilio Gutierez-Beltran; Eugenia Pitsili; Peter Dörmann; Sabine D'Andrea; Kris Gevaert; Francisco Romero-Campero; Pingtao Ding; Moritz Nowack; Frank van Breusegem; Jonathan Jones; Peter Bozhkov
Calcium signaling in plant immunity: a spatiotemporally controlled symphony
Trends in Plant Science· 2023DOI
Yuxiang Jiang; Pingtao Ding
Cell-type-specific responses to fungal infection in plants revealed by single-cell transcriptomics
Cell Host and Microbe· 2023DOI
Bozeng Tang, Li Feng, Michelle T. Hulin, Pingtao Ding, Wenbo Ma
Plant HEM1 specifies a condensation domain to control immune gene translation
Nature Plants· 2023DOI
Yulu Zhou, Ruixia Niu, Zhijuan Tang, Rui Mou, Zhao Wang, Sitao Zhu, Hongchun Yang, Pingtao Ding, Guoyong Xu
Seed Longevity is Controlled by Metacaspases
bioRxiv· 2023DOI
Panagiotis Moschou; Chen Liu; Ioannis Chatzianestis; Thorsten Pfirrmann; Reza Salim; Elena Minina; Ali Moazzami; Simon Stael; Emilio Gutierez-Beltran; Eugenia Pitsili; Peter Dörmann; Sabine D'Andrea; Kris Gevaert; Francisco Romero-Campero; Pingtao Ding; Moritz Nowack; Frank van Breusegem; Jonathan Jones; Peter Bozhkov
Transcriptional regulation of plant innate immunity
Essays in Biochemistry· 2022DOI
Aerts, Niels; Chhillar, Himanshu; Ding, Pingtao; van Wees, Saskia; Sub Plant-Microbe Interactions; Plant Microbe Interactions
Deliverables (1)
Data Management Plan