Arabidopsis research in 2030: Translating the computable plant
Plants are essential for human survival. Over the past three decades, work with the reference plant Arabidopsis thaliana has significantly advanced plant biology research. One key event was the sequencing of its genome 25 years ago, which fostered many subsequent research technologies and datasets. Arabidopsis has been instrumental in elucidating plant-specific aspects of biology, developing research tools, and translating findings to crop improvement. It not only serves as a model for understanding plant biology and but also biology in other fields, with discoveries in Arabidopsis also having led to applications in human health, including insights into immunity, protein degradation, and circadian rhythms. Arabidopsis research has also fostered the development of tools useful for the wider biological research community, such as optogenetic systems and auxin-based degrons. This 4th Multinational Arabidopsis Steering Committee Roadmap outlines future directions, with emphasis on computational approaches, research support, translation to crops, conference accessibility, coordinated research efforts, climate change mitigation, sustainable production, and fundamental research. Arabidopsis will remain a nexus for discovery, innovation, and application, driving advances in both plant and human biology to the year 2030, and beyond.
Siobhan Brady, Gabriela Auge, Mentewab Ayalew, Sureshkumar Balasubramanian, Thorsten Hamann, Dirk Inze, Kazuki Saito, Galina Brychkova, Tanya Z. Berardini, Joanna Friesner, Cheng-Hsun Ho, Marie-Theres Hauser, Masatomo Kobayashi, Loic Lepiniec, Ari Pekka Mähönen, Marek Mutwil, Sean May, Geraint Parry, Stamatis Rigas, Anna N. Stepanova, Mary Williams, Nicholas J. Provart (2025) Arabidopsis research in 2030: Translating the computable plant The Plant Journal, 121, e70047