Dr Dipan Roy's Outputs (2)

Charting the evolutionary path of the SUMO modification system in plants reveals molecular hardwiring of development to stress adaptation (2024)
Journal Article
Ghosh, S., Mellado Sanchez, M., Sue-Ob, K., Roy, D., Jones, A., Blazquez, M. A., & Sadanandom, A. (2024). Charting the evolutionary path of the SUMO modification system in plants reveals molecular hardwiring of development to stress adaptation. The Plant Cell, 36(9), 3131-3144. https://doi.org/10.1093/plcell/koae192

SUMO modification is part of the spectrum of Ubiquitin-like (UBL) systems that give rise to proteoform complexity through post-translational modifications (PTMs). Proteoforms are essential modifiers of cell signaling for plant adaptation to changing... Read More about Charting the evolutionary path of the SUMO modification system in plants reveals molecular hardwiring of development to stress adaptation.

SUMOylation of OsPSTOL1 is essential for regulating phosphate starvation responses in rice and Arabidopsis (2024)
Journal Article
Mukkawar, V., Roy, D., Sue-ob, K., Jones, A., Zhang, C., Kumar Bhagat, P., Kakkunnath, S. M., Heuer, S., & Sadanandom, A. (2024). SUMOylation of OsPSTOL1 is essential for regulating phosphate starvation responses in rice and Arabidopsis. Frontiers in Plant Science, 15, Article 1274610. https://doi.org/10.3389/fpls.2024.1274610

Although rice is one of the main sources of calories for most of the world, nearly 60% of rice is grown in soils that are low in phosphorus especially in Asia and Africa. Given the limitations of bioavailable inorganic phosphate (Pi) in soils, it is... Read More about SUMOylation of OsPSTOL1 is essential for regulating phosphate starvation responses in rice and Arabidopsis.