Excited to share our latest work!
The oncogenic m5C writer NSUN2 achieves substrate specificity by recognizing RNA structure and conformational dynamics. RNA folding shapes methylation! Congratulations to the team! Thank you, colleagues and supporters! ttps://nature.com/articles/s41586-026-10582-9
Working with a great team to organize @keystoneSymposia.bsky.social RNA Modifications: Bridging Biological Function and Therapeutic Potential, this March! Join us to explore emerging research in Keystone! keysym.us/KSRNAMod26 #KSRNAMod26
Nature research paper: Substrate selectivity of the human RNA m5C methyltransferase NSUN2
go.nature.com/4v7ZeTt
⏰ Deadline: Nov 19 (11:59pm MST)!
Last chance to submit a short talk abstract or scholarship app for the Keystone Symposia on RNA Modifications. Don’t miss it!
🔗 hubs.la/Q03TGgdb0
🎥 youtu.be/riYKvdibODY
#KSRNAMod26 @yunsunnam.bsky.social
NSUN2 is an enzyme that adds a small chemical mark to RNA molecules and uniquely selects its targets based on specific sequence patterns and structural features.
Join us at the Keystone Symposia on RNA Modifications: Bridging Biological Function and Therapeutic Potential, March 2026, in Keystone, with field leaders!
NSUN2 is an enzyme that adds a small chemical mark to RNA molecules and uniquely selects its targets based on specific sequence patterns and structural features.
Join us at the Keystone Symposia on RNA Modifications: Bridging Biological Function and Therapeutic Potential, March 2026, in Keystone, with field leaders!
