Please join us for our next RNA CASP SIG with Navtej Toor, PhD: „Structural Evolution of pre-mRNA Splicing” [Zoom](https://urldefense.proofpoint.com/v2/url?u=https-3A__stanford.zoom.us_j_93445935624-3Fpwd-3DK0VUWk0zaVNMZlU1U0xUMS8vSWUwZz09&d=DwMFaQ&c=WO-RGvefibhHBZq3fL85hQ&r=0lUjW57N1liiDVO5wzD9g5qjic3xcIQ5O7wLU7r81hA&m=arbubYGVlHU7r5U62CgEmarGmxHnOtTysQwN9aCJsuHl9sQym0QFMDa2Gn41dEdZ&s=3rWBZ-vu-LrB-wgVAUts27AvWDWJFR6IEQNM23lG4eM&e=) link Tuesday Feb 27; Pacific Time 8 am / Eastern Time 11 am / Central European Time: 5 pm / China Standard Time: 11 pm If you have recommendations on topics of discussion or speakers, please feel free to email us as well. We have also recently implemented a [schedule](https://urldefense.proofpoint.com/v2/url?u=https-3A__tinyurl.com_rna-2Dsig-2Dschedule&d=DwMFaQ&c=WO-RGvefibhHBZq3fL85hQ&r=0lUjW57N1liiDVO5wzD9g5qjic3xcIQ5O7wLU7r81hA&m=arbubYGVlHU7r5U62CgEmarGmxHnOtTysQwN9aCJsuHl9sQym0QFMDa2Gn41dEdZ&s=xrR8IIYhN9IQ0VlVjc_-o3oEldm_GbVPpvHEIGeihHw&e=) to view past and upcoming seminars, as well as a calendar [(google](https://urldefense.proofpoint.com/v2/url?u=https-3A__tinyurl.com_rna-2Dsig-2Dcalendar&d=DwMFaQ&c=WO-RGvefibhHBZq3fL85hQ&r=0lUjW57N1liiDVO5wzD9g5qjic3xcIQ5O7wLU7r81hA&m=arbubYGVlHU7r5U62CgEmarGmxHnOtTysQwN9aCJsuHl9sQym0QFMDa2Gn41dEdZ&s=lkoboo6d_x60maIZC4BobSkhETuYI2_H2Yk2Q3ZJDSI&e=) [outlook)](https://urldefense.proofpoint.com/v2/url?u=https-3A__tinyurl.com_rna-2Dsig-2Dcal-2Dics&d=DwMFaQ&c=WO-RGvefibhHBZq3fL85hQ&r=0lUjW57N1liiDVO5wzD9g5qjic3xcIQ5O7wLU7r81hA&m=arbubYGVlHU7r5U62CgEmarGmxHnOtTysQwN9aCJsuHl9sQym0QFMDa2Gn41dEdZ&s=RF0zJUjFA35qyo92Uq6Yt-fty5C1Nm2J5WJJDb5uJwA&e=) which can be added to automatically have events added to your calendar. Hopefully these will help everyone keep up to date. See you soon, Rachael Kretsch (Rhiju Das and Wah Chiu labs @Stanford) Marcin Magnus (Elena Rivas lab @Harvard) For recording see playlist on [YouTube @CASPRNASIG](https://www.youtube.com/@CASPRNASIG). Zoom link: https://stanford.zoom.us/j/93445935624?pwd=K0VUWk0zaVNMZlU1U0xUMS8vSWUwZz09 # Evolution of RNA Splicing There is now extensive evidence to support the hypothesis that group II introns are ancestral to the spliceosome. It has been hypothesized that eukaryogenesis was initiated through intron invasion of the archaeal host genome. This model proposes that bacterial group II introns invaded the pre-eukaryotic genome, forming the predecessors of spliceosomal introns. The resulting necessity to spatially separate RNA splicing from protein translation then induced eukaryogenesis through the evolution of the nuclear membrane. To evaluate the validity of this model, we are investigating the evolution and structures of group II intron pre-spliceosomal complexes that are thought to have directly preceded eukaryogenesis. Source: http://rna.ucsd.edu/Research.html Read more: - http://rna.ucsd.edu - https://www-chem.ucsd.edu/faculty/profiles/toor_navtej_s.html