Lovorka Stojić
@loverna.bsky.social
hopefully a good one! thank you
January 23, 2025 at 6:55 PM
hopefully a good one! thank you
apologies for the quality of the images, I tried twice with the tutorial. If interested, please read the preprint- the quality of the images is much better! you can see that is the my 1st post here
January 23, 2025 at 6:33 PM
apologies for the quality of the images, I tried twice with the tutorial. If interested, please read the preprint- the quality of the images is much better! you can see that is the my 1st post here
thanks of taking care of me :-)
January 23, 2025 at 6:31 PM
thanks of taking care of me :-)
10/12 In sum, we identified RSRC2 as a new regulator of cell division & illustrated the importance of RNA-protein interactions in promoting error-free mitosis. I hope you like the tutorial and will enjoy reading our ms. #OpenAccess #OpenScience
January 23, 2025 at 6:29 PM
10/12 In sum, we identified RSRC2 as a new regulator of cell division & illustrated the importance of RNA-protein interactions in promoting error-free mitosis. I hope you like the tutorial and will enjoy reading our ms. #OpenAccess #OpenScience
9/12 But what about lncRNA C1QTNF1-AS1? Well, that was a challenging ❓ Since lncRNA did not affect RSRC2 splicing activity, we wondered whether it could affect RSRC2 moonlighting function in mitosis. We found that lncRNA regulates RSRC2 localisation on centrosomes.
January 23, 2025 at 6:29 PM
9/12 But what about lncRNA C1QTNF1-AS1? Well, that was a challenging ❓ Since lncRNA did not affect RSRC2 splicing activity, we wondered whether it could affect RSRC2 moonlighting function in mitosis. We found that lncRNA regulates RSRC2 localisation on centrosomes.
8/12 But what is RSRC2 doing on centrosomes? RSRC2 is required for splicing of centrosomal proteins, such as PCNT & CDK5RAP2 & their recruitment on mitotic centrosomes. So mis-splicing of mitotic genes in RSRC2 KD cells is contributing to observed mitotic defects in these cells.
January 23, 2025 at 6:29 PM
8/12 But what is RSRC2 doing on centrosomes? RSRC2 is required for splicing of centrosomal proteins, such as PCNT & CDK5RAP2 & their recruitment on mitotic centrosomes. So mis-splicing of mitotic genes in RSRC2 KD cells is contributing to observed mitotic defects in these cells.
7/12 To understand how RSRC2 regulates splicing, we performed IP MS for RSRC2 and found that splicing and centrosome proteins are top RSRC2 interactors. Thus, RSRC2 is a multifunctional RBP.
January 23, 2025 at 6:29 PM
7/12 To understand how RSRC2 regulates splicing, we performed IP MS for RSRC2 and found that splicing and centrosome proteins are top RSRC2 interactors. Thus, RSRC2 is a multifunctional RBP.
6/12 Not much was known about RSRC2 when we started the project.... However, we found RSRC2 to be present in nuclear speckles and to regulate the splicing of mitotic regulators. This fits nicely with RSRC2 being present in Mitocheck and RBP2GO database.
January 23, 2025 at 6:29 PM
6/12 Not much was known about RSRC2 when we started the project.... However, we found RSRC2 to be present in nuclear speckles and to regulate the splicing of mitotic regulators. This fits nicely with RSRC2 being present in Mitocheck and RBP2GO database.
5/12 We found that loss of lncRNA C1QTNF1-AS1 and RSRC2 protein mimic each other since their depletion causes defects in chromosome alignment and mitotic progression.
January 23, 2025 at 6:29 PM
5/12 We found that loss of lncRNA C1QTNF1-AS1 and RSRC2 protein mimic each other since their depletion causes defects in chromosome alignment and mitotic progression.
4/12 To understand how lncRNA C1QTNF1-AS1 regulates cell division, we set out to identify the proteins that C1QTNF1-AS1 interacts with and discover RSRC2, a protein with a poorly defined function.
January 23, 2025 at 6:29 PM
4/12 To understand how lncRNA C1QTNF1-AS1 regulates cell division, we set out to identify the proteins that C1QTNF1-AS1 interacts with and discover RSRC2, a protein with a poorly defined function.
3/12 How it all started? In our previous work, we identified lncRNA C1QTNF1-AS1, whose loss led to chromosome congression defects and mitotic delay, but we did not know how ❓❓❓
January 23, 2025 at 6:29 PM
3/12 How it all started? In our previous work, we identified lncRNA C1QTNF1-AS1, whose loss led to chromosome congression defects and mitotic delay, but we did not know how ❓❓❓
2/12 RSRC2 regulates mitotic fidelity through two distinct mechanisms: one associated with splicing of mitotic regulators and the other by localising to mitotic centrosomes, a function mediated by lncRNA C1QTNF1-AS1.
January 23, 2025 at 6:29 PM
2/12 RSRC2 regulates mitotic fidelity through two distinct mechanisms: one associated with splicing of mitotic regulators and the other by localising to mitotic centrosomes, a function mediated by lncRNA C1QTNF1-AS1.
Thank you for all your input and suggestions!
January 23, 2025 at 5:34 PM
Thank you for all your input and suggestions!
Finally, huge thanks to our funders @bartscharity.bsky.social @cancerresearchuk.org @acmedsci.bsky.social @royalsociety.org and AIRC
January 23, 2025 at 5:26 PM
Finally, huge thanks to our funders @bartscharity.bsky.social @cancerresearchuk.org @acmedsci.bsky.social @royalsociety.org and AIRC
11/12 Kudos to 1st authors Kaliya & Alice for their excellent teamwork @qmbci.bsky.social & everyone involved in this study @mardakheh.bsky.social and others not still on the otherside. Big 🙏 to all involved! #TeamWork
January 23, 2025 at 5:26 PM
11/12 Kudos to 1st authors Kaliya & Alice for their excellent teamwork @qmbci.bsky.social & everyone involved in this study @mardakheh.bsky.social and others not still on the otherside. Big 🙏 to all involved! #TeamWork
10/12 In sum, we identified RSRC2 as a new regulator of cell division & illustrated the importance of RNA-protein interactions in promoting error-free mitosis. I hope you like the tutorial and will enjoy reading our ms. #OpenAccess #OpenScience
January 23, 2025 at 5:26 PM
10/12 In sum, we identified RSRC2 as a new regulator of cell division & illustrated the importance of RNA-protein interactions in promoting error-free mitosis. I hope you like the tutorial and will enjoy reading our ms. #OpenAccess #OpenScience