Our most recent work on the “function and evolution” of #nuclear_speckles is now online at Cell @CellCellPress
https://t.co/8QvEbVcofu
Read the thread 👇for the highlights of our findings.
🎉Excited to announce that our paper on the blueprint of the human spliceosome is now out in @ScienceMagazine ! A decade of work with Juan Valcárcel and the incredible team at @CRGenomica to uncover the intricate roles of this essential RNA machinery.https://t.co/azZ4aSlD3s
Please check out our new review on commonalities between vesicular and nonvesicular transport via intrinsically disordered proteins! Hope you will like it!
📯 Our work on a new core splicing factor is out in @MolecularCell! FUBP1 is important for splicing of long introns. Multivalent interactions support spliceosome assembly and intron bridging. Great collab with @Sattler_lab & Luck_lab. Check it out here: https://t.co/eb8TBuRZbr
Gene therapy approach to boost 'cold shock protein' in the brain without cooling protects mice against neurodegenerative disease https://t.co/FGOh8AjG3V
Hypothermia in a syringe: Manipulation of RBM3 alternative splicing using antisense RNA therapeutics prevents neurodegeneration at normal temperature. Check our article with @MallucciLab and @OmiqaBio in @EmboMolMed Link: https://t.co/hXvxQfcNqS
Now in @ScienceAdvances: Alternative splicing occurs after step 1 of splicing! Also reveals trans-acting factors for NAGNAG splicing. Thanks to Reinhard and his team, my phantastic students @FUBiochemistry @FU_Berlin and help from @OmiqaBio
DOI: 10.1126/sciadv.adf1785
Our next RNA club meeting today at 5 pm will feature the research of @pre_mRCO from Heyd lab @FUBiochemistry and Vanessa Loiacono from Bock lab @MPIMP_Potsdam. Join us in person or via zoom!
GGGOOOAAALLL
we made the cover!
huge thanks to the team @NatureSMB@sarakosman for highlighting our work!
https://t.co/t1nJBDIQnD
🤩😍🥰😊🥲
feelin' all the feels
🥲😊🥰😍🤩
Ever wonder what happens to our brains at lower temperatures? Looks like our neurons enjoy a cool bath – thanks to increased expression of a cold-shock protein, RBM3. Check out our preprint sharing some secrets behind RBM3 cold induction. https://t.co/Z4WvbOkZHy
Can we target alternative splicing to treat neurodegenerative diseases? With @MallucciLab and @OmiqaBio we find that a poison exon is responsible for cold induced RBM3 expression. Targeting this exon by ASO-therapy results in neuroprotection in vivo. https://t.co/6kLP7dob7u
Now online @NAR_Open: How a 1°C increase in temperature induces antiviral genes and promotes an immune response! Great work from @_brunalos!
https://t.co/gqCx0KJrBn
Here comes the second one from @AlexandraBergf1 . This time also including the great support from Marco (@pre_mRCO) from the lab of Florian Heyd @FUBiochemistry . Happy to be part of this work 🥳
https://t.co/kDL2ca3Y2p
Are stress granules the RNA analogs of misfolded protein aggregates? Both RNA and proteins can form promiscuous interactions. Similar to the protein chaperones, the RNA chaperones limit self-assembly. #RNASpecialIssue#condensates
➡️https://t.co/3Wt1HPOoVy
For the first time, researchers have revealed the atomic structure of the human minor spliceosome, according to a new study in Science. The findings provide a framework for a mechanistic understanding of the function of this ribonucleoprotein complex. ($) https://t.co/pwkedGHz4M
Have you noticed it’s getting chilly in the air? How are plants coping with this?
Happy to share the remarkable work of David Guillaume-Schöpfer, who did his PhD in the group, and our amazing collaborators @alexwebblab@lab_costa@Fabrizio_Doc
@Jaegerlab
https://t.co/Vy0bo3VBHB
Now online @emboreports : More insights into the importance of body temperature cycles: How alternative splicing coupled to decay (#NMD) can generate rhythmic gene expression (#circadian)! Thanks to our collaborators from #sfb973 and #Omiqa
https://t.co/kPfBbFhpCV