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FOR 5762 - focussed on organismal proteostasis regulation University Hospital | University of Cologne | University of Konstanz | Max Planck Institute for Metabolism Research Website: https://www.ru5762proteostasis.com/
FOR5762
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🎉 #FOR5762 has awarded two Advanced Postdoc Grants. Congrats to Marta Zaninello and @sedakoyuncu.bsky.social on this well-deserved achievement. 👏 We look forward to following their independent research and their contributions within #FOR5762. @cecad.bsky.social | @uniklinikkoeln.bsky.social
We had the pleasure of hosting @mariaermolaeva.bsky.social from the leibnizfli.bsky.social. Maria presented her research as part of our #FOR5762 seminar series. Her talk led to an engaging exchange of ideas and a lively discussion with the group. #CircadianClock #Proteostasis #AgingResearch
📢 We’re excited to welcome @mariaermolaeva.bsky.social for our next #FOR5762 seminar! 🗓 March 10, 2026 🕑 14:00 📍 #CECAD Cologne – Lecture Hall Sleep deprivation and circadian disruption are known to negatively impact health - but how exactly do they affect proteostasis and aging?
📢 It's our pleasure to welcome Prof. Rick Morimoto for our next #FOR5762 seminar series! Talk: 'Cell Non-Autonomous Regulation of Organismal Proteostasis' 📅 Feb 26, 2026 🕑 2:00 PM 📍 MPI for Biology of Aging - Auditorium Looking forward to seeing you there!
🚨Excited to share this new review in @febsj.bsky.social by our #FOR5762 project leader @thevilchezlab.bsky.social! The article explores how organelle #proteostasis preserves cellular function, and how its decline contributes to #aging and disease. febs.onlinelibrary.wiley.com/doi/10.1111/...
🚨Thrilled to share this exciting new paper by our #FOR5762 project leader @bjornschumacher.bsky.social, published in #NatureAging! The study uncovers neuron-specific aging patterns and points to potential neuroprotective interventions. Congratulations! 🎉 www.nature.com/articles/s43...
🧠 Nerve cells age differently Researchers led by @bjornschumacher.bsky.social‬ @cecad.bsky.social have used C. elegans to prove for the first time that nerve cells age differently. Using an “aging clock” they were able to precisely determine the biological age of individual neurons👇 uni.koeln/FKJ35