Institute of Molecular Biology & Biotechnology, Faculty of Biology at the Adam Mickiewicz Univeristy in Poznan @UAM_Poznan 🇵🇱 🇪🇺
website: https://t.co/fQOshWexcu
IMBB AMU Poznań
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Great news! Two @ncn.gov.pl OPUS grants for Katarzyna Blaszczyk and Tomasz Bieluszewski. Congratulations! 👏🎉 #IBMIB #AMU
Next week, our institute seminar will be on Tuesday! 😀
📣 "Languages of the Non-coding Genome"
👤 Prof. Sebastian Marquardt (Lund University)
📅 June 9, 2026 | 🕘 10:00
📍 Paczoski Auditorium (Faculty of Biology)
See you there! 🧬
Join us for our Friday Institute Seminar at IMBB!
🌱 "SNI1, a cold-sensitive regulator of meiotic recombination shaped by recent evolution in A. thaliana"
👤 Dr. Alexandre Pelé (IMBB, Genome Biology Research)
📅 May 8, 2026 | 🕘 9:15 AM
📍 Paczoski Auditorium (Faculty of Biology)
See you there! 👋
Join us for our Friday Institute Seminar at IMBB!
🌱 "Membrane Labyrinths of Plant Plastids – From Geometry to Biological Function"
👤 Prof. @lucjakowalewska.bsky.social (Plastid Nanomorphology Group)
📅 May 15, 2026 | 🕘 11:00 AM
📍 Audytorium Paczoskiego (Faculty of Biology, AMU)
See you all there! 🤩
Join us for our Friday Institute Seminar at IMBB!
📢 "To B or not to B in Nucleic Acids Chemistry"
👤 Prof. Naoki Sugimoto (Konan University, Japan)
📅 June 12, 2026 | 🕘 9:15 AM
📍 Audytorium Paczoskiego (Faculty of Biology, AMU)
See you all there! 🤩
Big news! 🥳 Joanna Szpotkowska, together with Prof. Malgorzata Borowiak, presents Glutathione Peroxidase 2 as a critical regulator of human posterior foregut differentiation, revealing oxidative stress as a key determinant of pancreatic versus non-pancreatic cell fate. Now in Nature Communications!
Great news! 🥳 A new study from the group of @piotraz.bsky.social shows that it is possible to precisely control where meiotic recombination occurs in plant genomes using the CRISPR/dCas9 system. Now published in Science Advances! Congratulations Maja Szymańska-Lejman, Piotr Ziolkowski and the crew!
New week, insights! ✨ The team led by Kinga Kamieniarz-Gdula (@stoplab.bsky.social) reveals in EMBO Reports how SETD2 acts as a genetic "traffic controller." A vital step in understanding cancer biology!
Congrats to @michal-gdula.bsky.social, @agatakstepien.bsky.social, @mgkopczynska.bsky.social! 👏
Great news! 🥳 Dr. Anna Baud with Prof. Krzysztof Sobczak showed that insulin-like growth factor 2 mRNA-binding protein 3 (IGF2BP3) positively regulates the noncanonical translation of expanded CGG repeats and may be a promising target for clinical applications. Published in Nature Communications!
Mushuvirus is the most widespread phage genus in the human gut. 🌍
Together with other family members, these viruses occur in 89% of humans worldwide, including the Iceman Ötzi!
How is it possible that they were hidden in previous metagenomic analyses?
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Read: doi.org/10.64898/202...
The role of metabolic processes in endoderm differentiation remains elusive. Here, the authors discover that oxidative stress and GPX2 determine whether human stem cells differentiate into pancreatic ...
Targeting chromatin modifiers to DNA hotspots reveals causal link between histone marks, transcription, and meiotic recombination.
www.science.org
SETD2 is a methyltransferase responsible for depositing histone H3 lysine 36 trimethylation (H3K36me3). Loss of its enzymatic activity occurs in some cancers, including renal cell carcinoma. SETD2 mut...
Expanded FMR1 CGG repeats drive toxic FMRpolyG in premutation disorders. Here, the authors show that IGF2BP3 binds the FMR1 5’UTR to promote non-AUG translation of FMRpolyG and that its loss reduces t...
