Super happy to see my PhD work with @martens_sascha out in @embojournal. A big thanks to everyone involved and also to @EMBOPress for the smooth revision process!
#Autophagy#MaxPerutzLabs#VBC
For more infos see the paper & my previous tweetorial:
https://t.co/8rE0u4an9o
Exciting news! ✨ Sascha Martens is proud to continue the journey with the Aligning Science Across Parkinson’s Initiative (ASAP), as their funding has been extended! The global collaboration has been exploring the crucial link between mitophagy and PD💡 ➡️ https://t.co/xYKs2qqcCR
Recruitment of autophagy initiator TAX1BP1 advances aggrephagy from cargo collection to sequestration
Bauer Bernd @BerndBaub, Sascha Martens @martens_sascha et al @MaxPerutzLabs
https://t.co/zMmeBofho2
Super happy to see my PhD work with @martens_sascha out in @embojournal. A big thanks to everyone involved and also to @EMBOPress for the smooth revision process!
#Autophagy#MaxPerutzLabs#VBC
For more infos see the paper & my previous tweetorial:
https://t.co/8rE0u4an9o
🚨 Out now! Bernd Bauer and the @martens_sascha lab reveal in @embojournal how the cargo receptor TAX1BP1 faciliates the switch from cargo collection to sequestration, a process crucial for aggrephagy - the cell's way of recycling aggregated proteins ♻️ ➡️ https://t.co/NVnlu9JNeT
The life of each one of us began when a sperm and an egg came together. But what actually happens at a molecular level?
Our latest work @PauliGroup @CellPress reveals a conserved fertilization complex that bridges sperm and egg in vertebrates! (1/8)
https://t.co/FT5oxJb1dx
A big thank you to the jury for selecting my poster for the EMBO poster prize at the #EMBOautophagy 2024, and to #EMBO for sponsoring the award. A special shoutout to the organizers for putting such a fantastic event together @martens_sascha @KnVelsrud@AntonellaDeMat4
🚨 New paper in @embojournal! The Karagöz lab has uncovered how IRE1, a crucial transmembrane protein, responds to protein folding stress in the ER and reveals that disordered regions in the luminal sensor domain play a vital role in its self-assembly ➡️ https://t.co/StI5I9QlF5
Super happy to see the final version of our paper on the role of NAP1/SINTBAD in PINK1/Parkin mitophagy!
@NatureSMB
Read the full paper here: https://t.co/hCIaVNR6kg
Out on @ScienceAdvances our paper describing how Alzheimer's Tau fibrils escape autophagy quality control! https://t.co/dPPYzwEgWe🧵below, featuring some challenging biochemistry on patient-derived protein aggregates
🆕 publication! Aggregates of Tau proteins are seen in Alzheimer's 🧠 @FerrariiLuca, postdoc with @martens_sascha, shows in @ScienceAdvances how monomeric and pathological Tau are targeted differently by the autophagy machinery ➡️ https://t.co/fqcXFh9UyK
@univienna@MedUni_Wien
I am super grateful to my co-authors and all other people that helped and supported me throughout this study. A big thanks of course goes to my PhD supervisor @martens_sascha.
This study was supported by the @FWF@MaxPerutzLabs@univienna@VBC @VBCPhDProgram @SMICH
Excited to share our latest preprint on how the switch from cargo collection to its sequestration in autophagosomes is regulated in aggrephagy #Autophagy#Biochemistry#CellBiology
Out now on @biorxivpreprint
https://t.co/8oSK6oLdgU
1/10
In summary, TAX1BP1 recruitment is negatively regulated by GABARAP and positively by ubiquitin on the cargo. It might act as a ubiquitin sensor, joining p62 condensates once enough cargo is collected, and promotes autophagosome biogenesis by recruiting autophagy proteins.
10/10