'Endosomal-lysosomal network dysfunction in neurodegeneration'. 13 speaker slots for selected posters. Session chair slots. Keynotes, Frances Platt + Volker Haucke. Colworth Medal Ben Ryskeldi-Falcon. Discussion panels + more. SUPER EARLY DEADLINE 1st JUNE 2026 www.eventsforce.net/biochemsoc/f...
With Kirsty and Natalie, excited about 93rd Harden Conference 'Endosomal-lysosomal network dysfunction in neurodegeneration'. 1st-4th Sept 2026 in UK. Opportunities for oral presentations selected from posters. 1st June deadline for cheaper registration!!! Come join us. Please, please spread widely.
Excited to announce, the 93rd Biochemical Society Harden Conference will be on "Endosomal-lysosomal network dysfunction in neurodegeneration". Come and join us in early September on the beautiful south coast of England. Lots of speaker slots available from submitted abstracts!
Sorry for the cliché: not sure how to avoid it...
I am very honoured to join such an illustrious list of previous winners
And – of course – the credit largely belongs to the fabulous people I have been lucky enough to work with @dunnschool.bsky.social and earlier @mrclmb.ac.uk
'Endosomal-lysosomal network dysfunction in neurodegeneration'. 13 speaker slots for selected posters. Session chair slots. Keynotes, Frances Platt + Volker Haucke. Colworth Medal Ben Ryskeldi-Falcon. Discussion panels + more. SUPER EARLY DEADLINE 1st JUNE 2026. www.eventsforce.net/biochemsoc/f...
Harden 'Endosomal-lysosomal network dysfunction in neurodegeneration' programme online. 13 speaker slots for selected posters. Session chair slots. Keynotes, Frances Platt + Volker Haucke. Colworth Medal Ben Ryskeldi-Falcon. Discussion panels + more. Come join us! www.eventsforce.net/biochemsoc/f...
ICYMI: a quick calculation of transmembrane domain-containing proteins in a proteome.
If you need to use this info: the code is in the post, or you can cite it since all quantixed posts have their own DOI courtesy of Rogue Scholar. doi.org/10.59350/0ah...
Seen on way back to London from ASCB. As Jez Carlton said “if rudder falls off will it regenerate”. Have a good flight home everyone after another great meeting…… long may ASCB continue
Do you want to know more about how Retromer regulates Rab7 activity in yeast? Of course you do. Check out the new collaboration with Andreas Mayer with work led by Catarina Alves and Kevin Chen.
Happy to share that I passed my PhD viva on 21st Jan 2026 🎓🎉
A great 4-hour discussion with Sharon A. Tooze & Sylvie Urbé, chaired by Jon Lane. Huge thanks to my supervisor Pete Cullen, my lab mates, collaborators, and my funder EndoConnect for all the support along the way.
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The Retromer coat is conserved in all eukaryotes and is crucial for the correct intracellular sorting of many transmembrane receptors and lysosomal hydrolases. Retromer is an effector of the late endosomal small GTPase RAB7 and is also implicated in its inactivation required for proper endosomal maturation. Here, we explore the role of controlled GTP hydrolysis by the RAB7 ortholog Ypt7 in the formation of Retromer-coated membrane carriers in yeast. Proximity labelling and genetic ablation identify the GTPase Activating Protein (GAP) Gyp6 as a critical regulator of Ypt7 activity in the context or Retromer. Structural studies show that Retromer recruits Gyp6 through its Vps29 subunit, which recognises a specific PL motif and a secondary binding site in the C-terminal domain of Gyp6. This interaction does not occur with other yeast GAPs. Ablation of the Gyp6-Retromer interface or the catalytic activity of Gyp6 leads to the accumulation of tubular structures on endo-lysosomal compartments and to increased association of Ypt7 with Retromer and its cargo Vps10. These results support a model in which Gyp6 controls the switch from Ypt7-dependent Retromer coat assembly and cargo collection to the departure of the carrier through membrane fission and uncoating. ### Competing Interest Statement The authors have declared no competing interest. National Health and Medical Research Council, https://ror.org/011kf5r70, APP2016410 Swiss National Science Foundation, https://ror.org/00yjd3n13, 31003A_179306, 310030_204713, 10.006.083
A leader in the cell biology of signalling, the 2027 Centenary Award is presented to Matthew Freeman in recognition of his pioneering discoveries into the biological significance and mechanisms of rhomboid intramembrane proteases and pseudoprotease and unwavering commitment to mentorship!
How many proteins in the human proteome have transmembrane domains? And of those, how many examples with n TMDs are there?
Couldn't find an answer, so I calculated it from Uniprot data with some #RStats magic (and I did some model organisms while I was at it). 🧪
quantixed.org/2026/04/16/m...
