Welcome HervΓ© :)
13.03.2026 11:42
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FluiditΓ© intracellulaire et pouvoir infectieux du champignon Candida albicans
Dans un article publiΓ© dans la revue Nature Microbiology, des scientifiques mettent en Γ©vidence un mΓ©canisme jusque-lΓ inconnu chez Candida albic
#ResultatScientifiqueπ| Quand Candida albicans rΓ©duit ses ribosomes, ses cellules deviennent plus fluides, ce qui lβaide Γ changer de forme et Γ mieux infecter lβorganisme π
βοΈ Robert Arkowitz
π @natmicrobiol.nature.com | buff.ly/zPSLael
09.01.2026 13:00
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Happy New Year! And happy to share our latest instrumentation work, led by fantastic Ines Muguet. Ines showed that sliding elements, developped by Ben Meriem et al, can be functionnalized to have electrodes, thus allowing reconfigurable electrochemistry-on-chip! Stay tuned, more preprints to come.
09.01.2026 09:53
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π’ New extended abstract submission deadline: 6 January 2026! Outstanding speaker list, plus many slots for short talks by students, postdocs, and junior PIs. Join us in March in Barcelona! events.ibecbarcelona.eu/embl-ibec-co...
15.12.2025 10:14
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Wonderful collaboration with @robertarkowitz.bsky.social et al! Fascinating result that inhibiting ribosome biogenesis triggers filamentation of C. albicans!
11.12.2025 19:53
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Now published in EPJE!
27.10.2025 07:33
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So much deserved, congrats Edouard!
03.07.2025 17:34
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Congrats Efe, well deserved!
02.05.2025 10:43
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New preprint from the lab, an old work from Z. Ben Meriem! We compress cells in 2D and show that proliferation and motility decrease. Crowding increases under pressure, which may explain this result. Interestingly, more mesenchymal cells seem to be more sensitive to pressure!
tinyurl.com/ybfu62yf
28.04.2025 19:07
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These effects are conserved from bacteria to fungi to mammalian cells, with specificities depending on the organism. Crowding seems central to the adaptation to confined growth, and the conserved structure of the cytoplasm might explain the conservation of the response under pressure.
04.04.2025 07:40
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When cells grow confined, they develop a growth-induced pressure with numerous physiological consequences. Concomitant to pressure development, cells become more crowded, which impacts a plethora of biochemical reactions and, in particular, biosynthesis.
04.04.2025 07:38
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I want to share three reviews on crowding and spatial confinement, active areas of research on our end:
- on the dynamic structure of the cytoplasm: tinyurl.com/4d6drhnv
- on the sensing of and response to crowding: tinyurl.com/959ht4fw
- on the effect of spatial confinement: tinyurl.com/nhh7sk9w
04.04.2025 07:33
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Happy to bring this to light!
The result of quite a few years and fabulous collaborations with wonderful colleagues! Thread from Antonio Serrano (@antonioserrano) coming soon!
17.11.2024 15:48
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Mechanobiology across the tree of life
Pre-announcing the EMBO/EMBL symposium "Mechanobiology Across the Tree of Life", Heidelberg, 9-12 June 2026. It is still very very far away, but save the date ποΈ. With Alba Diz-Munoz, @nicolettapetridou.bsky.social , Kirsty Wan @micromotility.bsky.social, Enrique Rojas.
www.embl.org/about/info/c...
20.11.2024 16:49
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π¨ Excited to share our new study on the human fungal pathogen Candida albicans! Thread π (1/11)
biorxiv.org/content/10.1...
#Science #Microbiology #CellBiology
19.11.2024 14:47
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This work wouldnβt be possible without the incredible collaboration of wonderful colleagues.Thanks to Charles Puerner, Emily Plumb, Louis Chevalier, Johannes Elferich, Ludwig Sinn, Niko Grigorieff, Markus Ralser, @delarueresearch.bsky.social, Martine Bassilana and
@robertarkowitz.bsky.social (9/11)
19.11.2024 14:47
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