atmolines.bsky.social
#cytoskeleton #biophysics #microscopy #rheology
Associate Professor @ https://www.i2bc.paris-saclay.fr/
Member of C. Le Clainche lab's @actin-paris-saclay.bsky.social
Trained in FR, refined in the US.
Views are my own.
https://www.atmolinesscience.com/
39 posts
713 followers
395 following
Regular Contributor
Active Commenter
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I was rooting for the 🦬 but now the 🦅will do!
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I had no idea what that was but a Google image search told me that @fedeteloni.bsky.social is right!
It is almost valuable 🤣
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Zhengda Li from the Ferrel Lab (web.stanford.edu/group/ferrel...) will show the role of Geometrical constraints on apoptosis propagation
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C. Galbraith from OSHU will show how Compartmentalized Cytoplasmic Flows Direct Protein Transport to the Cell's Leading Edge
www.biorxiv.org/content/10.1...
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@alexandra-colin.bsky.social from the Cytomorpholab with @lblanchoin.bsky.social and @manuelthery.bsky.social will talk about the scaling of actin architecture.
www.embopress.org/doi/full/10....
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Aravind Chandrasekaran from P. Rangamani lab at UCSD will show that Confinement and crowding drive kinetically trapped actin filament organization and control the shape of liquid droplets
www.cell.com/biophysj/abs...
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E. Korunova from M. Shtutman lab at Univ. of South Carolina will show that Single-particle tracking provides new insight into the structure of mammalian stress granules
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Silvia J. Cañas-Duarte from C. Jacobs-Wagner lab will present how Glycogen phase separation drives macromolecular rearrangement and asymmetric division upon nutrient depletion in Escherichia coli.
www.biorxiv.org/content/10.1...
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Hyojun Kim from @delarueresearch.bsky.social at LAAS #Toulouse will talk about How macromolecular crowding limits protein production under pressure
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Then Rui Fang from Westlake U. (en.westlake.edu.cn/faculty/rui-...) will present how Episodic Transport of Protein Aggregates Achieves a Positive Size Selectivity in Aggresome Formation.
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First, we will have Maribel Arjona Hidalgo from @minclab.bsky.social talking about the in vitro reconstitution of cytoplasm viscoelastic behavior.
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See you there then 👋🏻
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It's Thursday though 😉 (even for you down under)
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It looks disappointed
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👋
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More shots of the research campus as I am leaving because snow ❄️ makes everything look quiet and beautiful!
😍
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Recently, I joined @actin-paris-saclay.bsky.social team as an Assoc. Prof. 🎉
There I will continue to explore the feedback between the physics of the cytoplasm and cytoskeleton dynamics using in cellulo and in vitro approaches.
I am looking forward to interacting with you all here.
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I also had the opportunity to contribute to a collaboration with @bhamlalab.bsky.social, @mwelting.bsky.social, and others, to work on the mechanism of ultra-fast contraction in non-model systems.
www.pnas.org/doi/10.1073/...
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Lately, in collaboration with Gary Brouhard's lab at McGill, I also used in vitro reconstitution to explore how different viscogens affect microtubule dynamics in vitro.
www.biorxiv.org/content/10.1...
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This prompted me to try and get a better understanding of the cytoplasm and its properties.
I joined forces with @rikkigarner.bsky.social to show that the cytoplasm is a heterogeneous environment where viscosity varies in space within cells and also between cells 🤯
www.cell.com/biophysj/ful...
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Then, for my postdoc, I moved to the US and joined Fred Chang's lab at UCSF.
There I focused on the cytoplasm and became fascinated by its physical properties.
I discovered that cytoplasmic viscosity controls microtubule dynamics.
www.cell.com/developmenta...
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During my Ph.D. we also used in vitro reconstitution to study our protein of interest (EB1) and compare it to its mammalian counterpart.
bmcresnotes.biomedcentral.com/articles/10....
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My Ph.D. work focused on microtubule dynamics and organization in Arabidopsis thaliana 🌱
journals.biologists.com/bio/article/...
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Add me? 🥺
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👋🤩