Such beautiful work soon to be in textbooks!
Congratulations to Alison @alisonkickuth.bsky.social and the lab @brugueslab.bsky.social!
07.01.2026 16:24
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Such beautiful work soon to be in textbooks!
Congratulations to Alison @alisonkickuth.bsky.social and the lab @brugueslab.bsky.social!
How do cells adapt morphology to function? In a π₯ preprint by @zjmaggiexu.bsky.social , with @dudinlab.bsky.social and @amyweeks.bsky.social , we identify a self-organizing single-cell morphology circuit that optimizes the feeding trap structure of the suctorian P. collini. 𧡠tinyurl.com/4k8nv926
To recognise and celebrate @svobodalab.bsky.social's pivotal contribution to Woodstock Bio2 + Night Science, #TCTeAC, I am starting this "What Petr Svoboda did at Woodstock?" thread. If you were there - #contribute and #retweet.
"Petr Didnβt Submit an Abstract. #TCTeAC Submitted to Him."
Our study on endothelial mechanics made the news! π€©
Super nice and clear article on our findings and their implications.
www.snexplores.org/article/how-...
it appears your safe back-up post doc project wasnβt so risk free after all, mr. bond
Yes thanks :)
Amazing defense by @alisonkickuth.bsky.social! Congratulations on the beautiful thesis!
Can you add me?
Glad to see this one finally emerging :) congratulations Claire!
Very happy and excited to share our latest work linking actin nematodynamics and endothelial cell mechanics under anisotropic tension, now published in @natphys.nature.com ! rdcu.be/eigWi
@ipparis.bsky.social @polytechniqueparis.bsky.social
Looking for a student or postdoc!
Want to combine evolutionary analysis + structural modeling with in vitro biochemistry & fluorescence microscopy?
Help us uncover new protein-protein interactions β from in silico to in vitro.
Join us at @istaresearch.bsky.social π looselab.org
π§¬π‘π¬π‘
REPOSTING this here just to officially leave "the other place"
Our work on the role of endogenous electric fields in guiding collective cell migration during #morphogenesis is out @naturematerials.bsky.social
nature.com/articles/s41...
Very happy that our new paper on social distancing during epidemics has just come out in @pnas.org!
With @molinajohnj.bsky.social, Ryoichi Yamamoto, and Matthew S. Turner.
Understanding Nash epidemics | PNAS www.pnas.org/doi/10.1073/...
Well phrased, Sven.
Could you elaborate on one of them? A realistic pathway that leads to such a system. While I wish for such a system to be the status quo, I fail to imagine a pathway that doesn't rely on: if in a wrong system we all do the right thing will transform the system. Has this ever worked?
The belief that discoveries stem from and can be guided by lone geniuses, is at the core of this issue. Peer review and publishing follow the same pattern, where a few decide over the success of others, turning it into a lottery. What puzzles me is how do change this system from this point onward?
In fun news, a video of mine won the UCLA Broad Stem Cell Research Center's Imaging Competition!
You can see a muscle cell (a myoblast) fusing into a moving myotube. These myotubes mature to become our muscle fibers. They are beautiful cells! π€©
www.youtube.com/watch?v=g6xK...
The Image & Optics Facility @ Institute of Science and Technology Austria is expanding itβs image analysis services and has a vacant position for a service oriented *Image Analysis Specialist* with a strong interest for data infrastructure organizationπ¬π§βπ»π - sharing is much appreciated
Excited about protein biochemistry, fluorescence microscopy, and image analysis? Curious how proteins drive bacterial division or define organelle identity? Join us at ISTA! Apply to the PhD program by Jan 8th: gradschool.ist.ac.at
Entropy is one of those formulas that many of us learn, swallow whole, and even use regularly without really understanding.
(E.g., where does that βlogβ come from? Are there other possible formulas?)
Yet there's an intuitive & almost inevitable way to arrive at this expression.
New paper out with the Kicheva group by S. Lehr and D. Bruckner! π§ͺ Develops a new 2D neural tube organoid, and models its striking self-organized patterns! Key finding: patterning via 2-phase dynamics of BMP, which acts like a temporal relay balancing sequential fate decisions! bit.ly/3OJti4G
As promised, here a fast acquisition of a migrating cell videoed under a microscopy, look those membrane dynamics @ the leading edge !
Bonus: nuclear deformation once the cell rear snaps.
(Fluo nucleus, for the #fluorescencefriday)
@focalplane.bsky.social @cellcommlab.bsky.social #CellMigration π§ͺπ¬
I have moved to π¦ as well ! Looking forward to reconnecting with old and initiating new science contacts here
Please add me!
Beautiful work!
Mix two motors of opposite polarity with microtubules and they will partition space !
Microtubules will get organized in polar and active barriers, sorting the two motors in separated domains, leading to the emergence of a new type of patterns.
#morphogenesis
doi.org/10.1073/pnas...
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π±π¬The most time-intensive and difficult paper of my PhD is now published in #mSystemsJ! I'm proud of this work and also how much I've grown since I first started this experiment. Read on to learn more about how the functions of bacterial communities impact plant growth and health. π
Neat!
What cells are these?
I thought #fluorescencefriday would be a good opportunity for my first post here. Here are some crazy actin dynamics imaged with TIRF
Can you add me? : )
