Stefano Bo
@bosste.bsky.social
Lecturer in the Biological Physics and Soft Matter Group at King’s College London
https://stefano.bo/
https://stefano.bo/
Reposted by Stefano Bo
Paper alert!🧪
We derive a theory that underpins interface resistance with a physical foundation and look at how it changes droplet growth and recovery kinetics! Awesome collab with @bosste.bsky.social Tyler Harmon @hymanlab.bsky.social @m-pol.bsky.social and Frank Jülicher @mpipks.bsky.social 1/4
We derive a theory that underpins interface resistance with a physical foundation and look at how it changes droplet growth and recovery kinetics! Awesome collab with @bosste.bsky.social Tyler Harmon @hymanlab.bsky.social @m-pol.bsky.social and Frank Jülicher @mpipks.bsky.social 1/4
Transport kinetics across interfaces between coexisting liquid phases
elifesciences.org
September 16, 2025 at 6:45 AM
Paper alert!🧪
We derive a theory that underpins interface resistance with a physical foundation and look at how it changes droplet growth and recovery kinetics! Awesome collab with @bosste.bsky.social Tyler Harmon @hymanlab.bsky.social @m-pol.bsky.social and Frank Jülicher @mpipks.bsky.social 1/4
We derive a theory that underpins interface resistance with a physical foundation and look at how it changes droplet growth and recovery kinetics! Awesome collab with @bosste.bsky.social Tyler Harmon @hymanlab.bsky.social @m-pol.bsky.social and Frank Jülicher @mpipks.bsky.social 1/4
Reposted by Stefano Bo
Another exciting day ahead at 'Physics of Life 2025'! Highlights include keynote talks by Satyajit Mayor & Otger Campàs, cutting-edge sessions, lunchtime talks, and a dinner at Pavilions of Harrogate - all whilst the sun shines down on us!
March 26, 2025 at 11:53 AM
Another exciting day ahead at 'Physics of Life 2025'! Highlights include keynote talks by Satyajit Mayor & Otger Campàs, cutting-edge sessions, lunchtime talks, and a dinner at Pavilions of Harrogate - all whilst the sun shines down on us!
How are single-molecule dynamics influenced by phase separation? What happens if these molecules undergo chemical reactions as they often do in biomolecular condensates? What if they are driven out of equilibrium?
arxiv.org/abs/2503.19517
@larshubatsch.bsky.social @mpipks.bsky.social
arxiv.org/abs/2503.19517
@larshubatsch.bsky.social @mpipks.bsky.social
Single-molecule trajectories of reactants in chemically active biomolecular condensates
Biomolecular condensates provide distinct chemical environments, which control various cellular processes. The diffusive dynamics and chemical kinetics inside phase-separated condensates can be studie...
arxiv.org
March 26, 2025 at 2:55 PM
How are single-molecule dynamics influenced by phase separation? What happens if these molecules undergo chemical reactions as they often do in biomolecular condensates? What if they are driven out of equilibrium?
arxiv.org/abs/2503.19517
@larshubatsch.bsky.social @mpipks.bsky.social
arxiv.org/abs/2503.19517
@larshubatsch.bsky.social @mpipks.bsky.social
First submission from the new lab! Have a look at the method we developed for the 2024 Anomalous Diffusion Challenge
arxiv.org/abs/2503.09422
arxiv.org/abs/2503.09422
Recurrent neural network analysis of single trajectories switching between anomalous diffusion states
Diffusive dynamics abound in nature and have been especially studied in physical, biological, and financial systems. These dynamics are characterised by a linear growth of the mean squared displacemen...
arxiv.org
March 13, 2025 at 7:44 AM
First submission from the new lab! Have a look at the method we developed for the 2024 Anomalous Diffusion Challenge
arxiv.org/abs/2503.09422
arxiv.org/abs/2503.09422
Reposted by Stefano Bo
@CharlotteAumeier @barrallab.bsky.social @bosste.bsky.social y.social @gcelora.bsky.social lora.bsky.social @FredChang @AshutoshChilkoti @softliv.bsky.social @JimFerrel @gladfelterlab.bsky.social @alexholehouse.bsky.social @FrankJülicher @sophiemartinlab.bsky.social @Tim Mitchison @DianaMitrea
We already have an amazing speaker line up and it will be even better if you join! Only few days left to submit an abstract meetings.embo.org/event/25-cel...
CELLULAR MATTERS: A deeper look into the complex cytoplasm
The cytoplasm is a highly specialized material where a multitude of different chemical processes occur simultaneously. The cytoplasm can also store information and change its properties in response t…
meetings.embo.org
January 27, 2025 at 10:34 AM
@CharlotteAumeier @barrallab.bsky.social @bosste.bsky.social y.social @gcelora.bsky.social lora.bsky.social @FredChang @AshutoshChilkoti @softliv.bsky.social @JimFerrel @gladfelterlab.bsky.social @alexholehouse.bsky.social @FrankJülicher @sophiemartinlab.bsky.social @Tim Mitchison @DianaMitrea
Reposted by Stefano Bo
We started the year with a great founding meeting of the Biomolecular Condensates UK Network! Thanks for support @RosFrankInst @IOPPublishing @durham_uni @EdinburghUni
January 13, 2025 at 11:19 AM
We started the year with a great founding meeting of the Biomolecular Condensates UK Network! Thanks for support @RosFrankInst @IOPPublishing @durham_uni @EdinburghUni
I have an exciting opportunity for a PhD on the study of force sensing proteins www.findaphd.com/phds/project... The candidate will have the opportunity to perform experiments in the lab of Rafael Tapia-Rojo and develop theory and machine-learning approaches with me. Start date June 2025
Machine learning the dynamics of force-sensing proteins at King’s College London on FindAPhD.com
PhD Project - Machine learning the dynamics of force-sensing proteins at King’s College London, listed on FindAPhD.com
www.findaphd.com
January 13, 2025 at 10:27 PM
I have an exciting opportunity for a PhD on the study of force sensing proteins www.findaphd.com/phds/project... The candidate will have the opportunity to perform experiments in the lab of Rafael Tapia-Rojo and develop theory and machine-learning approaches with me. Start date June 2025
Reposted by Stefano Bo
1/6 🧪 Preprint-Alert!
We looked at how molecules move across phase boundaries, e.g., in liquid droplets, taking into account that chemical potentials inside and outside the boundary can be different!
This unites recent work with stuff from the 60s and has cool consequences 👇
shorturl.at/j0U6i
We looked at how molecules move across phase boundaries, e.g., in liquid droplets, taking into account that chemical potentials inside and outside the boundary can be different!
This unites recent work with stuff from the 60s and has cool consequences 👇
shorturl.at/j0U6i
Transport kinetics across interfaces between coexisting liquid phases
We investigate the kinetics of material transport across interfaces in phase-separated mixtures. Using non-equilibrium thermodynamics we derive the interfacial kinetics, describing the movement of the...
www.biorxiv.org
January 7, 2025 at 9:56 AM
1/6 🧪 Preprint-Alert!
We looked at how molecules move across phase boundaries, e.g., in liquid droplets, taking into account that chemical potentials inside and outside the boundary can be different!
This unites recent work with stuff from the 60s and has cool consequences 👇
shorturl.at/j0U6i
We looked at how molecules move across phase boundaries, e.g., in liquid droplets, taking into account that chemical potentials inside and outside the boundary can be different!
This unites recent work with stuff from the 60s and has cool consequences 👇
shorturl.at/j0U6i
Hello world! See our latest pre-print www.biorxiv.org/content/10.1... with @larshubatsch.bsky.social and @mpipks.bsky.social @weberlab.bsky.social
@biorxiv-biophys.bsky.social
@biorxiv-biophys.bsky.social
Transport kinetics across interfaces between coexisting liquid phases
We investigate the kinetics of material transport across interfaces in phase-separated mixtures. Using non-equilibrium thermodynamics we derive the interfacial kinetics, describing the movement of the...
www.biorxiv.org
December 27, 2024 at 10:03 AM
Hello world! See our latest pre-print www.biorxiv.org/content/10.1... with @larshubatsch.bsky.social and @mpipks.bsky.social @weberlab.bsky.social
@biorxiv-biophys.bsky.social
@biorxiv-biophys.bsky.social