Jaime Agudo-Canalejo
@agudocanalejo.bsky.social
📤 245
📥 249
📝 4
Physicist interested in how matter comes alive.
reposted by
Jaime Agudo-Canalejo
Mike Chatzittofi
6 months ago
Our recent work about topological phase locking in stochastic oscillators with
@agudocanalejo.bsky.social
and Ramin Golestanian just got published in Nature Communications.
@natcomms.nature.com
Here is the link for the article:
www.nature.com/articles/s41...
.
2
3
1
reposted by
Jaime Agudo-Canalejo
Mike Chatzittofi
6 months ago
Paper alert! With Ramin Golestanian and
@agudocanalejo.bsky.social
, and by utilizing tools from non-equilibrium statistical physics and dynamical systems theory, we constructed a new paradigmatic framework which allows us to propose mechanistic rules for de novo design of enzymes.
add a skeleton here at some point
0
6
1
reposted by
Jaime Agudo-Canalejo
Chem Catalysis
6 months ago
Online Now: Mechanistic rules for de novo design of enzymes
#catalysis
loading . . .
Mechanistic rules for de novo design of enzymes
We develop a minimal model for an enzyme that allows us to extract a set of golden rules regarding its optimal design. We discover that two key ingredients of momentum conservation and a generically present dissipative coupling give rise to a bifurcation in the dynamical phase portrait of the low-dimensional configuration space, which enables enzymatic activity as an emergent feature of the dynamics, via a fundamentally novel mechanism not accessible to Kramers-like energy-barrier-crossing descriptions in terms of reaction coordinates.
http://dlvr.it/TKxp8r
0
3
2
reposted by
Jaime Agudo-Canalejo
Alfredo Sciortino
6 months ago
Thanks to
@agudocanalejo.bsky.social
and
@raovutukuri.bsky.social
[amongst the first ones to observe large fluctuations in GUVs!] for today's News and Views about our recent paper on active vesicle deformations - and I agree with the conclusion, it's just a beginning..!
doi.org/10.1038/s415...
loading . . .
Synthetic cells get into shape - Nature Physics
Shape changes in biological cells are driven by an active network of biopolymers. Now, similar deformations are observed in synthetic cell membranes.
https://www.nature.com/articles/s41567-025-02906-9
0
12
3
Thank you to the IOP Biological Physics group for this award! It's a pleasure to contribute to the biological physics community in the UK.
add a skeleton here at some point
8 months ago
1
8
0
reposted by
Jaime Agudo-Canalejo
Q-Immuno lab at UCL
12 months ago
📣 We are hiring! Postdoc opportunity in Quantitative Immunology at University College London. . 🔬 Develop computational approaches to discover clonal and functional T cell determinants of protection against Tuberculosis. Fully funded 2-year position. 🗓️ Apply by Dec 10
www.ucl.ac.uk/work-at-ucl/...
loading . . .
UCL – University College London
UCL is consistently ranked as one of the top ten universities in the world (QS World University Rankings 2010-2022) and is No.2 in the UK for research power (Research Excellence Framework 2021).
https://www.ucl.ac.uk/work-at-ucl/search-ucl-jobs/details?nPostingId=12146&nPostingTargetId=29502&id=Q1KFK026203F3VBQBLO8M8M07
0
4
8
Come work with me! Two fully-funded PhD positions in Theoretical Physics of Living Matter are available in my group at UCL, in the wonderful city of London . For more information and to apply, visit
www.agudo-canalejo.com/work-with-us
11 months ago
0
18
7
reposted by
Jaime Agudo-Canalejo
Chris MacDonald
11 months ago
Next up
#UKMT2024
, more endosomes (yay) 🤓 Shubhangi Sharma from Jitu Mayor’s lab with some great insights into how membrane tension drives less conventional endocytic processes and
@agudocanalejo.bsky.social
showing cool bending and scission of endosomal membranes driven by condensates.
0
3
2
reposted by
Jaime Agudo-Canalejo
Kirsty Wan
12 months ago
Couldn't find one so made a quick physics of life list, enjoy!
go.bsky.app/EA2VsDN
add a skeleton here at some point
79
131
83
reposted by
Jaime Agudo-Canalejo
Vaughn Cooper
11 months ago
I’m proud to join more than 30 colleagues today in sharing our analysis of potential risks from “mirror life”. We summarize our findings in a
@science.org
article, and in greater detail in a 300pg technical report: Article:
www.science.org/doi/10.1126/...
Report:
purl.stanford.edu/cv716pj4036
40
765
279
you reached the end!!
feeds!
log in
