Publications by authors named "P M Cossio"
Extracting consistent statistics between relevant free energy minima of a molecular system is essential for physics, chemistry, and biology. Molecular dynamics (MD) simulations can aid in this task but are computationally expensive, especially for systems that require quantum accuracy. To overcome this challenge, we developed an approach combining enhanced sampling with deep generative models and active learning of a machine learning potential (MLP).
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- TGF-β is a crucial protein involved in development and immunity, usually expressed in a latent form associated with its prodomain and presented on immune cells via GARP.
- Recent findings indicate that TGF-β can signal without needing to fully dissociate from its latent form, challenging existing beliefs.
- New research using advanced microscopy shows that the binding of integrin αvβ8 can alter the structure of latent TGF-β, allowing it to activate signaling pathways without being released, and this mechanism may apply to other similar receptor/ligand systems.
Our ability to calculate rate constants of biochemical processes using molecular dynamics simulations is severely limited by the fact that the time scales for reactions, or changes in conformational state, scale exponentially with the relevant free-energy barrier heights. In this work, we improve upon a recently proposed rate estimator that allows us to predict transition times with molecular dynamics simulations biased to rapidly explore one or several collective variables (CVs). This approach relies on the idea that not all bias goes into promoting transitions, and along with the rate, it estimates a concomitant scale factor for the bias termed the "CV biasing efficiency" γ.
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