Interdependence across time and length scales is common in biology, where atomic interactions can impact larger-scale phenomenon. Such dependence is especially true for a well-known cancer signaling pathway, where the membrane-bound RAS protein binds an effector protein called RAF. To capture the driving forces that bring RAS and RAF (represented as two domains, RBD and CRD) together on the plasma membrane, simulations with the ability to calculate atomic detail while having long time and large length- scales are needed. The Multiscale Machine-Learned Modeling Infrastructure (MuMMI) is able to resolve RAS/RAF protein-membrane interactions that identify specific lipid-protein fingerprints that enhance protein orientations viable for effector...
Fueled by breakthrough technology developments, the biological, biomedical, and behavioral sciences ...
Machine learning (ML) has emerged as a pervasive tool in science, engineering, and beyond. Its succe...
The 60's gave birth to the practical implementation of classical mechanics to unravel the dynamics a...
RAS is a signaling protein associated with the cell membrane that is mutated in up to 30% of human c...
The large range of spatial and temporal scales inherent in biological and soft matter is a challenge...
Molecular dynamics simulations provide a computational tool to probe membrane proteins and systems a...
In principle, all the problems in biology could be solved by solving the time-dependent Schroedinger...
We review the state-of-the-art in computational molecular simulations for biological systems. We lim...
We present a multi-scale simulation procedure to describe membrane-related biological processes that...
We present a continuum model trained on molecular dynamics (MD) simulations for cellular membranes c...
Simulations are revealing detailed mechanisms of biomolecular systems and functionally relevant dyna...
Simulating protein complexes on large time and length scales is often intractable at the atomistic r...
We developed theories and algorithms for two coarse-grained implicit solvent models that can be depl...
Drug action is inherently multiscale: it connects molecular interactions to emergent properties at c...
The research described in this work rises from the current challenges in molecular dynamics (MD) si...
Fueled by breakthrough technology developments, the biological, biomedical, and behavioral sciences ...
Machine learning (ML) has emerged as a pervasive tool in science, engineering, and beyond. Its succe...
The 60's gave birth to the practical implementation of classical mechanics to unravel the dynamics a...
RAS is a signaling protein associated with the cell membrane that is mutated in up to 30% of human c...
The large range of spatial and temporal scales inherent in biological and soft matter is a challenge...
Molecular dynamics simulations provide a computational tool to probe membrane proteins and systems a...
In principle, all the problems in biology could be solved by solving the time-dependent Schroedinger...
We review the state-of-the-art in computational molecular simulations for biological systems. We lim...
We present a multi-scale simulation procedure to describe membrane-related biological processes that...
We present a continuum model trained on molecular dynamics (MD) simulations for cellular membranes c...
Simulations are revealing detailed mechanisms of biomolecular systems and functionally relevant dyna...
Simulating protein complexes on large time and length scales is often intractable at the atomistic r...
We developed theories and algorithms for two coarse-grained implicit solvent models that can be depl...
Drug action is inherently multiscale: it connects molecular interactions to emergent properties at c...
The research described in this work rises from the current challenges in molecular dynamics (MD) si...
Fueled by breakthrough technology developments, the biological, biomedical, and behavioral sciences ...
Machine learning (ML) has emerged as a pervasive tool in science, engineering, and beyond. Its succe...
The 60's gave birth to the practical implementation of classical mechanics to unravel the dynamics a...