Molecular simulation is increasingly demonstrating its practical value in the investigation of biological systems. Computational modelling of biomolecular systems is an exciting and rapidly developing area, which is expanding significantly in scope. A range of simulation methods has been developed that can be applied to study a wide variety of problems in structural biology and at the interfaces between physics, chemistry and biology. Here, we give an overview of methods and some recent developments in atomistic biomolecular simulation. Some recent applications and theoretical developments are highlighted
During the last decade it has become feasible to simulate the behaviour of biologically relevant mol...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
The application of computer simulation to molecular systems of biochemical interest is reviewed. It ...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
The group for computer-aided chemistry at the ETH Zürich focuses its research on the development of ...
Despite huge advances in the computational techniques available for simulating biomolecules at the q...
The group for computer-aided chemistry at the ETH Zurich focuses its research on the development of ...
Computation based on molecular models is playing an increasingly important role in biology, biologic...
We review the state-of-the-art in computational molecular simulations for biological systems. We lim...
Molecular modelling and simulation techniques have proved power-ful tools for helping to understand ...
Molecular dynamics simulation (MDS) has gained increasing importance in current-day scientific resea...
Molecular dynamics simulations serve as a computational microscope to capture, with atomistic spatio...
In bionanotechnology, the field of creating functional materials consisting of bio-inspired molecule...
This contribution gives a short review of molecular modelling methods suitable for proteins and thei...
During the last decade it has become feasible to simulate the behaviour of biologically relevant mol...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
The application of computer simulation to molecular systems of biochemical interest is reviewed. It ...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
The group for computer-aided chemistry at the ETH Zürich focuses its research on the development of ...
Despite huge advances in the computational techniques available for simulating biomolecules at the q...
The group for computer-aided chemistry at the ETH Zurich focuses its research on the development of ...
Computation based on molecular models is playing an increasingly important role in biology, biologic...
We review the state-of-the-art in computational molecular simulations for biological systems. We lim...
Molecular modelling and simulation techniques have proved power-ful tools for helping to understand ...
Molecular dynamics simulation (MDS) has gained increasing importance in current-day scientific resea...
Molecular dynamics simulations serve as a computational microscope to capture, with atomistic spatio...
In bionanotechnology, the field of creating functional materials consisting of bio-inspired molecule...
This contribution gives a short review of molecular modelling methods suitable for proteins and thei...
During the last decade it has become feasible to simulate the behaviour of biologically relevant mol...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
The application of computer simulation to molecular systems of biochemical interest is reviewed. It ...