Biomolecular simulation

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General

Biomolecular simulation[1] is the application of molecular dynamics simulations to biochemical research questions. Processes that can be modeled include, but are not limited to, protein folding, drug binding, membrane transport, and the conformational changes critical to protein function.

While biomolecular simulation could be considered a sub-field of computational chemistry, it is sufficiently specialized that Compute Canada has a Biomolecular Simulations National Team that supports this area. There is nevertheless some overlap of software tools between the two fields. See Computational chemistry for an annotated list of available software packages in that area.

Software Packages

The following software packages are available on Compute Canada's HPC resources:

Python Packages (Python Wheels)

Our Wheelhouse contains a number of Python Wheels that can be installed within a virtual Python environment and are useful in the domain of biomolecular simulation/molecular dynamics.

This list contains a selection of useful wheels, but is not to be considered complete:

  • MDAnalysis is an object-oriented Python library to analyze trajectories from molecular dynamics (MD) simulations in many popular formats.
  • MDTraj can also read, write and analyze MD trajectories with only a few lines of Python code with wide MD format support.
  • Biopython is a set of freely available tools for biological computation.
  • foyer is a package for atom-typing as well as applying and disseminating force fields.
  • mBuild is a hierarchical, component based molecule builder.
  • mdsynthesis is a persistence engine for molecular dynamics data.
  • nglview: NGL Viewer is a collection of tools for web-based molecular graphics.
  • ParmEd is a general tool for aiding in investigations of biomolecular systems using popular molecular simulation packages.
  • PyRETIS is a Python library for rare event molecular simulations with emphasis on methods based on transition interface sampling and replica exchange transition interface sampling.

Please check the list of available wheels and use the avail_wheels command on our clusters to see what is available.

If you require additional Python packages or newer versions, please contact Support.

Workshops and Training Material

The Molecular Modelling and Simulation National Team is offering Molecular Dynamics workshops. Workshops will be announced in Newsletters from the Alliance and the regional partner consortia.

The workshop material is also available for self-study:

  1. Practical considerations for Molecular Dynamics
  2. Visualizing Structures with VMD
  3. Running Molecular Dynamics with Amber on our clusters
  4. Analyzing Molecular Dynamics Data with PYTRAJ

Benchmarking MD-Simulations

We are working on providing practical examples on how to do Benchmarking of MD-Simulations. Please stay tuned.

References

  1. Ron O. Dror, Robert M. Dirks, J.P. Grossman, Huafeng Xu, and David E. Shaw. "Biomolecular Simulation: A Computational Microscope for Molecular Biology." Annual Review of Biophysics, 41:429-452, 2012. https://doi.org/10.1146/annurev-biophys-042910-155245