$2.5 million NIH grant energizes force field development
听
- Aim 1: Create a modern, open software infrastructure for automatically generating and validating force fields and utilizing them broadly in modeling packages.
- Aim 2: Construct open datasets and databases for next-generation force field development.
- Aim 3: Develop Bayesian inference techniques to address key questions in force field physical modeling and predict systematic error.
- Aim 4: Integrate the results of Aims 1-3 to construct and validate open source, transferable, and self-consistent force fields for small molecule interactions with complex biomolecular systems.
The awarded nearly $2.5 million in funding over four years to the, an open source, open science and open data project co-founded by Associate Professor Michael Shirts.
Shirts is the principal investigator on the, which established multiple ambitious goals to help build the project鈥檚 utility, efficacy and reach in developing new computational models for molecules to push forward the study of biomolecular phenomena.
鈥淚f we build this infrastructure, it will make it much easier for other researchers鈥攍ikely hundreds across the globe鈥攖o do accurate calculations for molecular design problems like developing new drugs or engineering polymeric materials for batteries and other energy applications,鈥 Shirts said.
Associate Professor Michael Shirts
In recent years, researchers have improved software and methods for modeling biophysical problems, specifically for how effectively pharmaceuticals behave. However, improvements in the force fields that operate at the core of these simulations have been slow in coming.
鈥淭he initiative aims to help molecular simulations reach their full potential, overcome their inaccuracies and limitations in small molecule design, accelerate and automate progress in force field development, and create statistically guided processes to advance the field,鈥 Shirts said.
鈥淭he big motivation is that the molecular models used for biophysics and drug design didn't seem to be getting much better, and a lot of graduate student hours were chewed up making them,鈥 Shirts said. 鈥淎 new approach was needed, so four other researchers and I decided to start the effort. The infrastructure that we will develop will save many, many hours for a lot of people and make the process of developing molecular models much more of an engineering process, rather than an art like it typically is now.鈥
Shirts and his fellow researchers are grateful for the funding and looking forward to expanding the project. 鈥淲e can now expand the project into co-developing computational models for biological models in combination with prospective drug molecules,鈥 Shirts said. 鈥淭his allows us to ask some of the longer-term scientific questions about molecular models that industrial funding to The Open Force Field Initiative didn鈥檛 really allow.鈥
The Open Force Field Initiative is a partnership between researchers at CU 麻豆影院, Memorial Sloan Kettering Cancer Center, University of California, Irvine, University of California, San Diego and University of California, Davis with additional collaborations with the MolSSI QCArchive and the AMBER community and a number of pharmaceutical companies.