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Molecular Landscaping

By Brookhaven National Laboratory
May 23, 2019
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A schematic of the BRD4 protein bound to one of 16 drugs based on the same tetrahydroquinoline scaffold (highlighted in magenta). — Researchers at the U.S. Department of Energy's Brookhaven National Laboratory and Rutgers University pursuing drug candidates are using supercomputing to differentiate candidate molecules' protein-binding ability.

Credit: Brookhaven National Laboratory

Researchers at the U.S. Department of Energy's Brookhaven National Laboratory (BNL) and Rutgers University are pursuing promising drug candidates via supercomputing to differentiate candidate molecules' protein-binding ability.

BNL's Shantenu Jha said, "Think of this as trying to explore a very large, open landscape to try to find where you might be able to get the best drug candidate."

The researchers employed algorithms to predict binding affinity, and introduced simplified versions in a high-throughput binding affinity calculator framework.

The team used this system in several supercomputers to successfully differentiate the binding capabilities of 16 drug candidates.

From Brookhaven National Laboratory
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