PIPER: An FFT‐based protein docking program with pairwise potentials

Kozakov, Dima; Brenke, Ryan; Comeau, Stephen R.; Vajda, Sándor

doi:10.1002/prot.21117

articleProteins Structure Function and BioinformaticsAug 24, 2006Closed access

PIPER: An FFT‐based protein docking program with pairwise potentials

DKDima Kozakov RBRyan Brenke SRStephen R. Comeau SVSándor Vajda

Boston University · Zero to Three

PubMed

Indexed incrossrefpubmed

Abstract

The Fast Fourier Transform (FFT) correlation approach to protein-protein docking can evaluate the energies of billions of docked conformations on a grid if the energy is described in the form of a correlation function. Here, this restriction is removed, and the approach is efficiently used with pairwise interaction potentials that substantially improve the docking results. The basic idea is approximating the interaction matrix by its eigenvectors corresponding to the few dominant eigenvalues, resulting in an energy expression written as the sum of a few correlation functions, and solving the problem by repeated FFT calculations. In addition to describing how the method is implemented, we present a novel class…

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Topics & keywords

Topics

Keywords

Docking (animal)
Fast Fourier transform
Searching the conformational space for docking
Pairwise comparison
Macromolecular docking
Eigenvalues and eigenvectors
Computer science
Chemistry

UN Sustainable Development Goals

Affordable and clean energy

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