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Overall Objectives
New Software and Platforms
New Results
Bibliography
Overall Objectives
New Software and Platforms
New Results
Bibliography


Section: New Results

Convex relaxation for non-convex quadratic optimization problems with applications to side-chain prediction in protein structures

Participants : Aleksandr Katrutsa, Sergei Grudinin.

The side-chain prediction problem is the major part of the more general protein structure prediction problem, which is very important for drug design and in the prediction of stable protein mutations. Formally, the side-chain prediction problem states in the form of discrete quadratic optimization problem with an indefinite matrix in the quadratic term,

𝐱 𝐐 𝐱 + 𝐛 𝐱 min 𝐱 { 0 , 1 } n (2)

This problem is NP-hard, so to get a good approximation solution we used convex semidefinite relaxation with different types of constraints. This approach is the powerful optimization technique that helps to reformulate the initial non-convex problem as a convex one and sometimes even gives the exact solution. The important step is to operate with precise energy function, which is used to compute the energy of different interactions in proteins. To obtain this, we used the machine-learning procedure, which extracts the parameter vector for the potential from the training set of protein structures. After the training step, we used this vector to compute the energy of a protein and to find the side-chains corresponding to the minimal total energy of the protein. The current accuracy in side-chain prediction is about 80%, which is achieved using the spectrum relaxation of the matrix in the quadratic term. Also, this approach is very fast, precisely, it requires less than 1 second per protein to predict the positions of its side-chains.