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Seminar on mathematical modeling in biology and medicine
June 16, 2022 16:30–17:30, It is online (MS TEAMS) now Moscow, Ordzhonikidze st., build. 3 (Peoples Friendship University of Russia, Faculty of Physics, Mathematics and Natural Sciences), online (the link is inside)
 


TSAR, a new graph–theoretical approach to computational modeling of protein side-chain flexibility: Modeling of ionization properties of proteins

F. N. Novikov

N. D. Zelinskii Institute of Organic Chemistry of the USSR Academy of Sciences, Moscow

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Abstract: A new graph–theoretical approach called thermodynamic sampling of amino acid residues (TSAR) has been elaborated to explicitly account for the protein side chain flexibility in modeling conformation-dependent protein properties. In TSAR, a protein is viewed as a graph whose nodes correspond to structurally independent groups and whose edges connect the interacting groups. Each node has its set of states describing conformation and ionization of the group, and each edge is assigned an array of pairwise interaction potentials between the adjacent groups. By treating the obtained graph as a belief-network—a well established mathematical abstraction—the partition function of each node is found. In the current work we used TSAR to calculate partition functions of the ionized forms of protein residues. A simplified version of a semi-empirical molecular mechanical scoring function, borrowed from our Lead Finder docking software, was used for energy calculations. The accuracy of the resulting model was validated on a set of 486 experimentally determined pKa values of protein residues. The average correlation coefficient (R) between calculated and experimental pKa values was 0.80, ranging from 0.95 (for Tyr) to 0.61 (for Lys). It appeared that the hydrogen bond interactions and the exhaustiveness of side chain sampling made the most significant contribution to the accuracy of pKa calculations.

Website: https://teams.microsoft.com/l/meetup-join/19%3ameeting_YTI2NzMxZDQtMWQ3My00NzU5LTkwZjEtYmJmMTIyNmE0YmU1%40thread.v2/0?context=%7b%22Tid%22%3a%222ae95c20-c675-4c48-88d3-f276b762bf52%22%2c%22Oid%22%3a%224496f797-8f9d-4b49-a30e-d363347b3ff2%22%7d
 
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