MECHANICAL UNFOLDING OF DDFLN4 STUDIED BY COARSE-GRAINED KNOWLEDGE-BASED CABS MODEL

MAKSIM KOUZA; MICHAL JAMROZ; DOMINIK GRONT; SEBASTIAN KMIECIK; ANDRZEJ KOLINSKI

doi:10.17466/TQ2014/18.4/R

TASK Quarterly (Oct 2014)

MECHANICAL UNFOLDING OF DDFLN4 STUDIED BY COARSE-GRAINED KNOWLEDGE-BASED CABS MODEL

MAKSIM KOUZA,
MICHAL JAMROZ,
DOMINIK GRONT,
SEBASTIAN KMIECIK,
ANDRZEJ KOLINSKI

Affiliations

MAKSIM KOUZA: University of Warsaw, Faculty of Chemistry
MICHAL JAMROZ: University of Warsaw, Faculty of Chemistry
DOMINIK GRONT: University of Warsaw, Faculty of Chemistry
SEBASTIAN KMIECIK: University of Warsaw, Faculty of Chemistry
ANDRZEJ KOLINSKI: University of Warsaw, Faculty of Chemistry

DOI: https://doi.org/10.17466/TQ2014/18.4/R
Journal volume & issue: Vol. 18, no. 4

Abstract

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Mechanical unfolding of the fourth domain of Distyostelium discoideum filamin (DDFLN4) was studied using a CABS – coarse-grained knowledge-based protein model. Our study demonstrates that CABS is capable of reproducing the unfolding free energy landscape of protein unfolding and highlights an important role of non-native interactions in the protein unfolding process. The obtained three peaks in the force-extension profile suggest a four-state picture of DDFLN4 protein unfolding and correspond reasonably to the results of the all-atom simulation in explicit solvent.

Published in TASK Quarterly

ISSN: 1428-6394 (Print)
Publisher: Gdańsk University of Technology
Country of publisher: Poland
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering: Information technology
Website: https://journal.mostwiedzy.pl/TASKQuarterly/index

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