Publikation: Simulating and analysing configurational landscapes of protein-protein contact formation
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Interacting proteins can form aggregates and protein-protein interfaces with multiple patterns and different stabilities. Using molecular simulation one would like to understand the formation of these aggregates and which of the observed states are relevant for protein function and recognition. To characterize the complex configurational ensemble of protein aggregates, one needs a quantitative measure for the similarity of structures. We present well-suited descriptors that capture the essential features of non-covalent protein contact formation and domain motion. This set of collective variables is used with a nonlinear multi-dimensional scaling-based dimensionality reduction technique to obtain a low-dimensional representation of the configurational landscape of two ubiquitin proteins from coarse-grained simulations. We show that this two-dimensional representation is a powerful basis to identify meaningful states in the ensemble of aggregated structures and to calculate distributions and free energy landscapes for different sets of simulations. By using a measure to quantitatively compare free energy landscapes we can show how the introduction of a covalent bond between two ubiquitin proteins at different positions alters the configurational states of these dimers.
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BERG, Andrej, Christine PETER, 2019. Simulating and analysing configurational landscapes of protein-protein contact formation. In: Interface Focus. 2019, 9(3), 20180062. ISSN 2042-8898. eISSN 2042-8901. Available under: doi: 10.1098/rsfs.2018.0062BibTex
@article{Berg2019-06-06Simul-45855,
year={2019},
doi={10.1098/rsfs.2018.0062},
title={Simulating and analysing configurational landscapes of protein-protein contact formation},
number={3},
volume={9},
issn={2042-8898},
journal={Interface Focus},
author={Berg, Andrej and Peter, Christine},
note={Article Number: 20180062}
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