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Predicting Protein and RNA Structures via data inference

Publié le 13 février 2020 Mis à jour le 13 février 2020

Alexander Schug – John von Neumann Institute for Computing, Jülich Supercomputer Centre, Forschungszentrum Jülich Faculty of Biology, University of Duisburg-Essen

On the molecular level, life is orchestrated through an interplay of many biomolecules. To gain any detailed understanding of biomolecular function, one needs to know their structure. Yet the structural characterization of many important biomolecules and their complexes - typically preceding any detailed mechanistic exploration of their function- remains experimentally challenging. Tools rooted in statistical physics such as Direct Coupling Analysis (DCA) but also increasingly Machine Learning driven approaches take advantage of the explosive growth of sequence databases and infer residue co-evolution to guide structure prediction methods via spatial constraints. Going beyond anecdotal cases of a few protein families, systematic large-scale studies of >1000 protein families are now possible and other information, such as low-resolution experimental information from, e.g. SAXS or FRET , can be used as further constraints in simulations.

Date(s)
Le 21 février 2020
VUB, Building I.0.05