Karolina Mitusińska scite author profile

Karolina Mitusińska

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5Publications

336Citation Statements Received

131Citation Statements Given

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Affiliations

Silesian University of Technology

Publications

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Structural and Evolutionary Analysis Indicate That the SARS-CoV-2 Mpro Is a Challenging Target for Small-Molecule Inhibitor Design

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et al. 2020

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The novel coronavirus whose outbreak took place in December 2019 continues to spread at a rapid rate worldwide. In the absence of an effective vaccine, inhibitor repurposing or de novo drug design may offer a longer-term strategy to combat this and future infections due to similar viruses. Here, we report on detailed classical and mixed-solvent molecular dynamics simulations of the main protease (Mpro) enriched by evolutionary and stability analysis of the protein. The results were compared with those for a highly similar severe acute respiratory syndrome (SARS) Mpro protein. In spite of a high level of sequence similarity, the active sites in both proteins showed major differences in both shape and size, indicating that repurposing SARS drugs for COVID-19 may be futile. Furthermore, analysis of the binding site's conformational changes during the simulation time indicated its flexibility and plasticity, which dashes hopes for rapid and reliable drug design. Conversely, structural stability of the protein with respect to flexible loop mutations indicated that the virus' mutability will pose a further challenge to the rational design of small-molecule inhibitors. However, few residues contribute significantly to the protein stability and thus can be considered as key anchoring residues for Mpro inhibitor design.

AQUA-DUCT 1.0: structural and functional analysis of macromolecules from an intramolecular voids perspective

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et al. 2019

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Motivation Tunnels, pores, channels, pockets and cavities contribute to proteins architecture and performance. However, analysis and characteristics of transportation pathways and internal binding cavities are performed separately. We aimed to provide universal tool for analysis of proteins integral interior with access to detailed information on the ligands transportation phenomena and binding preferences. Results AQUA-DUCT version 1.0 is a comprehensive method for macromolecules analysis from the intramolecular voids perspective using small ligands as molecular probes. This version gives insight into several properties of macromolecules and facilitates protein engineering and drug design by the combination of the tracking and local mapping approach to small ligands. Availability and implementation http://www.aquaduct.pl. Supplementary information Supplementary data are available at Bioinformatics online.

Structural and Evolutionary Analysis Indicate that the SARS-CoV-2 Mpro is an Inconvenient Target for Small-Molecule Inhibitors Design

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et al. 2020

Preprint

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The novel coronavirus whose outbreak took place in December 2019 continues to spread at a rapid rate worldwide. In the absence of an effective vaccine, inhibitor repurposing or de novo design may offer a longer-term strategy to combat this and future infections due to similar viruses. Here, we report on detailed molecular dynamics simulations of the main protease (Mpro). We compared and contrasted the Mpro for COVID-19 with a highly similar SARS protein. In spite of a high level of sequence similarity, the active sites in both proteins show major differences in both shape and size indicating that repurposing SARS drugs for COVID-19 may be futile. Furthermore, analysis of the pocket's time-dependence indicates its flexibility and plasticity, which dashes hopes for rapid and reliable drug design. Conversely, structural stability of the protein with respect to flexible loop mutations indicates that the virus' mutability will pose a further challenge to the rational design of small-molecule inhibitors.

Applications of water molecules for analysis of macromolecule properties

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et al. 2020

Computational and Structural Biotechnology Journal

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Computational insights into the known inhibitors of human soluble epoxide hydrolase

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et al. 2021

Drug Discovery Today

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