Giovanni Settanni scite author profile

Wordom is a versatile program for manipulation of molecular dynamics trajectories and efficient analysis of simulations. Original tools in Wordom include a procedure to evaluate significance of sampling for principal component analysis as well as modules for clustering multiple conformations and evaluation of order parameters for folding and aggregation. The program was developed with special emphasis on user-friendliness, effortless addition of new modules and efficient handling of large sets of trajectories.

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Folding and Unfolding Mechanism of Highly Stable Full-Consensus Ankyrin Repeat Proteins

Wetzel

Settanni²,

Kenig

et al. 2008

Journal of Molecular Biology

165

219

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Characterization and Further Stabilization of Designed Ankyrin Repeat Proteins by Combining Molecular Dynamics Simulations and Experiments

Interlandi

Wetzel

Settanni

et al. 2008

Journal of Molecular Biology

110

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The intracellular antibody capture technology (IACT): towards a consensus sequence for intracellular antibodies

Visintin

Settanni

Maritan

et al. 2002

Journal of Molecular Biology

131

115

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Toward the Rational Design of p53-Stabilizing Drugs: Probing the Surface of the Oncogenic Y220C Mutant

Basse

Kaar

Settanni

et al. 2010

Chemistry & Biology

102

112

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The p53 cancer mutation Y220C induces formation of a cavity on the protein's surface that can accommodate stabilizing small molecules. We combined fragment screening and molecular dynamics to assess the druggability of p53-Y220C and map ligand interaction sites within the mutational cavity. Elucidation of the binding mode of fragment hits by crystallography yielded a clear picture of how a drug might dock in the cavity. Simulations that solvate the protein with isopropanol found additional sites that extend the druggable surface. Moreover, structural observations and simulation revealed the dynamic landscape of the cavity, which improves our understanding of the impact of the mutation on p53 stability. This underpins the importance of considering flexibility of the cavity in screening for optimized ligands. Our findings provide a blueprint for the design of effective drugs that rescue p53-Y220C.

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