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Effects of the Protonation State of Titratable Residues and the Presence of Water Molecules on Nocodazole Binding to β‐Tubulin
Authors:Dulce C. Guzmán‐Ocampo  Rodrigo Aguayo‐Ortiz  Lucia Cano‐González  Prof. Dr. Rafael Castillo  Prof. Dr. Alicia Hernández‐Campos  Prof. Dr. Laura Dominguez
Affiliation:1. Facultad de Química, Departamento de Fisicoquímica, Universidad Nacional Autónoma de México, Mexico City, Mexico;2. Facultad de Química, Departamento de Farmacia, Universidad Nacional Autónoma de México, Mexico City, Mexico
Abstract:Regulation of microtubule assembly by antimitotic agents is a potential therapeutic strategy for the treatment of cancer, parasite infections, and neurodegenerative diseases. One of these agents is nocodazole (NZ), which inhibits microtubule polymerization by binding to β‐tubulin. NZ was recently co‐crystallized in Gallus gallus tubulin, providing new information about the features of interaction for ligand recognition and stability. In this work, we used state‐of‐the‐art computational approaches to evaluate the protonation effects of titratable residues and the presence of water molecules in the binding of NZ. Analysis of protonation states showed that residue E198 has the largest modification in its pKa value. The resulting E198 pKa value, calculated with pH‐REMD methodology (pKa=6.21), was higher than the isolated E amino acid (pKa=4.25), thus being more likely to be found in its protonated state at the binding site. Moreover, we identified an interaction between a water molecule and C239 and G235 as essential for NZ binding. Our results suggest that the protonation state of E198 and the structural water molecules play key roles in the binding of NZ to β‐tubulin.
Keywords:molecular dynamics  nocodazole  protonation states  water molecules  β  -tubulin
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