Molecular Dynamics Simulations Provide Insights into Structure and Function of Amadoriase Enzymes

dc.contributor.authorRigoldi, Federica
dc.contributor.authorSpero, Ludovica
dc.contributor.authorVedove, Andrea Dalle
dc.contributor.authorRedaelli, Alberto
dc.contributor.authorParisini, Emilio
dc.contributor.authorGautieri, Alfonso
dc.contributor.authorРігольді, Федеріка
dc.contributor.authorСперо, Людовіка
dc.contributor.authorВедове, Андреа Далле
dc.contributor.authorРедаеллі, Альберто
dc.contributor.authorПарісіні, Еміліо
dc.contributor.authorГаутьєрі, Альфонсо
dc.date.accessioned2018-08-21T11:37:06Z
dc.date.available2018-08-21T11:37:06Z
dc.date.issued2017
dc.description.abstractenBackground. Enzymatic assays based on Fructosyl Amino Acid Oxidases (FAOX) represent a potential, rapid and economical strategy to measure glycated hemoglobin (HbA1c), which is in turn a reliable method to monitor the insurgence and the development of diabetes mellitus. However, the engineering of naturally occurring FAOX to specifically recognize fructosyl-valine (the glycated N-terminal residue of HbA1c) has been hindered by the paucity of information on the tridimensional structures and catalytic residues of the different FAOX that exist in nature, and in general on the molecular mechanisms that regulate specificity in this class of enzymes. Objective. In this study, we use molecular dynamics simulations and advanced modeling techniques to investigate five different relevant wild-type FAOX (Amadoriase I, Amadoriase II, PnFPOX, FPOX-E and N1-1-FAOD) in order to elucidate the molecular mechanisms that drive their specificity towards polar and nonpolar substrates. Specifically, we compare these five different FAOX in terms of overall folding, ligand entry tunnel, ligand binding residues and ligand binding energies. Methods. We used a combination of homology modeling and molecular dynamics simulations to provide insights into the structural difference between the five enzymes of the FAOX family. Results. We first predicted the structure of the N1-1-FAOD and PnFPOX enzymes using homology modelling. Then, we used these models and the experimental crystal structures of Amadoriase I, Amadoriase II and FPOX-E to run extensive molecular dynamics simulations in order to compare the structures of these FAOX enzymes and assess their relevant interactions with two relevant ligands, f-val and f-lys. Conclusions. Our work will contribute to future enzyme structure modifications aimed at the rational design of novel biosensors for the monitoring of blood glucose levels.uk
dc.description.sponsorshipThis work has been supported by and the H2020 EU Project AMMODIT — Approximation Methods for Molecular Modelling and Diagnosis Tools, Project ID 645672. This work has been partially supported by Fondazione Cariplo, grant no. 2016-0481.uk
dc.format.pagerangePp. 45-57uk
dc.identifier.citationMolecular Dynamics Simulations Provide Insights into Structure and Function of Amadoriase Enzymes / F. Rigoldi, L. Spero, A. D. Vedove, A. Redaelli, E. Parisini, A. Gautieri // Наукові вісті НТУУ «КПІ» : міжнародний науково-технічний журнал. – 2017. – № 2(112). – С. 45–57. – Бібліогр.: 39 назв.uk
dc.identifier.doihttps://doi.org/10.20535/1810-0546.2017.2.98306
dc.identifier.urihttps://ela.kpi.ua/handle/123456789/24312
dc.language.isoenuk
dc.publisherКПІ ім. Ігоря Сікорськогоuk
dc.publisher.placeКиївuk
dc.sourceНаукові вісті НТУУ «КПІ» : міжнародний науково-технічний журнал, 2017, № 2(112)uk
dc.subjectfructosyl amino acid oxidaseuk
dc.subjectamadoriasesuk
dc.subjectdeglycating enzymesuk
dc.subjectmolecular dynamics simulationuk
dc.subjectenzyme specificityuk
dc.subjectbinding interactionsuk
dc.subjectHbA1c monitoringuk
dc.subjectdiabetes monitoringuk
dc.subjectglycated haemoglobinuk
dc.subject.udc577.151uk
dc.titleMolecular Dynamics Simulations Provide Insights into Structure and Function of Amadoriase Enzymesuk
dc.title.alternativeМоделювання методом молекулярної динаміки для аналізу структури та функцій ферментів Amadoriaseuk
dc.title.alternativeМоделирование методом молекулярной динамики для анализа структуры и функций ферментов Amadoriaseuk
dc.typeArticleuk

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