Quantum Chemistry in Drug Design: Density Function Theory (DFT) and Other Quantum Mechanics (QM)-related Approaches
- Authors: Samuel Baraque de Freitas Rodrigues1, Rodrigo Santos Aquino de Araújo2, Thayane Regine Dantas de Mendonça3, Francisco Jaime Bezerra Mendonça-Júnior4, Peng Zhan5, Edeildo Ferreira da Silva-Júnior6
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View Affiliations Hide AffiliationsAffiliations: 1 Institute of Chemistry and Biotechnology, Federal University of Alagoas, Lourival Melo Mota Avenue, AC. Simes campus, 5587072 970, Alagoas, Macei, Brazil 2 Laboratory of Synthesis and Drug Delivery, Department of Biological Sciences, State University of Paraiba, Joo Pessoa 58429-500, PB, Brazil 3 Laboratory of Medicinal Chemistry, Federal University of Alagoas, Lourival Melo Mota Avenue, AC. Simes campus, 5587072-970, Alagoas, Macei, Brazil 4 Laboratory of Synthesis and Drug Delivery, Department of Biological Sciences, State University of Paraiba, Joo Pessoa 58429-500, PB, Brazil 5 Department of Medicinal Chemistry, Key Laboratory of Chemical Biology (Ministry of Education), School of Pharmaceutical Sciences, Cheeloo College of Medicine, Shandong University, 44 West Culture Road, 250012 Jinan, Shandong, PR China 6 Institute of Chemistry and Biotechnology, Federal University of Alagoas, Lourival Melo Mota Avenue, AC. Simes campus, 5587072-970, Alagoas, Macei, Brazil
- Source: Applied Computer-Aided Drug Design: Models and Methods , pp 258-309
- Publication Date: December 2023
- Language: English
Quantum Chemistry in Drug Design: Density Function Theory (DFT) and Other Quantum Mechanics (QM)-related Approaches, Page 1 of 1
< Previous page | Next page > /docserver/preview/fulltext/9789815179934/chap8-1.gifDrug design and development are expensive and time-consuming processes, which in many cases result in failures during the clinical investigation steps. In order to increase the chances to obtain potential drug candidates, several in silico approaches have emerged in the last years, most of them based on molecular or quantum mechanics theories. These computational strategies have been developed to treat a large dataset of chemical information associated with drug candidates. In this context, quantum chemistry is highlighted since it is based on the Schrödinger equation with mathematic solutions, especially the Born-Oppenheimer approximation. Among the Hartree-Fock-based methods, the Density Functional Theory (DFT) of Hohenberg Kohn represents an interesting and powerful tool to obtain accurate results for electronic properties of molecules or even solids, which in many cases are corroborated by experimental data. Additionally, DFT-related methods exhibit a moderate time-consuming cost when compared to other ab initio methods. In this chapter, we provide a deep overview focused on the formalism behind DFT, including historical aspects of its development and improvements. Moreover, different examples of the application of DFT in studies involving GABA inhibitors, or catalytic mechanisms of enzymes, such as RNA-dependent RNA polymerase (RdRp) of SARS-CoV-2, and different proteases associated impacting diseases, such as malaria, Chagas disease, human African trypanosomiasis, and others. Moreover, the role of metal ions in catalytic enzymatic mechanisms is also covered, discussing iron-, copper-, and nickel-catalyzed processes. Finally, this chapter comprises several aspects associated with the elucidation of catalytic mechanisms of inhibition, which could be used to develop new potential pharmacological agents.<br>
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