R. Paciotti, Iogann Tolbatov, A. Marrone, L. Storchi, N. Re, C. Coletti
{"title":"生物无机配合物的计算研究:以钙、金和铂离子为例","authors":"R. Paciotti, Iogann Tolbatov, A. Marrone, L. Storchi, N. Re, C. Coletti","doi":"10.1063/1.5137922","DOIUrl":null,"url":null,"abstract":"Metals play an important role in many biological systems, not to mention that their use in the formulation of drugs with novel modes of action has boosted the investigations aimed at elucidating their reaction mechanisms. At variance with carbon-based (or purely organic) molecules which nowadays may be described rather satisfactorily with molecular mechanics, molecules involving metals cannot do without a proper quantum mechanical treatment of the metal atoms. For this reason, in the last years we have been investigating a wealth of methods ranging from pure quantum mechanical ones to multilayered approaches which allow the calculation of detailed information related to the structure, the dynamics and the reaction mechanisms of metal-based biomolecules or drugs.Metals play an important role in many biological systems, not to mention that their use in the formulation of drugs with novel modes of action has boosted the investigations aimed at elucidating their reaction mechanisms. At variance with carbon-based (or purely organic) molecules which nowadays may be described rather satisfactorily with molecular mechanics, molecules involving metals cannot do without a proper quantum mechanical treatment of the metal atoms. For this reason, in the last years we have been investigating a wealth of methods ranging from pure quantum mechanical ones to multilayered approaches which allow the calculation of detailed information related to the structure, the dynamics and the reaction mechanisms of metal-based biomolecules or drugs.","PeriodicalId":20565,"journal":{"name":"PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2019 (ICCMSE-2019)","volume":"8 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-12-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"11","resultStr":"{\"title\":\"Computational investigations of bioinorganic complexes: The case of calcium, gold and platinum ions\",\"authors\":\"R. Paciotti, Iogann Tolbatov, A. Marrone, L. Storchi, N. Re, C. 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For this reason, in the last years we have been investigating a wealth of methods ranging from pure quantum mechanical ones to multilayered approaches which allow the calculation of detailed information related to the structure, the dynamics and the reaction mechanisms of metal-based biomolecules or drugs.Metals play an important role in many biological systems, not to mention that their use in the formulation of drugs with novel modes of action has boosted the investigations aimed at elucidating their reaction mechanisms. At variance with carbon-based (or purely organic) molecules which nowadays may be described rather satisfactorily with molecular mechanics, molecules involving metals cannot do without a proper quantum mechanical treatment of the metal atoms. 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Computational investigations of bioinorganic complexes: The case of calcium, gold and platinum ions
Metals play an important role in many biological systems, not to mention that their use in the formulation of drugs with novel modes of action has boosted the investigations aimed at elucidating their reaction mechanisms. At variance with carbon-based (or purely organic) molecules which nowadays may be described rather satisfactorily with molecular mechanics, molecules involving metals cannot do without a proper quantum mechanical treatment of the metal atoms. For this reason, in the last years we have been investigating a wealth of methods ranging from pure quantum mechanical ones to multilayered approaches which allow the calculation of detailed information related to the structure, the dynamics and the reaction mechanisms of metal-based biomolecules or drugs.Metals play an important role in many biological systems, not to mention that their use in the formulation of drugs with novel modes of action has boosted the investigations aimed at elucidating their reaction mechanisms. At variance with carbon-based (or purely organic) molecules which nowadays may be described rather satisfactorily with molecular mechanics, molecules involving metals cannot do without a proper quantum mechanical treatment of the metal atoms. For this reason, in the last years we have been investigating a wealth of methods ranging from pure quantum mechanical ones to multilayered approaches which allow the calculation of detailed information related to the structure, the dynamics and the reaction mechanisms of metal-based biomolecules or drugs.
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