Title of article
Platinum(IV) compounds as potential drugs: a quantitative structure-activity relationship study
Author/Authors
Novak ، Jurica Department of Biotechnology - Center for Artificial Intelligence and Cyber security - University of Rijeka , Zykova ، Alena Department of Theoretical and Applied Chemistry - Faculty of Chemistry - South Ural State University , Potemkin ، Vladimir Department of Theoretical and Applied Chemistry - Faculty of Chemistry - South Ural State University , Sharutin ، Vladimir Department of Theoretical and Applied Chemistry - Faculty of Chemistry - South Ural State University , Sharutina ، Olga Department of Theoretical and Applied Chemistry - Faculty of Chemistry - South Ural State University
From page
373
To page
382
Abstract
Introduction: Machine learning methods, coupled with a tremendous increase in computer power in recent years, are promising tools in modern drug design and drug repurposing. Methods: Machine learning predictive models, publicly available at chemosophia.com, were used to predict the bioactivity of recently synthesized platinum(IV) complexes against different kinds of diseases and medical conditions. Two novel QSAR models based on the BiS algorithm are developed and validated, capable to predict activities against the SARS-CoV virus and its RNA dependent RNA polymerase. Results: The internal predictive power of the QSAR models was tested by 10-fold cross-validation, giving cross-R2 from 0.863 to 0.903. 38 different activities, ranging from antioxidant, antibacterial, and antiviral activities, to potential anti-inflammatory, anti-arrhythmic and anti-malarial activity were predicted for a series of eighteen platinum(IV) complexes. Conclusion: Complexes 1, 3 and 13 have high generalized optimality criteria and are predicted as potential SARS-CoV RNA dependent RNA polymerase inhibitors.
Keywords
SARS , CoV , Drug repurposing , Platinum(IV) complexes , Generalized optimality criterion , RNA dependent RNA polymerase inhibitor
Journal title
Bioimpacts
Journal title
Bioimpacts
Record number
2750883
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