Publications by authors named "Panagiotis I Lagarias"
The Asclepios suite of KNIME nodes represents an innovative solution for conducting cheminformatics and computational chemistry tasks, specifically tailored for applications in drug discovery and computational toxicology. This suite has been developed using open-source and publicly accessible software. In this chapter, we introduce and explore the Asclepios suite through the lens of a case study.
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- * The study investigates the effects of hemin and its derivatives on breast cancer cell behaviors, including migration, apoptosis indicators, mitochondrial function, and ROS production.
- * Molecular simulations reveal that heme has a stronger binding affinity to HOX-1 compared to its derivatives, and the interactions help shed light on HOX-1 regulation and oxidative stress management, which could inform new cancer treatment strategies.
Among the drug targets being investigated for SARS-CoV-2, the viral main protease (M) is one of the most extensively studied. M is a cysteine protease that hydrolyzes the viral polyprotein at more than 11 sites. It is highly conserved and has a unique substrate preference for glutamine in the P1 position.
View Article and Find Full Text PDFThere is an urgent need for vaccines and antiviral drugs to combat the COVID-19 pandemic. Encouraging progress has been made in developing antivirals targeting SARS-CoV-2, the etiological agent of COVID-19. Among the drug targets being investigated, the viral main protease (M ) is one of the most extensively studied drug targets.
View Article and Find Full Text PDFThe Food and Drug Administration-approved influenza A antiviral amantadine inhibits the wild-type (WT) AM2 channel but not the S31N mutant predominantly found in circulating strains. In this study, serial viral passages were applied to select resistance against a newly developed isoxazole-conjugated adamantane inhibitor that targets the AM2 S31N channel. This led to the identification of the novel drug-resistant mutation L46P located outside the drug-binding site, which suggests an allosteric resistance mechanism.
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