Cellular, Molecular, Pharmacological, and Nano-Formulation Aspects of Thymoquinone—A Potent Natural Antiviral Agent

Abstract: The goal of an antiviral agent research is to find an antiviral drug that reduces viral growth without harming healthy cells. Transformations of the virus, new viral strain developments, the resistance of viral pathogens, and side effects are the current challenges in terms of discovering antiviral drugs. The time has come and it is now essential to discover a natural antiviral agent that has the potential to destroy viruses without causing resistance or other unintended side effects. The pharmacological poten… Show more

“…Additionally, the low bioavailability of certain natural compounds can hinder their effective delivery to the target sites in the parasite. Besides formulation strategies, structural optimization and molecular docking of these compounds against targeted proteins are necessary to enhance the pharmacological properties and bioavailability of the compounds [24,25]. Molecular docking of natural compounds offers a compelling and innovative approach in the treatment of diseases such as Schistosomiasis [26,27].…”

Natural Perylenequinone Compounds as Potent Inhibitors of Schistosoma mansoni Glutathione S-Transferase

“…Additionally, the low bioavailability of certain natural compounds can hinder their effective delivery to the target sites in the parasite. Besides formulation strategies, structural optimization and molecular docking of these compounds against targeted proteins are necessary to enhance the pharmacological properties and bioavailability of the compounds [24,25]. Molecular docking of natural compounds offers a compelling and innovative approach in the treatment of diseases such as Schistosomiasis [26,27].…”

Natural Perylenequinone Compounds as Potent Inhibitors of Schistosoma mansoni Glutathione S-Transferase

Synthesis of sustainable heterocyclic aryl sulfonamide derivatives: computational studies, molecular docking, and antibacterial assessment

A Comprehensive review on exploring Thymoquinone as novel therapeutic molecule for clinical management of Glioblastoma Multiforme