AI Article Synopsis
- The study highlights quinoxalines as nitrogen-rich compounds with diverse functionalization and notable biological activities, particularly in antiviral applications.
- Quinoxalines are explored as potential inhibitors for various respiratory viruses, including influenza and coronaviruses, drawing attention to their synthesis and effectiveness.
- The review emphasizes the importance of quinoxalines in combating viral pandemics, especially in the context of COVID-19, and supports ongoing research for developing advanced antiviral treatments.
Article Abstract
The study of quinoxalines as nitrogen-rich heterocyclic compounds has garnered substantial interest within scientific research owing to their multidimensional functionalization capabilities and significant biological activities. The scope of study encompasses their application as potent antiviral agents, particularly within the domain of respiratory pathologies-a topic of pivotal concern in this comprehensive review. They have several prominent pharmacological effects, such as potential influenza inhibitors, potential anti-SARS coronavirus inhibitors, potential anti-SARS-CO-2 coronavirus inhibitors, and miscellaneous respiratory antiviral activities. As a result, some of the literature has described many of these quinoxalines using various synthetic methods for their mentioned biological effects. In the present review, we provided insight into quinoxaline synthesis, structure-activity relationship (SAR), and antiviral activities, along with a compilation of recent studies. The article further encapsulates the gamut of past and ongoing research efforts in the design and synthetic exploration of antiviral scaffolds, with a pronounced emphasis on their strategic deployment against viral pandemics, contextualized against the tapestry of the recent COVID-19 outbreak. This illuminates the quintessential role of quinoxalines in the armamentarium against viral pathogens and provides a platform for the development of next-generation antiviral agents.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11542553 | PMC |
| http://dx.doi.org/10.1039/d4ra04292a | DOI Listing |
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