Flaviviruses are among the most critical pathogens in tropical regions and cause a growing number of severe diseases in developing countries. The development of antiviral therapeutics is crucial for managing flavivirus outbreaks. Among the ten proteins encoded in the flavivirus RNA, non-structural protein 5, NS5, is a promising drug target. NS5 plays a fundamental role in flavivirus replication, viral RNA methylation, RNA polymerization, and host immune system evasion. Most of the NS5 inhibitor candidates target NS5 active sites. However, the similarity of NS5 activity sites with human enzymes can cause side effects. Identifying new allosteric sites in NS5 can contribute enormously to antiviral development. The NS5 structural characterization enabled exploring new regions, such as the residues involved in MTase-RdRp interaction, NS5 oligomerization, and NS5 interaction with other viral and host-cell proteins. Targeting NS5 critical interactions might lead to new compounds and overcomes the toxicity of current NS5-inhibitor candidates.
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