In-situ quantitation of genome release of Japanese encephalitis viruses by quantum dot-based single-virus tracking

The fusion of the viral membrane and genome release are hallmark events of enveloped virus infections. However, the related dynamic mechanisms of most viruses remain poorly understood. In this study, we combine single-virus tracking with the in-situ pH quantification of the dual-labeled Japanese encephalitis virus (JEV) to label its viral envelope and RNA by using quantum dots and pH-sensitive dyes, respectively. This robust technique allows us to visualize and quantify the process of genome release at the level of a single virus in real time, and to thus collect more information on the dynamics of genome release. The results of our experiments show that the infection pathway of the JEV is dependent on actin and micro tubules, and viral fusion events predominantly occur in maturing endosomes that represent the intermediate stage between early and late endosomes. The kinetic insights gained in this study address longstanding questions regarding where and how the JEV harnesses endosomal compartments and releases its genome for replication, and are expected to facilitate a comprehensive understanding of the infection mechanism of JEV. (c) 2021 Elsevier Ltd. All rights reserved.

Automated summary

The fusion of the viral membrane and genome release are hallmark events of enveloped virus infections. Through single-virus tracking and in-situ pH quantification, this study provides insights into the infection pathway of Japanese encephalitis virus (JEV) and its dependence on actin and microtubules. The study also reveals that viral fusion events predominantly occur in maturing endosomes.