Luminescent reporters offer virologists a convenient way to measure replication of viruses and are also used to image the spread of viruses in vivo in experimental systems. These reporter viruses are useful for evaluating the effects of antiviral drug treatments, testing the efficacy of potential vaccines, and studying the ways in which viruses replicate in the body and cause disease. One challenge in the construction of such reporters is the need to ensure that the reporter molecule itself does not alter the virus in ways that affect its ability to cause disease. Another challenge is maintaining the reporter gene throughout several cycles of viral replication. In smaller viruses, it can be particularly difficult to introduce a reporter gene without compromising the ability of the virus to replicate and cause disease.
A 2014 paper was published in J. Virology comparing the effectiveness of various NanoLuc® luciferase alphavirus reporter constructs. The authors of the study, Chengqun Sun et al. from the University of Pittsburgh, placed these reporter genes in three different locations in the genome of several alphaviruses and compared the effect on their ability to replicate in vitro and in vivo. They also assessed the ability of the luciferase genes to persist during infection of cultured cells and in a mouse model. They showed that the size and location of the reporter had a significant effect on successful replication and persistence. They also showed that the reporters could potentially be integrated at different positions within the genome to study different aspects of viral pathogenesis.
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