Viral capsids as high-efficiency nanoreactors. This project aims to develop state-of-the-art single-molecule imaging to visualise DNA synthesis inside authentic retroviral capsids in real time. The project expects to generate new knowledge in the fields of virology, synthetic biology, and nanotechnology by utilising cutting-edge fluorescent labelling reagents and microscopy technology. Expected outcomes include a comprehensive description of retrovirus reverse transcription, development of innov ....Viral capsids as high-efficiency nanoreactors. This project aims to develop state-of-the-art single-molecule imaging to visualise DNA synthesis inside authentic retroviral capsids in real time. The project expects to generate new knowledge in the fields of virology, synthetic biology, and nanotechnology by utilising cutting-edge fluorescent labelling reagents and microscopy technology. Expected outcomes include a comprehensive description of retrovirus reverse transcription, development of innovative biophysical techniques for the study of viruses, and an understanding of the engineering principles at play in natural nano-reactors. This project anticipates contributing advanced capabilities in bionanotechnology, benefiting therapeutic, biotechnology and synthetic biology applications.Read moreRead less