Giant viruses may be more alive than we thought

Recent research has uncovered a fascinating aspect of giant viruses that challenges our understanding of these microscopic entities. While viruses typically rely on host cells to produce proteins, some giant viruses have been found to encode a crucial part of this protein production machinery in their own genome. This discovery blurs the line between living and non-living entities in the world of virology.

The interest in giant viruses spiked in 2003 with the identification of a new type of virus called mimivirus, which infects amoebae. These giant viruses can be larger than typical bacteria, exhibit complex structures, and carry hundreds of genes within their genome.

One key finding from the recent study conducted by Max Fels and his team at Harvard Medical School was the presence of viral proteins associated with ribosomes, the cellular structures responsible for protein synthesis. By manipulating the genes encoding this viral complex, the researchers observed a significant reduction in viral production, indicating the crucial role of these proteins in directing the host cell to produce viral proteins.

This ability to manipulate the host cell’s protein-synthesis machinery, even under adverse conditions like nutrient deprivation or oxidative stress, showcases the evolutionary prowess of giant viruses. It raises questions about the origins of these viruses and how they acquired such sophisticated capabilities.

According to Frank Aylward from Virginia Tech, giant viruses have likely acquired various cellular machinery from their hosts over evolutionary timescales. This gene exchange during infection, coupled with natural selection, could explain the development of advantageous traits in these viruses.

The study also highlights the importance of understanding how giant viruses regulate protein production throughout the infection cycle. With a genome encoding around 1000 proteins, the functions of many of these proteins remain a mystery, leaving room for further exploration in this field.

Hiroyuki Ogata from Kyoto University emphasizes the transformative potential of giant viruses in reshaping molecular systems across different life forms. This study underscores the active role that viruses play in the evolution of biological systems, challenging the traditional view of viruses as passive entities.