A virus DNA gate: Zipping and unzipping the packed viral genome

摘要

Tailed bacterial viruses (bacterio-phages) are ubiquitously distributed in nature and are likely the most abundant organisms on the biosphere (1). Spending most of their time outside of the host, a bacterial cell, in often hostile external environments, they come to "life" upon encountering the receptor molecules on the host cell surface. The virus consists of a head (capsid) into which the DNA (genome) is packaged and a tail that delivers the genome into the bacterium. The capsid is pressurized because of packing of highly negatively-charged, relatively rigid dsDNA to near-crystalline density (≈500 (μg/mL). The internal capsid pressure, ≈6 MPa or >10 times that of bottled champagne (2), provides a driving force for delivery of viral genome into host cell. One of the longstanding questions in phage biology has been how these viruses contain the DNA pressure and trigger release only upon recognition of a specific host cell. In this issue of PNAS, a study by Lhuillier et al.