Abstract
ABSTRACTProchlorococcus cells are the numerically dominant phototrophs in the open ocean. Cyanophages that infect them are thus a notable fraction of the total viral population in the euphotic zone, and, as vehicles of horizontal gene transfer, appear to drive their evolution. Here we examine the propensity of three cyanophages – a podovirus, a siphovirus, and a myovirus – to mispackage host DNA in their capsids while infecting Prochlorococcus, the first step in phage-mediated horizontal gene transfer. We find the mispackaging frequencies are distinctly different among the three phages. Myoviruses mispackage host DNA at low and stable frequencies, while podo- and siphoviruses vary in their mispackaging frequencies by orders of magnitude depending on growth light intensity. We attribute this difference to the concentration of intracellular reactive oxygen species and protein synthesis rates. Based on our findings, we propose a model of mispackaging frequency determined by the imbalance between the production of capsids and the number of phage genome copies during infection.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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