Stability of the carrier state in bacteriophage M13-infected cells

Abstract

Bacteriophage M13-infected carrier cells were shown to be unstable to prolonged growth under all conditions. Carrier Hfr cells were transferred in dilute culture (10(3) to 10(4)/ml), where reinfection was impossible and the physiology of the cell was minimally altered. After an initial period of about 10 generations, during which all cells in the culture remained infected, there was exponential decay in the proportion of infected cells in the culture. Uninfected cells that appeared were M13 sensitive. Hfr and F' males were also transferred serially at high cell densities (10(7) to 10(9)/ml), where high levels of phage should permit reinfection. The proportion of phage-producing cells in the cultures remained constant for 7 to 15 generations and then dropped exponentially on further growth. Non-phage-producing cells appearing in the culture were refractory to infection by M13; in some cases cells scored as non-phage producers for 20 generations were observed to produce phage on further growth in liquid culture. F'trp+ males infected with M13 lost trp+ function almost immediately; this was not regained in these experiments. Infected cells grown in dilute culture or on plates remained infected longer, produced more PFU per cell for a longer period, and retained trp+ function in F'trp+ males for over 90 generations. Non-phage-producing cells that appeared were sometimes phage resistant, sometimes phage sensitive. The existence of a phage-related material accumulating at high cell densities and affecting expression of free episomes, episomal expression in Hfr males, and phage synthesis itself is suggested.