Browsing by Author "Chesnut, Sally"

Emerging research suggests that bacteriophages (phages) may exhibit alternative infection strategies that deviate from the preconceived lytic or lysogenic life cycles. Carrier cell infection is an alternative phage life cycle where complete virus particles are formed and remain within host cells, without cell lysis or integration into the host genome. Phage Φ6 (Φ6), the type member of the double-stranded RNA (dsRNA) virus family Cystoviridae, is a lytic phage that can also establish a carrier cell within its plant pathogenic host, Pseudomonas syringae pathovar (pv.) phaseolicola strain HB10Y (HB10Y). This thesis contributes to current limited knowledge and provides an insight on the underlying mechanisms of the Φ6 carrier cell infection. This study has agricultural and ecological relevance and may contribute to future plant therapeutic options. Synthetic carrier cell lines harboring Φ6 tri-segmented genome or Φ6 genomic constructs in which the coding regions in the S- and/or M- segments were replaced by heterologous sequences from tobacco mosaic virus (TMV) were created using a reverse genetics method. Spontaneous Φ6 carrier cell lines were also isolated from HB10Y after exposure of the host to excess phage. Spontaneous carrier cells were not stable, but rather occasionally released phage into liquid culture. Synthetic carrier cell lines were subjected to secondary phage infection and were found to be less susceptible than wild type (WT) to Φ6 but not Φ8, a more distant member of Cystoviridae. Studies suggest that carrier cell resistance to secondary infection (superinfection exclusion) is exhibited through the Φ6 S-segment gene 8. To test how temperature affects the stability of Φ6 carrier cells, spontaneous carrier cell line culture was incubated at RT and 30°C, and phage productivity was compared. Elevated temperature induced carrier cell stability. Comparison of the growth curves between Φ6 synthetic and spontaneous carrier cell lines and their respective WT strains showed that Φ6 carrier cell infection does not greatly affect host growth.