Bacteriophage (phage) KHP40 was previously isolated from the supernatant of a culture of Helicobacter pylori KMT83 cells. In this study, we analysed the infection characteristics of KHP40, phage release pattern from KMT83 cells, and state of KHP40 DNA in KMT83 cells. The findings revealed that KHP40 phage showed varied adsorption efficiencies for different strains, long latent periods, and small burst sizes. Additionally, KHP40 activity was maintained at pH 2.5-12. KHP40 phages were released during the vegetative growth phase of the KMT83 cells. PCR analysis demonstrated that KHP40 DNA was stably maintained in KMT83 clones. Next-generation sequencing analysis revealed the presence of two distinct types of circular double-stranded DNA in H. pylori KMT83 cells. One was an H. pylori-specific DNA consisting of 1 578 403 bp, and the other was a 26 412-bp sequence that represented the episomal form of phage KHP40 DNA. Furthermore, defective KHP40-lysogenic DNA was detected in the H. pylori-specific DNA, the deleted portion of which appeared to have been transferred to another location in the bacterial genome. These findings indicate that KHP40 DNA exists in both episomal and defectively lysogenized states in KMT83 cells, and active phages are produced from KHP40-episomal DNA.
Keywords: H. pylori; Schmidvirus; bacteriophage; episome; lifecycle; lysogeny.
© The Author(s) 2024. Published by Oxford University Press on behalf of FEMS.