Slow growing bacteria survive bacteriophage in isolation.
Erin L AttrillUrszula ŁapińskaEdze R WestraSarah V HardingStefano PagliaraPublished in: ISME communications (2023)
The interactions between bacteria and bacteriophage have important roles in the global ecosystem; in turn changes in environmental parameters affect the interactions between bacteria and phage. However, there is a lack of knowledge on whether clonal bacterial populations harbour different phenotypes that respond to phage in distinct ways and whether the abundance of such phenotypes within bacterial populations is affected by variations in environmental parameters. Here we study the impact of variations in nutrient availability, bacterial growth rate and phage abundance on the interactions between the phage T4 and individual Escherichia coli cells confined in spatial refuges. Surprisingly, we found that fast growing bacteria survive together with all of their clonal kin cells, whereas slow growing bacteria survive in isolation. We also discovered that the number of bacteria that survive in isolation decreases at increasing phage doses possibly due to lysis inhibition in the presence of secondary adsorptions. We further show that these changes in the phenotypic composition of the E. coli population have important consequences on the bacterial and phage population dynamics and should therefore be considered when investigating bacteria-phage interactions in ecological, health or food production settings in structured environments.
Keyphrases
- pseudomonas aeruginosa
- escherichia coli
- human health
- induced apoptosis
- healthcare
- cystic fibrosis
- cell cycle arrest
- climate change
- risk assessment
- biofilm formation
- mental health
- oxidative stress
- cell proliferation
- signaling pathway
- sensitive detection
- microbial community
- wastewater treatment
- health information
- quantum dots