High-throughput mapping of the phage resistance landscape in E. coli.
Bacterial Proteins
/ genetics
Bacteriophages
/ drug effects
Biosynthetic Pathways
/ drug effects
CRISPR-Cas Systems
/ genetics
Cyclic GMP
/ analogs & derivatives
DNA
/ genetics
Down-Regulation
/ drug effects
Escherichia coli
/ drug effects
Gene Expression Regulation, Bacterial
/ drug effects
Genes, Essential
Genome, Bacterial
Mutation
/ genetics
Phenotype
Reproducibility of Results
Suppression, Genetic
Journal
PLoS biology
ISSN: 1545-7885
Titre abrégé: PLoS Biol
Pays: United States
ID NLM: 101183755
Informations de publication
Date de publication:
10 2020
10 2020
Historique:
received:
12
04
2020
accepted:
08
09
2020
entrez:
13
10
2020
pubmed:
14
10
2020
medline:
15
12
2020
Statut:
epublish
Résumé
Bacteriophages (phages) are critical players in the dynamics and function of microbial communities and drive processes as diverse as global biogeochemical cycles and human health. Phages tend to be predators finely tuned to attack specific hosts, even down to the strain level, which in turn defend themselves using an array of mechanisms. However, to date, efforts to rapidly and comprehensively identify bacterial host factors important in phage infection and resistance have yet to be fully realized. Here, we globally map the host genetic determinants involved in resistance to 14 phylogenetically diverse double-stranded DNA phages using two model Escherichia coli strains (K-12 and BL21) with known sequence divergence to demonstrate strain-specific differences. Using genome-wide loss-of-function and gain-of-function genetic technologies, we are able to confirm previously described phage receptors as well as uncover a number of previously unknown host factors that confer resistance to one or more of these phages. We uncover differences in resistance factors that strongly align with the susceptibility of K-12 and BL21 to specific phage. We also identify both phage-specific mechanisms, such as the unexpected role of cyclic-di-GMP in host sensitivity to phage N4, and more generic defenses, such as the overproduction of colanic acid capsular polysaccharide that defends against a wide array of phages. Our results indicate that host responses to phages can occur via diverse cellular mechanisms. Our systematic and high-throughput genetic workflow to characterize phage-host interaction determinants can be extended to diverse bacteria to generate datasets that allow predictive models of how phage-mediated selection will shape bacterial phenotype and evolution. The results of this study and future efforts to map the phage resistance landscape will lead to new insights into the coevolution of hosts and their phage, which can ultimately be used to design better phage therapeutic treatments and tools for precision microbiome engineering.
Identifiants
pubmed: 33048924
doi: 10.1371/journal.pbio.3000877
pii: PBIOLOGY-D-20-00974
pmc: PMC7553319
doi:
Substances chimiques
Bacterial Proteins
0
bis(3',5')-cyclic diguanylic acid
61093-23-0
DNA
9007-49-2
Cyclic GMP
H2D2X058MU
Banques de données
figshare
['10.6084/m9.figshare.11859216.v1', '10.6084/m9.figshare.11413128', '10.6084/m9.figshare.11838879.v2']
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, Non-P.H.S.
Langues
eng
Sous-ensembles de citation
IM
Pagination
e3000877Déclaration de conflit d'intérêts
I have read the journal’s policy and the authors of this manuscript have the following competing interests: VKM, AMD, and APA consult for and hold equity in Felix Biotechnology, Inc.
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