[HTML][HTML] Deployment of a Vibrio cholerae ordered transposon mutant library in a quorum-competent genetic background

NA Grant, GY Donkor, JT Sontz, W Soto, CM Waters - bioRxiv, 2023 - ncbi.nlm.nih.gov
NA Grant, GY Donkor, JT Sontz, W Soto, CM Waters
bioRxiv, 2023ncbi.nlm.nih.gov
Vibrio cholerae, the causative agent of cholera, has sparked seven pandemics in recent
centuries, with the current one being the most prolonged. V. cholerae's pathogenesis hinges
on its ability to switch between low and high cell density gene regulatory states, enabling
transmission between host and the environment. Previously, a transposon mutant library for
V. cholerae was created to support investigations aimed toward uncovering the genetic
determinants of its pathogenesis. However, subsequent sequencing uncovered a mutation …
Abstract
Vibrio cholerae, the causative agent of cholera, has sparked seven pandemics in recent centuries, with the current one being the most prolonged. V. cholerae’s pathogenesis hinges on its ability to switch between low and high cell density gene regulatory states, enabling transmission between host and the environment. Previously, a transposon mutant library for V. cholerae was created to support investigations aimed toward uncovering the genetic determinants of its pathogenesis. However, subsequent sequencing uncovered a mutation in the gene luxO of the parent strain, rendering mutants unable to exhibit high cell density behaviors. In this study, we used chitin-independent natural transformation to move transposon insertions from these low cell density mutants into a wildtype genomic background. Library transfer was aided by a novel gDNA extraction we developed using thymol, which also showed high lysis-specificity for Vibrio. The resulting Grant Library comprises 3,102 unique transposon mutants, covering 79.8% of V. cholerae’s open reading frames. Whole genome sequencing of randomly selected mutants demonstrates 100% precision in transposon transfer to cognate genomic positions of the recipient strain. Notably, in no instance did the luxO mutation transfer into the wildtype background. Our research uncovered density-dependent epistasis in growth on inosine, an immunomodulatory metabolite secreted by gut bacteria that is implicated in enhancing gut barrier functions. Additionally, Grant Library mutants retain the plasmid that enables rapid, scarless genomic editing. In summary, the Grant Library reintroduces organismal relevant genetic contexts absent in the low cell density locked library equivalent.
ncbi.nlm.nih.gov
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