Publications by authors named "Jessie L Maier"

Background: Bacteriophages (phages) and bacteria within the gut microbiome persist in long-term stable coexistence. These interactions are driven by eco-evolutionary dynamics, where bacteria employ a variety of mechanisms to evade phage infection, while phages rely on counterstrategies to overcome these defences. Among the most abundant phages in the gut are the crAss-like phages that infect members of the Bacteroidales, in particular In this study, we explored some of the mechanisms enabling the co-existence of four phage-Bacteroidales host pairs using a multi-omics approach (transcriptomics, proteomics and metabolomics).

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Salmonella enterica Serovar Typhimurium (Salmonella) and its bacteriophage P22 are a model system for the study of horizontal gene transfer by generalized transduction. Typically, the P22 DNA packaging machinery initiates packaging when a short sequence of DNA, known as the pac site, is recognized on the P22 genome. However, sequences similar to the pac site in the host genome, called pseudo-pac sites, lead to erroneous packaging and subsequent generalized transduction of Salmonella DNA.

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Article Synopsis
  • * This study explored the effects of seven protein sources on gut microbiota in mice using advanced metagenomics and metaproteomics techniques to analyze microbial composition and function.
  • * Results revealed that different protein sources significantly altered microbial species and functions, with brown rice and egg white proteins increasing specific enzymes and bacteria that might impact gut health and related diseases.
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Serovar Typhimurium () and its bacteriophage P22 are a model system for the study of horizontal gene transfer by generalized transduction. Typically, the P22 DNA packaging machinery initiates packaging when a short sequence of DNA, known as the pac site, is recognized on the P22 genome. However, sequences similar to the pac site in the host genome, called pseudo-pac sites, lead to erroneous packaging and subsequent generalized transduction of DNA.

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