Abstract
As an ecological niche, the mammalian intestine provides the ideal habitat for a variety of bacterial microorganisms. Purportedly, some commensal genera and species offer a beneficial mix of metabolic, protective, and structural processes that help sustain the natural digestive health of the host. Among these sort of gut inhabitants is the Gram-positive lactic acid bacterium Lactobacillus ruminis, a strict anaerobe with both pili and flagella on its cell surface, but also known for being autochthonous (indigenous) to the intestinal environment. Given that the molecular basis of gut autochthony for this species is largely unexplored and unknown, we undertook a study at the genome level to pinpoint some of the adaptive traits behind its colonization behavior. In our pan-genomic probe of L. ruminis, the genomes of nine different strains isolated from human, bovine, porcine, and equine host guts were compiled and compared for in silico analysis. For this, we conducted a geno-phenotypic assessment of protein-coding genes, with an emphasis on those products involved with cell-surface morphology and anaerobic fermentation and respiration. We also categorized and examined the core and accessory genes that define the L. ruminis species and its strains. Here, we made an attempt to identify those genes having ecologically relevant phenotypes that might support or bring about intestinal indigenousness.
Highlights
In terms of ecological preference, the mammalian gastrointestinal (GI) tract is a hospitable biological niche for many different microorganisms, offering both mesophilic growing temperatures and a continual supply of nutrients and fluids [1]
We used the pan-genomic approach to take an in silico appraisal of what might be the molecular basis for L. ruminis gut autochthony
In an effort to puzzle out these underlying geno-phenotypes, we focused our attention on certain genes and proteins associated with the cellular surface morphology and fermentative/respiratory metabolism, which can be viewed collectively as ecologically relevant host colonization determinants in L. ruminis
Summary
In terms of ecological preference, the mammalian gastrointestinal (GI) tract is a hospitable biological niche for many different microorganisms, offering both mesophilic growing temperatures and a continual supply of nutrients and fluids [1]. In silico pan-genomic probe of Lactobacillus ruminis and analysis, decision to publish, or preparation of the manuscript
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