P. Yang scite author profile

Mycoplasmas are the smallest autonomously self-replicating life form on the planet. Members of this bacterial genus are known to parasitise a wide array of metazoans including vertebrates. Whilst much research has been significant targeted at parasitic mammalian mycoplasmas, very little is known about their role in other vertebrates. In the current study, we aim to explore the biology of mycoplasmas in Atlantic Salmon, a species of major significance for aquaculture, including cellular niche, genome size structure and gene content. Using fluorescent in-situ hybridisation (FISH), mycoplasmas were targeted in epithelial tissues across the digestive tract (stomach, pyloric caecum and midgut) from different development stages (eggs, parr, subadult) of farmed Atlantic salmon ( Salmo salar ), and we present evidence for an intracellular niche for some of the microbes visualised. Via shotgun metagenomic sequencing, a nearly complete, albeit small, genome (~0.57 MB) as assembled from a farmed Atlantic salmon subadult. Phylogenetic analysis of the recovered genome revealed taxonomic proximity to other salmon derived mycoplasmas, as well as to the human pathogen Mycoplasma penetrans (~1.36 Mb). We annotated coding sequences and identified riboflavin pathway encoding genes and sugar transporters, the former potentially consistent with micronutrient provisioning in salmonid development. Our study provides insights into mucosal adherence, the cellular niche and gene catalog of Mycoplasma in the gut ecosystem of the Atlantic salmon, suggesting a high dependency of this minimalist bacterium on its host. Further study is required to explore and functional role of Mycoplasma in the nutrition and development of its salmonid host.

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Unpicking the mysterious symbiosis ofMycoplasmain salmonids

Cheaib

Yang

Kazlauskaite

et al. 2020

Preprint

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Lacking a peptidoglycan cell wall, mycoplasmas are the smallest self-replicating life forms. Members of this bacterial genus are known to parasitise a wide array of metazoans including vertebrates. Whilst much research has been significant targeted at parasitic mammalian mycoplasmas, very little is known about their role in other vertebrates. In the current study, we aim to explore the biology and evolution of Mycoplasma in salmonids, including cellular niche, genome size structure and gene content. Using Fluorescence in-situ hybridisation (FISH), mycoplasmas were identified in epithelial tissues across the digestive tract (stomach, pyloric caecum and midgut) during the developmental stages (eggs, parr, subadult) of farmed Atlantic salmon (Salmo salar), showing a high abundance in acidic compartments. With high throughput sequencing from subadults farmed Atlantic salmon, we assembled a nearly complete genome (~0.53 MB) via shotgun-metagenomics. The phylogenetic inference from the recovered genome revealed successful taxonomic proximity to Mycoplasma penetrans (~1.36 Mb) from the recovered genome. Although no significant correlation between genome size and its phylogeny was observed, we recovered functional signatures, especially, riboflavin encoding genes pathway and sugars transporters, suggesting a symbiotic relationship between Mycoplasma and the host. Though 247 strains of Mycoplasma are available in public databases, to the best of our knowledge, this is the first study to demonstrate an ecological and functional association between Mycoplasma and Salmo salar which delineates symbiotic reductive evolution and genome erosion primarily and also serves as a proxy for salmonid health in aquaculture processes (cell lines, in vitro gut models).

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P. Yang

Genome erosion and evidence for an intracellular niche – exploring the biology of mycoplasmas in Atlantic salmon

Unpicking the mysterious symbiosis ofMycoplasmain salmonids

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