AI Article Synopsis
- Host and niche shifts in parasitism lead to significant genomic and phenotypic changes, notably with reduced core metabolism in parasites adapted to specific hosts while the accessory genome remains diverse.
- A comparative genomics approach was applied to oomycetes, revealing converging evolutionary trends in biological processes among those with similar lifestyles, especially in carbohydrate metabolism, transport, and signaling.
- The study developed a predictive model that accurately forecasts plant pathogenic lifestyles based on functional annotations, emphasizing the relationship between lifestyle adaptations and genomic changes in oomycetes.
Article Abstract
As evidenced in parasitism, host and niche shifts are a source of genomic and phenotypic diversification. Exemplary is a reduction in the core metabolism as parasites adapt to a particular host, while the accessory genome often maintains a high degree of diversification. However, selective pressures acting on the genome of organisms that have undergone recent lifestyle or host changes have not been fully investigated. Here, we developed a comparative genomics approach to study underlying adaptive trends in oomycetes, a eukaryotic phylum with a wide and diverse range of economically important plant and animal parasitic lifestyles. Our analysis reveals converging evolution on biological processes for oomycetes that have similar lifestyles. Moreover, we find that certain functions, in particular carbohydrate metabolism, transport, and signaling, are important for host and environmental adaptation in oomycetes. Given the high correlation between lifestyle and genome properties in our oomycete dataset, together with the known convergent evolution of fungal and oomycete genomes, we developed a model that predicts plant pathogenic lifestyles with high accuracy based on functional annotations. These insights into how selective pressures correlate with lifestyle may be crucial to better understand host/lifestyle shifts and their impact on the genome.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8308905 | PMC |
| http://dx.doi.org/10.3390/pathogens10070807 | DOI Listing |
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