Two-speed genome evolution drives pathogenicity in fungal pathogens of animals.
Theresa WackerNicolas HelmstetterDuncan WilsonMatthew C FisherDavid J StudholmeRhys A FarrerPublished in: Proceedings of the National Academy of Sciences of the United States of America (2023)
The origins and evolution of virulence in amphibian-infecting chytrids Batrachochytrium dendrobatidis ( Bd ) and Batrachochytrium salamandrivorans ( Bsal) are largely unknown. Here, we use deep nanopore sequencing of Bsal and comparative genomics against 21 high-quality genome assemblies that span the fungal Chytridiomycota. We discover that Bsal has the most repeat-rich genome of the Chytridiomycota, comprising 40.9% repetitive elements; this genome has expanded to more than 3× the length of its conspecific Bd , with autonomous and fully functional LTR/Gypsy elements contributing significantly to the expansion. The M36 metalloprotease virulence factors are highly expanded ( n = 177) in Bsal , most of which (53%) are flanked by transposable elements, suggesting they have a repeat-associated expansion. We find enrichment upstream of M36 metalloprotease genes of three novel repeat families belonging to the repeat superfamily of LINEs that are implicated with gene copy number variations. Additionally, Bsal has a highly compartmentalized genome architecture, with virulence factors enriched in gene-sparse/repeat-rich compartments, while core conserved genes are enriched in gene-rich/repeat-poor compartments. Genes upregulated during infection are primarily found in the gene-sparse/repeat-rich compartment in both Bd and Bsal . Furthermore, genes with signatures of positive selection in Bd are enriched in repeat-rich regions, suggesting these regions are a cradle for the evolution of chytrid pathogenicity. These are the hallmarks of two-speed genome evolution, and this study provides evidence of two-speed genomes in an animal pathogen, shedding light on the evolution of fungal pathogens of vertebrates driving global declines and extinctions.
Keyphrases
- genome wide
- copy number
- dna methylation
- genome wide identification
- mitochondrial dna
- antimicrobial resistance
- escherichia coli
- staphylococcus aureus
- pseudomonas aeruginosa
- biofilm formation
- transcription factor
- gene expression
- genome wide analysis
- single cell
- candida albicans
- single molecule
- bioinformatics analysis
- high throughput sequencing