Giant Starship Elements Mobilize Accessory Genes in Fungal Genomes

Abstract Accessory genes are variably present among members of a species and are a reservoir of adaptive functions. In bacteria, differences in gene distributions among individuals largely result from mobile elements that acquire and disperse accessory genes as cargo. In contrast, the impact of carg...

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Bibliographic Details
Published in:Molecular biology and evolution 2022-05, Vol.39 (5)
Main Authors: Gluck-Thaler, Emile, Ralston, Timothy, Konkel, Zachary, Ocampos, Cristhian Grabowski, Ganeshan, Veena Devi, Dorrance, Anne E., Niblack, Terry L., Wood, Corlett W., Slot, Jason C., Lopez-Nicora, Horacio D., Vogan, Aaron A.
Format: Article
Language:English
Subjects:
BASIC BIOLOGICAL SCIENCES
Discoveries
DNA Transposable Elements
Eukaryotic Cells
Genes
genome evolution
Genome, Fungal
Genomes
Genomics
horizontal gene transfer
Humans
McDonald, Megan
mobile genetic element
pangenome
transposon
Transposons
Tyrosine
tyrosine recombinase
Virulence Factors
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Summary:Abstract Accessory genes are variably present among members of a species and are a reservoir of adaptive functions. In bacteria, differences in gene distributions among individuals largely result from mobile elements that acquire and disperse accessory genes as cargo. In contrast, the impact of cargo-carrying elements on eukaryotic evolution remains largely unknown. Here, we show that variation in genome content within multiple fungal species is facilitated by Starships, a newly discovered group of massive mobile elements that are 110 kb long on average, share conserved components, and carry diverse arrays of accessory genes. We identified hundreds of Starship-like regions across every major class of filamentous Ascomycetes, including 28 distinct Starships that range from 27 to 393 kb and last shared a common ancestor ca. 400 Ma. Using new long-read assemblies of the plant pathogen Macrophomina phaseolina, we characterize four additional Starships whose activities contribute to standing variation in genome structure and content. One of these elements, Voyager, inserts into 5S rDNA and contains a candidate virulence factor whose increasing copy number has contrasting associations with pathogenic and saprophytic growth, suggesting Voyager’s activity underlies an ecological trade-off. We propose that Starships are eukaryotic analogs of bacterial integrative and conjugative elements based on parallels between their conserved components and may therefore represent the first dedicated agents of active gene transfer in eukaryotes. Our results suggest that Starships have shaped the content and structure of fungal genomes for millions of years and reveal a new concerted route for evolution throughout an entire eukaryotic phylum.
ISSN:0737-4038
1537-1719
1537-1719
DOI:10.1093/molbev/msac109