Abstract

Diatoms are photosynthetic unicellular microalgae that drive global ecological phenomena in the biosphere and are emerging sustainable feedstock for an increasing number of industrial applications. Diatoms exhibit enormous taxonomic and genetic diversity, which often result in peculiar biochemical and biological traits. Transposable elements (TE) represent a substantial portion of diatom genomes and have been hypothesized to exert a relevant role in enriching genetic diversity and centrally contribute to genome evolution. Here, through long-read whole genome sequencing, we identified a novel Mutator-Like Element (MULE) in the model diatom Phaeodactylum tricornutum, and we report the direct observation of its mobilization within the course of a single laboratory experiment. Under selective conditions, this novel TE inactivated the uridine monophosphate synthase (UMPS) gene of P. tricornutum, one of the few endogenous genetic loci currently targeted for selectable auxotrophy for functional genetics and genome editing applications. We report the observation of a recently mobilized transposon in diatoms with unique features. These include the combined presence of a MULE transposase with Zinc finger, SWIM-type domains, and of a diatom-specific E3 ubiquitin ligase of the zinc finger UBR type, which indicate a novel mobilization mechanism. Our findings provide new elements for the understanding of the role of TEs in diatom genome evolution and in the enrichment of intraspecific genetic variability.

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