New plastids, old proteins: repeated endosymbiotic acquisitions in kareniacean dinoflagellates

TitleNew plastids, old proteins: repeated endosymbiotic acquisitions in kareniacean dinoflagellates
Publication TypeJournal Article
Year of Publication2024
AuthorsVanclová AMg Novák, Nef C, Füssy Z, Vancl A, Liu F, Bowler C, Dorrell RG
JournalEMBO Reports
KeywordsRCC1513, RCC3446, RCC6516

Abstract Dinoflagellates are a diverse group of ecologically significant micro-eukaryotes that can serve as a model system for plastid symbiogenesis due to their susceptibility to plastid loss and replacement via serial endosymbiosis. Kareniaceae harbor fucoxanthin-pigmented plastids instead of the ancestral peridinin-pigmented ones and support them with a diverse range of nucleus-encoded plastid-targeted proteins originating from the haptophyte endosymbiont, dinoflagellate host, and/or lateral gene transfers (LGT). Here, we present predicted plastid proteomes from seven distantly related kareniaceans in three genera ( Karenia , Karlodinium , and Takayama ) and analyze their evolutionary patterns using automated tree building and sorting. We project a relatively limited ( \textasciitilde 10%) haptophyte signal pointing towards a shared origin in the family Chrysochromulinaceae. Our data establish significant variations in the functional distributions of these signals, emphasizing the importance of micro-evolutionary processes in shaping the chimeric proteomes. Analysis of plastid genome sequences recontextualizes these results by a striking finding the extant kareniacean plastids are in fact not all of the same origin, as two of the studied species ( Karlodinium armiger , Takayama helix ) possess plastids from different haptophyte orders than the rest.