Comparative genomics of Ascetosporea gives new insight into the evolutionary basis for animal parasitism in Rhizaria

Markus Hiltunen Thorén; Ioana Onuț-Brännström; Anders Alfjorden; Hana Pecková; Fiona Swords; Chantelle Hooper; Astrid S. Holzer; David Bass; Fabien Burki

doi:10.1186/s12915-024-01898-x

BMC Biology (May 2024)

Comparative genomics of Ascetosporea gives new insight into the evolutionary basis for animal parasitism in Rhizaria

Markus Hiltunen Thorén,
Ioana Onuț-Brännström,
Anders Alfjorden,
Hana Pecková,
Fiona Swords,
Chantelle Hooper,
Astrid S. Holzer,
David Bass,
Fabien Burki

Affiliations

Markus Hiltunen Thorén: Department of Organismal Biology, Uppsala University
Ioana Onuț-Brännström: Present Address: Department of Ecology and Genetics, Uppsala University
Anders Alfjorden: Department of Organismal Biology, Uppsala University
Hana Pecková: Institute of Parasitology, Biology Centre of the Czech Academy of Sciences
Fiona Swords: Marine Institute
Chantelle Hooper: Centre for Environment, Fisheries and Aquaculture Science (Cefas), Weymouth Laboratory, Weymouth
Astrid S. Holzer: Institute of Parasitology, Biology Centre of the Czech Academy of Sciences
David Bass: Centre for Environment, Fisheries and Aquaculture Science (Cefas), Weymouth Laboratory, Weymouth
Fabien Burki: Department of Organismal Biology, Uppsala University

DOI: https://doi.org/10.1186/s12915-024-01898-x
Journal volume & issue: Vol. 22, no. 1
pp. 1 – 17

Abstract

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Abstract Background Ascetosporea (Endomyxa, Rhizaria) is a group of unicellular parasites infecting aquatic invertebrates. They are increasingly being recognized as widespread and important in marine environments, causing large annual losses in invertebrate aquaculture. Despite their importance, little molecular data of Ascetosporea exist, with only two genome assemblies published to date. Accordingly, the evolutionary origin of these parasites is unclear, including their phylogenetic position and the genomic adaptations that accompanied the transition from a free-living lifestyle to parasitism. Here, we sequenced and assembled three new ascetosporean genomes, as well as the genome of a closely related amphizoic species, to investigate the phylogeny, origin, and genomic adaptations to parasitism in Ascetosporea. Results Using a phylogenomic approach, we confirm the monophyly of Ascetosporea and show that Paramyxida group with Mikrocytida, with Haplosporida being sister to both groups. We report that the genomes of these parasites are relatively small (12–36 Mb) and gene-sparse (~ 2300–5200 genes), while containing surprisingly high amounts of non-coding sequence (~ 70–90% of the genomes). Performing gene-tree aware ancestral reconstruction of gene families, we demonstrate extensive gene losses at the origin of parasitism in Ascetosporea, primarily of metabolic functions, and little gene gain except on terminal branches. Finally, we highlight some functional gene classes that have undergone expansions during evolution of the group. Conclusions We present important new genomic information from a lineage of enigmatic but important parasites of invertebrates and illuminate some of the genomic innovations accompanying the evolutionary transition to parasitism in this lineage. Our results and data provide a genetic basis for the development of control measures against these parasites.

Published in BMC Biology

ISSN: 1741-7007 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General)
Website: http://www.biomedcentral.com/bmcbiol/

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