Coinfection of slime feather duster worms (Annelida, <i>Myxicola</i>) by different gregarine apicomplexans (<i>Selenidium</i>) and astome ciliates reflects spatial niche partitioning and host specificity

Park, Eunji; Leander, Brian

doi:10.1017/s0031182024000209

Parasitology

2024

DOI: 10.1017/s0031182024000209

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Coinfection of slime feather duster worms (Annelida, Myxicola) by different gregarine apicomplexans (Selenidium) and astome ciliates reflects spatial niche partitioning and host specificity

Eunji Park,

Brian Leander

Abstract: Individual organisms can host multiple species of parasites (or symbionts), and one species of parasite can infect different host species, creating complex interactions among multiple hosts and parasites. When multiple parasite species coexist in a host, they may compete or use strategies, such as spatial niche partitioning, to reduce competition. Here, we present a host–symbiont system with two species of Selenidium (Apicomplexa, Gregarinida) and one species of astome ciliate co-infecting two different specie… Show more

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References 51 publications

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Phylogenomic diversity of archigregarine apicomplexans

Lax,

Park,

et al. 2024

Open Biol.

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Gregarines are a large and diverse subgroup of Apicomplexa, a lineage of obligate animal symbionts including pathogens such as Plasmodium , the malaria parasite. Unlike Plasmodium , however, gregarines are poorly studied, despite the fact that as early-branching apicomplexans they are crucial to our understanding of the origin and evolution of all apicomplexans and their parasitic lifestyle. Exemplifying this, the earliest branch of gregarines, the archigregarines, are particularly poorly studied: around 80 species have been described from marine invertebrates, but almost all of them were assigned to a single genus, Selenidium . Most are known only from light micrographs and largely unresolved rDNA phylogenies, where they exhibit a great deal of sequence variation, and fall into four subclades. To resolve the relationships within archigregarines, we sequenced 12 single-cell transcriptomes from species representing all four known subclades, as well as one blastogregarine (which frequently branch with Selenidium ). A 190-gene phylogenomic tree confirmed four maximally supported individual clades of archigregarines and blastogregarines. These clades are discrete and distantly related, and also correlate with host identity. We propose the establishment of three novel genera of archigregarines to reflect their phylogenetic diversity and host range, and nine novel species isolated from a range of marine invertebrates.

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Phylogenomic diversity of archigregarine apicomplexans

Lax,

Park,

et al. 2024

Open Biol.

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Coinfection of slime feather duster worms (Annelida, Myxicola) by different gregarine apicomplexans (Selenidium) and astome ciliates reflects spatial niche partitioning and host specificity

Cited by 1 publication

References 51 publications

Phylogenomic diversity of archigregarine apicomplexans

Phylogenomic diversity of archigregarine apicomplexans

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