A myxozoan genome reveals mosaic evolution in a parasitic cnidarian
Harvard Dataverse (Africa Rice Center, Bioversity International, CCAFS, CIAT, IFPRI, IRRI and WorldFish)
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Title |
A myxozoan genome reveals mosaic evolution in a parasitic cnidarian
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Identifier |
https://doi.org/10.7910/DVN/INLEPM
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Creator |
Guo, qingxiang
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Publisher |
Harvard Dataverse
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Description |
Background: Parasite evolution has been conceptualized as a process of genetic loss and simplification. Contrary to this model, there is evidence of expansion and conservation of gene families related to essential functions of parasitism in some parasite genomes, reminiscent of widespread mosaic evolution – where subregions of a genome have different rates of evolutionary change. We found evidence of mosaic genome evolution in the cnidarian Myxobolus honghuensis, a myxozoan parasite of fish, with extremely simple morphology. Results: We compared M. honghuensis with other myxozoans and free-living cnidarians, and determined that it has the largest myxozoan genome (206 Mb), which is less reduced and less compact due to gene retention, large introns, transposon insertion, but not polyploidy. Relative to other metazoans, the M. honghuensis genome is depleted of neural genes and has only the simplest animal immune components. Conversely, it has relatively more genes involved in stress resistance, tissue invasion, energy metabolism, and cellular processes compared to other myxozoans and free-living cnidarians. We postulate that the expansion of these gene families is the result of evolutionary adaptations to endoparasitism. M. honghuensis retains genes found in free-living Cnidaria, including a reduced nervous system, myogenic components, ANTP class Homeobox genes, and components of the Wnt and Hedgehog pathways. Conclusions: Our analyses suggest that the M. honghuensis genome evolved as a mosaic of conservative, divergent, depleted, and enhanced genes and pathways. These findings illustrate that myxozoans are not as genetically simple as previously regarded, and their evolution is driven by both genomic streamlining and expansion. |
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Subject |
Agricultural Sciences
evolutionary genomics, parasite evolution, genome streamlining, Cnidaria, Myxozoa, Myxobolus honghuensis |
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Contributor |
Guo, qingxiang
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