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Article Abstract
Interactions with microorganisms across the parasite-mutualist continuum shape the biology of insects at all levels - from individual traits to populations to communities. However, the understanding of pathogens infecting non-model insect species in natural ecosystems, or their interactions with other insect-associated microorganisms, is fragmentary. Here, we tested a conceptually novel approach - the simultaneous sequencing of insect, fungal, and bacterial marker gene amplicons - as a means of dissecting interactions among entomopathogenic fungi in the genus Entomophthora and their dipteran hosts in South Greenland. We aimed to describe the taxonomic diversity of Entomophthora, their dipteran hosts, and the bacterial diversity within a set of field-collected dead insects exhibiting signs of Entomophthora infection. Across nine collected dipteran species, we identified multiple Entomophthora genotypes, with strong but not perfect patterns of host-specificity across the five targeted marker regions. Additionally, we found consistent differences in bacterial community composition among fungus-killed fly species and sampling sites. Our results substantially expand the knowledge of Entomopthora diversity and host associations while providing the very first insights into associated bacteria and their potential roles. We also conclude that multi-target amplicon sequencing can be a powerful tool for addressing broad questions about biological interactions in diverse natural communities.
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| http://dx.doi.org/10.1016/j.jip.2025.108425 | DOI Listing |
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Dissecting multitrophic interactions: The relationships among Entomophthora, their dipteran hosts, and associated bacteria.
J Invertebr Pathol
November 2025
Institute of Environmental Sciences, Faculty of Biology, Jagiellonian University, Kraków, Poland. Electronic address:
Interactions with microorganisms across the parasite-mutualist continuum shape the biology of insects at all levels - from individual traits to populations to communities. However, the understanding of pathogens infecting non-model insect species in natural ecosystems, or their interactions with other insect-associated microorganisms, is fragmentary. Here, we tested a conceptually novel approach - the simultaneous sequencing of insect, fungal, and bacterial marker gene amplicons - as a means of dissecting interactions among entomopathogenic fungi in the genus Entomophthora and their dipteran hosts in South Greenland.
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J Evol Biol
February 2025
Department of Plant and Environmental Sciences, University of Copenhagen, Thorvaldsensvej 40, Frederiksberg C. 1871, Denmark.
Article Synopsis
- The study investigates the genotype-by-genotype (GxG) interactions between the obligate fungal pathogen Entomophthora muscae and various dipteran fly hosts, highlighting how both the fungal and host genotypes influence infection dynamics.
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G3 (Bethesda)
October 2024
Department of Molecular and Cell Biology, University of California Berkeley, Berkeley, CA 94720, USA.
We report a virus infecting Entomophthora muscae, a behavior-manipulating fungal pathogen of dipterans. The virus, which we name Berkeley Entomophthovirus, is a positive-strand RNA virus in the iflaviridae family of capsid-forming viruses, which are mostly known to infect insects. The viral RNA is expressed at high levels in fungal cells in vitro and during in vivo infections of Drosophila melanogaster, and virus particles can be seen intracellularly in E.
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2Section for Organismal Biology, Department of Plant and Environmental Sciences, University of Copenhagen, Thorvaldsensvej 40, 1871 Frederiksberg, Denmark.
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PLoS One
April 2014
Department of Biology, Duke University, Durham, North Carolina, United States of America.
The fungus Entomophthora muscae (Entomophthoromycota, Entomophthorales, Entomophthoraceae) is a widespread insect pathogen responsible for fatal epizootic events in many dipteran fly hosts. During epizootics in 2011 and 2012 in Durham, North Carolina, we observed a transition of fungal infections from one host, the plant-feeding fly Delia radicum, to a second host, the predatory fly Coenosia tigrina. Infections first appeared on Delia in the middle of March, but by the end of May, Coenosia comprised 100% of infected hosts.
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