Drechmeria coniospora is an obligate fungal pathogen that infects nematodes via the adhesion of specialized spores to the host cuticle. D . coniospora is frequently found associated with Caenorhabditis elegans in environmental samples. It is used in the study of the nematode’s response to fungal infection. Full understanding of this bi-partite interaction requires knowledge of the pathogen’s genome, analysis of its gene expression program and a capacity for genetic engineering. The acquisition of all three is reported here. A phylogenetic analysis placed D . coniospora close to the truffle parasite Tolypocladium ophioglossoides , and Hirsutella minnesotensis , another nematophagous fungus. Ascomycete nematopathogenicity is polyphyletic; D . coniospora represents a branch that has not been molecularly characterized. A detailed in silico functional analysis, comparing D . coniospora to 11 fungal species, revealed genes and gene families potentially involved in virulence and showed it to be a highly specialized pathogen. A targeted comparison with nematophagous fungi highlighted D . coniospora -specific genes and a core set of genes associated with nematode parasitism. A comparative gene expression analysis of samples from fungal spores and mycelia, and infected C . elegans , gave a molecular view of the different stages of the D . coniospora lifecycle. Transformation of D . coniospora allowed targeted gene knock-out and the production of fungus that expresses fluorescent reporter genes. It also permitted the initial characterisation of a potential fungal counter-defensive strategy, involving interference with a host antimicrobial mechanism. This high-quality annotated genome for D . coniospora gives insights into the evolution and virulence of nematode-destroying fungi. Coupled with genetic transformation, it opens the way for molecular dissection of D . coniospora physiology, and will allow both sides of the interaction between D . coniospora and C . elegans , as well as the evolutionary arms race that exists between pathogen and host, to be studied. Author Summary Some soil-living fungi can kill nematodes and are used as biocontrol agents against plant parasitic nematodes. Certain species trap their prey using adhesive knobs or nets. For others, like Drechmeria coniospora , infection starts with the adhesion of specialized non-motile spores to the nematode cuticle. We have sequenced and annotated the D . coniospora genome. Comparative and functional genomic analyses provide insights into how its nematode-destroying lifestyle has evolved. We identified genes that were found only in D . coniospora , others found only in nematophagous species; many were highly expressed and differentially regulated during the different stages of fungal growth or during nematode infection. We have also developed methods for the genetic modification of D . coniospora that can be used to probe the function of its genes, allowing the dissection of this mode of nematode killing. We used them to probe a specific interaction between D . coniospora and C . elegans , involving the potential interference by the pathogen of a host antimicrobial mechanism.
【초록키워드】 Evolution, Gene Expression, knowledge, Genome, Genetic, Infection, in silico, Phylogenetic analysis, pathogen, Gene expression analysis, molecular, virulence, fungi, fungus, genomic, NETs, genetic engineering, mechanism, fungal, Interaction, Analysis, Fungal infection, Interference, Caenorhabditis elegans, gene family, gene families, opens, reporter genes, arms race, Comparative, growth, Stage, characterisation, lifecycle, transformation, adhesion, Modification, branch, Dissection, acquisition, spore, elegans, evolutionary arms race, fluorescent reporter genes, genetic transformation, mycelia, nematode, nematodes, TRAP, parasitic nematodes, parasitism, knock-out, probe, infect, killing, Host, Genes, initial, sequenced, involved, reported, characterized, can be used, functional, expressed, analysis, regulated, elegan, Caenorhabditis elegan, expresse, kill, pathogen’, Tolypocladium, 【제목키워드】 Comparative, core, Specific, Endoparasitism, Requirement,