Effects of Sublethal Fungicides on Mutation Rates and Genomic Variation in Fungal Plant Pathogen, Sclerotinia sclerotiorum

Amaradasa, Bimal S.; Everhart, Sydney E.

doi:10.1371/journal.pone.0168079

Cited by 25 publications

(22 citation statements)

References 55 publications

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“…A study of the pathogen Sclerotinia sclerotiorum demonstrated that with a sublethal fungicide selection pressure, estimated mutation rates in six microsatellite markers were 1.7-to 60-fold higher than expected under neutral conditions (Amaradasa and Everhart 2016). Field 2 was maintained using conventional practices (fungicidetreated seed, in-furrow fungicide applications for pocket rot control, and two to three foliar fungicides applications [Reiners et al 2017]) and it may be expected that a subset of the field population would be exposed to sublethal fungicide levels.…”

Section: Discussionmentioning

confidence: 94%

Temporal Genetic Differentiation ofCercospora beticolaPopulations in New York Table Beet Fields

et al. 2018

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Annual epidemics of Cercospora leaf spot (CLS), caused by the fungus Cercospora beticola, can result in substantial defoliation in table beet fields in New York. High allelic and genotypic diversity have been described within C. beticola populations; however, information on the temporal stability of populations is lacking. C. beticola isolates were obtained from symptomatic leaves in three table beet fields in successive years. Two of the fields were organic mixed-cropping farms and the third was managed conventionally in a broad-acre cropping system. C. beticola isolates (n = 304) were genotyped using 12 microsatellite markers. Genotypic diversity (Simpson's complement index = 0.178 to 0.990), allele frequencies, and indices of differentiation between years varied. Pairwise index of differentiation values ranged from 0.02 to 0.25 for clone-corrected data, and indicated significant genetic differentiation at Farm 2. No multilocus genotype was shared between years. The shift in multilocus genotypes between years questions the role of clonally reproducing primary inoculum. Collectively, these results suggest that a dominant inoculum source for initiating annual CLS epidemics is external to the field of interest. These findings have implications for CLS disease management in conventional and organic table beet production.

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Section: Discussionmentioning

confidence: 94%

Temporal Genetic Differentiation ofCercospora beticolaPopulations in New York Table Beet Fields

et al. 2018

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“…Current methods to control S . sclerotiorum infection involve the application of broad-spectrum fungicides, which have been attributed to the rise of chemical resistance and may have deleterious or unwanted effects on the surrounding agro-ecological landscape, if managed poorly 3 – 5 . Other practices, such as crop rotations, can be ineffective due to the formation of overwintering structures, termed sclerotia, which can remain in the soil for several years 6 .…”

Section: Introductionmentioning

confidence: 99%

Identification and application of exogenous dsRNA confers plant protection against Sclerotinia sclerotiorum and Botrytis cinerea

McLoughlin

Wytinck

Walker

et al. 2018

Sci Rep

173

141

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Sclerotinia sclerotiorum, the causal agent of white stem rot, is responsible for significant losses in crop yields around the globe. While our understanding of S. sclerotiorum infection is becoming clearer, genetic control of the pathogen has been elusive and effective control of pathogen colonization using traditional broad-spectrum agro-chemical protocols are less effective than desired. In the current study, we developed species-specific RNA interference-based control treatments capable of reducing fungal infection. Development of a target identification pipeline using global RNA sequencing data for selection and application of double stranded RNA (dsRNA) molecules identified single gene targets of the fungus. Using this approach, we demonstrate the utility of this technology through foliar applications of dsRNAs to the leaf surface that significantly decreased fungal infection and S. sclerotiorum disease symptoms. Select target gene homologs were also tested in the closely related species, Botrytis cinerea, reducing lesion size and providing compelling evidence of the adaptability and flexibility of this technology in protecting plants against devastating fungal pathogens.

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“…Here, consistent patterns among strains are lacking: of the five strains backgrounds that were exposed to a subinhibitory level of fluconazole, no significant changes were observed among replicates from three of them (A1, A12, A18), MIC 50 decreased in all replicates from one replicate (A20) , and variable, yet numerically significant, changes occured in replicates of another strain (A5). This variability in phenotypic outcomes is reminiscent of the case in Sclerotinia sclerotiorum, a plant pathogenic fungus, where both MIC increases and decreases (and no change) were observed and no consistent relationship was found between the change in resistance and exposure to sublethal concentrations of five different antifungal drugs (67) . Fungal strains exposed to subinhibitory drug levels thus seem less likely than bacteria to gain an advantage at higher drug levels.…”

Section: Discussionmentioning

confidence: 97%

Candida albicansgenetic background influences mean and heterogeneity of drug responses and genome stability during evolution to fluconazole

Gerstein

Berman

2018

Preprint

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The importance of within-species diversity in determining the evolutionary potential of a population to evolve drug resistance or tolerance is not well understood, including in eukaryotic pathogens. To examine the influence of genetic background, we evolved replicates of twenty different clinical isolates of Candida albicans, a human fungal pathogen, in fluconazole, the commonly used antifungal drug. The isolates hailed from the major C. albicans clades and had different initial levels of drug resistance and tolerance to the drug. The majority of replicates

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Effects of Sublethal Fungicides on Mutation Rates and Genomic Variation in Fungal Plant Pathogen, Sclerotinia sclerotiorum

Cited by 25 publications

References 55 publications

Temporal Genetic Differentiation ofCercospora beticolaPopulations in New York Table Beet Fields

Temporal Genetic Differentiation ofCercospora beticolaPopulations in New York Table Beet Fields

Identification and application of exogenous dsRNA confers plant protection against Sclerotinia sclerotiorum and Botrytis cinerea

Candida albicansgenetic background influences mean and heterogeneity of drug responses and genome stability during evolution to fluconazole

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