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Alternaria leaf spot caused by Alternaria carthami is one of the most devastating diseases of safflower. Diversity among 95 isolates of A. carthami was determined using virulence assays, enzyme assays, dominant (ISSR) and co-dominant (SSR) markers. Collections and isolations were made from three major safflower producing states of India. The virulence assays categorised the population into four groups based on level of virulence. Estimation of activities of cell wall degrading enzymes (CWDE) yielded concurrent results to virulence assays with maximum CWDE activities in most virulent group. Eighteen ISSR primers were used and 23 polymorphic microsatellite markers were developed to assess the genetic diversity and determine the population structure of A. carthami. Analysis of ISSR profiles revealed high genetic diversity (Nei's Genetic diversity index; h = 0.36). Microsatellite markers produced a total of 56 alleles with an average of 2.43 alleles per microsatellite marker and Nei's genetic diversity index as h = 0.43. Unweighted Neighbor-joining and population structure analysis using both the marker systems differently arranged the isolates into three clusters. Distance analysis of the marker profiles provided no evidence for geographical clustering of isolates, indicating that isolates are randomly spread across India, signifying high potential of the fungus to adapt to diverse regions. Microsatellite markers clustered the isolates in consonance to the virulence groups in the dendrogram. This implies that the fungus has a high potential to adapt to resistant cultivars or fungicides. The information can aid in the breeding and deployment of A. carthami resistant varieties, and in early blight disease management in all safflower growing regions of the world.
Alternaria leaf spot caused by Alternaria carthami is one of the most devastating diseases of safflower. Diversity among 95 isolates of A. carthami was determined using virulence assays, enzyme assays, dominant (ISSR) and co-dominant (SSR) markers. Collections and isolations were made from three major safflower producing states of India. The virulence assays categorised the population into four groups based on level of virulence. Estimation of activities of cell wall degrading enzymes (CWDE) yielded concurrent results to virulence assays with maximum CWDE activities in most virulent group. Eighteen ISSR primers were used and 23 polymorphic microsatellite markers were developed to assess the genetic diversity and determine the population structure of A. carthami. Analysis of ISSR profiles revealed high genetic diversity (Nei's Genetic diversity index; h = 0.36). Microsatellite markers produced a total of 56 alleles with an average of 2.43 alleles per microsatellite marker and Nei's genetic diversity index as h = 0.43. Unweighted Neighbor-joining and population structure analysis using both the marker systems differently arranged the isolates into three clusters. Distance analysis of the marker profiles provided no evidence for geographical clustering of isolates, indicating that isolates are randomly spread across India, signifying high potential of the fungus to adapt to diverse regions. Microsatellite markers clustered the isolates in consonance to the virulence groups in the dendrogram. This implies that the fungus has a high potential to adapt to resistant cultivars or fungicides. The information can aid in the breeding and deployment of A. carthami resistant varieties, and in early blight disease management in all safflower growing regions of the world.
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