Vegetative compatibility tests and random amplification of polymorphic DNA (RAPD) were used to assess genetic relationships amongst 54 strains of Fusarium poae obtained from various geographical regions. Twenty-seven strains were assigned to eight multiple member vegetative compatibility groups (VCGs), while the other 27 isolates were found to form single-member VCGs. There was a partial correlation between VCG and geographical origin, but the relationship was not always clear. However, no correlation was observed between the VCG and the host plant of origin. RAPD patterns were closely associated with VCGs in all cases. Members of VCGs that were interconnected by bridging isolates formed common branches in the phenogram constructed on the basis of the RAPD patterns, while strains that belonged to single-member VCGs were scattered throughout the phenogram. These data demonstrate that the combination of traditional and molecular methodologies allows reliable intraspecific subdivisions in an asexual fungus, which is a secondary invader of a wide range of host plants, and so has never been subject to the intense selection pressure of a single host species and lacks pathogenic subgroups.
Variations in trichothecene patterns of 26 Fusarium sporotrichioides isolates from different plant and geographic origins showed no correlation with electrophoretic karyotype polymorphisms. When intact chromosomes were examined, interisolate karyotype differences were observed only in the minichromosome range. Further polymorphisms were revealed in Nod-digested samples. By summing the Notl fragments the average genome size of F. sporotrichioides was estimated to be 204 Mb. Mini-chromosomes shared common sequences with the larger ones; however, clones (RMS-1 and RMS-2) specific to these structures have also been found. These clones contained no coding region and no promising similarities were observed when they were compared to sequences held at GenBank. Mini-chromosomes in F. sporotrichioides constitute a mosaic composed of dispersed repeats and unique sequences. This mosaic structure was maintained in all noninterbreeding, genetically isolated strains examined.
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