In the chestnut blight fungus Cryphonectria parasitica, cytoplasmically transmissible hypovirulence phenotypes are elicited by debilitating mitochondrial DNA (mtDNA) mutations. In virus-free hypovirulent strains of C. parasitica from nature, the presence of a mitochondrial DNA element, named InC9, has been reported to cause similar disease syndromes. We have detected an additional mitochondrial element, termed plME-C9 (plasmid-like mitochondrial element C9) in some of the strains rendered hypovirulent by InC9. This element is a 1.4-kb DNA that exists in the mitochondria as monomeric and multimeric circular forms. Only a short 127-bp sequence of the plME-C9 DNA is derived from a region of the C. parasitica mtDNA that contains a reverse transcriptase-like open reading frame. The accumulation of the plME-C9 DNA in the mitochondria appears to adversely affect the growth of the fungus on synthetic medium. However, the presence plME-C9 in different strains did not correlate with the manifestation of the hypovirulence phenotype, indicating that it is not the primary reason for the prevalence of attenuated C. parasitica strains in the Kellogg Forest in Michigan.
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