To understand the differences in the organization of mitochondrial genomes of the very closely related Aspergillus niger and Aspergillus tubingensis species, we determined the complete genome sequence of the 1a mtDNA type of A. niger and 2b mtDNA type of A. tubingensis and now we provide a comparative analysis of the two mtDNAs. We found that (1) the organization (gene content and order) of the two genomes is almost identical and (2) the size difference between them is principally attributed to the different intron content of their cox1, atp9 and ndh4L genes.
A physical and functional map of Aspergillus tubingensis mtDNA type 2b was constructed and compared to Aspergillus niger typeI a mtDNA. The gene content and order, as well as the patterns of restriction sites, were similar. Two unidentified ORFs and several repeat elements were found in the region between the ndhl and ndh4 genes on both mtDNAs. The sizes of the A. niger and A. tubingensis mtDNAs were 31.23 and 33.06 kb. respectively, the difference was principally attributed to the altered intron content of their coxl genes.
Physical and functional maps of mitochondrial DNAs of Aspergillus niger strains representing different mitochondrial DNA RFLP patterns were constructed and compared. In spite of the high similarity in the organisation of mitochondrial DNAs among examined strains, differences could be easily recognised by applying molecular markers, such as the different intron content of the cox1 genes, the sequence of the intergenic regions between the Met- and His-tRNA genes and downstream of the tRNA-Gly gene. Intraspecific mitochondrial transfers between the heterokaryon incompatible mitochondrial oligomycin-resistant A. niger strain, as the donor, and other A. niger-sensitive strains bearing different RFLP patterns resulted in oligomycin-resistant progeny possessing either rearranged or unchanged donor mitochondrial DNA and recipient nuclei. Since the intergenic marker sequences of mitochondrial DNAs turned out to be identical in the donor and the progeny, it can be assumed that the oligomycin-resistant progeny inherit the mitochondrial DNA of the donor strain; this may either remain unchanged or may be modified by a mobile intron of the cox1 gene of the recipient mitochondria.
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