Abstract
Reproduction in the genus Penicillium is thought to be completely asexual. Sexual reproduction, as occurs in the related genus Eupenicillium, is thought to provide evolutionary benefits because it allows for new combinations of alleles and therefore increases the amount of variation within the species. This hypothesis was tested using inter-simple sequence repeats (ISSRs) to assess the amount of intraspecific and intra-population variation within Penicillium miczynskii and the closely related Eupenicillium shearii. The data for both genera were also used to test for clonal reproduction against the null hypothesis of panmixis, using measures of genotypic diversity, linkage disequilibrium and phylogenetic tree length. The ISSR fingerprints indicated that the 70 Eupenicillium strains actually included two distinct species, Eupenicillium shearii and Eupenicillium tropicum sp. nov., each represented by populations in both Costa Rica and India. While none of the species or populations were found to be randomly recombining, the relative strength of the clonal component differed among the species. Penicillium miczynskii had the smallest clonal component, with the highest genotypic diversity, lowest Index of Association, 40 % of alleles non-randomly associated, and phylogenetic tree length closer to that of recombined data sets than to the minimum possible. Eupenicillium tropicum showed nearly complete clonal reproduction with the lowest genotypic diversity and 100 % of alleles non-randomly associated in both populations. On the other hand, it also had the greatest amount of intraspecific variation, with as little as 38 % similarity among strains. The results indicate that Penicilliumspecies may, on rare occasion, genetically recombine; the regular occurrence of meiosis in the life cycle of Eupenicilliumspecies does not facilitate recombination; and the greatest amount of genetic variation was not associated with recombination, but with clonal propagation.
Published Version
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