Multiple nuclei means multiple chromosome sets in Botrytis cinerea and Neurospora crassa

We often think of fungi as mysterious organisms that do not follow the general principles of other eukaryotes. Thus, when exciting results are found, these organisms do not always receive the rigorous level of scrutiny seen in other fields. For many fungal species, dispersal and reproduction relies on spores, either sexual or asexual. These spores can either have a single nucleus, or multiple nuclei, and the purpose of these presumably mitotic copies was unclear. Recently it was described that the multiple nuclei in these spores are not mitotic duplicates, but instead they share a single haploid set of chromosomes distributed across nuclei. Here, we provide fluorescent microscopy and UV mutagenesis data that is inconsistent with this hypothesis. Contrasting these previous results, we observe multiple sets of chromosomes in spores of both B. cinerea and N. crassa. We also observed a strong linear relationship between the number of nuclei in spores and the total acriflavine fluorescence, further supporting mitotic copies. Genome sequencing of colonies arising from UV-irradiated colonies also recovered variants at intermediate frequences, instead of the fixed 100% expected from the new model proposed. This evidence suggests that, as long suspected, these nuclei are indeed mitotic copies, and that a re-evaluation of fungal biology is not currently necessary.