Recombination hotspots in Neurospora crassa controlled by idiomorphic sequences and meiotic silencing.

Genes regulating recombination in specific chromosomal intervals of Neurospora crassa were described in the 1960s, but the mechanism is still unknown. For each of the rec-1, rec-2, and rec-3 genes, a single copy of the putative dominant allele, for example, rec-2SL found in St Lawrence OR74 A wild type, reduces recombination in chromosomal regions specific to that gene. However, when we sequenced the recessive allele, rec-2LG (derived from the Lindegren 1A wild type), we found that a 10 kb region in rec-2SL strains was replaced by a 2.

Meiotic Recombination in Neurospora crassa Proceeds by Two Pathways with Extensive Holliday Junction Migration.

Analysis of thousands of Δmsh-2 octads using our fluorescent recombination system indicates that, as in other filamentous fungi, symmetric heteroduplex is common in the his-3 region of Neurospora crassa. Symmetric heteroduplex arises from Holliday junction migration, and we suggest this mechanism explains the high frequency of His+ spores in heteroallelic crosses in which recombination is initiated cis to the his-3 allele further from the initiator, cog+. In contrast, when recombination is initiated cis to the his-3 allele closer to cog+, His+ spores are mainly a result of synthesis-dependent strand annealing, yielding asymmetric heteroduplex.