Meiotic budding yeast assemble bundled triple helices but not ladders

Abstract

AbstractIn meiosis, cells undergo two sequential rounds of cell division, termed meiosis I and meiosis II. Textbook models of the meiosis I substage called pachytene show that nuclei have conspicuous 100-nm-wide, ladder-like synaptonemal complexes (SC), which form between homologous chromosomes. It remains unknown if cells have any other large, meiosis-specific nuclear structures. Here we present cryo-ET analysis of frozen-hydrated budding yeast cells before, during, and after pachytene. We found no evidence for the dense ladder-like structures expected of the SC or the ordered chromatin loops expected to project from their sides. Instead, we found large quantities of 12-nm-wide triple-helices that pack into crystalline bundles. These structures are present in meiotic cells, but not in interphase cells, so we call them meiotic triple helices (MTHs). MTHs are enriched in the nucleus but not enriched in the cytoplasm. Bundles of MTHs form at the same time as SCs in wild-type cells and also in mutant cells that are unable to form SCs. These results suggest that in yeast, SCs are not crystalline and that they coexist with large, previously unreported meiotic machines.