Crossover/Noncrossover Differentiation, Synaptonemal Complex Formation, and Regulatory Surveillance at the Leptotene/Zygotene Transition of Meiosis

Yeast mutants lacking meiotic proteins Zip1, Zip2, Zip3, Mer3, and/or Msh5 (ZMMs) were analyzed for recombination, synaptonemal complex (SC), and meiotic progression. At 33°C, recombination-initiating double-strand breaks (DSBs) and noncrossover products (NCRs) form normally while formation of single-end invasion strand exchange intermediates (SEIs), double Holliday junctions, crossover products (CRs), and SC are coordinately defective. Thus, during wild-type meiosis, recombinational interactions are differentiated into CR and NCR types very early, prior to onset of stable strand exchange and independent of SC. By implication, crossover interference does not require SC formation. We suggest that SC formation may require interference. Subsequently, CR-designated DSBs undergo a tightly coupled, ZMM-promoted transition that yields SEI-containing recombination complexes embedded in patches of SC. zmm mutant phenotypes differ strikingly at 33(degree) C and 23(degree)C, implicating higher temperature as a positive effector of recombination and identifying a checkpoint that monitors local CR-specific events, not SC formation, at late leptotene.