In meiotic prophase, synaptonemal complexes (SCs) closely appose homologous chromosomes (homologs) along their length. SCs are assembled from two axial elements (AEs), one along each homolog, which are connected by numerous transverse filaments (TFs In meiosis, two rounds of chromosome segregation follow one round of replication. The first segregation, meiosis I, is reductional, as homologous chromosomes (homologs) move to opposite poles, whereas meiosis II is equational, because sister chromatids disjoin. The disjunction of homologs is prepared during the prophase of meiosis I, when homologs pair and nonsister chromatids of homologs recombine (for review, see Zickler and Kleckner 1999). The resulting crossovers and cohesion between the sister chromatids connect the homologs and ensure their proper disjunction at meiosis I. In most analyzed eukaryotes, meiotic recombination is accompanied by the close apposition of homologs by a zipper-like proteinaceous structure, the synaptonemal complex (SC). After premeiotic S-phase, the two sister chromatids of each chromosome develop a common axial structure, the axial element (AE), which consists of a linear array of protein complexes involved in sister chromatid cohesion (cohesin complexes), associated with various additional proteins (for review, see Page and Hawley 2004). Numerous transverse filaments (TFs) then connect the AEs of two homologs (synapsis) to form an SC. Within the SC, AEs are called lateral elements (LEs). Genes encoding TF proteins have been identified in mammals (Sycp1), budding yeast (ZIP1), Drosophila (c(3)G), and Caenorhabditis (Syp-1 and Syp-2). SYCP1, Zip1, and C(3)G are long coiled-coil proteins with globular domains at both ends. Within SCs, they form parallel coiled-coil homodimers, which are embedded with their C termini in the LEs, whereas the N termini of TF protein molecules from opposite LEs overlap in the narrow region between the LEs of the two homologs. Caenorhabditis Syp-1 and Syp-2 are two short coiled-coil proteins, which possibly take the place of a single longer coiled-coil protein in other species (for review, see Page and Hawley 2004).In the three species in which it has been analyzed, Drosophila, Caenorhabditis, and yeast, TF-deficient mu-
