The SPR3 gene encodes a sporulation-specific homolog of the yeast Cdc3/10/11/12 family of bud neck filament proteins. It is expressed specifically during meiosis and sporulation in Saccharomyces cerevisiae. Analysis of the sporulation-specific regulation of SPR3 has shown that it is strongly activated under sporulating conditions but shows low levels of expression under nonsporulating conditions. A palindromic sequence located near the TATA box is essential to the developmental regulation of this gene and is the only element directly activating SPR3 at the right time during sporulation. Within the palindrome is a 9-bp sequence, gNCRCAAA(A/T) (midsporulation element [MSE]), found in the known control regions of three other sporulation genes. A previously identified ABFI element is also needed for activation. The MSE has been shown to activate a heterologous promoter (CYC1) in a sporulation-specific manner. Related sequences, including an association of MSE and ABFI elements, have been found upstream of other genes activated during the middle stage of S. cerevisiae sporulation. One group of these may be involved in spore coat formation or maturation.Sporulation of the yeast Saccharomyces cerevisiae is a simple developmental process in which cells undergo premeiotic DNA replication, high-frequency recombination followed by the two divisions of meiosis, and packaging of the four haploid nuclei into spores in an ascus (9,12). This process involves cells in a sequence of genetic, morphological, and biochemical changes (10), and it provides not only a model system for the study of the control of cellular development but also one in which to analyze the regulation of meiosis.From a large-scale analysis of gene expression in S. cerevisiae, Burns et al. (4) have shown that sporulation involves 93 to 135 meiotically induced genes. While not all sporulation regulation is due to the activation of sporulation-specific genes, it is clear that novel transcripts appear at distinct times during the developmental process (27,40). More than 30 of these genes have been isolated and characterized on the basis of the timing of their expression. They have been broadly categorized as early, middle, and late genes depending on the timing of their transcription during sporulation (29).The mechanisms leading to the activation of early sporulation genes are been fairly well established, and overall a common theme on their regulation has emerged (1, 4, 39). These early genes may be activated in a meiosis-specific manner at their URS1 site by Ume6, which is converted from a negative regulator to a positive one by Ime1 (2, 37). Compared to those for the early meiotic genes, the mechanisms controlling the expression of middle and late sporulation genes have not been well defined. Although the early regulatory genes IME2, MCK1, and SME2 have been shown to play a role in the regulation of some middle to late sporulation genes (24,30,32), their mode of action is currently unknown. Extensive analyses of the regulation of one middle (SPS4) and one ...
