ABSTRACT
RSC is a nucleosome-remodeling complex of Saccharomyces cerevisiae essential for growth that can alter histone-DNA interaction by using the energy of ATP hydrolysis. Nps1p/Sth1p is an ATPase subunit of RSC. A mutation in the conserved ATPase domain of Nps1p causes a sporulation defect with decreased expression of early meiotic genes, especially IME2. This defect is partially suppressed by the overexpression of either IME1 or IME2. A homozygous diploid of a novel temperature-sensitive nps1 mutation, nps1-13, harboring amino acid substitutions within the bromodomain, was unable to sporulate. Overexpression of IME, IME2, or both of these genes allowed the completion of meiosis I and meiosis II in nps1-13 but not the formation of mature asci. In nps1-13 carrying YEpIME1, the expression of a group of sporulation-specific genes, which express at the middle stages of sporulation and are required for spore-wall formation, notably diminished, and several late sporulation genes expressed at the early stages of sporulation. These results suggest that Nps1p/RSC plays important roles during the spore development process by controlling gene expression for initiating both meiosis and spore morphogenesis, and ensures proper expression timing of late meiotic genes.