Although DNA replication has been thought to play an important role in the silencing of mating type loci in Saccharomyces cerevisiae, recent studies indicate that silencing can be decoupled from replication. In Schizosaccharomyces pombe, mating type silencing is brought about by the trans-acting proteins, namely Swi6, Clr1-Clr4, and Rhp6, in cooperation with the cis-acting silencers. The latter contain an autonomous replication sequence, suggesting that DNA replication may be critical for silencing in S. pombe. To investigate the connection between DNA replication and silencing in S. pombe, we analyzed several temperature-sensitive mutants of DNA polymerase ␣. We find that one such mutant, swi7H4, exhibits silencing defects at mat, centromere, and telomere loci. This effect is independent of the checkpoint and replication defects of the mutant. Interestingly, the extent of the silencing defect in the swi7H4 mutant at the silent mat2 locus is further enhanced in absence of the cis-acting, centromere-proximal silencer. The chromodomain protein Swi6, which is required for silencing and is localized to mat and other heterochromatin loci, interacts with DNA polymerase ␣ in vivo and in vitro in wild type cells. However, it does not interact with the mutant pol␣ and is delocalized away from the silent mat loci in the mutant. Our results demonstrate a role of DNA polymerase ␣ in the establishment of silencing. We propose a recruitment model for the coupling of DNA replication with the establishment of silencing by the chromodomain protein Swi6, which may be applicable to higher eukaryotes.The well studied system of mating type silencing in the budding yeast Saccharomyces cerevisiae has served as a paradigm for developmental regulation of gene regulation. Although the mating type phenotype of a homothallic strain is dictated by the MAT locus depending on whether it harbors the a-or ␣-specific alleles, two copies of the same genetic information are located at distant sites on the same chromosome, namely HML and HMR, which harbor ␣ and a alleles, respectively. However, these alleles are transcriptionally silent. The silencing is achieved by the cis-acting sequences E (essential) and I (important) that flank both HML and HMR loci (1, 2). In addition, several genes encode factors named mating type regulator/silent information regulator (MAR/SIR) that function in trans through the cis-acting sequences in keeping the HML and HMR loci silent. Extensive studies in S. cerevisiae have suggested that DNA replication is important for repression of the silent mating type loci HML and HMR (see Refs. 1 and 2 for reviews). These findings include a requirement of passage through S phase, a functional autonomous replication sequence (ARS) flanking the silent locus HMR, and a functional origin recognition complex for silencing (reviewed in Ref. 2). However, the requirement of DNA replication for silencing is obviated if the SIR1 silencing protein is recruited by alternative means, although passage through S phase is still essential (3, 4)....
