Abstract
Alleles specifically defective in telomeric silencing were generated by in vitro mutagenesis of the yeast RAP1 gene. The most severe phenotypes occur with three mutations in the C-terminal 28 amino acids. Two of the alleles are nonsense mutations resulting in truncated repressor/activator protein 1 (RAP1) species lacking the C-terminal 25-28 amino acids; the third allele is a missense mutation within this region. These alleles define a novel 28-amino acid region, termed the C-terminal tail domain, that is essential for telomeric and HML silencing. Using site-directed mutagenesis, an 8-amino acid region (amino acids 818-825) that is essential for telomeric silencing has been localized within this domain. Further characterization of these alleles has indicated that the C-terminal tail domain also plays a role in telomere size control. The function of the C-terminal tail in telomere maintenance is not mediated through the RAP1 interacting factor RIF1: rap1 alleles defective in both the C-terminal tail and RIF1 interaction domains have additive effects on telomere length. Overproduction of SIR3, a dose-dependent enhancer of telomeric silencing, suppresses the telomeric silencing, but not length, phenotypes of a subset of C-terminal tail alleles. In contrast, an allele that truncates the terminal 28 amino acids of RAP1 is refractory to SIR3 overproduction. These results indicate that the C-terminal tail domain is required for SIR3-dependent enhancement of telomeric silencing. These data also suggest a distinct set of C-terminal requirements for telomere size control and telomeric silencing.