Epigenetic inheritance of heterochromatin structure is an important cellular process whose mechanism remains elusive. In this article, we describe the identification of nine enhancers of the silencing defect of a Saccharomyces cerevisiae -PCNA mutant by screening a library of ≈4,700 viable yeast deletion mutants. Of the nine mutants identified, six ( hir1 , hir3 , sas2 , sas4 , sas5 , and sir1 ) were previously known to reduce silencing synergistically with a mutation in Cac1p, the large subunit of chromatin assembly factor 1 (CAF-1). The predicted gene products that are affected in three other mutants ( nam7 , msh2 , and rtt106 ) have not been implicated previously in silencing. Characterization of the rtt106 Δ allele revealed that it synergistically reduced heterochromatin silencing when combined with a mutation in Cac1p but not with a mutation in Asf1p (a histone H3 and H4 chaperone). Moreover, Rtt106p interacted with histones H3 and H4 both in vitro and in vivo , and it displayed a nucleosome assembly activity in vitro . Furthermore, Rtt106p interacts with CAF-1 physically through Cac1p. These biochemical and genetic data indicate that Rtt106p is a previously uncharacterized histone chaperone connecting S phase to epigenetic inheritance.