Cytosine methylation associated with repeat-induced point mutation causes epigenetic gene silencing in Neurospora crassa.

Repeated DNA sequences are frequently mutated during the sexual cycle in Neurospora crassa by a process named repeat-induced point mutation (RIP). RIP is often associated with methylation of cytosine residues in and around the mutated sequences. Here we demonstrate that this methylation can silence a gene located in nearby, unique sequences. A large proportion of strains that had undergone RIP of a linked duplication flanking a single-copy transgene, hph (hygromycin B phosphotransferase), showed partial silencing of hph. These strains were all heavily methylated throughout the single-copy hph sequences and the flanking sequences. Silencing was alleviated by preventing methylation, either by 5-azacytidine (5AC) treatment or by introduction of a mutation (eth-I) known to reduce intracellular levels of S-adenosylmethionine. Silenced strains exhibited spontaneous reactivation of hph at frequencies of 10(4) to 0.5. Reactivated strains, as well as cells that were treated with 5AC, gave rise to cultures that were hypomethylated and partially hygromycin resistant, indicating that some of the original methylation was propagated by a maintenance mechanism. Gene expression levels were found to be variable within a population of clonally related cells, and this variation was correlated with epigenetically propagated differences in methylation patterns.