Experimental data from a number of model organisms suggests that transcriptional quiescence is essential for safe-guarding totipotency of the embryonic germ line. In C.elegans, global repression in germline blastomeres is mediated by a maternal protein, PIE-1. Subsequent to its degradation, chromatin-based mechanisms accompanied by epigenetic erasure events suppress transcription in the primordial germ cells, Z2 and Z3. In particular, genome-wide H3K18 acetylation is deleted from Z2 and Z3 within 30 minutes of their birth.The rapidity with which this mark is lost suggests an enzymatic mode of removal. This hypothesis is corroborated by evidence which indicates that loss of H3K18Ac occurs on a normal schedule in the
psa-1 mutant which is defective in nucleosome remodeling. Consequently, we are analyzing mutants in each of nine histone deacetylases to determine which in particular is responsible for this erasure event. RNA interference will be used if genetic redundancy is suspected. The functional consequences of inappropriately retaining this mark on the totipotency of the germ line will be elaborated in the appropriate loss-of-function mutant(s).