Deposition-related histone acetylation in micronuclei of conjugating Tetrahymena.

Macro- and micronuclei of the ciliated protozoan, Tetrahymena thermophila, afford a unique opportunity to study histone acetylation under conditions where acetylation associated with the regulation of transcription and acetylation associated with the deposition of histones on the DNA are separable. In this study we demonstrate that histone H3 and histone H4 synthesized in young (5 hr) conjugating Tetrahymena are deposited into micronuclei in acetylated forms. Most of the newly synthesized histone H3 migrates as a monoacetylated form while essentially all of the new histone H4 is deposited as a diacetylated species. Since micronuclei replicate rapidly during this stage of the life cycle, but are transcriptionally inactive, these data suggest that histone acetylation is related functionally to histone deposition and chromatin assembly. Pulse-chase experiments show that micronuclei also contain a butyrate-sensitive deacetylase activity(ies) which operates to remove the deposition-related acetate groups from newly synthesized and deposited H3 and H4. This enzymatic activity probably contributes to the steady state level of micronuclear histone acetylation that is low or nonexistent. Thus, evidence is emerging for at least two independent systems of histone acetylation in Tetrahymena. The first system is specific to macronuclei and may be related to gene expression. The second system is common to macro- or micronuclear histones (H3 and H4) and may be related to histone deposition during DNA replication.