Annunziato A T, Frado L L, Seale R L, Woodcock C L
Department of Biology, Boston College, Chestnut Hill, MA 02167.
Chromosoma. 1988;96(2):132-8. doi: 10.1007/BF00331045.
The effects of histone hyperacetylation on chromatin fiber structure were studied using direct observations with the electron microscope. Histone hyperacetylation was induced in HeLa cells by treatment with sodium butyrate, and the ultrastructure of control and of acetylated chromatin fibers examined after fixation at different stages of compaction. No differences between control and acetylated chromatin were seen when the fibers were partially unfolded (10 mM NaCl, 20 mM NaCl, 50 mM NaCl), but in 100 mM NaCl, control chromatin showed further compaction to the "30 nm" fiber, while hyperacetylated chromatin failed to undergo this final compaction step. These results strongly suggest that histone acetylation causes a moderate "relaxation" rather than complete decondensation of interphase chromatin fibers. The relationship of these findings to the increased DNase I sensitivity of acetylated chromatin, and to transcription and replication, is discussed.
利用电子显微镜直接观察,研究了组蛋白高度乙酰化对染色质纤维结构的影响。用丁酸钠处理HeLa细胞以诱导组蛋白高度乙酰化,并在压实的不同阶段固定后检查对照染色质纤维和乙酰化染色质纤维的超微结构。当纤维部分展开时(10 mM NaCl、20 mM NaCl、50 mM NaCl),对照染色质和乙酰化染色质之间未观察到差异,但在100 mM NaCl中,对照染色质进一步压实成“30 nm”纤维,而高度乙酰化的染色质未能经历这一最终压实步骤。这些结果有力地表明,组蛋白乙酰化导致间期染色质纤维适度“松弛”而非完全解聚。讨论了这些发现与乙酰化染色质对DNase I敏感性增加以及与转录和复制的关系。