Jenkins R A
J Cell Biol. 1967 Aug;34(2):463-81. doi: 10.1083/jcb.34.2.463.
The mitotic, micronuclear division of the heterotrichous genus Blepharisma has been studied by electron microscopy. Dividing ciliates were selected from clone-derived mass cultures and fixed for electron microscopy by exposure to the vapor of 2% osmium tetroxide; individual Blepharisma were encapsulated and sectioned. Distinctive features of the mitosis are the presence of an intact nuclear envelope during the entire process and the absence of centrioles at the polar ends of the micronuclear figures. Spindle microtubules (SMT) first appear in advance of chromosome alignment, become more numerous and precisely aligned by metaphase, lengthen greatly in anaphase, and persist through telophase. Distinct chromosomal and continuous SMT are present. At telophase, daughter nuclei are separated by a spindle elongation of more than 40 micro, and a new nuclear envelope is formed in close apposition to the chromatin mass of each daughter nucleus and excludes the great amount of spindle material formed during division. The original nuclear envelope which has remained structurally intact then becomes discontinuous and releases the newly formed nucleus into the cytoplasm. The micronuclear envelope seems to lack the conspicuous pores that are typical of nuclear envelopes. The morphology, size, formation, and function of SMT and the nature of micronuclear division are discussed.
利用电子显微镜对异毛纲草履虫属的有丝分裂、微核分裂进行了研究。从克隆衍生的大量培养物中挑选正在分裂的纤毛虫,通过暴露于2%四氧化锇的蒸汽中固定用于电子显微镜观察;将单个草履虫包埋并切片。有丝分裂的显著特征是在整个过程中核膜完整,微核形态的极末端没有中心粒。纺锤体微管(SMT)在染色体排列之前首先出现,在中期变得更多且排列更精确,在后期大幅延长,并持续到末期。存在明显的染色体和连续的SMT。在末期,子核被超过40微米的纺锤体伸长分开,并且在紧邻每个子核的染色质团处形成新的核膜,将分裂过程中形成的大量纺锤体物质排除在外。保持结构完整的原始核膜随后变得不连续,并将新形成的核释放到细胞质中。微核膜似乎缺乏核膜典型的明显孔隙。讨论了SMT的形态、大小、形成和功能以及微核分裂的性质。