Snyder J A, McIntosh J R
J Cell Biol. 1975 Dec;67(3):744-60. doi: 10.1083/jcb.67.3.744.
Metaphase PtK1 cells, lysed into polymerization-competent microtubule protein, maintain a spindle which will gain or lose birefringence depending on the concentration of disassembled tubulin subunits used in the lysis medium. Concentrations of tubulin subunits greater than the equilibrium monomer value promote a rate and extent of birefringence increase that is proportional to the subunit concentration. Increase in spindle birefringence can be correlated with an increase in tubule number, though the relationship is not strictly linear. Increase in spindle tubule number is due to an vivo-like initiation of tubules at the mitotic centers, as well as tubulin addition onto pre-existing spindle fragments. Colcemid-treated prometaphase cells lysed into polymerization-competent tubulin develop large asters in the region of the centrioles and short tubules at kinetochores, making it unlikely that all microtubule formation in lysed cell preparations is dependent on tubulin addition to short tubule fragments. Asters can also form in colcemid-treated prometaphase cells lysed in tubulin that is incapable of spontaneous tubule initiation, suggesting that the centriolar region serves a tubule-initiator function in our lysed cell preparations. The ability of the centriole to initiate microtubule assembly is a time-dependent process-a ripening effect takes place between prophase and late prometaphase. Ripening is expressed by an increase in the number and length of tubules found associated with the centriolar region.
中期PtK1细胞裂解成具有聚合能力的微管蛋白后,会维持一个纺锤体,该纺锤体的双折射会根据裂解介质中所用解聚微管蛋白亚基的浓度增加或降低。微管蛋白亚基浓度高于平衡单体值时,会促进双折射增加的速率和程度,且该增加与亚基浓度成正比。纺锤体双折射的增加与微管数量的增加相关,尽管这种关系并非严格线性。纺锤体微管数量的增加是由于在有丝分裂中心出现类似体内的微管起始,以及微管蛋白添加到预先存在的纺锤体片段上。用秋水仙酰胺处理的前中期细胞裂解成具有聚合能力的微管蛋白后,在中心粒区域会形成大型星状体,在动粒处会形成短微管,这表明裂解细胞制剂中的所有微管形成不太可能都依赖于微管蛋白添加到短微管片段上。在不能自发起始微管的微管蛋白中裂解的用秋水仙酰胺处理的前中期细胞也能形成星状体,这表明在我们的裂解细胞制剂中,中心粒区域具有微管起始功能。中心粒起始微管组装的能力是一个时间依赖性过程——在前中期和前中期后期之间会发生成熟效应。成熟表现为与中心粒区域相关的微管数量和长度增加。