Chromatid behavior in late mitosis: a scanning electron microscopy analysis of mammalian cell lines with various chromosome numbers.

Scanning electron microscopy Pub Date : 1986-01-01
D A Welter, D A Black, L D Hodge
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Abstract

Chromatid activity during the process of nuclear reformation following metaphase is a period of mitosis where little precise information is available. Nuclear reformation requires that chromosomes, at metaphase and chromatids during anaphase and telophase align, position and associate in a clearly defined sequence to insure the specific design of each nucleus. Four cell lines with chromosome numbers ranging from seven to almost seventy were chosen to determine whether the process of nuclear assembly is the same throughout. Chromosomal alignment at metaphase is found to be radial in all four cell lines. Chromosome positioning is essentially the same in all four, where the smaller chromosomes are located centrally and longer ones are positioned peripherally in a radial alignment. Chromosomal association is directly related to chromosome number. The more chromosomes in a one dimensional plane occupying a given area, the closer the association. In comparing the HeLaS3 and muntjac chromatids, the former has the closer association at metaphase. Since association is the most important aspect of chromatid behavior in nuclear reformation, chromatid positioning becomes a vital process during anaphase movement. Chromatid positions established during anaphase determines later positioning in the interphase nucleus because of the subsequent interconnection of adjacent chromatids by the formation of a fibrous meshwork. This fibrous meshwork, formed in anaphase and early telophase, functions to stabilize chromatids following their positioning and it also serves as a substrate or matrix for the assembly of nuclear envelope.

有丝分裂后期染色单体行为:具有不同染色体数目的哺乳动物细胞系的扫描电镜分析。
染色单体在中期核重组过程中的活性是有丝分裂的一个时期,在这个时期几乎没有精确的信息可用。细胞核重组需要中期的染色体、后期和末期的染色单体以明确的顺序排列、定位和结合,以确保每个细胞核的特定设计。研究人员选择了4个染色体数目从7到70不等的细胞系,以确定整个细胞核组装过程是否相同。在所有四种细胞系中,在中期发现染色体排列呈放射状。在这四种染色体中,染色体的定位基本上是相同的,较小的染色体位于中心,较长的染色体以径向排列的方式位于周围。染色体关联与染色体数目直接相关。在一维平面上,占据特定区域的染色体越多,这种联系就越紧密。在比较HeLaS3和麂染色单体时,前者在中期有更紧密的联系。由于结合是核重组中染色单体行为的最重要方面,因此染色单体定位成为后期运动的重要过程。后期染色单体的位置决定了后期染色单体在间期细胞核中的位置,因为随后相邻染色单体通过纤维网的形成相互连接。这种纤维网形成于后期和末期早期,在染色单体定位后起到稳定染色单体的作用,同时也作为核包膜组装的底物或基质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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