LeMaire-Adkins R, Hunt P A
Department of Genetics and Center for Human Genetics, Case Western Reserve University and University Hospitals of Cleveland, Cleveland, Ohio 44106-4955, USA.
Genetics. 2000 Oct;156(2):775-83. doi: 10.1093/genetics/156.2.775.
A fundamental principle of Mendelian inheritance is random segregation of alleles to progeny; however, examples of distorted transmission either of specific alleles or of whole chromosomes have been described in a variety of species. In humans and mice, a distortion in chromosome transmission is often associated with a chromosome abnormality. One such example is the fertile XO female mouse. A transmission distortion effect that results in an excess of XX over XO daughters among the progeny of XO females has been recognized for nearly four decades. Utilizing contemporary methodology that combines immunofluorescence, FISH, and three-dimensional confocal microscopy, we have readdressed the meiotic segregation behavior of the single X chromosome in oocytes from XO females produced on two different inbred backgrounds. Our studies demonstrate that segregation of the univalent X chromosome at the first meiotic division is nonrandom, with preferential retention of the X chromosome in the oocyte in approximately 60% of cells. We propose that this deviation from Mendelian expectations is facilitated by a spindle-mediated mechanism. This mechanism, which appears to be a general feature of the female meiotic process, has implications for the frequency of nondisjunction in our species.
孟德尔遗传的一个基本原则是等位基因随机分离到后代中;然而,在各种物种中都描述了特定等位基因或整条染色体的传递扭曲现象。在人类和小鼠中,染色体传递的扭曲通常与染色体异常有关。一个这样的例子是可育的XO雌性小鼠。导致XO雌性后代中XX女儿多于XO女儿的传递扭曲效应已经被认识了近四十年。利用结合免疫荧光、荧光原位杂交和三维共聚焦显微镜的当代方法,我们重新研究了在两种不同近交背景下产生的XO雌性卵母细胞中单个X染色体的减数分裂分离行为。我们的研究表明,单价X染色体在第一次减数分裂时的分离是非随机的,在大约60%的细胞中X染色体优先保留在卵母细胞中。我们提出,纺锤体介导的机制促进了这种与孟德尔预期的偏差。这种机制似乎是雌性减数分裂过程的一个普遍特征,对我们物种中不分离的频率有影响。