Berrios S, Fernández-Donoso R
Department of Cell Biology and Genetics, Faculty of Medicine, University of Chile, Santiago.
Hum Genet. 1990 Dec;86(2):103-16. doi: 10.1007/BF00197690.
Nucleolar association and heterochromatin coalescence have both been invoked as mechanisms involved in the origin of chromosomal associations between nucleolar bivalents themselves, as well as between these bivalents and the XY pair, during meiotic prophase in human spermatocytes. However, these mechanisms do not satisfactorily explain how associating bivalents meet each other within the nuclear space. To elucidate this problem, we have characterized different types of nucleolar-nucleolar and nucleolar-XY bivalent associations, and their frequencies, in light and electron microscope serial sections of spermatocyte nuclei. In the pachytene nucleus, nucleolar bivalent associations were found to involve only one nucleolar sphere of RNP granules connected through a fibrillar center to a chromatin mass composed of two, or more, nucleolar-bivalent short arms. Structural relationships between these elements were examined using 3D computer models of various nucleolar associations. XY and nucleolar bivalents were usually located towards the nuclear periphery associated with the inner face of the nuclear envelope. Some nucleolar bivalents, whether single or associated appeared beside or over XY chromatin. When nucleolar-bivalent short arms (BK) were found over nucleolar or over XY chromatin, their telomeres were unattached to the nuclear envelope and the corresponding synaptonemal complexes were not observed. Ninety nucleoli were found in sixty pachytene nuclei. Thirty six percent of these nucleoli were bound to associated BKs and the remaining 64% to single BKs. Over 40% of individual spermatocytes showed at least one cluster of associated BKs and about 20% presented single or multiple BKs associated with the XY pair. The frequencies of random BK associations, over the total or restricted areas of the nuclear envelope, were calculated according to a probabilistic nuclear model. A correspondence was found in comparing the observed frequencies of associated BKs with those calculated on the basis of bouquet formation. Such an analysis strongly suggests that the occurrence of associations between nucleolar bivalents may arise at random within the bouquet. Thus, the architecture of the meiocyte nucleus, particularly the organization of the bouquet, may be the primary mechanism by which nucleolar bivalents meet each other and, consequently, become associated either through common nucleolus formation or by heterochromatin coalescence.
核仁关联和异染色质聚结都被认为是人类精母细胞减数分裂前期核仁二价体自身之间以及这些二价体与XY染色体对之间染色体关联起源所涉及的机制。然而,这些机制并不能令人满意地解释相互关联的二价体如何在核空间内彼此相遇。为了阐明这个问题,我们在精母细胞核的光学显微镜和电子显微镜连续切片中,对不同类型的核仁-核仁以及核仁-XY二价体关联及其频率进行了表征。在粗线期细胞核中,发现核仁二价体关联仅涉及一个由RNP颗粒组成的核仁球体,该球体通过一个纤维中心与由两条或更多条核仁二价体短臂组成的染色质团相连。使用各种核仁关联的三维计算机模型研究了这些元件之间的结构关系。XY染色体和核仁二价体通常位于靠近核膜内表面的核周边。一些核仁二价体,无论是单个的还是相互关联的,都出现在XY染色质的旁边或上方。当在核仁或XY染色质上方发现核仁二价体短臂(BK)时,它们的端粒未附着在核膜上,且未观察到相应的联会复合体。在60个粗线期细胞核中发现了90个核仁。这些核仁中36%与相关的BK相连,其余64%与单个BK相连。超过40%的单个精母细胞显示至少有一组相关的BK,约20%呈现与XY染色体对相关的单个或多个BK。根据概率核模型计算了核膜总面积或受限区域上随机BK关联的频率。在比较观察到的相关BK频率与基于花束形成计算的频率时发现了对应关系。这样的分析强烈表明,核仁二价体之间关联的发生可能在花束内随机出现。因此,减数分裂细胞核的结构,特别是花束的组织,可能是核仁二价体彼此相遇并因此通过共同核仁形成或异染色质聚结而相互关联的主要机制。
