合成核仁的构建及其揭示的亚核结构域在细胞分裂中的传递情况。
Construction of synthetic nucleoli and what it tells us about propagation of sub-nuclear domains through cell division.
作者信息
Grob Alice, McStay Brian
机构信息
a Center for Chromosome Biology; School of Natural Sciences ; National University of Ireland ; Galway , Ireland.
出版信息
Cell Cycle. 2014;13(16):2501-8. doi: 10.4161/15384101.2014.949124.
Abstract
The cell nucleus is functionally compartmentalized into numerous membraneless and dynamic, yet defined, bodies. The cell cycle inheritance of these nuclear bodies (NBs) is poorly understood at the molecular level. In higher eukaryotes, their propagation is challenged by cell division through an "open" mitosis, where the nuclear envelope disassembles along with most NBs. A deeper understanding of the mechanisms involved can be achieved using the engineering principles of synthetic biology to construct artificial NBs. Successful biogenesis of such synthetic NBs demonstrates knowledge of the basic mechanisms involved. Application of this approach to the nucleolus, a paradigm of nuclear organization, has highlighted a key role for mitotic bookmarking in the cell cycle propagation of NBs.
摘要
细胞核在功能上被分隔成众多无膜且动态但界限分明的结构域。这些核小体(NBs)在细胞周期中的遗传在分子水平上还知之甚少。在高等真核生物中,它们的增殖在细胞分裂过程中会受到“开放式”有丝分裂的挑战,在这种有丝分裂中,核膜会与大多数核小体一起解体。利用合成生物学的工程原理构建人工核小体,可以更深入地了解其中涉及的机制。这种合成核小体的成功生物发生证明了对所涉及基本机制的了解。将这种方法应用于核仁(一种核组织的范例),突出了有丝分裂标记在核小体细胞周期增殖中的关键作用。
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