活细胞核内纳米棒的磁操控。
Magnetic manipulation of nanorods in the nucleus of living cells.
机构信息
Department of Mechanical Engineering, Pontificia Universidad Católica de Chile, Santiago, Chile.
出版信息
Biophys J. 2011 Oct 19;101(8):1880-6. doi: 10.1016/j.bpj.2011.09.008.
Abstract
The organization of chromatin in the cell nucleus is crucial for gene expression regulation. However, physically probing the nuclear interior is challenging because high forces have to be applied using minimally invasive techniques. Here, magnetic nanorods embedded in the nucleus of living cells are subjected to controlled rotational forces, producing micron-sized displacements in the nuclear interior. The resulting time-dependent rotation of the nanorods is analyzed in terms of viscoelastic parameters of the nucleus, in wild-type and Lamin A/C deficient cells. This method and analysis reveal that Lamin A/C knockout, together perhaps with other changes that result from the knockout, induce significant decreases in the nuclear viscosity and elasticity.
摘要
染色质在细胞核内的组织对于基因表达调控至关重要。然而,由于需要使用微创技术施加高力,因此物理探测核内结构具有挑战性。在这里,将嵌入活细胞核内的磁性纳米棒施加受控的旋转力,从而在核内产生微米级的位移。根据细胞核的粘弹性参数分析纳米棒的这种时变旋转,在野生型和 lamin A/C 缺陷细胞中进行分析。该方法和分析表明,lamin A/C 敲除,也许还有其他由于敲除而导致的变化,会导致核粘度和弹性显著降低。
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