研究组通过最初的方法使用更小的探针有效地标记肌动蛋白以及参与细胞分裂,结构,运动和信息传导的分子。
The team used these much smaller probes with the PRIME method to effectively tag actin, a molecule involved in cell division, structure, motility, and communication.
相对较大的荧光蛋白探针会干扰肌动蛋白的功能和运动,但是通过小探针标记的肌动蛋白分子能够通过细胞甚至进入核心。
The relatively larger GFP interferes with the function and mobility of actin, but actin molecules tagged with the smaller PRIME probes were able to move throughout the cell and even enter the nucleus.
植物病毒运动蛋白可以通过增加胞间连丝的通透性,介导自身和病毒核酸物质的转移。
The viral movement proteins (MPs) have been reported to increase the plasmodesmata permeability and mediate the transport of viral nucleoproteins between plant cells.
驱动蛋白的运动具有定向运动和梯跳两个特性,这两个特性蕴含的机制一直是人们研究的焦点。
The movements of kinesin have two features , the directionality and the stepping motion , on which the dynamical study are focused.
动蛋白是一类依赖于微管的马达蛋白,它能利用AT P水解产生的能量沿微管运动。
Kinesins are microtubule-based motor proteins that can move along microtubule (MT) using the energy from ATP hydrolysis.
肌动蛋白负责肌肉细胞的收缩和其它细胞的运动的两种蛋白质中的一种。
Actin: Oneoftwo proteins responsible for contraction of muscle cells and the motility of other cells.
细胞松弛素D的实验证实平衡石的这种运动是和肌动蛋白丝相关,而且在重力场中作用于平衡石的向基力也是肌动蛋白丝产生的。
Cytochalasin D experiments confirm that the movement of statoliths is actin-dependent and the actin filaments exert basipetal forces on statoliths in gravity field.
这项研究表明,迁移神经元中前导突起顶端通过肌球蛋白介导的肌动蛋白纤维流动活跃的拉动胞体向前运动。
Thus, the tip of the leading process actively pulls the soma forward during neuronal migration through a myosin II-dependent forward F-actin flow along the leading process.
这项研究表明,迁移神经元中前导突起顶端通过肌球蛋白介导的肌动蛋白纤维流动活跃的拉动胞体向前运动。
Thus, the tip of the leading process actively pulls the soma forward during neuronal migration through a myosin II-dependent forward F-actin flow along the leading process.
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