肌球蛋白-I 张力感应的钙调节。
Calcium regulation of myosin-I tension sensing.
机构信息
Pennsylvania Muscle Institute and Department of Physiology, Perelman School of Medicine at the University of Pennsylvania, Philadelphia, Pennsylvania, USA.
出版信息
Biophys J. 2012 Jun 20;102(12):2799-807. doi: 10.1016/j.bpj.2012.05.014. Epub 2012 Jun 19.
Abstract
Myo1b is a myosin that is exquisitely sensitive to tension. Its actin-attachment lifetime increases > 50-fold when its working stroke is opposed by 1 pN of force. The long attachment lifetime of myo1b under load raises the question: how are actin attachments that last >50 s in the presence of force regulated? Like most myosins, forces are transmitted to the myo1b motor through a light-chain binding domain that is structurally stabilized by calmodulin, a calcium-binding protein. Thus, we examined the effect of calcium on myo1b motility using ensemble and single-molecule techniques. Calcium accelerates key biochemical transitions on the ATPase pathway, decreases the working-stroke displacement, and greatly reduces the ability of myo1b to sense tension. Thus, calcium provides an effective mechanism for inhibiting motility and terminating long-duration attachments.
摘要
肌球蛋白 1b 是一种对张力极其敏感的肌球蛋白。当它的工作行程受到 1 皮牛顿的力的阻碍时,其肌动蛋白的附着寿命会增加超过 50 倍。在负载下肌球蛋白 1b 的长附着寿命提出了一个问题:在力的作用下,持续超过 50 秒的肌动蛋白附着是如何调节的?与大多数肌球蛋白一样,力通过轻链结合域传递到肌球蛋白 1b 马达,该结合域通过钙结合蛋白钙调蛋白结构稳定。因此,我们使用集束和单分子技术研究了钙对肌球蛋白 1b 运动的影响。钙加速了 ATP 酶途径上的关键生化转变,减少了工作行程位移,并大大降低了肌球蛋白 1b 感知张力的能力。因此,钙提供了一种有效的机制来抑制运动并终止长时间的附着。
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