肌节的肌球蛋白纤维滑动和力调节。
Sarcomere Length Nonuniformity and Force Regulation in Myofibrils and Sarcomeres.
机构信息
Boston Children's Hospital, Harvard Medical School, Boston, Massachusetts.
Department of Kinesiology and Physical Education, McGill University, Montreal, Quebec, Canada.
出版信息
Biophys J. 2020 Dec 15;119(12):2372-2377. doi: 10.1016/j.bpj.2020.11.005. Epub 2020 Nov 18.
Abstract
The smallest contractile unit in striated muscles is the sarcomere. Although some of the classic features of contraction assume a uniform behavior of sarcomeres within myofibrils, the occurrence of sarcomere length nonuniformities has been well recognized for years, but it is yet not well understood. In the past years, there has been a great advance in experiments using isolated myofibrils and sarcomeres that has allowed scientists to directly evaluate sarcomere length nonuniformity. This review will focus on studies conducted with these preparations to develop the hypotheses that 1) force production in myofibrils is largely altered and regulated by intersarcomere dynamics and that 2) the mechanical work of one sarcomere in a myofibril is transmitted to other sarcomeres in series. We evaluated studies looking into myofibril activation, relaxation, and force changes produced during activation. We conclude that force production in myofibrils is largely regulated by intersarcomere dynamics, which arises from the cooperative work of the contractile and elastic elements within a myofibril.
摘要
横纹肌的最小收缩单位是肌节。虽然收缩的某些经典特征假设肌原纤维内的肌节具有均匀的行为,但多年来人们已经很好地认识到肌节长度不均匀的发生,但尚未很好地理解。在过去的几年中,使用分离的肌原纤维和肌节进行的实验取得了很大的进展,这使得科学家能够直接评估肌节长度的不均匀性。本综述将重点介绍使用这些制剂进行的研究,以提出以下假设:1)肌节间动力学在很大程度上改变和调节肌原纤维的力产生,2)肌原纤维中一个肌节的机械功被串联传递到其他肌节。我们评估了研究肌原纤维激活、松弛和激活过程中产生的力变化的研究。我们的结论是,肌原纤维的力产生在很大程度上受到肌节间动力学的调节,这是肌原纤维内收缩和弹性元件协同工作的结果。
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