1、第四节 肌细胞的收缩功能Contraction of muscle cell,1.掌握N-M接头处兴奋的传递 2.掌握肌丝滑行机制 3.掌握兴奋-收缩耦联,肌肉按功能特性分类,AP在运动神经纤维上的传导,N-M接头处兴奋的传递,AP在骨骼肌cell上的传导(局部电流,骨骼肌的兴奋收缩耦联,骨骼肌的肌丝滑行收缩,一、骨骼肌细胞的收缩(contraction ...
1、第四节第四节 肌细胞的收缩功能肌细胞的收缩功能Contraction of muscle cell AP在运动神经纤维上的传导在运动神经纤维上的传导N-M接头处兴奋的传递接头处兴奋的传递 AP在骨骼肌在骨骼肌cell上的传导(局部电流)上的传导(局部电流)骨骼肌的兴奋收缩耦联骨骼肌的兴奋收缩耦联骨骼肌的肌丝滑行收缩骨骼肌的肌丝滑行收...
1) contraction of a muscle 肌肉的收缩 例句>> 2) the contraction of a muscle 肌肉的收缩. 3) muscle contraction 肌肉收缩 1. Pharmacology of Shen Feng Jing Ⅱ.Effects of Shen Feng Jing on nerve conduction andmuscle contractionof Indian bullfrog; ...
The resting [Ca 2+ ] i of cardiomyocyte was determined and was consistent with the value of approx 100 n M in the literature.doi:10.1385/1-59259-997-4:199Li XJLi PCHumana PressLi X, Li PCH (2006) Contraction study of a single cardiac muscle cell in a micro-fluidic chip. In: ...
英语解释 (physiology) a shortening or tensing of a part or organ (especially of a muscle or muscle fiber) 相似短语 muscle contraction 肌肉收缩 contraction of abdominal muscle 腹肌收缩 contraction of levator ani muscle 肛提肌收缩 be on the muscle 准备动武准备蛮干 on the muscle 以暴力...
muscle contraction 英[ˈmʌsl kənˈtrækʃən]美[ˈmʌsəl kənˈtrækʃən]释义 常用 牛津词典 释义 肌肉收缩; 双语例句 全部 1. Transmembrane signal transmission functions of cell; The mechanics of muscle contraction. 细胞的跨膜信号转导功能; 肌肉收缩的力学关系....
These muscle fibers are able to contract in a series of phases to produce movement. The first phase is the initiation of contraction when the muscle...Become a member and unlock all Study Answers Start today. Try it now Create an account Ask a question Our experts can answer your ...
troponin and tropomyosin from blocking contraction, and calcium levels in the resting muscle are low. The calcium level rises rapidly at time of contraction, which stops the troponin and tropomyosin from blocking contraction. Contraction is stopped by active removal of the calcium from the cell. ...
Smooth muscle contraction is a calcium-dependent process that can be induced by electromechanical coupling (triggered by action potentials and depolarization of the cell membrane) or by pharmacomechanical coupling (receptor-mediated activation of intracellular mechanisms). ...
The discovery of troponin (Ebashi and Kodama, 1965; cf. Ebashi et al., 1969) established the concept of regulation in muscle contraction and the term regulatory proteins (Maruyama and Ebashi, 1970). The absence of troponin or other specific regulatory pr