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肌球蛋白1b(myo1b)核苷酸结合的温度依赖性及动力学特征

Temperature dependence of nucleotide association and kinetic characterization of myo1b.

作者信息

Lewis John H, Lin Tianming, Hokanson David E, Ostap E Michael

机构信息

The Pennsylvania Muscle Institute and Department of Physiology, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104-6085, USA.

出版信息

Biochemistry. 2006 Sep 26;45(38):11589-97. doi: 10.1021/bi0611917.

DOI:10.1021/bi0611917
PMID:16981718
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2517419/
Abstract

Myo1b is a widely expressed myosin-I isoform that concentrates on endosomal and ruffling membranes and is thought to play roles in membrane trafficking and dynamics. It is one of the best characterized myosin-I isoforms and appears to have unique biochemical properties tuned for tension sensing or tension maintenance. We determined the key biochemical rate constants that define the actomyo1b ATPase cycle at 37 degrees C and measured the temperature dependence of ATP binding, ADP release, and the transition from a nucleotide-inaccessible state to a nucleotide-accessible state (k(alpha)). The rate of ATP binding is highly temperature sensitive, with an Arrhenius activation energy 2-3-fold greater than other characterized myosins (e.g., myosin-II and myosin-V). ATP hydrolysis is fast, and phosphate release is slow and rate limiting with an actin dependence that is nearly identical to the steady-state ATPase parameters (Vmax and K(ATPase)). ADP release is not as temperature dependent as ATP binding. The rates and temperature dependence of ADP release are similar to k(alpha) suggesting that a similar structural change is responsible for both transitions. We calculate a duty ratio of 0.08 based on the biochemical kinetics. However, this duty ratio is likely to be highly sensitive to strain.

摘要

肌球蛋白1b(Myo1b)是一种广泛表达的肌球蛋白I亚型,集中在内体和褶皱膜上,被认为在膜运输和动力学中发挥作用。它是特征最明确的肌球蛋白I亚型之一,似乎具有为张力传感或张力维持而调整的独特生化特性。我们确定了在37摄氏度下定义肌动蛋白-肌球蛋白1b(actomyo1b)ATP酶循环的关键生化速率常数,并测量了ATP结合、ADP释放以及从核苷酸不可接近状态到核苷酸可接近状态转变(k(α))的温度依赖性。ATP结合速率对温度高度敏感,其阿累尼乌斯活化能比其他已表征的肌球蛋白(如肌球蛋白II和肌球蛋白V)大2至3倍。ATP水解很快,而磷酸释放缓慢且是限速步骤,其对肌动蛋白的依赖性与稳态ATP酶参数(Vmax和K(ATPase))几乎相同。ADP释放不像ATP结合那样依赖温度。ADP释放的速率和温度依赖性与k(α)相似,表明类似的结构变化是这两种转变的原因。基于生化动力学,我们计算出的占空比为0.08。然而,这个占空比可能对应变高度敏感。

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