在体外运动试验中,肌凝蛋白的尾部降低肌动蛋白丝的速度。

Bin Guo, William H Guilford
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引用次数: 44

摘要

据观察,在体外运动试验中,重肌凝蛋白(HMM)比天然肌凝蛋白推动肌动蛋白丝的速度更高,但这种差异的原因仍未解释。由于这两种蛋白之间的主要区别在于天然肌凝蛋白中尾巴的存在,我们测试了肌动蛋白和尾巴(LMM)之间未知相互作用减缓天然肌凝蛋白运动的假设。在30℃的体外运动实验中,将Chymotryptic HMM和LMM在一定的摩尔比范围内混合(0-5 LMM/HMM),并与天然大鼠骨骼肌球蛋白进行比较。LMM与HMM比例的增加减慢了肌动蛋白丝的速度,与天然肌球蛋白在3 LMM/HMM的比例下相当。NH4+ -ATPase实验表明,HMM在表面的浓度是恒定的,并且与LMM浓度无关,这证明了一种简单的位移机制。速度与可用头像数之间的关系表明,HMM的占空比不会因LMM的存在而改变。用较低的凝乳胰蛋白酶浓度制备的HMM在很短的消化时间内以同样高的速度移动肌动蛋白。HMM和HMM/LMM推动肌动蛋白丝的速度差随着离子强度的增加而减小,表明肌球蛋白尾与肌动蛋白丝之间的离子键可能起到减缓丝速度的作用。这些数据表明,肌动蛋白丝在HMM上的高速运动是由于肌凝蛋白尾部没有产生阻力,而不是由于运动结构域的蛋白水解缺口。
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The tail of myosin reduces actin filament velocity in the in vitro motility assay.

It has been observed that heavy meromyosin (HMM) propels actin filaments to higher velocities than native myosin in the in vitro motility assay, yet the reason for this difference has remained unexplained. Since the major difference between these two proteins is the presence of the tail in native myosin, we tested the hypothesis that unknown interactions between actin and the tail (LMM) slow motility in native myosin. Chymotryptic HMM and LMM were mixed in a range of molar ratios (0-5 LMM/HMM) and compared to native rat skeletal myosin in the in vitro motility assay at 30 degrees C. Increasing proportions of LMM to HMM slowed actin filament velocities, becoming equivalent to native myosin at a ratio of 3 LMM/HMM. NH4+ -ATPase assays demonstrated that HMM concentrations on the surface were constant and independent of LMM concentration, arguing against a simple displacement mechanism. Relationships between velocity and the number of available heads suggested that the duty cycle of HMM was not altered by the presence of LMM. HMM prepared with a lower chymotrypsin concentration and with very short digestion times moved actin at the same high velocity. The difference between velocities of actin filament propelled by HMM and HMM/LMM decreased with increasing ionic strength, suggesting that ionic bonds between myosin tail and actin filaments may play a role in slowing filament velocity. These data suggest the high velocities of actin filaments over HMM result from the absence of drag generated by the myosin tail, and not from proteolytic nicking of the motor domain.

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