Effect of temperature on kinesin‐driven microtubule gliding and kinesin ATPase activity

Bouml; hm Konrad J.; Baum Marina; Stracke Roland; Unger Eberhard; Zieren Martin

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Effect of temperature on kinesin‐driven microtubule gliding and kinesin ATPase activity

机译：温度对驱动蛋白驱动的微管滑动和驱动蛋白ATPase活性的影响

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>DeCuevas et al. [J. Cell Biol. 116 (1992) 957–965] demonstrated by circular dichroism spectroscopy for the kinesin stalk fragment that shifting temperature from 25 to 30°C caused a conformational transition. To gain insight into functional consequences of such a transition, we studied the temperature dependence of a full-length kinesin by measuring both the velocity of microtubule gliding across kinesin-coated surfaces and microtubule-promoted kinesin ATPase activity in solution. The corresponding Arrhenius plots revealed distinct breaks at 27°C, corroborating the temperature-dependent conformational transition for a motility-competent full-length kinesin. Microtubules were found to glide up to 45°C; at higher temperatures, kinesin was irreversibly damaged.

机译：> DeCuevas等。 [J.细胞生物学。 116（1992）957–965]通过圆二色光谱法对驱动蛋白茎片段进行了分析，结果表明温度从25°C转变为30°C会导致构象转变。为了深入了解这种转变的功能后果，我们通过测量微管在驱动蛋白包被表面上滑动的速度和溶液中微管促进的驱动蛋白ATPase的活性，研究了全长驱动蛋白的温度依赖性。相应的Arrhenius图显示了在27°C时的明显断裂，从而证实了具有运动能力的全长驱动蛋白的温度依赖性构象转变。发现微管可滑至最高45°C;在更高的温度下，驱动蛋白不可逆转地受到破坏。

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《FEBS Letters》 |2000年第1期|共页
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Bouml; hm Konrad J.; Baum Marina; Stracke Roland; Unger Eberhard; Zieren Martin;
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机译：Tau亚型特异性驱动蛋白驱动的微管滑动速率和轨迹的调节，用tau稳定的微管来确定。
2. An isoform of microtubule-associated protein 4 inhibits kinesin-driven microtubule gliding. [J] . Tokuraku K, Noguchi TQ, Nishie M, The Journal of Biochemistry . 2007,第4期

机译：微管相关蛋白4的同工型抑制驱动蛋白驱动的微管滑动。
3. An Isoform of Microtubule-associated Protein 4 Inhibits Kinesin-driven Microtubule Gliding [J] . Kiyotaka Tokuraku, Taro Q.P. Noguchi, Makiko Nishie, Journal of Biochemistry . 2007,第4期

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5. Analysis of mutations in the kinesin motor that decouple ATPase activity and microtubule interaction. [D] . Auerbach, Scott David. 2004

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6. Delayed start-up of kinesin-driven microtubule gliding following inhibition by adenosine 5-betagamma-imidotriphosphate. [O] . B J Schnapp, B Crise, M P Sheetz, 1990

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7. Effect of temperature on kinesin-driven microtubule gliding and kinesin ATPase activity [O] . Böhm Konrad J., Stracke Roland, Baum Marina, 2000

机译：温度对驱动蛋白驱动的微管滑动和驱动蛋白ATPase活性的影响

Effect of temperature on kinesin‐driven microtubule gliding and kinesin ATPase activity

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