[Thermodynamic and kinetic analysis of unfolding of P23k protein isolated from spinach photosystem II].

Cui-Yan Tan, Chun-He Xu, Jun-Ren Shen, Shinsuke Sakuma, Yasushi Yamamoto, Claude Balny, Kang-Cheng Ruan
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Abstract

The unfolding of 23kD (P23k) protein isolated from spinach photosystem II particle was studied by high pressure and fluorescence spectroscopy. The thermal equilibrium study indicated that the protein could be totally unfolded by 180 or 160 MPa at 20 degrees C and 3 degrees C, respectively. The standard free energy and standard volume change of the protein for unfolding at 20 degrees C is 23.45 kJ/mol and -150.3 ml/mol, respectively. Kinetics study indicated that at 20 degrees C the activation volume for unfolding, delta V(u)(++), was negative (-66.2 ml/mol), meanwhile the activation volume for folding, deltaV(f)(++), was positive (84.1 ml/mol). The rate constants for folding and unfolding (K(0f), K(0u)) were 1.87 s(-1) and 1.3x10(-4) s(-1), respectively, these results provide some clues to explain why the protein is so sensitive to pressure.

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[菠菜光系统ⅱ分离P23k蛋白展开的热力学和动力学分析]。
利用高压和荧光光谱技术研究了菠菜光系统II颗粒中23kD (P23k)蛋白的展开。热平衡研究表明,在20℃和3℃条件下,180 MPa和160 MPa可使蛋白完全展开。蛋白质在20℃展开时的标准自由能和标准体积变化分别为23.45 kJ/mol和-150.3 ml/mol。动力学研究表明,在20℃时展开激活体积δ V(u)(++)为负(-66.2 ml/mol),折叠激活体积δ V(f)(++)为正(84.1 ml/mol)。折叠和展开的速率常数(K(0f), K(0u))分别为1.87 s(-1)和1.3x10(-4) s(-1),这些结果为解释蛋白质对压力如此敏感的原因提供了一些线索。
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