Pedro Lamosa, David L Turner, Rita Ventura, Christopher Maycock, Helena Santos
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引用次数: 47
摘要
异核磁共振弛豫测量和氢交换数据已被用来表征在存在或不存在稳定溶质的情况下,来自超嗜热微生物的蛋白质动力学。以千个脱硫弧菌中的Rubredoxin为模型蛋白,研究了磷酸二甘油酯对其动力学行为的影响。100mm磷酸二甘油酯的存在使赤霉素热变性的半衰期延长了4倍。对蛋白质骨架松弛参数的无模型分析表明,广义阶参数平均增加0.015,反映了快速运动的整体迁移率的小幅降低。在20摄氏度的温度范围内获得的氢交换数据得到了允许交换的结构打开反应的热力学参数。这表明,在溶质存在的情况下,蛋白质的封闭形式被额外的1.6 kJ x mol(-1)所稳定。结果似乎表明,稳定效应主要是由于蛋白质结构内较慢、较大尺度运动的迁移率降低,同时相互作用的焓增加。
Protein stabilization by compatible solutes. Effect of diglycerol phosphate on the dynamics of Desulfovibrio gigas rubredoxin studied by NMR.
Heteronuclear NMR relaxation measurements and hydrogen exchange data have been used to characterize protein dynamics in the presence or absence of stabilizing solutes from hyperthermophiles. Rubredoxin from Desulfovibrio gigas was selected as a model protein and the effect of diglycerol phosphate on its dynamic behaviour was studied. The presence of 100 mM diglycerol phosphate induces a fourfold increase in the half-life for thermal denaturation of D. gigas rubredoxin. A model-free analysis of the protein backbone relaxation parameters shows an average increase of generalized order parameters of 0.015 reflecting a small overall reduction in mobility of fast-scale motions. Hydrogen exchange data acquired over a temperature span of 20 degrees C yielded thermodynamic parameters for the structural opening reactions that allow for the exchange. This shows that the closed form of the protein is stabilized by an additional 1.6 kJ x mol(-1) in the presence of the solute. The results seem to indicate that the stabilizing effect is due mainly to a reduction in mobility of the slower, larger-scale motions within the protein structure with an associated increase in the enthalpy of interactions.