本章对色谱中的保留机理及理论、蛋白质液相色谱复性机理及蛋白折叠动力学理论模型研究进展进行了综述,共包括文献61篇。
In this chapter solute retention mechanism in LC, protein refolding mechanism and new developments in protein refolding kinetics were reviewed. It contains 61 references.
其中用肌酐动力学公式计算瘦体重是反映肌肉蛋白质贮存的有效方法。
LBM calculated from creatinine kinetics is a valid measure reflecting muscle protein status.
最近进展测量和分析蛋白质核磁共振弛豫数据有可能的特点动力学性质的许多骨干和侧链群体。
Recent advances in the measurement and analysis of protein NMR relaxation data have made it possible to characterize the dynamical properties of many backbone and side chain groups.
蛋白质在溶液中的三维空间结构、动力学与蛋白质生物功能的关系是在分子水平上理解生命现象的重要基础。
One of the fundamental problems in understanding life science at the molecular level is the relationship among structure, dynamics, and function of proteins.
摘 要目的 :研究市售的软镜多功能护理系统对镜片上蛋白质沉淀的清洗效果与动力学。
Objective :To investigate the cleaning efficacy and dynamics of multi-solution on proteins deposited on hydrophilic contact lenses.
介绍了用分子动力学模拟与热力学积分法相结合 ,模拟蛋白质与配体的绝对结合自由能的方法 。
Molecular dynamics simulation and thermodynamic integration method were used to calculate the absolute binding free energy of the protein- ligand complex.
从分子机制上阐明蛋白质-蛋白质相互作用是了解细胞动力学和可塑性的基础。
Molecular elucidation of protein-protein interaction is essential for understanding the cellular dynamics and plasticity.
而蛋白质气泡在流体中的动力学特性又会直接影响气泡在流体中的存活时间、分布均匀性以及整个流体的稳定性。
Further, the dynamic performance of bubble will affect the survival time and the uniformity of bubble in fluid, and also affect the stability of system composed of fluid and protein bubbles.
研究人员相信,他们的新的光遗传学工具还可以用于蛋白质转运动力学及其对细胞行为的影响方面,并作出重要的发现。
The researchers are convinced that their newoptogenetic tool can also be used to make important discoveries on the dynamicsof protein transport and its influence on cell behaviour.
它主要综述了三个特定的主题:丝蛋白纤维动力学模拟、血管中蛋白质的剪切诱导过程以及在力的作用下酶的反应。
The review focuses on three specific topics, silk fiber mechanics, proteins in shear-induced processes in blood and enzymatic reactions under force.
因此,全面、深入研究蛋白质气泡在非牛顿流体中的动力学特性,对于更好地拓宽蛋白质气泡的应用领域具有十分重要的意义。
So the comprehensive and in-depth study on the dynamic performance of protein bubble in non-Newtonian fluid would be most meaningful for maximizing its efficiencies.
分子动力学模拟:模拟蛋白质在折叠时的旋转一直是一种组合上的噩梦。
Molecular Dynamics Simulations : Simulating the gyrations that proteins make as they fold has been a combinatorial nightmare.
分子动力学模拟:模拟蛋白质在折叠时的旋转一直是一种组合上的噩梦。
Molecular Dynamics Simulations : Simulating the gyrations that proteins make as they fold has been a combinatorial nightmare.
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