同时DNA发生构象变化、螺旋扭结。
Moreover, the conformation of DNA changes and the helices are kinked.
并研究了振动激发导致构象变化的机制。
The mechanism of vibration excitation causing the conformation transitions is studied too.
这种构象变化是一动态过程,且具有一定的可逆性。
The conformational change of the enzyme induced by organic solvents was a dynamic process and was reversible to some extent.
荧光光谱分析表明,酶活性的表现与酶分子的构象变化有一定的相关性。
The fluorescence spectra analysis indicates that the conformation change coordinates to the enzyme activity.
红外、紫外光谱证实了修饰的结果,荧光光谱检测了BS A构象变化。
The ir data and UV absorption were given to confirm the modification. The synchronous fluorescence...
用一个匀速转动的偶极子来描述马达的构象变化,考虑了马达的内部自由度。
We use a uniformly rotating dipole, which represent the inner freedom, to describe conformational changes.
品状体结构蛋白的非酶糖基化引起晶状体构象变化在糖尿病性白内障的发生中起重要作用。
It is vital in the diabetic cataract formation that the non-enzymic glycosylation of the lens structural proteins by glucosamine induces conformational changes in the lens.
结论蛋白质在喷雾干燥过程中的稳定性受载体结晶、表面富集和构象变化等多种机制影响。
CONCLUSION the stability of the protein during spray drying was affected by crystallization, surface adsorption and conformation transformation.
摘要:背景:纳米生物复合材料的性质、形成机制和蛋白质构象变化与其生物学效应密切相关。
BACKGROUND: the properties, integration mechanism and conformation change of protein are closely related with the biological effects of nanocomposites.
目的:观察pH=12.0时,明胶/CdS纳米复合物的光学性质和结合机制及明胶大分子的构象变化。
OBJECTIVE: To study the optical properties and integration mechanism of gelatin/CdS bionanocomposite, and to analyze the conformation change of gelatin macromolecule at pH 12.0.
结果表明,毛细管区带电泳作为监测蛋白质构象变化的一种有效手段,方法简便、快速、灵敏度高、样品消耗量少。
The results indicated that as an effective tool of monitoring the conformational change of protein, the method of CZE was simple, quick, sensitive and lower sample consumption.
在实际运动中,马达不断进行着自身构象变化并催化AT P水解,微管产生的势场也不仅仅是一个简单的周期势函数。
In kinesin's actual movement, it continuously changes its conformation to catalyze ATP's hydrolysis. The role of microtubule is not a simple periodic potential.
在实际运动中,马达不断进行着自身构象变化并催化AT P水解,微管产生的势场也不仅仅是一个简单的周期势函数。
In kinesin's actual movement, it continuously changes its conformation to catalyze ATP's hydrolysis. The role of microtubule is not a simple periodic potential.
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