常见沉淀剂浓度下平衡相对湿度的测量:助力可控脱水实验
Measurement of the equilibrium relative humidity for common precipitant concentrations: facilitating controlled dehydration experiments.
作者信息
Wheeler Matthew J, Russi Silvia, Bowler Michael G, Bowler Matthew W
机构信息
Structural Biology Group, European Synchrotron Radiation Facility, 6 Rue Jules Horowitz, 38043 Grenoble, France.
出版信息
Acta Crystallogr Sect F Struct Biol Cryst Commun. 2012 Jan 1;68(Pt 1):111-4. doi: 10.1107/S1744309111054029. Epub 2011 Dec 24.
Abstract
The dehydration of crystals of macromolecules has long been known to have the potential to increase their diffraction quality. A number of methods exist to change the relative humidity that surrounds crystals, but for reproducible results, with complete characterization of the changes induced, a precise humidity-control device coupled with an X-ray source is required. The first step in these experiments is to define the relative humidity in equilibrium with the mother liquor of the system under study; this can often be quite time-consuming. In order to reduce the time spent on this stage of the experiment, the equilibrium relative humidity for a range of concentrations of the most commonly used precipitants has been measured. The relationship between the precipitant solution and equilibrium relative humidity is explained by Raoult's law for the equilibrium vapour pressure of water above a solution. The results also have implications for the choice of cryoprotectant and solutions used to dehydrate crystals. For the most commonly used precipitants (10-30% PEG 2000-8000), the starting point will be a relative humidity of 99.5%.
摘要
长期以来,人们一直知道大分子晶体的脱水有可能提高其衍射质量。存在多种改变晶体周围相对湿度的方法,但为了获得可重复的结果,并对所诱导的变化进行全面表征,需要一个精确的湿度控制装置与X射线源相结合。这些实验的第一步是确定与所研究系统的母液处于平衡状态的相对湿度;这通常可能相当耗时。为了减少在实验这一阶段所花费的时间,已测量了一系列最常用沉淀剂浓度下的平衡相对湿度。沉淀剂溶液与平衡相对湿度之间的关系由拉乌尔定律解释,该定律适用于溶液上方水的平衡蒸气压。这些结果对于冷冻保护剂和用于使晶体脱水的溶液的选择也具有启示意义。对于最常用的沉淀剂(10 - 30% PEG 2000 - 8000),起始点将是99.5%的相对湿度。
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