在聚合物膜中进行胰蛋白酶的简便固定化,用于快速、高效的蛋白质消化。
Facile trypsin immobilization in polymeric membranes for rapid, efficient protein digestion.
机构信息
Department of Chemistry, Michigan State University, East Lansing, Michigan 48824, United States.
出版信息
Anal Chem. 2010 Dec 15;82(24):10045-51. doi: 10.1021/ac101857j. Epub 2010 Nov 18.
Abstract
Sequential adsorption of poly(styrene sulfonate) and trypsin in nylon membranes provides a simple, inexpensive method to create stable, microporous reactors for fast protein digestion. The high local trypsin concentration and short radial diffusion distances in membrane pores facilitate proteolysis in residence times of a few seconds, and the minimal pressure drop across the thin membranes allows their use in syringe filters. Membrane digestion and subsequent MS analysis of bovine serum albumin provide 84% sequence coverage, which is higher than the 71% coverage obtained with in-solution digestion for 16 h or the <50% sequence coverages of other methods that employ immobilized trypsin. Moreover, trypsin-modified membranes digest protein in the presence of 0.05 wt % sodium dodecyl sulfate (SDS), whereas in-solution digestion under similar conditions yields no peptide signals in mass spectra even after removal of SDS. These membrane reactors, which can be easily prepared in any laboratory, have a shelf life of several months and continuously digest protein for at least 33 h without significant loss of activity.
摘要
在尼龙膜上顺序吸附聚苯乙烯磺酸钠和胰蛋白酶提供了一种简单、廉价的方法,可用于快速蛋白质消化的稳定微孔反应器。在膜孔中,局部胰蛋白酶浓度高,径向扩散距离短,有利于在几秒钟的停留时间内进行蛋白水解,并且薄膜的压降很小,允许它们在注射器过滤器中使用。膜消化和随后的 MS 分析牛血清白蛋白提供了 84%的序列覆盖率,高于在溶液中消化 16 小时获得的 71%覆盖率,也高于其他使用固定化胰蛋白酶的方法的<50%序列覆盖率。此外,在存在 0.05wt%十二烷基硫酸钠(SDS)的情况下,改性的胰蛋白酶膜可以消化蛋白质,而在相似条件下的溶液消化在质谱中甚至在 SDS 去除后也没有肽信号。这些膜反应器可以在任何实验室中轻松制备,保质期长达几个月,并且在至少 33 小时内连续消化蛋白质而不会显著丧失活性。
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