A Fast and Accurate Method to Identify and Quantify Enzymes in Brush-Border Membranes: In Situ Hydrolysis Followed by Nano LC-MS/MS

Antonio Brun; Melisa E. Magallanes; Carlos Martínez del Rio; Gregory A. Barrett-Wilt; William H. Karasov; Enrique Caviedes-Vidal

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A Fast and Accurate Method to Identify and Quantify Enzymes in Brush-Border Membranes: In Situ Hydrolysis Followed by Nano LC-MS/MS

机译：一种快速准确的方法来识别和量化刷桥膜中的酶：原位水解，然后是纳米LC-MS / MS

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A simple method for the identification of brush-border membrane α-glucosidases is described. The proteins were first solubilized and separated in a gel under native, non-denaturing, conditions. The gel was then incubated in substrate solutions (maltose or sucrose), and the product (glucose) exposed in situ by the oxidation of o-dianisidine, which yields a brown-orange color. Nano-liquid chromatography coupled to mass spectrometry analyses of proteins (nano LC-MS/MS) present in the colored bands excised from the gels, was used to confirm the presence of the enzymes. The stain is inexpensive and the procedure permits testing several substrates in the same gel. Once enzymes are identified, their abundance, relative to that of other proteins in the brush border, can be semi-quantified using nano LC-MS/MS.

机译：描述了一种简单的用于识别刷边膜α-葡糖苷酶的方法。首先将蛋白质溶解并在天然，非变性，条件下在凝胶中分离。然后将凝胶孵育在底物溶液（麦芽糖或蔗糖）中，并通过O-Dianisidine的氧化原位地暴露的产物（葡萄糖），从而产生棕色橙色。纳米液相色谱偶联至来自凝胶中的彩带中存在的蛋白质（纳米LC-MS / MS）的质谱分析，用于确认酶的存在。污渍便宜，并且程序允许在同一凝胶中测试多个基板。一旦鉴定酶，相对于刷边界中的其他蛋白质的丰度，可以使用纳米LC-MS / MS进行半定量。

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《Methods and Protocols》 |2020年第1期|共8页
作者
Antonio Brun; Melisa E. Magallanes; Carlos Martínez del Rio; Gregory A. Barrett-Wilt; William H. Karasov; Enrique Caviedes-Vidal;
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中图分类生物科学;
关键词
α-glucosidasepolyacrylamide gelsdetectionproteomicsactivity;

机译：A-葡糖苷烷基聚酰胺酰胺胶质化术;

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A Fast and Accurate Method to Identify and Quantify Enzymes in Brush-Border Membranes: In Situ Hydrolysis Followed by Nano LC-MS/MS

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