Brian B. Haab, Katie Partyka, Zheng Cao
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Abstract
Antibody arrays provide a valuable method for obtaining multiple protein measurements from small volumes of biological samples. Antibody arrays can be designed to target not only core protein abundances (relative or absolute abundances, depending on the availability of standards for calibration), but also posttranslational modifications, provided antibodies or other affinity reagents are available to detect them. Glycosylation is a common modification that has important and diverse functions in both normal and disease biology. Significant progress has been made in developing methods for measuring glycan levels on multiple specific proteins using antibody arrays and glycan-binding reagents. This unit describes practical approaches for developing, optimizing, and using antibody array assays to determine both protein abundance and glycosylation state. Low-volume arrays can be used to reduce sample consumption, and a new way to improve the binding strength of particular glycan-binding reagents through multimerization is discussed. These methods can be useful for a wide range of biological studies in which glycosylation may change and/or affect protein function. Curr. Protoc. Protein Sci . 73:27.6.1-27.6.16. © 2013 by John Wiley & Sons, Inc.
使用抗体阵列测量蛋白质丰度和糖基化:考虑最佳性能
抗体阵列为从小体积生物样品中获得多种蛋白质测量提供了一种有价值的方法。抗体阵列不仅可以设计为核心蛋白丰度(相对或绝对丰度,取决于校准标准的可用性),还可以设计为翻译后修饰,前提是提供抗体或其他亲和试剂来检测它们。糖基化是一种常见的修饰,在正常和疾病生物学中都具有重要而多样的功能。利用抗体阵列和聚糖结合试剂来测量多种特定蛋白质上的聚糖水平的方法已经取得了重大进展。本单元描述了开发、优化和使用抗体阵列检测来确定蛋白质丰度和糖基化状态的实用方法。小体积阵列可以减少样品消耗,并讨论了通过多聚来提高特定聚糖结合试剂结合强度的新方法。这些方法可用于广泛的生物学研究,其中糖基化可能改变和/或影响蛋白质功能。咕咕叫。Protoc。蛋白质科学,73:27.6.1-27.6.16。©2013 by John Wiley &儿子,Inc。
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