核酸可编程蛋白阵列(NAPPA)的构建5:在NAPPA载玻片上表达蛋白。

CSH protocols Pub Date : 2008-11-01 DOI:10.1101/pdb.prot5060
Andrew J Link, Joshua Labaer
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引用次数: 2

摘要

功能蛋白质组学可以使用高通量(HT)方法在体外研究蛋白质活性。蛋白质微阵列是首选的方法,因为它们同时显示许多蛋白质,并且只需要很小的反应体积来评估功能。蛋白质微阵列通常用于(1)测量样品中许多不同分析物的丰度或(2)研究阵列上发现的许多蛋白质的功能或特性。靶蛋白微阵列通常是通过表达、纯化和将蛋白质以非常接近的空间密度定位到固体表面来产生的。另一种方法是在阵列表面原位翻译蛋白质。这种方法使用无细胞提取物,将DNA转录并翻译成蛋白质,然后原位捕获,从而将基因的cDNA拷贝转化为所需的目标蛋白质。不是在阵列的每个特征上打印蛋白质,而是将产生所需蛋白质的相应基因的cDNA分子附着在阵列上。化学处理的玻片和DNA分离可以进行提前和储存。质粒DNA可以被打印出来制成NAPPA载玻片,这种载玻片可以干燥储存以备使用。在实验中,表达NAPPA载玻片,然后使用抗体和染色剂检测蛋白质和DNA。本方案描述了在打印的载玻片上原位表达所需蛋白质的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Construction of Nucleic Acid Programmable Protein Arrays (NAPPA) 5: Expressing Proteins on NAPPA Slides.

INTRODUCTIONFunctional proteomics enables protein activities to be studied in vitro using high-throughput (HT) methods. Protein microarrays are the method of choice because they display many proteins simultaneously and require only small reaction volumes to assess function. Protein microarrays are typically used to (1) measure the abundance of many different analytes in a sample or (2) study the functions or properties of many proteins spotted on the array. Target protein microarrays are usually generated by expressing, purifying, and spotting the proteins onto a solid surface at very close spatial density. An alternative approach is to translate the proteins in situ on the array surface. This method uses cell-free extracts that transcribe and translate DNA into proteins which are then captured in situ, thus converting cDNA copies of genes into the desired target proteins. Instead of printing proteins at each feature of the array, the cDNA molecules for the corresponding genes that produce desired proteins are affixed to the array. Chemical treatment of glass slides and DNA isolation can be performed in advance and stored. The plasmid DNA can then be printed to make NAPPA slides, which can be stored dry for use. For experiments, NAPPA slides are expressed followed by detection of proteins and DNA using antibodies and stains. This protocol describes a method for expression of the desired proteins in situ on the printed slides.

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