Institute for Plant Sciences and Cluster of Excellence on Plant Sciences (CEPLAS), Biocenter, University of Cologne, Cologne, Germany.
Curr Protoc. 2022 May;2(5):e421. doi: 10.1002/cpz1.421.
Yeast-based interaction assays to determine protein-protein and protein-nucleic acid interactions commonly rely on the reconstitution of chimeric transcription factors that activate the expression of target reporter genes. The enzyme β-galactosidase (β-gal), coded by the LacZ gene of Escherichia coli, is a widely used reporter in yeast systems, and its expression is commonly assessed by evaluating its activity. X-gal (5-bromo-4-chloro-3-indolyl-β-d-galactopyranoside) is an inexpensive and sensitive substrate of β-gal, whose hydrolysis results in an intensely blue colored and easily detectable end product, 5,5'-dibromo-4,4'-dichloro-indigo. The insoluble nature of this end product, however, makes X-gal-based assays unsuitable for direct spectrophotometric absorbance quantification. As such, the use of X-gal is mostly restricted to solid-support approaches, such as colony lift or agar plate assays, which often only provide a qualitative readout. In this article, we describe a quantitative solid-phase X-gal assay to measure protein-protein interaction strength in yeast cells using a simple and low-cost experimental setup. We have optimized multiple aspects of the assay, namely sample preparation, reaction time, and quantification method, for speed and consistency. By integrating the use of a freely available ImageJ-based plugin, we have further standardized the assay for reliability and reproducibility. This improved quantitative X-gal assay can be performed in a standard molecular biology lab without the need for any specialized equipment other than an inexpensive and widely accessible smartphone camera. To exemplify the protocol, we provide detailed step-by-step instructions to perform a quantitative X-gal assay to assess the interaction between two Arabidopsis thaliana proteins, SUPPRESSOR OF PHYA-105 1 (SPA1) and PRODUCTION OF ANTHOCYANIN PIGMENT 2 (PAP2). To demonstrate the sensitivity of our assay in detecting weaker interactions, we also compare the results with a liquid-phase assay that uses ONPG (ortho-nitrophenyl-β-galactopyranoside) as a substrate for β-gal. The quantitative X-gal assay described here can easily be adapted for high-throughout interaction studies and protein domain mapping, even in yeast strains with low levels of LacZ expression. © 2022 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Preparation of competent yeast cells and transformation Alternate Protocol 1: In-house preparation of yeast competent cells for use in lithium acetate (LiAc)-mediated yeast transformation Support Protocol: Long-term storage and revival of frozen yeast strain stocks Basic Protocol 2: Measuring β-galactosidase activity via the quantitative X-gal assay Alternate Protocol 2: Quantification of interaction strength using liquid ONPG assay.
酵母相互作用分析实验常用来确定蛋白-蛋白和蛋白-核酸的相互作用,通常依赖于嵌合转录因子的重建,这些转录因子激活目标报告基因的表达。β-半乳糖苷酶(β-gal)是大肠杆菌 LacZ 基因编码的一种广泛使用的报告基因,其表达通常通过评估其活性来检测。X-gal(5-溴-4-氯-3-吲哚基-β-D-半乳糖苷)是β-gal 的廉价且敏感的底物,其水解会产生深蓝色且易于检测的终产物 5,5'-二溴-4,4'-二氯靛蓝。然而,这种终产物不溶,使得基于 X-gal 的测定不适用于直接分光光度法吸光度定量。因此,X-gal 的使用大多限于固体载体方法,例如菌落提起或琼脂平板测定,这些方法通常只能提供定性读数。在本文中,我们描述了一种使用简单且低成本实验设置在酵母细胞中测量蛋白-蛋白相互作用强度的定量固相 X-gal 测定法。我们优化了测定法的多个方面,例如样品制备、反应时间和定量方法,以提高速度和一致性。通过整合使用免费提供的基于 ImageJ 的插件,我们进一步为可靠性和可重复性标准化了测定法。这种改进的定量 X-gal 测定法可以在标准分子生物学实验室中进行,而无需任何特殊设备,只需一台价格低廉且广泛使用的智能手机摄像头即可。为了举例说明该方案,我们提供了详细的分步说明,以执行定量 X-gal 测定法来评估两种拟南芥蛋白 SUPPRESSOR OF PHYA-105 1 (SPA1) 和 PRODUCTION OF ANTHOCYANIN PIGMENT 2 (PAP2) 之间的相互作用。为了证明我们的测定法在检测较弱相互作用方面的灵敏度,我们还将结果与使用 ONPG(邻硝基苯-β-D-半乳糖苷)作为 β-gal 底物的液相测定法进行了比较。本文描述的定量 X-gal 测定法可以轻松适应高通量相互作用研究和蛋白结构域作图,即使在 LacZ 表达水平较低的酵母菌株中也是如此。 © 2022 作者。Wiley Periodicals LLC 出版的《当代方案》。 基本方案 1:制备感受态酵母细胞和转化 可选方案 1:使用 LiAc 介导的酵母转化的酵母感受态细胞的内部制备 支持方案:冷冻酵母菌株库存的长期储存和复苏 基本方案 2:通过定量 X-gal 测定法测量β-半乳糖苷酶活性 可选方案 2:使用液体 ONPG 测定法定量相互作用强度。
