Benhalevy Daniel, McFarland Hannah L, Sarshad Aishe A, Hafner Markus
Laboratory of Muscle Stem Cells and Gene Regulation, NIAMS, 50 South Drive, Bethesda, MD 20892, USA.
Laboratory of Muscle Stem Cells and Gene Regulation, NIAMS, 50 South Drive, Bethesda, MD 20892, USA.
Methods. 2017 Apr 15;118-119:41-49. doi: 10.1016/j.ymeth.2016.11.009. Epub 2016 Nov 18.
The study of protein-RNA interactions is critical for our understanding of cellular processes and regulatory circuits controlled by RNA binding proteins (RBPs). Recent next generation sequencing-based approaches significantly promoted our understanding of RNA biology and its importance for cell function. We present a streamlined protocol for Photoactivatable-Ribonucleoside-Enhanced Crosslinking and Immunoprecipitation (PAR-CLIP), a technique that allows for the characterization of RBP binding sites on target RNAs at nucleotide resolution and transcriptome-wide scale. PAR-CLIP involves irreversible UV-mediated crosslinking of RNAs labeled with photoreactive nucleosides to interacting proteins, followed by stringent purification steps and the conversion of crosslinked RNA into small RNA cDNA libraries compatible with next-generation sequencing. The defining hallmark of PAR-CLIP is a diagnostic mutation at the crosslinking site that is introduced into cDNA during the library preparation process. This feature allows for efficient computational removal of contaminating sequences derived from non-crosslinked fragments of abundant cellular RNAs. In the following, we present two different step-by-step procedures for PAR-CLIP, which differ in the small RNA cDNA library preparation procedure: (1) Standard library preparation involving gel size selections after each enzymatic manipulation, and (2) A modified PAR-CLIP procedure ("on-beads" PAR-CLIP), where most RNA manipulations including the necessary adapter ligation steps are performed on the immobilized RNP. This streamlined procedure reduces the protocol preparation time by three days compared to the standard workflow.
蛋白质-RNA相互作用的研究对于我们理解由RNA结合蛋白(RBP)控制的细胞过程和调控回路至关重要。最近基于新一代测序的方法显著促进了我们对RNA生物学及其对细胞功能重要性的理解。我们提出了一种简化的光活化核糖核苷增强交联和免疫沉淀(PAR-CLIP)方案,该技术能够在核苷酸分辨率和全转录组范围内表征RBP在靶RNA上的结合位点。PAR-CLIP包括用光反应性核苷标记的RNA与相互作用蛋白进行不可逆的紫外线介导交联,随后进行严格的纯化步骤,并将交联的RNA转化为与新一代测序兼容的小RNA cDNA文库。PAR-CLIP的标志性特征是在文库制备过程中引入到cDNA中的交联位点的诊断性突变。这一特性允许通过计算有效地去除源自丰富细胞RNA非交联片段的污染序列。在下面的内容中,我们介绍两种不同的PAR-CLIP分步操作程序,它们在小RNA cDNA文库制备程序上有所不同:(1)标准文库制备,在每次酶促操作后进行凝胶大小选择;(2)一种改良的PAR-CLIP程序(“磁珠上”PAR-CLIP),其中包括必要的接头连接步骤在内的大多数RNA操作在固定化的RNP上进行。与标准工作流程相比,这种简化程序将方案制备时间缩短了三天。
