Tan Ke-En, Ng Wei Lun, Ea Chee-Kwee, Lim Yat-Yuen
Institute of Biological Sciences, Faculty of Science, Universiti Malaya, Kuala Lumpur, Malaysia.
Bio Protoc. 2023 Sep 5;13(17):e4798. doi: 10.21769/BioProtoc.4798.
Circular RNA (circRNA) is an intriguing class of non-coding RNA that exists as a continuous closed loop. With the improvements in high throughput sequencing, biochemical analysis, and bioinformatic algorithms, studies on circRNA expression became abundant in recent years. However, functional studies of circRNA are still limited. Subcellular localization of circRNA may provide some clues in elucidating its biological functions by performing subcellular fractionation assay. Notably, circRNAs that are predominantly found in the cytoplasm are more likely to be involved in post-transcriptional gene regulation, e.g., acting as micoRNA sponge, whereas nuclear-retained circRNAs are predicted to play a role in transcriptional regulation. Subcellular fractionation could help researchers to narrow down and prioritize downstream experiments. The majority of the currently available protocols describe the steps for subcellular fractionation followed by western blot analysis for protein molecules. Here, we present a protocol for the subcellular fractionation of cells to detect circRNA via RT-qPCR with divergent primers. Moreover, detailed steps for the generation of specific circRNAs-enriched cDNA included in this protocol will enhance the amplification and detection of low-abundance circRNAs. This will be useful for researchers studying low-abundance circRNAs. Key features This protocol builds upon the method developed by Gagnon et al. (2014) and extends its application to circRNA study. Protocol for amplification of low levels of circRNA expression. Analysis takes into consideration the ratio of cytoplasmic RNA concentration to nuclear RNA concentration.
环状RNA(circRNA)是一类引人关注的非编码RNA,以连续的闭环形式存在。随着高通量测序、生化分析和生物信息学算法的改进,近年来关于circRNA表达的研究大量涌现。然而,circRNA的功能研究仍然有限。通过进行亚细胞分级分离试验,circRNA的亚细胞定位可能为阐明其生物学功能提供一些线索。值得注意的是,主要存在于细胞质中的circRNA更有可能参与转录后基因调控,例如作为微小RNA海绵,而保留在细胞核中的circRNA预计在转录调控中发挥作用。亚细胞分级分离可以帮助研究人员缩小范围并确定下游实验的优先级。目前大多数可用的方案描述了亚细胞分级分离的步骤,随后通过蛋白质印迹分析蛋白质分子。在此,我们提供一种通过使用发散引物的RT-qPCR对细胞进行亚细胞分级分离以检测circRNA的方案。此外,本方案中包含的生成特定circRNA富集cDNA的详细步骤将增强对低丰度circRNA的扩增和检测。这对研究低丰度circRNA的研究人员将是有用的。关键特性本方案基于Gagnon等人(2014年)开发的方法,并将其应用扩展到circRNA研究。低水平circRNA表达扩增方案。分析考虑了细胞质RNA浓度与细胞核RNA浓度的比率。
