基于 CRISPR 技术的 miRNA 结合位点研究,在使用同源细胞系时受到普遍噪音的影响。

Mahendra K. Prajapat, Joana A Vidigal
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引用次数: 0

摘要

非编码调控序列在根据细胞需要调整基因输出方面发挥着重要作用,因此对动物的发育和健康至关重要。在哺乳动物基因组中已经发现了大量此类序列,从转录因子结合基序到 RNA 结合蛋白和非编码 RNA 的识别位点,不一而足。CRISPR技术的出现为通过一组确定的遗传修饰产生不同的异源细胞系,从而为单个内源调控位点分配功能提供了可能性。在这里,我们研究了这种为单个 miRNA 结合位点分配功能的方法的实用性。我们发现,利用 CRISPR 介导的突变生成成对哺乳动物细胞系的过程会在生物复制之间引入广泛的分子和表型变异,从而使任何赋予结合位点功能的尝试基本上都不可能实现。我们的工作强调了在利用 CRISPR 编辑技术鉴定细胞系中的非编码调控序列时需要考虑的一个重要因素,并呼吁未来开发和采用替代策略来解决这一问题。
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CRISPR-based dissection of miRNA binding sites using isogenic cell lines is hampered by pervasive noise.
Non-coding regulatory sequences play essential roles in adjusting gene output to cellular needs and are thus critical to animal development and health. Numerous such sequences have been identified in mammalian genomes ranging from transcription factors binding motifs to recognition sites for RNA-binding proteins and non-coding RNAs. The advent of CRISPR has raised the possibility of assigning functionality to individual endogenous regulatory sites by facilitating the generation of isogenic cell lines that differ by a defined set of genetic modifications. Here we investigate the usefulness of this approach to assign function to individual miRNA binding sites. We find that the process of generating isogenic pairs of mammalian cell lines with CRISPR-mediated mutations introduces extensive molecular and phenotypic variability between biological replicates making any attempt of assigning function to the binding site essentially impossible. Our work highlights an important consideration when employing CRISPR editing to characterize non-coding regulatory sequences in cell lines and calls for the development and adoption of alternative strategies to address this question in the future.
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