只差一个 SNP体内大规模并行报告分析的未来

Katherine N. Degner , Jessica L. Bell , Sean D. Jones , Hyejung Won
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引用次数: 0

摘要

人类基因组在很大程度上是非编码的,但该领域仍在努力了解非编码变异如何影响转录并导致疾病的发生。大规模并行报告测定(MPRA)已被用于以前所未有的规模描述非编码变异体的功能,但其应用在很大程度上受到体外环境的限制。建立一个系统平台,在生理相关条件下研究多种组织类型的非编码变体功能,将使该领域受益匪浅。然而,迄今为止,MPRA 仅应用于少数体内条件。鉴于中枢神经系统的复杂性及其与所有其他器官系统的广泛相互作用,通过研究神经精神障碍相关非编码变异体在完整大脑中的功能影响,将极大地促进我们对这些变异体的理解。在这篇综述中,我们将以神经精神疾病为重点,讨论在体内空间实施 MPRA 的重要性、技术考虑因素和未来应用。
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Just a SNP away: The future of in vivo massively parallel reporter assay
The human genome is largely noncoding, yet the field is still grasping to understand how noncoding variants impact transcription and contribute to disease etiology. The massively parallel reporter assay (MPRA) has been employed to characterize the function of noncoding variants at unprecedented scales, but its application has been largely limited by the in vitro context. The field will benefit from establishing a systemic platform to study noncoding variant function across multiple tissue types under physiologically relevant conditions. However, to date, MPRA has been applied to only a handful of in vivo conditions. Given the complexity of the central nervous system and its widespread interactions with all other organ systems, our understanding of neuropsychiatric disorder-associated noncoding variants would be greatly advanced by studying their functional impact in the intact brain. In this review, we discuss the importance, technical considerations, and future applications of implementing MPRA in the in vivo space with the focus on neuropsychiatric disorders.
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来源期刊
Cell insight
Cell insight Neuroscience (General), Biochemistry, Genetics and Molecular Biology (General), Cancer Research, Cell Biology
CiteScore
2.70
自引率
0.00%
发文量
0
审稿时长
35 days
期刊最新文献
Cover Phase-separated chromatin compartments: Orchestrating gene expression through condensation Transcripts derived from the neocortical enhancer of Ctnnb1 promote the enhancer-promoter interaction and maintain Ctnnb1 transcription APC orchestrates microtubule dynamics by acting as a positive regulator of KIF2A and a negative regulator of CLASPs Just a SNP away: The future of in vivo massively parallel reporter assay
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