单细胞eQTL分析确定了成纤维细胞和重编程诱导多能干细胞中基因表达的细胞类型特异性遗传控制。

IF 12.3 1区 生物学 Q1 Agricultural and Biological Sciences
Drew Neavin, Quan Nguyen, Maciej S Daniszewski, Helena H Liang, Han Sheng Chiu, Yong Kiat Wee, Anne Senabouth, Samuel W Lukowski, Duncan E Crombie, Grace E Lidgerwood, Damián Hernández, James C Vickers, Anthony L Cook, Nathan J Palpant, Alice Pébay, Alex W Hewitt, Joseph E Powell
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引用次数: 48

摘要

背景:体细胞可重编程为诱导多能干细胞(iPSCs)的发现为体外人类疾病建模、药物开发和群体遗传学研究提供了基础。基因表达在复杂疾病的风险和治疗反应中起着关键作用。然而,虽然重编程细胞系的遗传背景已被证明强烈影响基因表达,但这种影响尚未在单个细胞水平上进行评估,这将提供重要的解决方案。通过整合单细胞rna测序(scRNA-seq)和群体遗传学,我们应用了一个框架来评估遗传变异对基因表达的细胞类型特异性影响。结果:在这里,我们对来自79个供体的64,018个成纤维细胞进行了scrna测序,并在单个细胞类型水平上绘制了表达数量性状位点(eQTLs)。我们证明,在成纤维细胞中检测到的大多数eqtl是特定于单个细胞亚型的。为了解决在细胞重编程后是否能维持等位基因对基因表达的影响,我们对来自31个重编程供体系的19,967个iPSCs进行了scRNA-seq数据分析。我们再次在iPSCs中发现了高度细胞类型特异性的eqtl,并表明成纤维细胞中的eqtl在重编程过程中几乎完全消失。结论:这项工作提供了遗传变异如何影响细胞亚型基因表达的图谱,并为导致细胞类型特异性eQTL效应的遗传结构模式提供了证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Single cell eQTL analysis identifies cell type-specific genetic control of gene expression in fibroblasts and reprogrammed induced pluripotent stem cells.

Single cell eQTL analysis identifies cell type-specific genetic control of gene expression in fibroblasts and reprogrammed induced pluripotent stem cells.

Single cell eQTL analysis identifies cell type-specific genetic control of gene expression in fibroblasts and reprogrammed induced pluripotent stem cells.

Single cell eQTL analysis identifies cell type-specific genetic control of gene expression in fibroblasts and reprogrammed induced pluripotent stem cells.

Background: The discovery that somatic cells can be reprogrammed to induced pluripotent stem cells (iPSCs) has provided a foundation for in vitro human disease modelling, drug development and population genetics studies. Gene expression plays a critical role in complex disease risk and therapeutic response. However, while the genetic background of reprogrammed cell lines has been shown to strongly influence gene expression, the effect has not been evaluated at the level of individual cells which would provide significant resolution. By integrating single cell RNA-sequencing (scRNA-seq) and population genetics, we apply a framework in which to evaluate cell type-specific effects of genetic variation on gene expression.

Results: Here, we perform scRNA-seq on 64,018 fibroblasts from 79 donors and map expression quantitative trait loci (eQTLs) at the level of individual cell types. We demonstrate that the majority of eQTLs detected in fibroblasts are specific to an individual cell subtype. To address if the allelic effects on gene expression are maintained following cell reprogramming, we generate scRNA-seq data in 19,967 iPSCs from 31 reprogramed donor lines. We again identify highly cell type-specific eQTLs in iPSCs and show that the eQTLs in fibroblasts almost entirely disappear during reprogramming.

Conclusions: This work provides an atlas of how genetic variation influences gene expression across cell subtypes and provides evidence for patterns of genetic architecture that lead to cell type-specific eQTL effects.

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来源期刊
Genome Biology
Genome Biology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-GENETICS & HEREDITY
CiteScore
25.50
自引率
3.30%
发文量
0
审稿时长
14 weeks
期刊介绍: Genome Biology is a leading research journal that focuses on the study of biology and biomedicine from a genomic and post-genomic standpoint. The journal consistently publishes outstanding research across various areas within these fields. With an impressive impact factor of 12.3 (2022), Genome Biology has earned its place as the 3rd highest-ranked research journal in the Genetics and Heredity category, according to Thomson Reuters. Additionally, it is ranked 2nd among research journals in the Biotechnology and Applied Microbiology category. It is important to note that Genome Biology is the top-ranking open access journal in this category. In summary, Genome Biology sets a high standard for scientific publications in the field, showcasing cutting-edge research and earning recognition among its peers.
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