高通量发现人类 RNA 结合蛋白的调控效应结构域

Abby R. Thurm, Yaara Finkel, Cecelia Andrews, Xiangmeng S. Cai, Colette Benko, Lacramioara Bintu
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引用次数: 0

摘要

RNA 调控在调整基因表达方面发挥着不可或缺的作用,它由数千种 RNA 结合蛋白 (RBPs) 控制。我们开发并使用了一种高通量招募试验(HT-RNA-Recruit),通过将 367 种 RBPs 中的 30,000 多个蛋白质片段招募到报告 mRNA 上,来确定人类 RBPs 中的调控域。我们在 86 个不同的 RBPs 中发现了 100 多个独特的 RNA 调节效应物,从而证明 RBPs 包含功能上可分离的结构域,这些结构域决定了它们对基因表达的转录后控制,我们还发现了一些在 5' 或 3'UTR 具有独特活性的结构域。我们发现了一些在 DNA 和 RNA 上都能下调基因表达的结构域,并剖析了它们的调控机制。最后,我们建立了一种合成 RNA 调节器,它能将基因表达稳定地维持在数学模型可预测的理想水平。这项研究为人类 RNA 调节效应器提供了资源,并扩大了基于 RNA 的基因控制工具的合成范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-throughput discovery of regulatory effector domains in human RNA-binding proteins
RNA regulation plays an integral role in tuning gene expression and is controlled by thousands of RNA-binding proteins (RBPs). We develop and use a high-throughput recruitment assay (HT-RNA-Recruit) to identify regulatory domains within human RBPs by recruiting over 30,000 protein tiles from 367 RBPs to a reporter mRNA. We discover over 100 unique RNA-regulatory effectors in 86 distinct RBPs, presenting evidence that RBPs contain functionally separable domains that dictate their post-transcriptional control of gene expression, and identify some with unique activity at 5' or 3'UTRs. We identify some domains that downregulate gene expression both when recruited to DNA and RNA, and dissect their mechanisms of regulation. Finally, we build a synthetic RNA regulator that can stably maintain gene expression at desired levels that are predictable by a mathematical model. This work serves as a resource for human RNA-regulatory effectors and expands the synthetic repertoire of RNA-based genetic control tools.
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