变性 CLIP（denaturing CLIP）、dCLIP、Pipeline 鉴定染色质相关蛋白上的离散 RNA 足迹，并揭示 CBX7 将 3'UTR 作为靶点以调节 mRNA 表达。

Denaturing CLIP, dCLIP, Pipeline Identifies Discrete RNA Footprints on Chromatin-Associated Proteins and Reveals that CBX7 Targets 3' UTRs to Regulate mRNA Expression.

机构信息

Howard Hughes Medical Institute, Boston, MA 02114, USA; Department of Molecular Biology, Massachusetts General Hospital, Boston, MA 02114, USA; Department of Genetics, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Cell Syst. 2017 Oct 25;5(4):368-385.e15. doi: 10.1016/j.cels.2017.09.014.

DOI:10.1016/j.cels.2017.09.014

PMID:29073373

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5701755/

Abstract

Interaction networks between chromatin complexes and long noncoding RNAs have become a recurrent theme in epigenetic regulation. However, technical limitations have precluded identification of RNA binding motifs for chromatin-associated proteins. Here, we add a denaturation step to UV-crosslink RNA immunoprecipitation (dCLIP) and apply dCLIP to mouse and human chromobox homolog 7 (CBX7), an RNA binding subunit of Polycomb repressive complex 1 (PRC1). In both species, CBX7 predominantly binds 3' UTRs of messenger RNAs. CBX7 binds with a median RNA "footprint" of 171-183 nucleotides, the small size of which facilitates motif identification by bioinformatics. We find four families of consensus RNA motifs in mouse, and independent analysis of human CBX7 dCLIP data identifies similar motifs. Their mutation abolishes CBX7 binding in vitro. Pharmacological intervention with antisense oligonucleotides paradoxically increases CBX7 binding and enhances gene expression. These data support the utility of dCLIP and reveal an unexpected functional interaction between CBX7 and the 3' UTRs of mRNA.

摘要

染色质复合物与长非编码 RNA 之间的相互作用网络已成为表观遗传调控中的一个反复出现的主题。然而，技术限制排除了对与染色质相关的蛋白质的 RNA 结合基序的鉴定。在这里，我们在 UV 交联 RNA 免疫沉淀 (dCLIP) 中添加了变性步骤，并将 dCLIP 应用于小鼠和人同源盒蛋白 7 (CBX7)，CBX7 是多梳抑制复合物 1 (PRC1) 的 RNA 结合亚基。在这两种物种中，CBX7 主要结合信使 RNA 的 3' UTR。CBX7 与中位数为 171-183 个核苷酸的 RNA“足迹”结合，其小尺寸通过生物信息学方便地识别基序。我们在小鼠中发现了四个家族的保守 RNA 基序，对人类 CBX7 dCLIP 数据的独立分析确定了类似的基序。它们的突变在体外会破坏 CBX7 结合。用反义寡核苷酸进行药理学干预会反常地增加 CBX7 结合并增强基因表达。这些数据支持 dCLIP 的实用性，并揭示了 CBX7 与 mRNA 3' UTR 之间的意外功能相互作用。

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