通过多能细胞提取物的沉淀分析鉴定核RNA复合物中广泛的特异性内含子保留事件

IF 5.5 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Genome research Pub Date : 2025-08-26 DOI:10.1101/gr.280431.125

Isabela T Pereira, Izabela Mamede, Paulo de Paiva Amaral, Gloria Regina Franco, John L Rinn

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引用次数: 0

摘要

许多基本的细胞过程需要RNA与蛋白质相互作用以形成核糖核蛋白复合物（RNPs）。例如，所有的细胞蛋白质都是由核糖体——一个大而稳定的RNP产生的，基因剪接需要大量大小RNP的编排，甚至端粒DNA的复制也需要RNP。所有这些例子都是稳定的RNPs，它们表现出基于RNA和蛋白质组成的特定沉降速率（例如，在蔗糖梯度中）。在这项研究中，我们的目的是在转录组范围内鉴定离散RNPs的RNA成分。使用蔗糖梯度沉降和测序，我们鉴定了1,057个RNA转录本，包括编码和非编码，它们可能是细胞RNA的组成部分。我们将这些转录本命名为梯度富集转录本（Gradient enrichment transcripts, GETs）。get主要是核的，代谢稳定，它们不是主要的剪接异构体，而是每个包含一个特定的保留内含子。总的来说，我们的研究揭示了在稳定的核RNPs中保留特定内含子的普遍现象。

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Widespread specific intron-retention events in nuclear RNA complexes identified by sedimentation analysis of pluripotent cellular extracts

Many essential cellular processes require RNA to interact with protein(s) to form ribonucleic protein complexes (RNPs). For example, all cellular proteins are produced by the ribosome - a large and stable RNP, gene splicing requires a choreography of numerous small and large RNPs, even the replication of telomeric DNA requires an RNP. All these examples are stable RNPs that exhibit specific sedimentation rates (e.g., in a sucrose gradient) based on the composition of RNA and protein. In this study we aimed to identify RNA components of discrete RNPs on a transcriptome-wide scale. Using sucrose-gradient sedimentation followed by sequencing, we identified 1,057 RNA transcripts, both coding and noncoding, that are likely to be components of cellular RNPs. We named these transcripts Gradient Enriched Transcripts (GETs). GETs were predominantly nuclear, metabolically stable, and they were not the major splice isoforms but instead each contained a specific retained intron. Collectively our study reveals a widespread phenomenon of a specific intron being retained in a stable nuclear RNPs.

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来源期刊

Genome research 生物-生化与分子生物学

CiteScore

12.40

自引率

1.40%

发文量

140

审稿时长

6 months

期刊介绍： Launched in 1995, Genome Research is an international, continuously published, peer-reviewed journal that focuses on research that provides novel insights into the genome biology of all organisms, including advances in genomic medicine. Among the topics considered by the journal are genome structure and function, comparative genomics, molecular evolution, genome-scale quantitative and population genetics, proteomics, epigenomics, and systems biology. The journal also features exciting gene discoveries and reports of cutting-edge computational biology and high-throughput methodologies. New data in these areas are published as research papers, or methods and resource reports that provide novel information on technologies or tools that will be of interest to a broad readership. Complete data sets are presented electronically on the journal''s web site where appropriate. The journal also provides Reviews, Perspectives, and Insight/Outlook articles, which present commentary on the latest advances published both here and elsewhere, placing such progress in its broader biological context.