Long-read subcellular fractionation and sequencing reveals the translational fate of full-length mRNA isoforms during neuronal differentiation.

IF 6.2 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Genome research Pub Date : 2024-11-05 DOI:10.1101/gr.279170.124
Alexander J Ritter, Jolene M Draper, Chris Vollmers, Jeremy R Sanford
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Abstract

Alternative splicing (AS) alters the cis-regulatory landscape of mRNA isoforms, leading to transcripts with distinct localization, stability, and translational efficiency. To rigorously investigate mRNA isoform-specific ribosome association, we generated subcellular fractionation and sequencing (Frac-seq) libraries using both conventional short reads and long reads from human embryonic stem cells (ESCs) and neural progenitor cells (NPCs) derived from the same ESCs. We performed de novo transcriptome assembly from high-confidence long reads from cytosolic, monosomal, light, and heavy polyribosomal fractions and quantified their abundance using short reads from their respective subcellular fractions. Thousands of transcripts in each cell type exhibited association with particular subcellular fractions relative to the cytosol. Of the multi-isoform genes, 27% and 19% exhibited significant differential isoform sedimentation in ESCs and NPCs, respectively. Alternative promoter usage and internal exon skipping accounted for the majority of differences between isoforms from the same gene. Random forest classifiers implicated coding sequence (CDS) and untranslated region (UTR) lengths as important determinants of isoform-specific sedimentation profiles, and motif analyses reveal potential cell type-specific and subcellular fraction-associated RNA-binding protein signatures. Taken together, our data demonstrate that alternative mRNA processing within the CDS and UTRs impacts the translational control of mRNA isoforms during stem cell differentiation, and highlight the utility of using a novel long-read sequencing-based method to study translational control.

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长读数亚细胞分馏和测序揭示了全长 mRNA 同工型在神经元分化过程中的翻译命运。
替代剪接(AS)改变了 mRNA 同工型的顺式调控结构,导致转录本具有不同的定位、稳定性和翻译效率。为了严格研究mRNA异构体特异性核糖体关联,我们使用传统的短读数和长读数生成了亚细胞分馏和测序(Frac-seq)文库,这些文库来自人类胚胎干细胞(ESC)和来自同一ESC的神经祖细胞(NPC)。我们利用来自细胞质、单体、轻型和重型多核糖体组分的高置信度长读数进行了从头转录组组装,并利用来自各自亚细胞组分的短读数量化了它们的丰度。与细胞质相比,每种细胞类型中都有数千个转录本与特定亚细胞组分相关。在多同工酶基因中,分别有 27% 和 19% 的基因在 ESC 和 NPC 中表现出明显的同工酶沉积差异。启动子的交替使用和内部外显子的跳转是造成同一基因不同异构体之间差异的主要原因。随机森林分类器表明,编码序列(CDS)和UTR长度是决定同工酶特异性沉降谱的重要因素,而主题分析揭示了潜在的细胞类型特异性和亚细胞组分相关的RNA结合蛋白特征。总之,我们的数据证明了在干细胞分化过程中,CDS和UTR内的mRNA替代加工影响了mRNA异构体的翻译控制,并突出了使用基于长读数测序的新型方法研究翻译控制的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Genome research
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.
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