大麦全转录组揭示了基因型依赖性转录复杂性的多个层次。

A barley pan-transcriptome reveals layers of genotype-dependent transcriptional complexity.

作者信息

Guo Wenbin, Schreiber Miriam, Marosi Vanda B, Bagnaresi Paolo, Jørgensen Morten Egevang, Braune Katarzyna B, Chalmers Ken, Chapman Brett, Dang Viet, Dockter Christoph, Fiebig Anne, Fincher Geoffrey B, Fricano Agostino, Fuller John, Haaning Allison, Haberer Georg, Himmelbach Axel, Jayakodi Murukarthick, Jia Yong, Kamal Nadia, Langridge Peter, Li Chengdao, Lu Qiongxian, Lux Thomas, Mascher Martin, Mayer Klaus F X, McCallum Nicola, Milne Linda, Muehlbauer Gary J, Nielsen Martin T S, Padmarasu Sudharsan, Pedas Pai Rosager, Pillen Klaus, Pozniak Curtis, Rasmussen Magnus W, Sato Kazuhiro, Schmutzer Thomas, Scholz Uwe, Schüler Danuta, Šimková Hana, Skadhauge Birgitte, Stein Nils, Thomsen Nina W, Voss Cynthia, Wang Penghao, Wonneberger Ronja, Zhang Xiao-Qi, Zhang Guoping, Cattivelli Luigi, Spannagl Manuel, Bayer Micha, Simpson Craig, Zhang Runxuan, Waugh Robbie

机构信息

International Barley Hub (IBH)/James Hutton Institute (JHI), Dundee, Scotland.

Higentec Breeding Innovation (ZheJiang) Co., Ltd., Lishui, China.

出版信息

Nat Genet. 2025 Feb;57(2):441-450. doi: 10.1038/s41588-024-02069-y. Epub 2025 Feb 3.

DOI:10.1038/s41588-024-02069-y

PMID:39901014

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11821519/

Abstract

A pan-transcriptome describes the transcriptional and post-transcriptional consequences of genome diversity from multiple individuals within a species. We developed a barley pan-transcriptome using 20 inbred genotypes representing domesticated barley diversity by generating and analyzing short- and long-read RNA-sequencing datasets from multiple tissues. To overcome single reference bias in transcript quantification, we constructed genotype-specific reference transcript datasets (RTDs) and integrated these into a linear pan-genome framework to create a pan-RTD, allowing transcript categorization as core, shell or cloud. Focusing on the core (expressed in all genotypes), we observed significant transcript abundance variation among tissues and between genotypes driven partly by RNA processing, gene copy number, structural rearrangements and conservation of promotor motifs. Network analyses revealed conserved co-expression module::tissue correlations and frequent functional diversification. To complement the pan-transcriptome, we constructed a comprehensive cultivar (cv.) Morex gene-expression atlas and illustrate how these combined datasets can be used to guide biological inquiry.

摘要

泛转录组描述了一个物种内多个个体基因组多样性的转录和转录后结果。我们通过生成和分析来自多个组织的短读长和长读长RNA测序数据集，利用代表驯化大麦多样性的20个自交基因型开发了一个大麦泛转录组。为了克服转录本定量中的单参考偏差，我们构建了基因型特异性参考转录本数据集（RTDs），并将其整合到一个线性泛基因组框架中以创建一个泛RTD，从而能够将转录本分类为核心、外壳或云。聚焦于核心转录本（在所有基因型中均有表达），我们观察到组织间和基因型间转录本丰度存在显著差异，部分原因是RNA加工、基因拷贝数、结构重排和启动子基序的保守性。网络分析揭示了保守的共表达模块与组织的相关性以及频繁的功能多样化。为了补充泛转录组，我们构建了一个全面的栽培品种（cv.）Morex基因表达图谱，并说明了如何利用这些组合数据集来指导生物学研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5a2c/11821519/ac714e6abfc7/41588_2024_2069_Fig1_HTML.jpg

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大麦全转录组揭示了基因型依赖性转录复杂性的多个层次。

A barley pan-transcriptome reveals layers of genotype-dependent transcriptional complexity.

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