Improved genome annotation of Brassica oleracea highlights the importance of alternative splicing

甘蓝 生物 基因 基因组 转录组 遗传学 注释 基因注释 计算生物学 选择性拼接 基因组计划 基因预测 基因命名 参考基因组 基因家族 基因表达 植物 外显子 命名法 分类学(生物学)
作者
Yinqing Yang,Lei Zhang,Qi Tang,Lingkui Zhang,Li Xing,Shumin Chen,Kang Zhang,Ying Li,Xilin Hou,Feng Cheng
出处
期刊:Horticultural Plant Journal [KeAi]
卷期号:10 (4): 961-970 被引量:3
标识
DOI:10.1016/j.hpj.2024.03.005
摘要

Brassica oleracea has been developed into many important crops, including cabbage, kale, cauliflower, broccoli and so on. The genome and gene annotation of cabbage (cultivar JZS), a representative morphotype of B. oleracea, has been widely used as a common reference in biological research. Although its genome assembly has been updated twice, the current gene annotation still lacks information on untranslated regions (UTRs) and alternative splicing (AS). Here, we constructed a high-quality gene annotation (JZSv3) using a full-length transcriptome acquired by nanopore sequencing, yielding a total of 59 452 genes and 75 684 transcripts. Additionally, we re-analyzed the previously reported transcriptome data related to the development of different tissues and cold response using JZSv3 as a reference, and found that 3 843 out of 11 908 differentially expressed genes (DEGs) underwent AS during the development of different tissues and 309 out of 903 cold-related genes underwent AS in response to cold stress. Meanwhile, we also identified many AS genes, including BolLHCB5 and BolHSP70, that displayed distinct expression patterns within variant transcripts of the same gene, highlighting the importance of JZSv3 as a pivotal reference for AS analysis. Overall, JZSv3 provides a valuable resource for exploring gene function, especially for obtaining a deeper understanding of AS regulation mechanisms.
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