Decoding gene expression dynamics during seed development in sesame (Sesamum indicum L.) through RNA-Seq analysis.

IF 3.4 2区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Genomics Pub Date : 2025-01-12 DOI:10.1016/j.ygeno.2025.110997

Bantayehu Bekele, Mebeaselassie Andargie, Miguel Gallach, Dereje Beyene, Kassahun Tesfaye

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引用次数: 0

Abstract

Sesame (Sesamum indicum L., 2n = 2× = 26) from the Pedaliaceae family is primarily grown for its high oil content, rich in unsaturated fatty acids like linoleic acid (LA) and alpha-linolenic acid (ALA). However, the molecular mechanisms of sesame oil accumulation remain poorly understood. This study analyzed transcriptomes at two seed development stages: Young Stage (YS, pods 1.5-2.5 cm) and Mature Stage (MS, brown pods >2.5 cm), to explore regulatory mechanisms and identify key genes involved in lipid biosynthesis. From 25,173 genes, 18,820 with expression values >10 CPM in at least 70 % of replicates were included in differential expression (DE) analysis. Active expression (LFC > 0) was observed in 9372 and 9448 genes at YS and MS, respectively. DEGs were annotated, revealing roles in various biological processes, (e.g., mRNA metabolic process, reproduction-related developmental processes, seed development), molecular functions (e.g., aminoacyltransferase activity, ubiquitin-like protein and ubiquitin-protein transferase activities), and cellular components (e.g., peroxisome, microbody, lipid droplet). KEGG analysis highlighted genes involved in fatty acid synthesis (e.g., fabG, fabZ), TAG biosynthesis (DGAT1, GPAT), and alpha-linolenic acid metabolism (AOS, LCAT3). Key genes upregulated at MS included SIN_1025205 (protein transport), SIN_1006853 (acetylajmalan esterase), and SIN_1003267 (gamma-cadinene synthase). The study generated a valuable transcriptome dataset and gene list for seed development and lipid biosynthesis, which will be validated through functional studies. An interactive webpage is provided for data exploration.

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通过RNA-Seq分析解码芝麻种子发育过程中的基因表达动态。

芝麻（Sesamum indicum L., 2n = 2x = 26）是菊科植物，主要因其含油量高，富含亚油酸（LA）和α -亚麻酸（ALA）等不饱和脂肪酸而被种植。然而，芝麻油积累的分子机制仍然知之甚少。本研究分析了种子发育的两个阶段：幼期（YS，荚果1.5-2.5 cm）和成熟期（MS，棕色荚果>2.5 cm）的转录组，探讨了脂质生物合成的调控机制，并确定了参与脂质生物合成的关键基因。从25173个基因中，有18820个基因在至少70% %的重复中表达值为bbb10 CPM，被纳入差异表达（DE）分析。在YS和MS下分别有9372个和9448个基因活跃表达（LFC > 0）。对deg进行了注释，揭示了其在各种生物过程（如mRNA代谢过程、生殖相关发育过程、种子发育）、分子功能（如氨基酰基转移酶活性、泛素样蛋白和泛素蛋白转移酶活性）和细胞成分（如过氧化物酶体、微体、脂滴）中的作用。KEGG分析突出了参与脂肪酸合成（如fabG、fabZ）、TAG生物合成（DGAT1、GPAT）和α -亚麻酸代谢（AOS、LCAT3）的基因。在MS中上调的关键基因包括SIN_1025205（蛋白质转运）、SIN_1006853（乙酰丙烯酯酶）和SIN_1003267 （γ -cadinene合成酶）。该研究为种子发育和脂质生物合成提供了有价值的转录组数据集和基因列表，并将通过功能研究对其进行验证。为数据探索提供了一个交互式网页。

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

Genomics 生物-生物工程与应用微生物

CiteScore

9.60

自引率

2.30%

发文量

260

审稿时长

60 days

期刊介绍： Genomics is a forum for describing the development of genome-scale technologies and their application to all areas of biological investigation. As a journal that has evolved with the field that carries its name, Genomics focuses on the development and application of cutting-edge methods, addressing fundamental questions with potential interest to a wide audience. Our aim is to publish the highest quality research and to provide authors with rapid, fair and accurate review and publication of manuscripts falling within our scope.