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整合转录组和代谢组图谱揭示了盐生植物藜麦种子在人工和自然盐胁迫下发芽初期吸胀过程中涉及的共同和独特途径。

Integrative Transcriptome and Metabolome Profiles Reveal Common and Unique Pathways Involved in Seed Initial Imbibition Under Artificial and Natural Salt Stresses During Germination of Halophyte Quinoa.

作者信息

Yan Huifang, Nie Yuting, Cui Kailun, Sun Juan

机构信息

Grassland Agri-Husbandry Research Center, College of Grassland Science, Qingdao Agricultural University, Qingdao, China.

出版信息

Front Plant Sci. 2022 Apr 12;13:853326. doi: 10.3389/fpls.2022.853326. eCollection 2022.

Abstract

Salt stress is a major environmental factor that seriously restricts quinoa seed germination. However, the key regulatory mechanisms underlying the effect of salt stress on the initial imbibition stage of quinoa seeds are unclear. In this study, dry seeds (0 h) and imbibed (8 h) seeds with 450 mM NaCl (artificial salt) and 100% brackish water of Yellow River Estuary (BW, natural salt) were used to assess the key salt responses based on germination, transcriptome, and metabolome analyses. The results indicated that the capacity of germinating seeds to withstand these two salt stresses was similar due to the similarities in the germination percentage, germination index, mean germination time, and germination phenotypes. Combined omics analyses revealed that the common and unique pathways were induced by NaCl and BW. Starch and sucrose metabolism were the only commonly enriched pathways in which the genes were significantly changed. Additionally, amino sugar and nucleotide sugar metabolism, and ascorbate and aldarate metabolism were preferably enriched in the NaCl group. However, glutathione metabolism tended to enrich in the BW group where , , and were significantly regulated. These findings suggest that the candidates involved in carbohydrate metabolism and antioxidant defense can regulate the salt responses of seed initial imbibition, which provide valuable insights into the molecular mechanisms underlying the effect of artificial and natural salt stresses.

摘要

盐胁迫是严重限制藜麦种子萌发的主要环境因素。然而,盐胁迫对藜麦种子初始吸水阶段影响的关键调控机制尚不清楚。在本研究中,使用450 mM NaCl(人工盐)和黄河口100%微咸水(BW,天然盐)处理的干种子(0小时)和吸胀(8小时)种子,基于发芽、转录组和代谢组分析来评估关键的盐响应。结果表明,由于发芽率、发芽指数、平均发芽时间和发芽表型相似,萌发种子耐受这两种盐胁迫的能力相似。综合组学分析表明,NaCl和BW诱导了共同和独特的途径。淀粉和蔗糖代谢是唯一基因发生显著变化的共同富集途径。此外,氨基糖和核苷酸糖代谢以及抗坏血酸和醛糖酸代谢在NaCl组中优先富集。然而,谷胱甘肽代谢倾向于在BW组中富集,其中 、 和 受到显著调控。这些发现表明,参与碳水化合物代谢和抗氧化防御的候选基因可以调节种子初始吸水的盐响应,这为人工和天然盐胁迫影响的分子机制提供了有价值的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/448f/9039654/348ef83db073/fpls-13-853326-g001.jpg

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