盐分通过降低大麦的淀粉动员效率抑制种子萌发和胚胎生长

IF 2.3 3区生物学 Q2 PLANT SCIENCES

Plant Direct Pub Date : 2024-02-02 DOI:10.1002/pld3.564

Min Xiong, Jian Xu, Zhou Zhou, Bin Peng, Yuxiang Shen, Huiquan Shen, Xiao Xu, Changya Li, Lina Deng, Gongneng Feng

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引用次数: 0

摘要

大麦是世界上最早驯化的作物之一，被广泛用于啤酒生产、动物饲养和医疗保健。大麦种子的萌发，尤其是在盐碱化日益严重的土壤中的萌发，是确保作物生产安全的关键。然而，大麦种子萌发受盐分影响的机理仍然难以捉摸。本文利用两个不同颜色的大麦品种独立研究了大麦种子萌发过程中耐盐性的调控机制。高盐度会降低种子的淀粉动员效率，从而延迟大麦种子的萌发。淀粉平板试验表明，盐度对大麦种子中的α-淀粉酶活性有显著的抑制作用。此外，NaCl 处理会下调萌发种子中 Amy1、Amy2 和 Amy3 基因的表达，从而抑制α-淀粉酶的活性。此外，体外胚胎培养系统的结果表明，大麦的芽伸长受到盐胁迫的显著抑制。这些研究结果表明，从淀粉相关的源汇通讯方面研究盐胁迫对大麦种子萌发和胚胎生长的调控机制是一个可行的思路。

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Salinity inhibits seed germination and embryo growth by reducing starch mobilization efficiency in barley

Barley is one of the world's earliest domesticated crops, which is widely used for beer production, animal feeding, and health care. Barley seed germination, particularly in increasingly saline soils, is key to ensure the safety of crop production. However, the mechanism of salt-affected seed germination in barley remains elusive. Here, two different colored barley varieties were used to independently study the regulation mechanism of salt tolerance during barley seed germination. High salinity delays barley seed germination by slowing down starch mobilization efficiency in seeds. The starch plate test revealed that salinity had a significant inhibitory effect on α-amylase activity in barley seeds. Further, NaCl treatment down-regulated the expression of Amy1, Amy2 and Amy3 genes in germinated seeds, thereby inhibiting α-amylase activity. In addition, the result of embryogenic culture system in vitro showed that the shoot elongation of barley was significantly inhibited by salt stress. These findings indicate that it is a feasible idea to study the regulation mechanism of salinity on barley seed germination and embryo growth from the aspect of starch-related source-sink communication.

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来源期刊

Plant Direct Environmental Science-Ecology

CiteScore

5.00

自引率

3.30%

发文量

101

审稿时长

14 weeks

期刊介绍： Plant Direct is a monthly, sound science journal for the plant sciences that gives prompt and equal consideration to papers reporting work dealing with a variety of subjects. Topics include but are not limited to genetics, biochemistry, development, cell biology, biotic stress, abiotic stress, genomics, phenomics, bioinformatics, physiology, molecular biology, and evolution. A collaborative journal launched by the American Society of Plant Biologists, the Society for Experimental Biology and Wiley, Plant Direct publishes papers submitted directly to the journal as well as those referred from a select group of the societies’ journals.