Biofortified Rice Provides Rich Sakuranetin in Endosperm.

IF 4.8 1区 农林科学 Q1 AGRONOMY Rice Pub Date : 2024-03-02 DOI:10.1186/s12284-024-00697-w
Yao Zhao, Jitao Hu, Zhongjing Zhou, Linying Li, Xueying Zhang, Yuqing He, Chi Zhang, Junmin Wang, Gaojie Hong
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Abstract

Sakuranetin plays a key role as a phytoalexin in plant resistance to biotic and abiotic stresses, and possesses diverse health-promoting benefits. However, mature rice seeds do not contain detectable levels of sakuranetin. In the present study, a transgenic rice plant was developed in which the promoter of an endosperm-specific glutelin gene OsGluD-1 drives the expression of a specific enzyme naringenin 7-O-methyltransferase (NOMT) for sakuranetin biosynthesis. The presence of naringenin, which serves as the biosynthetic precursor of sakuranetin made this modification feasible in theory. Liquid chromatography tandem mass spectrometry (LC-MS/MS) validated that the seeds of transgenic rice accumulated remarkable sakuranetin at the mature stage, and higher at the filling stage. In addition, the panicle blast resistance of transgenic rice was significantly higher than that of the wild type. Specially, the matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) imaging was performed to detect the content and spatial distribution of sakuranetin and other nutritional metabolites in transgenic rice seeds. Notably, this genetic modification also did not change the nutritional and quality indicators such as soluble sugars, total amino acids, total flavonoids, amylose, total protein, and free amino acid content in rice. Meanwhile, the phenotypes of the transgenic plant during the whole growth and developmental periods and agricultural traits such as grain width, grain length, and 1000-grain weight exhibited no significant differences from the wild type. Collectively, the study provides a conceptual advance on cultivating sakuranetin-rich biofortified rice by metabolic engineering. This new breeding idea may not only enhance the disease resistance of cereal crop seeds but also improve the nutritional value of grains for human health benefits.

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生物强化水稻在胚乳中提供丰富的樱草苷。
樱黄素作为一种植物毒素,在植物抵抗生物和非生物胁迫方面发挥着关键作用,并具有多种促进健康的功效。然而,成熟的水稻种子中并不含有可检测到的樱草素。本研究培育了一种转基因水稻植株,其中胚乳特异性谷朊蛋白基因 OsGluD-1 的启动子驱动一种特异性酶柚皮苷 7-O-甲基转移酶(NOMT)的表达,以进行樱草素的生物合成。柚皮苷是樱草苷的生物合成前体,它的存在使得这种修饰在理论上是可行的。液相色谱串联质谱法(LC-MS/MS)验证了转基因水稻种子在成熟期积累了大量的樱草苷,在灌浆期积累的樱草苷含量更高。此外,转基因水稻的抗穗瘟能力明显高于野生型。特别是,通过基质辅助激光解吸电离质谱(MALDI-MS)成像技术,检测了转基因水稻种子中樱草素及其他营养代谢物的含量和空间分布。值得注意的是,这种基因修饰也没有改变水稻的营养和品质指标,如可溶性糖、总氨基酸、总黄酮、直链淀粉、总蛋白质和游离氨基酸含量。同时,转基因植株在整个生长发育期间的表型以及谷粒宽度、谷粒长度和千粒重等农业性状与野生型没有显著差异。总之,这项研究为通过代谢工程培育富含樱草苷的生物强化水稻提供了概念上的进展。这种新的育种思路不仅能增强谷类作物种子的抗病性,还能提高谷物的营养价值,为人类健康带来益处。
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来源期刊
Rice
Rice AGRONOMY-
CiteScore
10.10
自引率
3.60%
发文量
60
审稿时长
>12 weeks
期刊介绍: Rice aims to fill a glaring void in basic and applied plant science journal publishing. This journal is the world''s only high-quality serial publication for reporting current advances in rice genetics, structural and functional genomics, comparative genomics, molecular biology and physiology, molecular breeding and comparative biology. Rice welcomes review articles and original papers in all of the aforementioned areas and serves as the primary source of newly published information for researchers and students in rice and related research.
期刊最新文献
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