Bin Wang, Xiao Yuan, Guang Wang, Yun-Na Zhu, Run-Chang Zhou, Hui-Min Feng, Hai-Bo Li
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引用次数: 0
Abstract
Both selenium (Se) and anthocyanins are crucial for maintaining human health. Preharvest Se treatments could promote anthocyanin biosynthesis and augment Se levels in vegetables, helping to combat Se deficiencies in dietary intake. However, it remains unknown whether preharvest Se treatment could balance growth and anthocyanin biosynthesis in plants and what the appropriate treatment concentration is. In this study, preharvest treatments with sodium selenite at varying concentrations (0, 5, 10, and 30 mg/kg) affect the growth and nutritional quality of purple leaf mustard (Brassica juncea) with abundant anthocyanins. Lower Se concentrations (≤10 mg/kg) of preharvest treatments enhanced photosynthesis, facilitated root system development, consequently elevated the biomass. Conversely, higher Se levels (≥30 mg/kg) reduced photosynthesis and biomass. The dosage-dependent effects of Se treatments were corroborated through seedlings cultivated in hydroponic conditions. Moreover, nearly all Se treatments elevated the contents of various nutrients in leaf mustard, particularly anthocyanin and organic se. These results suggest an overall enhancement in nutritional quality of leaf mustard plants. Furthermore, the application of 10 mg/kg Se significantly enhanced the activity of phenylalanine ammonia-lyase and upregulated the expression of 12 genes pivotal for anthocyanin biosynthesis, further demonstrating the fortified effects of Se enrichment on anthocyanins in leaf mustard. Low-level Se treatments resulted in heightened antioxidant activity (APX, CAT, and POD), mitigating reactive oxygen species induced by increasing Se content in tissues. The enhanced antioxidant activities may be beneficial for the normal growth of leaf mustard under Se stress conditions. In conclusion, our study demonstrated preharvest Se treatment at 10 mg/kg could balance the growth and anthocyanin biosynthesis in purple leaf mustard. This study offers valuable insights into anthocyanin fortification through Se enrichment methods in agricultural practices, ensuring that such fortification does not compromise leafy vegetable yield.
硒(Se)和花青素对维持人体健康至关重要。采收前的硒处理可以促进花青素的生物合成,提高蔬菜中的硒含量,帮助解决膳食中硒摄入不足的问题。然而,收获前的 Se 处理是否能平衡植物的生长和花青素的生物合成,以及合适的处理浓度是多少,目前仍是未知数。在这项研究中,不同浓度(0、5、10 和 30 毫克/千克)的亚硒酸钠收获前处理会影响富含花青素的紫叶芥菜(Brassica juncea)的生长和营养质量。收获前处理中较低的亚硒浓度(≤10 毫克/千克)可增强光合作用,促进根系发育,从而提高生物量。相反,较高的 Se 浓度(≥30 毫克/千克)会降低光合作用和生物量。在水培条件下培育的幼苗证实了 Se 处理的剂量依赖效应。此外,几乎所有的 Se 处理都提高了叶芥中各种营养物质的含量,尤其是花青素和有机硒。这些结果表明,叶用芥菜植物的营养质量得到了全面提高。此外,施用 10 毫克/千克 Se 能显著提高苯丙氨酸氨解酶的活性,并上调 12 个花青素生物合成关键基因的表达,进一步证明了富集 Se 对叶芥菜花青素的强化作用。低浓度 Se 处理可提高抗氧化活性(APX、CAT 和 POD),减轻组织中 Se 含量增加所诱导的活性氧。抗氧化活性的增强可能有利于叶芥菜在硒胁迫条件下的正常生长。总之,我们的研究表明,收获前 10 毫克/千克的 Se 处理可以平衡紫叶芥的生长和花青素的生物合成。这项研究为在农业实践中通过富集 Se 的方法强化花青素提供了宝贵的见解,从而确保这种强化不会影响叶菜产量。
期刊介绍:
No subject pertains more to human life than nutrition. The aim of Frontiers in Nutrition is to integrate major scientific disciplines in this vast field in order to address the most relevant and pertinent questions and developments. Our ambition is to create an integrated podium based on original research, clinical trials, and contemporary reviews to build a reputable knowledge forum in the domains of human health, dietary behaviors, agronomy & 21st century food science. Through the recognized open-access Frontiers platform we welcome manuscripts to our dedicated sections relating to different areas in the field of nutrition with a focus on human health.
Specialty sections in Frontiers in Nutrition include, for example, Clinical Nutrition, Nutrition & Sustainable Diets, Nutrition and Food Science Technology, Nutrition Methodology, Sport & Exercise Nutrition, Food Chemistry, and Nutritional Immunology. Based on the publication of rigorous scientific research, we thrive to achieve a visible impact on the global nutrition agenda addressing the grand challenges of our time, including obesity, malnutrition, hunger, food waste, sustainability and consumer health.