Tian Ming, Hui Maixia, Thannhauser Theodore W, Pan Siyi, Li Li
Key Laboratory of Environment Correlative Dietology, Ministry of Education, College of Food Science and Technology, Huazhong Agricultural UniversityWuhan, China.
Robert W. Holley Center for Agriculture and Health, United States Department of Agriculture - Agricultural Research Service, Cornell University, IthacaNY, United States.
Front Plant Sci. 2017 Aug 18;8:1425. doi: 10.3389/fpls.2017.01425. eCollection 2017.
Selenium (Se) is an essential micronutrient for humans. Increasing Se content in food crops offers an effective approach to enhance the consumption of Se in human diets. A thoroughly understanding of the effects of Se on plant growth is important for Se biofortification in food crops. Given that Se is an analog of sulfur (S) and can be toxic to plants, its effect on plant growth is expected to be greatly affected by S nutrition. However, this remains to be further understood. Here, we evaluated the influence of Se treatments on broccoli ( L. var. ) growth when S was withheld from the growth nutrient solution. We found that Se was highly toxic to plants when S nutrition was poor. In contrast to Se treatments with adequate S nutrition that slightly reduced broccoli growth, the same concentration of Se treatments without S supplementation dramatically reduced plant sizes. Higher Se toxicity was observed with selenate than selenite under low S nutrition. We examined the bases underlying the toxicity. We discovered that the high Se toxicity in low S nutrition was specifically associated with an increased ratio of Se in proteins verse total Se level, enhanced generation of reactive oxygen species, elevated lipid peroxidation causing increased cell membrane damage, and reduced antioxidant enzyme activities. Se toxicity could be counteracted with increased supplementation of S, which is likely through decreasing non-specific integration of Se into proteins and altering the redox system. The present study provides information for better understanding of Se toxicity and shows that adequate S nutrition is important to prevent Se toxicity during biofortification of crops by Se fertilization.
硒(Se)是人类必需的微量营养素。提高粮食作物中的硒含量是增加人类饮食中硒摄入量的有效途径。深入了解硒对植物生长的影响对于粮食作物的硒生物强化至关重要。鉴于硒是硫(S)的类似物且可能对植物有毒,其对植物生长的影响预计会受到硫营养的极大影响。然而,这仍有待进一步了解。在此,我们评估了在生长营养液中不添加硫时,硒处理对西兰花(L. var.)生长的影响。我们发现,当硫营养不足时,硒对植物具有高毒性。与添加充足硫营养的硒处理略微降低西兰花生长不同,相同浓度的不添加硫的硒处理显著减小了植株大小。在低硫营养条件下,硒酸盐比亚硒酸盐表现出更高的硒毒性。我们研究了毒性的潜在基础。我们发现,低硫营养条件下的高硒毒性具体与蛋白质中硒与总硒水平的比例增加、活性氧物种的生成增强、脂质过氧化加剧导致细胞膜损伤增加以及抗氧化酶活性降低有关。增加硫的添加量可以抵消硒毒性,这可能是通过减少硒非特异性整合到蛋白质中以及改变氧化还原系统来实现的。本研究为更好地理解硒毒性提供了信息,并表明充足的硫营养对于在通过硒施肥对作物进行生物强化过程中预防硒毒性很重要。
