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纳米硒(SeNPs)缓解烟草幼苗铅胁迫和促生效应

杜仲阳季春丽李润植杨泽梁梦静刘义珍崔红利史达明薛金爱孙岩张春辉

生物技术通报2024，Vol.40Issue(7)：183-196,14.

生物技术通报2024，Vol.40Issue(7)：183-196,14.DOI:10.13560/j.cnki.biotech.bull.1985.2024-0078

纳米硒(SeNPs)缓解烟草幼苗铅胁迫和促生效应

Effect of Nano-selenium(SeNPs)in Alleviating Lead Stress and Promoting Growth of Tobacco Seedlings

杜仲阳 ¹季春丽 ¹李润植 ¹杨泽 ¹梁梦静 ¹刘义珍 ¹崔红利 ²史达明 ¹薛金爱 ¹孙岩 ¹张春辉¹

作者信息

1. 山西农业大学农学院分子农业与生物能源研究所山西省特用作物遗传与代谢工程研究中心,太谷 030801
2. 山西农业大学农学院分子农业与生物能源研究所山西省特用作物遗传与代谢工程研究中心,太谷 030801||中国科学院烟台海岸带研究所海岸带生物学与生物资源利用重点实验室,烟台 264003
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摘要

Abstract

[Objective]This study is to explore effects of nano-selenium(SeNPs)on growth and stress resistance of tobacco seedlings under lead(Pb)stress,as well as Pb absorption and translocation,aiming to reveal the mechanisms of SeNPs-mediated growth promotion,Se enrichment,and inhibition of Pb uptake and transfer in plants.[Method]Common tobacco(Nicotiana tabacum)was selected as the test crops.Various treatments were designed and used in a series of pot experiments,including low(100 mg/L)and high(200 mg/L)doses of Pb stresses,inorganic Se(Na2SeO3)and SeNPs trteatments as well as blank controls.Physiological and biochemical indexes of tobacco seedlings were quantitatively measured,including biomass,photosynthetic physiological parameters,antioxidant enzyme activities,lipid peroxidation product contents,and the related gene expression levels in tobacco seedling.The contents and distribution of Se and Pb were also examined in both aboveground and underground organs.[Result]Compared with the control group,Se treatments significantly promoted the growth and photosynthesis of tobacco seedlings,with SeNPs showing more significant growth-promoting effect.Se treatments also enhanced the antioxidant enzyme(SOD,CAT,POD and APX)activities and accumulation of lipid peroxidation products(proline,ascorbic acid and glutathione),followed by reducing accumulation of lipid peroxidation products(proline,ascorbic acid and glutathione)in tobacco seedlings.Under Pb stress conditions,Se treatments significantly increased the selenium content in tobacco seedlings,whereas the Pb absorption and transport rate from underground to aboveground parts were largely reduced in tobacco seedlings.[Conclusion]SeNPs demonstrates signicantly growth-promoting effects,including increasing plant biomass,protecting photosynthesis system,activating antioxidant system,blocking lead absorption and transport,facilitating selenium enrichment and improving plant resistance to lead stress.

关键词

纳米硒/铅胁迫/烟草幼苗/促生效应/抗氧化系统/生物有效性/分子机制

Key words

selenium nanoparticles/lead stress/Nicotiana tabacum seedlings/growth-promoting effect/antioxidant mechanisms/bioavailability/molecular mechanisms

引用本文复制引用

杜仲阳,季春丽,李润植,杨泽,梁梦静,刘义珍,崔红利,史达明,薛金爱,孙岩,张春辉..纳米硒(SeNPs)缓解烟草幼苗铅胁迫和促生效应[J].生物技术通报,2024,40(7):183-196,14.

基金项目

国家重点研发计划部省联动项目(2021YFD1901100),省部共建有机旱作农业国家重点实验室(筹)自主研发课题(202105D121008-3-6),山西省高等学校科技创新计划项目(2021L119),山西省农业农村厅"六新"项目（2021YFD1901100）

生物技术通报

OA北大核心CSTPCD

ISSN：1002-5464

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