ROLE OF THE NON-PROTEIN THIOLS IN ACCUMULATION, TRANSLOCATION AND TOLERANCE OF LEAD IN Iris lactea var. chinensis

文献类型: 外文期刊

第一作者: Yuan, Hai-Yan

作者: Yuan, Hai-Yan;Huang, Su-Zhen;Yang, Yong-Heng;Gu, Chun-Sun;Yuan, Hai-Yan;Huang, Su-Zhen;Yang, Yong-Heng;Guo, Zhi

作者机构:

关键词: Non-protein thiols;lead;sub-cellular localization;tolerance;Iris lactea var. chinensis

期刊名称:FRESENIUS ENVIRONMENTAL BULLETIN ( 影响因子:0.489; 五年影响因子:0.479 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The effect of exogenous glutathione (GSH) and L-buthionine-S,R-sulphoximine (BSO, an inhibitor of GSH and phytochelatin (PCs) synthesis) on lead (Pb) accumulation, translocation and growth of Iris lactea var. chinensis under Pb stress were investigated. The addition of 150 mg.L-1 GSH obviously enhances Pb accumulation and translocation to shoots in I. lactea var. chinensis compared with the single Pb stress and BSO addition. The growth inhibitions were not intense after GSH treatment, even though Pb kept high accumulation in roots and shoots, suggesting that Pb may be effectively detoxified under Pb together with GSH treatment. The cell ultrastructural examination of Pb in I. lactea var. chinensis supported the facts that exogenous application of GSH may alleviate Pb harm. In order to clarify the role of non-protein thiols (NPTs) in Pb toxicity, accumulation and translocation, the dynamic variations of Pb contents and NPT synthesis of PCs, GSH and cysteine (Cys) in I. lactea var. chinensis were analyzed under Pb (100-500 mg.L-1) treatment for 1-7 days. PC2 formation could be induced only in the roots, and the contents in roots enhanced gradually with increasing Pb concentrations in solutions and exposure time. The concentrations of shoot GSH also enhanced gradually, but GSH in roots showed a slight decline when exposed to 300 and 500 mg.L-1Pb after 4 and 7 days. Cys showed induction at lower Pb level and initial stress, followed by decline. The correlation analysis between Pb accumulation and the synthesis of NPTs suggested that Pb in the roots of I. lactea var. chinensis may mainly be detoxified through chelation with PC,. while GSH may mainly serve as the role of promoting and transporting Pb to aboveground and detoxification.

分类号: X

  • 相关文献

[1]De novo characterization of the Iris lactea var. chinensis transcriptome and an analysis of genes under cadmium or lead exposure. Gu, Chun-Sun,Liu, Liang-Qin,Zhang, Yong-Xia,Wang, Zhi-Quan,Yuan, Hai-Yan,Huang, Su-Zhen,Gu, Chun-Sun,Liu, Liang-Qin,Zhang, Yong-Xia,Wang, Zhi-Quan,Yuan, Hai-Yan,Huang, Su-Zhen,Deng, Yan-Ming. 2017

[2]Improvement of tolerance to lead by filamentous fungus Pleurotus ostreatus HAU-2 and its oxidative responses. Zhang, Shimin,Zhang, Xiaolin,Wu, Kun,Chang, Cheng,Yuan, Zhiyong,Wang, Ting,Zhao, Yong,Yang, Xitian,Zhang, Zhiming,Li, Xuanzhen,Zhang, Yuting,La, Guixiao.

[3]Phytochelatins play key roles for the difference in root arsenic accumulation of different Triticum aestivum cultivars in comparison with arsenate uptake kinetics and reduction. Shi, Gao Ling,Lou, Lai Qing,Li, Dao Jun,Hu, Zhu Bing,Cai, Qing Sheng,Shi, Gao Ling.

[4]Genetic diversity of Iris lactea var. chinensis germplasm detected by inter-simple sequence repeat (ISSR). Wang, Kang,Zhou, He,Sun, Yan,Wang, Kang,Kang, Junmei,Yang, Qingchuan,Dong, Jie,Meng, Lin. 2009

[5]Non-specific lipid transfer proteins in plants: presenting new advances and an integrated functional analysis. Liu, Fang,Lu, Changming,Zeng, Xinhua,Li, Yunjing,Wu, Gang,Zhang, Xiaobo,Fu, Donghui.

[6]Isolation and Functional Analysis of the bZIP Transcription Factor Gene TaABP1 from a Chinese Wheat Landrace. Cao Xin-you,Chen Ming,Xu Zhao-shi,Li Lian-cheng,Yu Yue-hua,Liu Yang-na,Ma You-zhi,Cao Xin-you,Cao Xin-you,Chen Yao-feng. 2012

[7]Isolation and characterization of receptor-like protein kinase WELP1 in wheat. Zheng, Weijun,Xu, Zhao-Shi,Chen, Ming,Li, Lianchen,Ma, Youzhi,Zheng, Weijun,Chai, Shoucheng. 2012

[8]THE GROWTH, LEAD ACCUMULATION AND OXIDATIVE STRESS RESPONSE OF Iris lactea var. chinensis UNDER LEAD STRESS. Yuan, Hai-yan,Huang, Su-zhen,Han, Yu-lin,Guo, Zhi.

[9]THE EFFECT OF PLANTING Iris lactea var. chinensis ON Pb FRACTIONATIONS AND ACTIVITIES OF ENZYMES IN ARTIFICIAL Pb CONTAMINATED SOILS. Yuan, Hai-Yan,Tong, Hai-Ying,Huang, Su-Zhen,Han, Yu-Lin,Yuan, Hai-Yan,Guo, Zhi,Gu, Ji-Guang.

[10]Protective effects of puerarin on experimental chronic lead nephrotoxicity in immature female rats. Wang, Lin,Yang, Dubao,Wang, Zhenyong,Lin, Shuqian,Li, Zifa. 2013

[11]Lead (Pb) Toxicity; Physio-Biochemical Mechanisms, Grain Yield, Quality, and Pb Distribution Proportions in Scented Rice. Ashraf, Umair,Kanu, Adam S.,Deng, Quanquan,Mo, Zhaowen,Pan, Shenggang,Tian, Hua,Tang, Xiangru,Ashraf, Umair,Kanu, Adam S.,Deng, Quanquan,Mo, Zhaowen,Pan, Shenggang,Tian, Hua,Tang, Xiangru. 2017

[12]Health risk assessment of Chinese consumers to lead via diet. Yu, Guoguang,Dai, Fen,Wang, Wen,Zheng, Weiran,Zhang, Zhiheng,Yuan, Yuwei,Wang, Qiang,Yu, Guoguang,Dai, Fen,Wang, Wen,Zheng, Weiran,Zhang, Zhiheng,Yuan, Yuwei,Wang, Qiang. 2017

[13]Cadmium and lead contamination in japonica rice grains and its variation among the different locations in southeast China. Cheng, FM,Zhao, NC,Xu, HM,Li, Y,Zhang, WF,Zhu, ZW,Chen, MX. 2006

[14]Simultaneously determination of trace Cd2+ and Pb2+ based on L-cysteine/graphene modified glassy carbon electrode. Zhou, Wenshu,Li, Caihong,Yang, Xiaodi,Sun, Chong,Zhou, Wenshu. 2016

[15]Determination of lead in food and feed samples using hydride generation-atomic fluorescence spectrometry. Zhai, YX,Hao, LH. 2000

[16]DNAzyme-based biosensor for detection of lead ion: A review. Liang, Gang,Man, Yan,Li, An,Jin, Xinxin,Pan, Ligang,Liang, Gang,Man, Yan,Li, An,Jin, Xinxin,Pan, Ligang,Liang, Gang,Man, Yan,Li, An,Jin, Xinxin,Pan, Ligang,Liu, Xinhui.

[17]Transfer of lead (Pb) in the soil-plant-mealybug-ladybird beetle food chain, a comparison between two host plants. Zhang, Can,Wang, Xingmin,Qiu, Baoli,Ali, Shaukat,Ashraf, Umair,Ashraf, Umair,Ali, Shaukat.

[18]Sensitive Determination of Trace Pb2+ in Seawater Using Columnar Glassy Carbon Electrode. Zhang, Xuzhi,Ma, Shaosai,Cui, Zhengguo,Chen, Jufa,Cui, Yi,Zhao, Jun,Feng, Xiaohua. 2011

[19]Alterations in growth, oxidative damage, and metal uptake of five aromatic rice cultivars under lead toxicity. Ashraf, Umair,Tang, Xiangru,Ashraf, Umair,Hussain, Saddam,Anjum, Shakeel Ahmad,Abbas, Farhat,Tanveer, Mohsin,Noor, Mehmood Ali.

[20]Effect of aeration rate, moisture content and composting period on availability of copper and lead during pig manure composting. Shen, Yujun,Zhao, Lixin,Meng, Haibo,Hou, Yueqing,Zhou, Haibin,Cheng, Hongsheng,Shen, Yujun,Zhao, Lixin,Meng, Haibo,Hou, Yueqing,Zhou, Haibin,Cheng, Hongsheng,Wang, Fei,Liu, Hongbin. 2016

作者其他论文 更多>>

微信小程序