硫同化途径在东南景天镉超积累中的作用。

Role of sulfur assimilation pathway in cadmium hyperaccumulation by Sedum alfredii Hance.

机构信息

Ministry of Education (MOE) Key Laboratory of Environmental Remediation and Ecosystem Health, College of Environmental and Resources Science, Zhejiang University, Hangzhou 310058, People's Republic of China.

Institute of Food and Agricultural Sciences, Indian River Research and Education Center, University of Florida, Fort Pierce, FL 34945, United States; Ministry of Education (MOE) Key Laboratory of Environmental Remediation and Ecosystem Health, College of Environmental and Resources Science, Zhejiang University, Hangzhou 310058, People's Republic of China.

出版信息

Ecotoxicol Environ Saf. 2014 Feb;100:159-65. doi: 10.1016/j.ecoenv.2013.10.026. Epub 2013 Nov 14.

DOI:10.1016/j.ecoenv.2013.10.026

PMID:24239266

Abstract

Sedum alfredii Hance is a promising cadmium (Cd) hyperaccumulating plant recently identified in China. However, the physiological and molecular mechanisms underlying Cd accumulation, which differentiate hyperaccumulating ecotype (HE) from non-hyperaccumulating ecotype (NHE) has not been elucidated yet. A hydroponic experiment was conducted to investigate the role of sulfur assimilation pathway in Cd hyperaccumulation by the S. alfredii Hance, by analyzing gene expression pattern in sulfur assimilation pathway and the concentration of some sulfur containing compounds. The results show that, sulfur assimilation pathway was affected by Cd differently in HE and NHE S. alfredii Hance. The gene expression pattern of sulfur assimilation pathway was regulated differently in HE and NHE plants, especially the nicotianamine synthase (NAS). NAS transcript levels in root of HE was 141-fold higher than NHE, while in shoots of HE only 0.31-fold higher than NHE. In HE roots, NAS expression level was maximum 3171-fold higher than shoots, while in NHE plants roots NAS expression level was maximum 45.3-fold higher than shoots. In HE plant roots, sulfur, cysteine and methionine concentrations increased 30%, 46% and 835% respectively, by Cd treatment, but in NHE plants roots, sulfur concentration increased less than 1%, cysteine and methionine concentrations decreased 78.5% and 13.3% respectively, by Cd. Cd exposure increased glutathione levels by 142% in HE but less than 10% in NHE plant roots.

摘要

Sedum alfredii Hance 是中国最近发现的一种有前景的镉（Cd）超积累植物。然而，超积累生态型（HE）与非超积累生态型（NHE）之间的 Cd 积累的生理和分子机制尚不清楚。通过分析硫同化途径中的基因表达模式和一些含硫化合物的浓度，进行了水培实验来研究硫同化途径在 Cd 超积累中的作用。结果表明，Cd 对 HE 和 NHE S. alfredii Hance 的硫同化途径有不同的影响。硫同化途径的基因表达模式在 HE 和 NHE 植物中受到不同的调节，特别是在烟碱酸合酶（NAS）。HE 根中的 NAS 转录水平比 NHE 高 141 倍，而 HE 茎中的 NAS 转录水平仅比 NHE 高 0.31 倍。在 HE 根中，NAS 表达水平比茎高 3171 倍，而在 NHE 植物根中，NAS 表达水平比茎高 45.3 倍。在 HE 植物根中，Cd 处理使硫、半胱氨酸和蛋氨酸浓度分别增加 30%、46%和 835%，而在 NHE 植物根中，硫浓度增加不到 1%，半胱氨酸和蛋氨酸浓度分别降低 78.5%和 13.3%。Cd 暴露使 HE 植物根中的谷胱甘肽水平增加了 142%，而在 NHE 植物根中的增加不到 10%。

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硫同化途径在东南景天镉超积累中的作用。

Role of sulfur assimilation pathway in cadmium hyperaccumulation by Sedum alfredii Hance.

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