文献类型: 外文期刊
作者: Chen, Jian 2 ; Yang, Zhi Min 1 ;
作者机构: 1.Nanjing Agr Univ, Coll Life Sci, Nanjing 210095, Jiangsu, Peoples R China
2.Jiangsu Acad Agr Sci, Inst Food Safety & Qual, Nanjing 210014, Jiangsu, Peoples R China
关键词: Mercury;Plants;Toxicology;Tolerance;Small RNA;Gene expression;Molecular response
期刊名称:BIOMETALS ( 影响因子:2.949; 五年影响因子:2.978 )
ISSN: 0966-0844
年卷期: 2012 年 25 卷 5 期
页码:
收录情况: SCI
摘要: Mercury (Hg) contamination in soils has become a great concern as a result of its natural release and anthropogenic activities. This review presents broad aspects of our recent understanding of mercury contamination and toxicology in plants including source of Hg contamination, toxicology, tolerant regulation in plants, and minimization strategy. We first introduced the sources of mercury contamination in soils. Mercury exists in different forms, but ionic mercury (Hg2+) is the predominant form in soils and readily absorbed by plants. The second issue to be discussed is the uptake, transport, and localization of Hg2+ in plants. Mercury accumulated in plants evokes severe phytotoxicity and impairs numerous metabolic processes including nutrient uptake, water status, and photosynthesis. The mechanisms of mercury-induced toxicology, molecular response and gene networks for regulating plant tolerance will be reviewed. In the case of Hg recent much progress has been made in profiling of transcriptome and more importantly, uncovering a group of small RNAs that potentially mediates plant tolerance to Hg. Several newly discovered signaling molecules such as nitric oxide and carbon monoxide have now been described as regulators of plant tolerance to Hg. A recently emerged strategy, namely selection and breeding of plant cultivars to minimize Hg (or other metals) accumulation will be discussed in the last part of the review.
- 相关文献
作者其他论文 更多>>
-
Progress in Microbial Fertilizer Regulation of Crop Growth and Soil Remediation Research
作者:Wang, Tingting;Xu, Jiaxin;Liu, Peng;Hou, Xin;Yang, Long;Zhang, Li;Chen, Jian
关键词:microbiological fertilizer; plant-growth-promoting bacteria; crop growth; soil remediation
-
A long non-coding RNA associated with H3K7me3 methylation negatively regulates OsZIP16 transcription under cadmium stress
作者:Li, He;Sun, Di;Yang, Zhi Min;Liu, Xue Song
关键词:Rice; LncRNA; ZIP16; Cadmium; Endoplasmic reticulum
-
Thymol Deploys Multiple Antioxidative Systems to Suppress ROS Accumulation in Chinese Cabbage Seedlings under Saline Stress
作者:Sun, Changwei;Wang, Lanlan;Yang, Lifei;Chen, Jian;Shi, Zhiqi;Yu, Xiangyang;Li, Jiajun
关键词:antioxidant; biostimulant; Chinese cabbage; oxidative stress; ROS; salinity; thymol
-
Thidiazuron combined with cyclanilide modulates hormone pathways and ROS systems in cotton, increasing defoliation at low temperatures
作者:Shu, Hongmei;Sun, Shangwen;Wang, Xiaojing;Yang, Changqin;Zhang, Guowei;Li, Zhikang;Liang, Ting;Liu, Ruixian;Chen, Jian;Han, Huanyong
关键词:cyclanilide; thidiazuron; cotton; low temperature; defoliation
-
Rhizosphere Bacteria Help to Compensate for Pesticide-Induced Stress in Plants
作者:Li, Yong;Chen, Jian;Zhang, Leigang;Cheng, Jinjin;Yu, Xiangyang;Li, Yong;Zhang, Kaiwei;Chen, Jian;Zhang, Leigang;Feng, Fayun;Cheng, Jinjin;Ma, Liya;Li, Mei;Wang, Ya;Yu, Xiangyang;Yu, Xiangyang;Jiang, Wayne
关键词:microbial compensatory; pesticides; rhizospherebacteria; root exudates; plant growth
-
Eugenol improves salt tolerance via enhancing antioxidant capacity and regulating ionic balance in tobacco seedlings
作者:Xu, Jiaxin;Wang, Tingting;Liu, Peng;Hou, Xin;Yu, Tao;Gao, Yun;Liu, Zhiguo;Yang, Long;Zhang, Li;Sun, Changwei;Chen, Jian
关键词:eugenol; oxidative stress; reactive oxygens species; redox homeostasis; salt stress; tobacco
-
A transposable element-derived siRNAs involve DNA hypermethylation at the promoter of OsGSTZ4 for cadmium tolerance in rice
作者:Liu, Xue Song;Li, He;Feng, Sheng Jun;Yang, Zhi Min;Liu, Xue Song;Feng, Sheng Jun
关键词:glutathione-S-transferase; DNA hypermethylation; Transposable element; Rice; siRNAs; Cadmium stress
