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水稻突变体对镉的吸收及其亚细胞分布和化学形态特点
引用本文:HE Jun-Yu,ZHU Cheng,REN Yan-Fang,YAN Yu-Ping,CHENG Chang,JIANG De-An,SUN Zong-Xiu. 水稻突变体对镉的吸收及其亚细胞分布和化学形态特点[J]. 土壤圈, 2008, 18(3): 371-377. DOI: 10.1016/S1002-0160(08)60027-2
作者姓名:HE Jun-Yu  ZHU Cheng  REN Yan-Fang  YAN Yu-Ping  CHENG Chang  JIANG De-An  SUN Zong-Xiu
作者单位:[1]State Key Laboratory of Plant Physiology & Biochemistry, College of Life Science, Zhejiang University, Hangzhou310058 (China) [2]College'of Agriculture, Guizhou University, Guizhou 550025 (China) [3]State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006 (China)
基金项目:国家自然科学基金,The National Key Technologies R&D Program of China during the llth Five-Year Plan Period,国家重点基础研究发展计划(973计划)
摘    要:Wild-type (Zhonghua 11) and mutant rice (Oryza sativa L.) plants were used to investigate the effect of cadmium (Cd) application on biomass production, to characterize the influx of Cd from roots to shoots, and to determine the form, content, and subcellular distribution of Cd in the roots, leaf sheaths, and leaves of the rice plants. Seedlings were cultivated in a nutrient solution and were treated with 0.5 mmol L^-1 of Cd^2+ for 14 d. The sensitivity of rice plants to Cd toxicity was tested by studying the changes in biomass production and by observing the onset of toxicity symptoms in the plants. Both the wild-type and mutant rice plants developed symptoms of Cd stress. In addition, Cd application significantly (P ≤ 0.01) decreased dry matter production of roots, leaf sheaths, and leaves of both types, especially the mutant. The Cd content in roots of the mutant was significantly (P ≤0.05) higher than that of the wild-type rice. However, there was no significant difference in the Cd content of roots, leaf sheaths, and leaves between the wild-type and mutant rice. Most of the Cd was bound to the cell wall of the roots, leaf sheaths, and leaves, and the mutant had greater Cd content in cell organelles than the wild type. The uneven subcellular distribution could be responsible for the Cd sensitivity of the mutant rice. Furthermore, different chemical forms of Cd were found to occur in the roots, leaf sheaths, and leaves of both types of rice plants. Ethanol-, water-, and NaCl-extractable Cd had greater toxicity than the other forms of Cd and induced stunted growth and chlorosis in the plants. The high Cd content of the toxic forms of Cd in the cell organelles could seriously damage the cells and the metabolic processes in mutant rice plants.

关 键 词:化学物质  稻子  亚细胞  镉元素
收稿时间:2007-09-15
修稿时间:24 March 2008. 

Uptake, subcellular distribution, and chemical forms of cadmium in wild-type and mutant rice
HE Jun-Yu,ZHU Cheng,REN Yan-Fang,YAN Yu-Ping,CHENG Chang,JIANG De-An and SUN Zong-Xiu. Uptake, subcellular distribution, and chemical forms of cadmium in wild-type and mutant rice[J]. Pedosphere, 2008, 18(3): 371-377. DOI: 10.1016/S1002-0160(08)60027-2
Authors:HE Jun-Yu  ZHU Cheng  REN Yan-Fang  YAN Yu-Ping  CHENG Chang  JIANG De-An  SUN Zong-Xiu
Affiliation:

aState Key Laboratory of Plant Physiology & Biochemistry, College of Life Science, Zhejiang University, Hangzhou 310058 (China)

bCollege of Agriculture, Guizhou University, Guizhou 550025 (China)

cState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006 (China)

Abstract:Wild-type (Zhonghua 11) and mutant rice (Oryza sativa L.) plants were used to investigate the efiect of cadmium (Cd) application on biomass production, to characterize the influx of Cd from roots to shoots, and to determine the form, content, and subcellular distribution of Cd in the roots, leaf sheaths, and leaves of the rice plants. Seedlings were cultivated in a nutrient solution and were treated with 0.5 mmol L−1 of Cd2+ for 14 d. The sensitivity of rice plants to Cd toxicity was tested by studying the changes in biomass production and by observing the onset of toxicity symptoms in the plants. Both the wild-type and mutant rice plants developed symptoms of Cd stress. In addition, Cd application signiflcantly (P ≤ 0.01) decreased dry matter production of roots, leaf sheaths, and leaves of both types, especially the mutant. The Cd content in roots of the mutant was signiflcantly (P ≤ 0.05) higher than that of the wild-type rice. However, there was no signiflcant difierence in the Cd content of roots, leaf sheaths, and leaves between the wild-type and mutant rice. Most of the Cd was bound to the cell wall of the roots, leaf sheaths, and leaves, and the mutant had greater Cd content in cell organelles than the wild type. The uneven subcellular distribution could be responsible for the Cd sensitivity of the mutant rice. Furthermore, difierent chemical forms of Cd were found to occur in the roots, leaf sheaths, and leaves of both types of rice plants. Ethanol-, water-, and NaCl-extractable Cd had greater toxicity than the other forms of Cd and induced stunted growth and chlorosis in the plants. The high Cd content of the toxic forms of Cd in the cell organelles could seriously damage the cells and the metabolic processes in mutant rice plants.
Keywords:cadmium  chemical form  rice  subcellular distribution  uptake
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