Jin Zhang, Yuan Qin, Xuan Chen, Nayun Xiao, Wei Jiang, Haiyang Tang, Hui Zhou, Xianjin Qiu, Jianlong Xu, Fanrong Zeng, Zhong-Hua Chen, Guang Chen, Fenglin Deng
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引用次数: 0
Abstract
Aims
Copper (Cu) is an essential microelement for plants but it’s toxic at elevated concentration. The natural variation, physiological and genetic basis of rice in response to Cu toxicity was revealed herein.
Methods
The genotypic variation of rice sensitivity to excess Cu was investigated by using a natural collection of 183 rice accessions, Cu deposition in the whole root tips and the cell fractions of Cu-tolerant DF82, DF93 and sensitive ZH11 was determined, the expression levels of the potential genes related to Cu transport and cell wall modeling were compared.
Results
The sensitivity of rice in response to excessive Cu showed large variation with a relative root elongation at 18 ~ 107%. A slightly higher Cu concentrations in the root tips of DF93 than that of DF82 and ZH11 however, more Cu was deposited in the root cell wall and extremely lower Cu was accumulated in the symplastic space of the DF82 and DF93. The expression of OsCOPT1 was reduced in the root tips of DF93, while the transcriptions of OsCOPT7 and OsHMA5 were more abundant. In addition, the expression of several genes encoding the enzymes and receptor kinases potentially involved in cell wall remodeling was regulated by excessive level of Cu, and certain members displayed varied expression pattern in DF93 and ZH11.
Conclusions
The differential partition of Cu in cell wall and symplastic space contributes to the natural variation of Cu tolerance in rice, which is likely attributed to the differentially expressed genes responsible for Cu transport and cell wall remodeling.
期刊介绍:
Plant and Soil publishes original papers and review articles exploring the interface of plant biology and soil sciences, and that enhance our mechanistic understanding of plant-soil interactions. We focus on the interface of plant biology and soil sciences, and seek those manuscripts with a strong mechanistic component which develop and test hypotheses aimed at understanding underlying mechanisms of plant-soil interactions. Manuscripts can include both fundamental and applied aspects of mineral nutrition, plant water relations, symbiotic and pathogenic plant-microbe interactions, root anatomy and morphology, soil biology, ecology, agrochemistry and agrophysics, as long as they are hypothesis-driven and enhance our mechanistic understanding. Articles including a major molecular or modelling component also fall within the scope of the journal. All contributions appear in the English language, with consistent spelling, using either American or British English.
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