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Long-term effects of simulated acid rain stress on a staple forest plant, Pinus massoniana Lamb: A proteomic analysis
Wang, Xiaoq ; Liu, Zheng ; Niu, Li ; Fu, Bin ; Wang XQ(王晓琴)
刊名http://dx.doi.org/10.1007/s00468-012-0799-z
2013
关键词Acid rain Amino acids Biochemistry Electrophoresis Forestry Metabolism Photosynthesis Physiological models Proteins Sugar (sucrose)
英文摘要At present, acid rain has become one of the top ten global environmental issues. Acid rain causes slower growth, injury, or decline of forests. Some dramatic effects on forests have been observed in south China since the late 1970s and the situation is deteriorating. We carried out a comparative proteomic analysis on Pinus massoniana Lamb, a staple tree species widely distributed in middle and south China to gain a better understanding of tree response to acid rain at molecular level. Two-year-old P. massoniana saplings were treated with simulated AR (SiAR) or control solution, respectively, for 8 months. The changes in total protein profile of P. massoniana leaves were studied using two-dimensional differential gel electrophoresis (2D-DIGE). Among the total protein spots reproducibly detected on each gel, 65 spots representing 28 proteins were identified to be differentially regulated. These proteins were annotated in various biological functions, such as photosynthesis and energy metabolism, secondary metabolism, protein stability, amino acid and nitrogen metabolism and defense. Down-regulation of four key enzymes in the Calvin cycle identified that biomass loss by SiAR was mainly due to the inhibition of carbon fixation. Primary energy metabolisms involved in sucrose biosynthesis, glycolytic pathway and Krebs cycle, etc., were also disturbed after SiAR treatment. Specifically, most of up-regulated proteins were related to secondary metabolism, protein stability and defense, suggesting that in response to SiAR stress, plants started a variety of metabolic pathways to prevent cells from damage. Different from the herbaceous plants suffering SiAR, it revealed that secondary metabolites in P. massoniana play pivotal roles against SiAR. Protemoic techniques were demonstrated a reliable and robust tool to expand our understanding of differentially expressed proteins associated with acid rain stress on P. massoniana. Functional analysis of these proteins further revealed biochemical and physiological basis of the plant in response to acid rain and would provide strategies for breeding new acid rain tolerant tree species. To our knowledge, it is the first proteome report on the forest plant suffering long-term acid rain stress. ? 2012 The Author(s).
语种英语
出版者Springer Verlag
内容类型期刊论文
源URL[http://dspace.xmu.edu.cn/handle/2288/89225]  
专题化学化工-已发表论文
推荐引用方式
GB/T 7714
Wang, Xiaoq,Liu, Zheng,Niu, Li,et al. Long-term effects of simulated acid rain stress on a staple forest plant, Pinus massoniana Lamb: A proteomic analysis[J]. http://dx.doi.org/10.1007/s00468-012-0799-z,2013.
APA Wang, Xiaoq,Liu, Zheng,Niu, Li,Fu, Bin,&王晓琴.(2013).Long-term effects of simulated acid rain stress on a staple forest plant, Pinus massoniana Lamb: A proteomic analysis.http://dx.doi.org/10.1007/s00468-012-0799-z.
MLA Wang, Xiaoq,et al."Long-term effects of simulated acid rain stress on a staple forest plant, Pinus massoniana Lamb: A proteomic analysis".http://dx.doi.org/10.1007/s00468-012-0799-z (2013).
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