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中文摘要:
大豆疫霉根腐病是危害大豆生产的世界范嗣的毁灭性病害,毒素在其致病过程中起着重要作用。对大豆疫霉根腐病菌毒素胁迫下抗感不同大豆品种根、茎、叶中过氧化物酶(POD)活性的变化进行了初步研究。结果表明:适宜浓度的毒素(稀释100倍,浓度为0.0897mg·mL^-1)处理后,抗病大豆品种根、茎和叶中POD活性在病程的大部分阶段与对照相比都有升高,并且根中比茎叶中的POD反应更敏感;感病品种虽然在某些病程阶段POD活性较对照有一定的提高,但幅度不大,在病程其它阶段POD下降幅度远大于升高幅度。而浓度相对较高的毒素(稀释50倍,浓度为0.1794mg·mL^-1)处理后抗感品种根、茎和叶中POD活性的变化较稀释100倍浓度毒素幅度小。
英文摘要:
Phytophthora root and stem rot caused by Phytophthora sojae is a worldwidly destructive soybean disease, and the pathotoxin produced by P. sojae is an important pathogenic factor in the pathogenicity process. In this study, changes of per- oxidase (POD) of nine soybean varieties with different resistance treated with the pathotoxin was preliminarily researched, and the results were as follows: The POD activities in roots, stems, and leaves of resistant soybean varieties treated with the pathotoxin of optimal concentration ( Diluted to 100 times, and the concentration is 0. 0897 mg · mL- 1 ) was higher than that of control at most of the pathogenicity stages, and the reaction of POD in roots is more sensitive than that in stems and leav- es. The POD activities in susceptible soybean varieties increased compared with that in control at some of the pathogenicity stages, however, it decreased at most of the pathogenic stages. Treated with pathotoxin with high concentration (Diluted to 50 times, and the concentration is 0. 1794 mg ·mL-1 ) , the change extent of POD activity in roots, stems, and leaves in the nine soybean varieties was relatively low. The results indicated that there was difference in POD activities among different soybean cultivars treated with optimal concentration pathotoxin produced by P. sojae.
同期刊论文项目
同项目期刊论文
Evaluation of short-season soybean genotypes for partial resistance to root rot by Phytophthora soja
Phylogenetic Analysis of the Sequences of rDNA Internal Transcribed Spacer(ITS) of Phytophthora soja
Isolation and Characterization of a Pathogenesis-related protein 10 Gene transcript (GmPR10) in Soyb
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