期刊文献+
共找到3篇文章
< 1 >
每页显示 20 50 100
Analysis of Population Genetic Change to Single Oospore Strains of Phytophthora infestans
1
作者 Zhang Xuan-zhe Xu Hao-ran +5 位作者 Zhu Er-long Li Yuan-yuan Chen Su-hui Qian Bao-hong Ai Xin Pang Lin 《Journal of Northeast Agricultural University(English Edition)》 CAS 2023年第2期20-31,共12页
The occurrence of sexual reproduction accelerates the population genetic variation of Phytophthora infestans and makes it more difficult to control.The systematic analysis of the differentiation of phenotype(mating ty... The occurrence of sexual reproduction accelerates the population genetic variation of Phytophthora infestans and makes it more difficult to control.The systematic analysis of the differentiation of phenotype(mating type and metalaxyl sensitivity)and genotype(mtDNA haplotype and SSR genotype)of 65 single oospore strains of P.infestans was carried out in this article.Five test strains were isolated from Heilongjiang Province and Mongolia Autonomous Region.The experiment results showed that the isolation ratio of metalaxyl resistance(MR:HR)of single oospore strains produced through the cross of medium resistance and high resistant parents was 18:13;the isolation ratio of the metalaxyl resistance(S:MR:HR)of single oospore strains produced through the cross of sensitive and high resistant parents was 4:12:7.The progenies of single oospore strains produced through self-fertility parents with medium resistance were all of the medium resistance.The mating types A1:A2 was greater than 1:1 in single oospore strains of the progenies,which did not conform to the Mendel's law of inheritance.All single oospore strains of the progenies inherited mitochondrial DNA fragments from only one parent.Sexual recombination of single oospore strains was verified by using two pairs of SSR primers(Pi4B and Pi4G).At the locus of Pi4B and Pi4G in the cross of KS-37 and KS-25,the separation frequencies of allele were 19:12 and 14:17,respectively.They produced two new genotype strains.This study could provide a basis for formulating disease control strategies. 展开更多
关键词 Phytophthora infestans single oospore strain phenotypic differentiation genotypic differentiation
下载PDF
Life and death:the destiny of Phytophthora sojae determined by a receptor-like kinase
2
作者 He Wang Wen-Ming Wang Jing Fan 《Stress Biology》 2023年第1期530-533,共4页
Leucine-rich repeat receptor-like kinases(LRR-RLKs)are well known to act in plant growth,development,and defense responses.Plant LRR-RLKs locate on cell surface to sense and initiate responsive signals to a variety of... Leucine-rich repeat receptor-like kinases(LRR-RLKs)are well known to act in plant growth,development,and defense responses.Plant LRR-RLKs locate on cell surface to sense and initiate responsive signals to a variety of extracellular stimuli,such as microbe-associated molecular patterns(MAMPs)released from microorganisms.LRR-RLKs are also present in microbes and function in microbial growth and development,but their roles in communicating with hosts are largely unknown.A recent study published in Nature Communications uncovered that a microbial LRR-RLK,PsRLK6,is required for oospore development in the sexual reproduction of Phytophthora sojae,an oomycete pathogen that causes root and stem rot in soybean.Meanwhile,PsRLK6 is recognized as a novel type of MAMP by an unknown plant LRR receptor-like protein and triggers immune responses in soybean,tomato,and Nicotiana benthamiana.The findings reveal dual roles of a pathogen LRR-RLK in determining both life through sexual reproduction and death through triggering plant immunity. 展开更多
关键词 Phytophthora sojae PsRLK6 oospore Microbe-associated molecular patterns Plant immunity
下载PDF
Antagonistic interaction between Trichoderma asperellum and Phytophthora capsici in vitro 被引量:6
3
作者 Heng JIANG Liang ZHANG +2 位作者 Jing-ze ZHANG Mohammad Reza OJAGHIAN Kevin D.HYDE 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2016年第4期271-281,共11页
Phytophthora capsici is a phytopathogen that causes a destructive pepper blight that is extremely difficult to control. Using a fungicide application against the disease is costly and relatively ineffective and there ... Phytophthora capsici is a phytopathogen that causes a destructive pepper blight that is extremely difficult to control. Using a fungicide application against the disease is costly and relatively ineffective and there is also a huge environmental concern about the use of such chemicals. The genus Trichoderma has been known to have a potential biocontrol issue. In this paper we investigate the mechanism for causing the infection of T. asperellum against P. capsici. Tnchoderma sp. (isolate CGMCC 6422) was developed to have a strong antagonistic action against hyphae of P. capsici through screening tests. The strain was identified as T. asperellum through using a combination of morphological characteristics and molecular data. T. asperellum was able to collapse the mycelium of the colonies of the pathogen through dual culture tests by breaking down the pathogenic hyphae into fragments. The scanning electron microscope showed that the hyphae of T. aspere/lum surrounded and penetrated the pathogens hyphae, resulting in hyphal collapse. The results show that seven days after inoculation, the hyphae of the pathogen were completely degraded in a dual culture. T. asperel/um was also able to enter the P. capsici oospores through using oogonia and then developed hyphae and produced conidia, leading to the disintegration of the oogonia and oospores. Seven days after inoculation, an average 10.8% of the oospores were infected, but at this stage, the structures of oospores were still intact. Subsequently, the number of infected oospores increased and the oospores started to collapse. Forty-two days after inoculation, almost all the oospores were infected, with 9.3% of the structures of the oospores being intact and 90.7% of the oospores having collapsed. 展开更多
关键词 ANTAGONISM Electron microscopy Oogonium oospore PEPPER
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部