It is necessary to understand the bacterial populations associated with rice so as to provide more information and natural resources for effective management of major diseases in rice. A survey on screening and identi...It is necessary to understand the bacterial populations associated with rice so as to provide more information and natural resources for effective management of major diseases in rice. A survey on screening and identification of gram-positive bacteria was conducted during 1998 2004. Seven hundred and fifty-six rice samples were collected from Zhejiang, Jiangsu, Fujian and Yunnan Provinces, China. Over 1000 bacterial isolates were isolated and tested for colony morphology, pathogenicity, and some characteristics of bacteriology including Gram staining, fluorescent pigment on Kings medium B and microscopic observation for endospore. Together with five standard reference strains, 74 representative gram-positive bacterial isolates were confirmed by Biolog and gas chromatographic analysis of fatty acid methyl esters. Five bacterial species of Bacillus and other three genera were identified and isolates from Bacillus sublitis and Bacillus megaterium, exhibited the most effective inhibition against the pathogens of sheath blight and bakanae disease of rice. A few isolates from Bacillus pumilus and Bacillus megaterium showed weak virulent on rice together with some virulent isolates, risk should be considered when isolates from these species were screened for biocontrol agents.展开更多
Diverse bacterial and fungal pathogens attack plants,causing biotic stress and severe yield losses globally.These losses are expected to become more serious as climate change improves conditions for many pathogens.The...Diverse bacterial and fungal pathogens attack plants,causing biotic stress and severe yield losses globally.These losses are expected to become more serious as climate change improves conditions for many pathogens.Therefore,identifying genes conferring broad-spectrum disease resistance and elucidating their underlying mechanisms provides important resources for plant breeding.WRKY transcription factors affect plant growth and stress responses.However,the functions of many WRKY proteins remain to be elucidated.Here,we demonstrated the role of rice(Oryza sativa)WRKY groupⅢtranscription factor OsWRKY65 in immunity.OsWRKY65 localized to the nucleus and acted as transcriptional repressor.Genetic and molecular functional analyses showed that OsWRKY65 increases resistance to the fungal pathogen Fusarium fujikuroi through downregulation of GA signaling and upregulation of JA signaling.Moreover,OsWRKY65 modulated the expression of the key genes that confer susceptibility or resistance to Xanthomonas oryzae pv.oryzae to enhance immunity against the pathogen.In particular,OsWRKY65directly bound to the promoter region of OsSWEET13 and repressed its expression.Taken together,our findings demonstrate that the OsWRKY65 enhances resistance to fungal and bacterial pathogens in rice.展开更多
Bakanae is an emerging rice disease caused by the seed-and soil-borne pathogen Fusarium fujikuroi.It is becoming a more serious threat to sustainable rice production throughout rice-growing regions.Bakanae disease inf...Bakanae is an emerging rice disease caused by the seed-and soil-borne pathogen Fusarium fujikuroi.It is becoming a more serious threat to sustainable rice production throughout rice-growing regions.Bakanae disease infection is responsible for high yield losses ranging from 3%to 95%,and disease incidence varies based on the region and cultivars.Hence,understanding the nature of the pathogen,its pathogenicity,disease epidemiology,symptoms,host–pathogen interaction,and the role of secondary metabolites in the disease cycle will be helpful in the development of effective and sustainable management strategies.However,very few comprehensive studies have described the details of rice bakanae disease.Thus,in this review we summarize and discuss in detail the information available from 1898 to 2023 on various critical facets of bakanae disease,and provide perspectives on future research.展开更多
After different treatments, germination of rice seeds and growth of young seedlings were observed, and the optimal seed soaking agent was selected by comparing seedling growth and incidence of bakanae disease in the f...After different treatments, germination of rice seeds and growth of young seedlings were observed, and the optimal seed soaking agent was selected by comparing seedling growth and incidence of bakanae disease in the fidd. The results showed that self-made powder (800 times) could promote indoor seed germina- tion and seedling growth, had no obvious inhibitory effect on the growth of seedlings in the field, and could reduce the incidence of bakanae disease of rice seed- lings, so it was the optimal treatment for controlling rice bakanae disease.展开更多
The prevention and control effect of 35% thiamethoxam-prochloraz FS to rice thrips and rice bakanae disease and its influence on the quality of rice seedlings were studied. The results show that when 100 kg of rice se...The prevention and control effect of 35% thiamethoxam-prochloraz FS to rice thrips and rice bakanae disease and its influence on the quality of rice seedlings were studied. The results show that when 100 kg of rice seeds were coated with 200 g of 35% thiamethoxam-prochloraz FS,the control effects to rice thrips were 93.0% and 84.7% 15 and 20 days after sowing, and the control effect to rice bakanae disease was 90.8% 30 days after sowing. As 100 kg of rice seeds were coated with 250 g of 35% thiamethoxam-prochloraz FS, the control effects to rice thrips were 98.2% and 94.9% 15 and 20 days after sowing, and the control ef- fect to rice bakanae disease was 94.6% 30 days after sowing. 35% thiamethoxam- prochloraz FS is safe to rice seedlings and can effectively promote the growth of rice seedlings.展开更多
We collected infection plants of rice bakanae desiease from 22 counties (cities) in Hubei Province in 1990-1992. Thirty five isolates of single spore were isolated from the plants. Fusarium species were identified fr... We collected infection plants of rice bakanae desiease from 22 counties (cities) in Hubei Province in 1990-1992. Thirty five isolates of single spore were isolated from the plants. Fusarium species were identified from these isolates based on the method of Booth(1971) and other authors. Six kinds of medium wereused in the experiment. Color and growth rate ofcolonies as well as other characters were determinedfrom cultures grown on PSA. The results showedthat thirty one isolates were Fusarium moniliformevar. zhejiangensis, two isolates were Fusariumgramineum, one was Fusariurn oxysporum, and onewas Fusarium solani.展开更多
基金the National Natural Science Foundation of China(30270891) National 863 Program(2002AA241261).
文摘It is necessary to understand the bacterial populations associated with rice so as to provide more information and natural resources for effective management of major diseases in rice. A survey on screening and identification of gram-positive bacteria was conducted during 1998 2004. Seven hundred and fifty-six rice samples were collected from Zhejiang, Jiangsu, Fujian and Yunnan Provinces, China. Over 1000 bacterial isolates were isolated and tested for colony morphology, pathogenicity, and some characteristics of bacteriology including Gram staining, fluorescent pigment on Kings medium B and microscopic observation for endospore. Together with five standard reference strains, 74 representative gram-positive bacterial isolates were confirmed by Biolog and gas chromatographic analysis of fatty acid methyl esters. Five bacterial species of Bacillus and other three genera were identified and isolates from Bacillus sublitis and Bacillus megaterium, exhibited the most effective inhibition against the pathogens of sheath blight and bakanae disease of rice. A few isolates from Bacillus pumilus and Bacillus megaterium showed weak virulent on rice together with some virulent isolates, risk should be considered when isolates from these species were screened for biocontrol agents.
基金funded by Research Program for Agricultural Science and Technology Development(PJ01570601)and the Fellowship Program(PJ01661001 and PJ01570601)of the National Institute of Agricultural Sciences,Rural Development Administration,Republic of Korea。
文摘Diverse bacterial and fungal pathogens attack plants,causing biotic stress and severe yield losses globally.These losses are expected to become more serious as climate change improves conditions for many pathogens.Therefore,identifying genes conferring broad-spectrum disease resistance and elucidating their underlying mechanisms provides important resources for plant breeding.WRKY transcription factors affect plant growth and stress responses.However,the functions of many WRKY proteins remain to be elucidated.Here,we demonstrated the role of rice(Oryza sativa)WRKY groupⅢtranscription factor OsWRKY65 in immunity.OsWRKY65 localized to the nucleus and acted as transcriptional repressor.Genetic and molecular functional analyses showed that OsWRKY65 increases resistance to the fungal pathogen Fusarium fujikuroi through downregulation of GA signaling and upregulation of JA signaling.Moreover,OsWRKY65 modulated the expression of the key genes that confer susceptibility or resistance to Xanthomonas oryzae pv.oryzae to enhance immunity against the pathogen.In particular,OsWRKY65directly bound to the promoter region of OsSWEET13 and repressed its expression.Taken together,our findings demonstrate that the OsWRKY65 enhances resistance to fungal and bacterial pathogens in rice.
基金supported by the National Nuclear Energy Exploitation Program-Nuclear Irradiation for Crop Improvement and Insect Eradication and the International Atomic Energy Agency(IAEA)Coordination Research Project(No.D23020-23042),China.
文摘Bakanae is an emerging rice disease caused by the seed-and soil-borne pathogen Fusarium fujikuroi.It is becoming a more serious threat to sustainable rice production throughout rice-growing regions.Bakanae disease infection is responsible for high yield losses ranging from 3%to 95%,and disease incidence varies based on the region and cultivars.Hence,understanding the nature of the pathogen,its pathogenicity,disease epidemiology,symptoms,host–pathogen interaction,and the role of secondary metabolites in the disease cycle will be helpful in the development of effective and sustainable management strategies.However,very few comprehensive studies have described the details of rice bakanae disease.Thus,in this review we summarize and discuss in detail the information available from 1898 to 2023 on various critical facets of bakanae disease,and provide perspectives on future research.
文摘After different treatments, germination of rice seeds and growth of young seedlings were observed, and the optimal seed soaking agent was selected by comparing seedling growth and incidence of bakanae disease in the fidd. The results showed that self-made powder (800 times) could promote indoor seed germina- tion and seedling growth, had no obvious inhibitory effect on the growth of seedlings in the field, and could reduce the incidence of bakanae disease of rice seed- lings, so it was the optimal treatment for controlling rice bakanae disease.
基金Supported by the Guiding Plan for Agricultural Science and Technology of Yancheng City(YKN2013018)~~
文摘The prevention and control effect of 35% thiamethoxam-prochloraz FS to rice thrips and rice bakanae disease and its influence on the quality of rice seedlings were studied. The results show that when 100 kg of rice seeds were coated with 200 g of 35% thiamethoxam-prochloraz FS,the control effects to rice thrips were 93.0% and 84.7% 15 and 20 days after sowing, and the control effect to rice bakanae disease was 90.8% 30 days after sowing. As 100 kg of rice seeds were coated with 250 g of 35% thiamethoxam-prochloraz FS, the control effects to rice thrips were 98.2% and 94.9% 15 and 20 days after sowing, and the control ef- fect to rice bakanae disease was 94.6% 30 days after sowing. 35% thiamethoxam- prochloraz FS is safe to rice seedlings and can effectively promote the growth of rice seedlings.
文摘 We collected infection plants of rice bakanae desiease from 22 counties (cities) in Hubei Province in 1990-1992. Thirty five isolates of single spore were isolated from the plants. Fusarium species were identified from these isolates based on the method of Booth(1971) and other authors. Six kinds of medium wereused in the experiment. Color and growth rate ofcolonies as well as other characters were determinedfrom cultures grown on PSA. The results showedthat thirty one isolates were Fusarium moniliformevar. zhejiangensis, two isolates were Fusariumgramineum, one was Fusariurn oxysporum, and onewas Fusarium solani.
