Root-knot nematodes(RKNs,Meloidogyne spp.) are obligate biotrophic parasites that settle close to the vascular tissues in plant roots.The diseases resulting from RKN infections cause serious damage to agricultural p...Root-knot nematodes(RKNs,Meloidogyne spp.) are obligate biotrophic parasites that settle close to the vascular tissues in plant roots.The diseases resulting from RKN infections cause serious damage to agricultural production worldwide.In the present paper,the resistance of Chinese leek(Allium tuberosum Rottler ex Sprengel) against RKNs,its suppressive effect on nematode disease,its nematicidal activity and its component profile were studied to identify an efficient disease control method.In soil heavily infected by nematodes,Chinese leek showed strong resistance to RKNs.Additionally,the gall indexes of cucumber plants rotated with Chinese leek and of tomato plants intercropped with Chinese leek were reduced by 70.2 and 41.1%,respectively.In a pot experiment,the gall indexes of Chinese leek extract-treated tomato and cucumber plants were reduced by 88.9 and 75.9%,respectively.In an in vitro experiment,the mortality rate of a RKN(Meloidogyne incognita J2) treated with Chinese leek extract was significantly higher than that of the control.The gas chromatography-mass spectrometry(GC-MS) analysis revealed that glycosides,carboxylic acids,ketones and organic sulfides are the main components in the Chinese leek extract.This study revealed that Chinese leek possesses a high resistance to RKNs,has strong nematicidal activity against M.incognita and can significantly reduce the incidence of disease caused by nematodes.展开更多
Allium tuberosum Roxb is very popular for its function of stomach-strengthening,spirit-freshening,yang-warming and kidney essencereplenishing,however,its seeds appear to low bud,irregular sapling and other side effect...Allium tuberosum Roxb is very popular for its function of stomach-strengthening,spirit-freshening,yang-warming and kidney essencereplenishing,however,its seeds appear to low bud,irregular sapling and other side effects,which result in low yield and poor quality.This paper analyzed effects of PEG6000 concentration on budding percentage in detail.It comes to conclusions that budding percentage of No.1 seed increases from 71% to 92% on the basis of 36 h treatment by 20% PEG6000 and 24 h water-drying,that of No.3 seed ranges from 30.4% to 53.4% on the basis of the same treatment by 10% PEG6000.展开更多
[Objectives]To investigate the molecular mechanism of gene differential expression in A.tuberosum under Botrytis cinerea stress.[Methods]The leaf of A.tuberosum was inoculated with B.cinerea to induce resistance,then ...[Objectives]To investigate the molecular mechanism of gene differential expression in A.tuberosum under Botrytis cinerea stress.[Methods]The leaf of A.tuberosum was inoculated with B.cinerea to induce resistance,then leaf samples were taken at 2,4,8,12 and 24 h,respectively,after inoculation,and used for cDNA-SCoT analysis to detect the gene differential expressions.[Results]More than 800 bands with length of 100-1800 bp were obtained using 60 SCoT primers.A total of 40 differentially expressed EST sequences were screened out,and 18 non-redundant ESTs with high quality were obtained by cluster analyses of the ESTs sequencing.The results of BlastN showed that the differential genes of A.tuberosum mainly related to disease defense,signal transduction,and protein metabolism.[Conclusions]Further analysis of gene function indicated that brassinosteroid biosynthesis-like proteins,NBS-LRR type disease resistance protein,jasmonic acid induced protein,abscisic stress ripening protein may be involved in the process of the incompatible interaction between the A.tuberosum and B.cinerea.展开更多
Chinese leek(Allium tuberosum Rottler ex Sprengel) is a common vegetable in China. In our previous study, Chinese leek in rotation was found to have significant antifungal and nematicidal activity. This study's aim...Chinese leek(Allium tuberosum Rottler ex Sprengel) is a common vegetable in China. In our previous study, Chinese leek in rotation was found to have significant antifungal and nematicidal activity. This study's aim was to investigate the potential antifungal and nematicidal activity associated with rhizosphere or endophytic microbes of Chinese leek. Thus, a total of 79 261 high-quality sequences were obtained from Chinese leek rhizosphere soil, leaf and root samples. In the rhizosphere soil, the bacterial community comprised five dominant phyla: Proteobacteria(37.85%), Acidobacteria(10.99%), Bacteroidetes(8.24%), Cyanobacteria(7.79%) and Planctomycetes(7.1%). The leaf and root bacterial communities comprised two dominant phyla: Cyanobacteria(83.42% in leaf and 75.44% in root) and Proteobacteria(14.75% in leaf and 21.04% in root). Microbial diversity, richness and evenness in the rhizosphere soil bacterial community were higher than that in the endophytic bacterial communities. The rhizosphere bacterial community was significantly different from the endophytic bacterial communities. The endophytic bacterial communities from the leaf and the root were slightly, but not significantly different from each other. This study's findings would contribute to the isolation and identification of nematicidal and antifungal bacterial communities in Chinese leek.展开更多
基金supported by the National Natural Science Foundation of China(31272151,31471864)the Agro-scientific Research in the Public Interest,China(201103018)the China Agriculture Research System(CARS-25)
文摘Root-knot nematodes(RKNs,Meloidogyne spp.) are obligate biotrophic parasites that settle close to the vascular tissues in plant roots.The diseases resulting from RKN infections cause serious damage to agricultural production worldwide.In the present paper,the resistance of Chinese leek(Allium tuberosum Rottler ex Sprengel) against RKNs,its suppressive effect on nematode disease,its nematicidal activity and its component profile were studied to identify an efficient disease control method.In soil heavily infected by nematodes,Chinese leek showed strong resistance to RKNs.Additionally,the gall indexes of cucumber plants rotated with Chinese leek and of tomato plants intercropped with Chinese leek were reduced by 70.2 and 41.1%,respectively.In a pot experiment,the gall indexes of Chinese leek extract-treated tomato and cucumber plants were reduced by 88.9 and 75.9%,respectively.In an in vitro experiment,the mortality rate of a RKN(Meloidogyne incognita J2) treated with Chinese leek extract was significantly higher than that of the control.The gas chromatography-mass spectrometry(GC-MS) analysis revealed that glycosides,carboxylic acids,ketones and organic sulfides are the main components in the Chinese leek extract.This study revealed that Chinese leek possesses a high resistance to RKNs,has strong nematicidal activity against M.incognita and can significantly reduce the incidence of disease caused by nematodes.
文摘Allium tuberosum Roxb is very popular for its function of stomach-strengthening,spirit-freshening,yang-warming and kidney essencereplenishing,however,its seeds appear to low bud,irregular sapling and other side effects,which result in low yield and poor quality.This paper analyzed effects of PEG6000 concentration on budding percentage in detail.It comes to conclusions that budding percentage of No.1 seed increases from 71% to 92% on the basis of 36 h treatment by 20% PEG6000 and 24 h water-drying,that of No.3 seed ranges from 30.4% to 53.4% on the basis of the same treatment by 10% PEG6000.
基金Supported by Key Scientific Research Projects of Colleges and Universities in Henan Province(21B210007).
文摘[Objectives]To investigate the molecular mechanism of gene differential expression in A.tuberosum under Botrytis cinerea stress.[Methods]The leaf of A.tuberosum was inoculated with B.cinerea to induce resistance,then leaf samples were taken at 2,4,8,12 and 24 h,respectively,after inoculation,and used for cDNA-SCoT analysis to detect the gene differential expressions.[Results]More than 800 bands with length of 100-1800 bp were obtained using 60 SCoT primers.A total of 40 differentially expressed EST sequences were screened out,and 18 non-redundant ESTs with high quality were obtained by cluster analyses of the ESTs sequencing.The results of BlastN showed that the differential genes of A.tuberosum mainly related to disease defense,signal transduction,and protein metabolism.[Conclusions]Further analysis of gene function indicated that brassinosteroid biosynthesis-like proteins,NBS-LRR type disease resistance protein,jasmonic acid induced protein,abscisic stress ripening protein may be involved in the process of the incompatible interaction between the A.tuberosum and B.cinerea.
基金supported by the National Natural Science Foundation of China (31471864 and 31272151)the Qingdao Agricultural University High-level Personnel Startup Fund, China (6631115024)
文摘Chinese leek(Allium tuberosum Rottler ex Sprengel) is a common vegetable in China. In our previous study, Chinese leek in rotation was found to have significant antifungal and nematicidal activity. This study's aim was to investigate the potential antifungal and nematicidal activity associated with rhizosphere or endophytic microbes of Chinese leek. Thus, a total of 79 261 high-quality sequences were obtained from Chinese leek rhizosphere soil, leaf and root samples. In the rhizosphere soil, the bacterial community comprised five dominant phyla: Proteobacteria(37.85%), Acidobacteria(10.99%), Bacteroidetes(8.24%), Cyanobacteria(7.79%) and Planctomycetes(7.1%). The leaf and root bacterial communities comprised two dominant phyla: Cyanobacteria(83.42% in leaf and 75.44% in root) and Proteobacteria(14.75% in leaf and 21.04% in root). Microbial diversity, richness and evenness in the rhizosphere soil bacterial community were higher than that in the endophytic bacterial communities. The rhizosphere bacterial community was significantly different from the endophytic bacterial communities. The endophytic bacterial communities from the leaf and the root were slightly, but not significantly different from each other. This study's findings would contribute to the isolation and identification of nematicidal and antifungal bacterial communities in Chinese leek.