DNA sequence diversities of soil microbial communities in rhizosphere and non-rhizosphere of 1 - 6 years Panax ginseng were evaluated by random amplified polymorphic DNA (RAPD). Total genomic DNA of soil samples were ...DNA sequence diversities of soil microbial communities in rhizosphere and non-rhizosphere of 1 - 6 years Panax ginseng were evaluated by random amplified polymorphic DNA (RAPD). Total genomic DNA of soil samples were amplified by twenty-four out of two hundred random primers. The products were separated in agarose gel, and 359 and 181 reliable fragments were generated, of which, 324 and 123 were polymorphic. The gene diversity index, Shannon’s information index, and similarity coefficient were calculated, and results showed that, diversity of soil microbial community at DNA level was present. Furthermore, with the increasing of P. ginseng growing at one site, deference on soil microbial community DNA sequence between rhizosphere and non-rhizosphere tend to be more and more significant. In addition, RAPD technique was proved to be an effective tool to assess the diversity of soil microbial communities. From results we deduced that, the ecological function that performed by soil microbes may changed following the change of microbial community in rhizospheric and non-rhizospheric soils, and finally broke the balance of soil nutrition and energy cycle, soil spatial structure, microbial ecology etc.展开更多
[Objectives] To study the microstructure and ultrastructure changes of P. ginseng root tip infected by C. destructans. [Methods]The paraffin section and superfine slice were used to observe the microstructure and ultr...[Objectives] To study the microstructure and ultrastructure changes of P. ginseng root tip infected by C. destructans. [Methods]The paraffin section and superfine slice were used to observe the microstructure and ultrastructure of root tip of P. ginseng,respectively.[Results] Microstructure and ultrastructure observation indicated that,the morphology and structure of epidermal cells of P. ginseng were regular,cells had abundant contents,and organelles were easy to observe in control. However,after infected by C. destructans,the cell walls were thicken seven days post inoculation,particles were deposited in epidemic cells and pith,cell walls were broken,and cells began to disintegrate. Furthermore,morphology of cells was abnormal and contents in cells were decreased when infected by C. destructans. The organelles were break up,and difficult to be distinguished. [Conclusions] Through the results we deduced that,the hypha of C. destructans should firstly invade the epidermal cells of P. ginseng,and then enter into the xylem of P. ginseng root through the intercellular space,which obstructed the transport of water and inorganic salt,and finally led to death of ginseng seedlings.展开更多
文摘DNA sequence diversities of soil microbial communities in rhizosphere and non-rhizosphere of 1 - 6 years Panax ginseng were evaluated by random amplified polymorphic DNA (RAPD). Total genomic DNA of soil samples were amplified by twenty-four out of two hundred random primers. The products were separated in agarose gel, and 359 and 181 reliable fragments were generated, of which, 324 and 123 were polymorphic. The gene diversity index, Shannon’s information index, and similarity coefficient were calculated, and results showed that, diversity of soil microbial community at DNA level was present. Furthermore, with the increasing of P. ginseng growing at one site, deference on soil microbial community DNA sequence between rhizosphere and non-rhizosphere tend to be more and more significant. In addition, RAPD technique was proved to be an effective tool to assess the diversity of soil microbial communities. From results we deduced that, the ecological function that performed by soil microbes may changed following the change of microbial community in rhizospheric and non-rhizospheric soils, and finally broke the balance of soil nutrition and energy cycle, soil spatial structure, microbial ecology etc.
基金Supported by Special Research Projects of Traditional Chinese Medicine Industry(201407005)Medical and Health Science and Technology Innovation Project of Chinese Academy of Medical Sciences(2016-I2M-3-017)
文摘[Objectives] To study the microstructure and ultrastructure changes of P. ginseng root tip infected by C. destructans. [Methods]The paraffin section and superfine slice were used to observe the microstructure and ultrastructure of root tip of P. ginseng,respectively.[Results] Microstructure and ultrastructure observation indicated that,the morphology and structure of epidermal cells of P. ginseng were regular,cells had abundant contents,and organelles were easy to observe in control. However,after infected by C. destructans,the cell walls were thicken seven days post inoculation,particles were deposited in epidemic cells and pith,cell walls were broken,and cells began to disintegrate. Furthermore,morphology of cells was abnormal and contents in cells were decreased when infected by C. destructans. The organelles were break up,and difficult to be distinguished. [Conclusions] Through the results we deduced that,the hypha of C. destructans should firstly invade the epidermal cells of P. ginseng,and then enter into the xylem of P. ginseng root through the intercellular space,which obstructed the transport of water and inorganic salt,and finally led to death of ginseng seedlings.
