1.Diversity of arbuscular mycorrhizal fungi of Panax quinquefolius cultivated in Shandong province.
Zhi-Fang RAN ; Xiao-Tong YANG ; Rui LI ; Jie ZHOU ; Yong-Qing ZHANG ; Lan-Ping GUO
China Journal of Chinese Materia Medica 2021;46(16):4103-4110
In this study, the colonization, diversity and relative abundance of arbuscular mycorrhizal fungi(AMF) in the roots of Panax quinquefolius in different habitats of Shandong province were analyzed by staining-microscopy and high-throughput sequencing. The data were analyzed by bioinformatics tools and statistical software. The results showed that the roots of P. quinquefolius in different habitats were colonized by AMF with different rates and intensities. The AMF in roots of P. quinquefolius belong to three genera, three families, three orders, one class and one phylum. At the level of order, the AMF mainly included Paraglomerales(52.48%), Glomerales(25.60%) and Archaeosporales(3.08%). At the level of family, the AMF were dominated by Paraglomeraceae(52.48%), Glomeraceae(18.94%) and Claroideoglomeraceae(3.05%). At the level of genus, Paraglomus(51.46%), Glomus(20.01%) and Claroideoglomus(3.52%) accounted for a large proportion, of which Paraglomus and Glomus were dominant. Cluster analysis showed that the AMF in roots of P. quinquefolius with close geographical locations could be clustered together. In this study, the diversity and dominant germplasm resources of AMF in roots of P. quinquefolius cultivated in the main producing areas were identified, which provi-ded basic data for revealing the quality formation mechanism of P. quinquefolius medicinal materials from the perspective of environment.
Fungi
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Glomeromycota
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Humans
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Mycorrhizae/genetics*
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Panax
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Plant Roots
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Soil Microbiology
2.Acaulosproa koreana, a New Species of Arbuscular Mycorrhizal Fungi (Glomeromycota) Associated with Roots of Woody Plants in Korea.
Eun Hwa LEE ; Sang Hee PARK ; Ju Kyeong EO ; Kang Hyeon KA ; Ahn Heum EOM
Mycobiology 2018;46(4):341-348
A new species of arbuscular mycorrhizal fungi (Glomeromycota), Acaulospora koreana, was isolated from forest soils in South Korea. This novel fungus was collected from the rhizosphere of Lindera obtusiloba and Styrax obassia in forest and propagated with Sorghum bicolor in pot. Morphological characteristics of spores of A. koreana are rarely distinguished from Acaulospora mellea, which is reported as one of the most abundant mycorrhizal species in Korea. However, molecular evidence of rDNA sequence using improved primers for glomeromycotan fungal identification strongly supported that A. koreana is different from A. mellea but also any other species belonging to the genus Acaulospora. This is the first novel glomeromycatan fungus introduced in South Korea, but it suggests that there is a high possibility for discovering new arbuscular mycorrhizal fungi considering the abundance of plant species and advanced phylogenetic analysis technique.
DNA, Ribosomal
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Forests
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Fungi*
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Glomeromycota
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Korea*
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Lindera
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Plants
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Rhizosphere
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Soil
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Sorghum
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Spores
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Styrax
3.Infection progress of arbuscular mycorrhizae on tissue-cultured plantlets of Pinellia ternata.
Xuelian SHEN ; Qiaosheng GUO ; Zuoyi LIU ; Guosheng ZHU ; Yongxiang LIU
China Journal of Chinese Materia Medica 2011;36(2):93-96
OBJECTIVETo study the Arbuscular mycorrhizal (AM) formation progress and infection characteristics between tissue culture plantlets of Pinellia ternata and Glomus mosseae.
METHODThe tissue culture plantlets of P. ternata were inoculated with G. mosseae, the formation of AM were sampled and observed with microscopy by staining.
RESULT AND CONCLUSIONThe hyphae of G. mosseae began to penetrate the root epidermis after 10 days of inoculation. Lots of intracellular hyphae formed in cortex cells at the 15th day. Arbuscules started to form and there were some hyphae on the root at the 20th day. At the 25th day, many arbuscules formed and most as Arum type. Some arbuscles started to disintegrate at the 30th day, and a few of vesicles occurred. Lots of spores formed after 35 days. At the 40th day, some vesicles began to decline. The hand section showed that the intercellular hyphae gradually formed in intercellular space, and the hyphae branched in cortex cells and occupied most cell lumen finally. It is expounded that P. ternata and G. mosseae could recognize each other quickly and form a symbiont system.
Cell Culture Techniques ; Cells, Cultured ; Glomeromycota ; growth & development ; physiology ; Hyphae ; growth & development ; physiology ; Mycorrhizae ; growth & development ; physiology ; Pinellia ; cytology ; microbiology
4.Effect of Glomus versiforme and Trichoderma harzianum on growth and quality of Salvia miltiorrhiza.
Xue WANG ; Mei-Lan CHEN ; Guang YANG ; Xiao-Ming LI ; Peng-Ying LI ; Min CHEN
China Journal of Chinese Materia Medica 2014;39(9):1574-1578
The present study aimed to investigate the effect of Glomus versiforme and Trichodema harzianum on the growth and quality of Salvia miltiorrhiza continuous cropping under field conditions. The field plot experiment was conducted, these active components in the plant were analyzed by HPLC, the root diseases incidence rate of S. miltiorrhiza determined by observation and counting, and relative parameters were measured. The data was statistically processed. The result showed that inoculation of G. versiforme and combined inoculation of G. versiforme with T. harzianum significantly decreased the root diseases incidence rate of S. miltiorrhiza, and combined inoculation of G. versiforme with T. harzianum was better than other treatments. All treatments improved accumulation of active ingredients in root. Inoculation of G. versiforme and combined inoculation of G. versiforme with T. harzianum significantly increased the content of salvianolic acid B and cryptotanshinone of root (P < 0.05), Inoculation of G. versiforme, T. harzianum and combined inoculation of G. versiforme with T. harzianum significantly enhanced the content of tanshinone I and tanshinone II(A) of the root (P < 0.05). It may conclude that inoculation of G. versiforme and combined inoculation of G. versiforme with T. harzianum can effectively reduce the root diseases incidence of continuous cropping S. miltiorrhiza, and improve the quality of S. miltiorrhiza.
Antibiosis
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physiology
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Benzofurans
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metabolism
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Diterpenes, Abietane
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metabolism
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Glomeromycota
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physiology
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Host-Pathogen Interactions
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Phenanthrenes
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metabolism
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Plant Diseases
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microbiology
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Plant Roots
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growth & development
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metabolism
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microbiology
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Salvia miltiorrhiza
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growth & development
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metabolism
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microbiology
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Trichoderma
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physiology