Soil cadmium pollution can adversely affect the cultivation of the ornamental plant, Coleus scutellarioides. Upon cadmium contamination of the soil, the growth of C. scutellarioides is impeded, and it may even succumb to the toxic accumulation of cadmium. In this study, we investigated the effects of arbuscular mycorrhizal fungi (AMF) on the adaptation of C. scutellarioides to cadmium stress, by measuring the physiological metabolism and the degree of root damage of C. scutellarioides, with Aspergillus oryzae as the test fungi. The results indicated that cadmium stress increased the activity of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT), and the content of malondialdehyde (MDA) and proline (Pro) within the cells of C. scutellarioides, but inhibited mycorrhizal infestation rate, root vigour and growth rate to a great degree. With the same cadmium concentration, the inoculation of AMF significantly improved the physiological indexes of C. scutellarioides. The maximum decrease of MDA content was 42.16%, and the content of secondary metabolites rosemarinic acid and anthocyanosides could be increased by up to 27.43% and 25.72%, respectively. Meanwhile, the increase of root vigour was as high as 35.35%, and the DNA damage of the root system was obviously repaired. In conclusion, the inoculation of AMF can promote the accumulation of secondary metabolites, alleviate root damage, and enhance the tolerance to cadmium stress in C. scutellarioides.
Cadmium/toxicity* ; Mycorrhizae/physiology* ; Plant Roots/drug effects* ; Soil Pollutants/toxicity* ; Stress, Physiological ; Superoxide Dismutase/metabolism*

Through potted inoculation test at room temperature and indoor analysis, the photosynthetic parameters and physiological and biochemical indexes of Paris polyphylla var. yunnanensis were observed after 28 arbuscular mycorrhizal (AM) fungi were injected into the P. polyphylla var. yunnanensis growing in a sterile soil environment. The results showed that AM fungi established a good symbiosis with P. polyphylla var. yunnanensis. The AM fungi influenced the photosynthetic parameters and physiological and biochemical indexes of P. polyphylla var. yunnanensis. And the influences were varied depending on different AM fungi. The application of AM fungi improved photosynthesis intensity of P. polyphylla var. yunnanensis mesophyll cells, the contents of soluble protein and soluble sugar, protective enzyme activity of P. polyphylla var. yunnanensis leaf, which was beneficial to resist the adverse environment and promote the growth of P. polyphylla var. yunnanensis. Otherwise, there was a certain mutual selectivity between P. polyphylla var. yunnanensis and AM fungi. From the comprehensive effect of inoculation, Racocetra coralloidea, Scutellospora calospora, Claroideoglomus claroideum, S. pellucida and Rhizophagus clarus were the most suitable AM fungi to P. polyphylla var. yunnanensis when P. polyphylla var. yunnanensis was planted in the field.
Fungi ; classification ; isolation & purification ; physiology ; Liliaceae ; metabolism ; microbiology ; Mycorrhizae ; classification ; isolation & purification ; physiology ; Photosynthesis ; Plant Leaves ; metabolism ; Rhizome ; microbiology

In order to obtain the fungicides with minimal impact on efficiency of mycorrhizal symbiosis, the effect of five fungicides including polyoxins, jinggangmycins, thiophanate methylate, chlorothalonil and carbendazim on the growth of medicinal plant and efficiency of mycorrhizal symbiosis were studied. Pot cultured Glycyrrhiza uralensis was treated with different fungicides with the concentration that commonly used in the field. 60 d after treated with fungicides, infection rate, infection density, biomass indexes, photosyn- thetic index and the content of active component were measured. Experimental results showed that carbendazim had the strongest inhibition on mycorrhizal symbiosis effect. Carbendazim significantly inhibited the mycorrhizal infection rate, significantly suppressed the actual photosynthetic efficiency of G. uralensis and the most indicators of biomass. Polyoxins showed the lowest inhibiting affection. Polyoxins had no significant effect on mycorrhizal infection rate, the actual photosynthetic efficiency of G. uralensis and the most indicators of biomass. The other three fungicides also had an inhibitory effect on efficiency of mycorrhizal symbiosis, and the inhibition degrees were all between polyoxins's and carbendazim's. The author considered that fungicide's inhibition degree on mycorrhizal effect might be related with the species of fungicides, so the author suggested that the farmer should try to choose bio-fungicides like polyoxins.
Fungi ; drug effects ; growth & development ; physiology ; Fungicides, Industrial ; pharmacology ; Glycyrrhiza uralensis ; chemistry ; growth & development ; microbiology ; physiology ; Mycorrhizae ; drug effects ; growth & development ; physiology ; Plant Extracts ; chemistry ; Symbiosis ; drug effects

OBJECTIVETo study the mechanism of plant growing promoted by Mycorrhizal fungus through the difference of proteomes.

METHODThe differential proteomes between uninoculated and inoculated endophytic fungi, Epulorhiza sp. on Anoectochilus roxburghii were analyzed by two-dimensional gel electrophoresis and MALDI-TOF/TOF mass spectrum.

RESULT AND CONCLUSIONTwenty-seven protein spots were analyzed by matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF-MS). Twenty-two candidate proteins were identified by database comparisons. The function of these proteins mostly involved in signal transduction, metabolic regulation, as well as photosynthesis and substance metabolism. The results indicate that the regulator control system of plant is influenced by fungi action, and the positive regulation improves substance metabolism and photosynthesis, which results in strong plant and higher resistance. It is also deduced that silent genes may exist in endosymbiosis plants.

Basidiomycota ; physiology ; Electrophoresis, Gel, Two-Dimensional ; Host-Pathogen Interactions ; Mycorrhizae ; physiology ; Orchidaceae ; growth & development ; metabolism ; microbiology ; Plant Proteins ; analysis ; Proteome ; analysis ; Proteomics ; methods ; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization

Calcium-dependent protein kinases (CDPKs) play an important regulatory role in the plantarbuscular mycorrhiza/rhizobium nodule symbiosis. However, the biological action of CDPKs in orchid mycorrhiza (OM) symbiosis remains unclear. In the present study, a CDPK encoding gene, designated as DoCPK1 (GenBank accession No. JX193703), was identified from D. officinale roots infected by an OM fungus-Mycena sp. using the reverse transcription polymerase chain reaction (RT-PCR) and rapid amplification of cDNA ends (RACE) methods, for the first time. The full length cDNA of DoCPK1 was 2137 bp in length and encoded a 534 aa protein with a molecular weight of 59.61 kD and an isoelectric point (pI) of 6.03. The deduced DoCPK1 protein contained the conserved serine/threonine-protein kinase catalytic domain and four Ca2+ binding EF hand motifs. Multiple sequence alignment demonstrated that DoCPK1 was highly homologous (85%) to the Panax ginseng PgCPK1 (ACY78680), followed by CDPKs genes from wheat, rice, and Arabidopsis (ABD98803, ADM14342, Q9ZSA2, respectively). Phylogenetic analysis showed that DoCPK1 was closely related to CDPKs genes from monocots, such as wheat, maize and rice. Real time quantitative PCR (qPCR) analysis revealed that DoCPK1 was constitutively expressed in the included tissues and the transcript levels were in the order of roots > stems > seeds > leaves. Furthermore, DoCPK1 transcripts were significantly accumulated in roots 30 d after fungal infection, with 5.16 fold compared to that of the mock roots, indicating involvement of DoCPK1 during the early interaction between D. officinale and Mycena sp., and a possible role in the symbiosis process. This study firstly provided important clues of a CDPK gene associated with OM symbiosis, and will be useful for further functional determination of the gene involving in D. officinale and Mycena sp. symbiosis.
Agaricales ; growth & development ; physiology ; Amino Acid Sequence ; Base Sequence ; Cloning, Molecular ; DNA, Complementary ; genetics ; Dendrobium ; enzymology ; genetics ; microbiology ; Gene Expression Regulation, Plant ; Molecular Weight ; Mycorrhizae ; growth & development ; physiology ; Phylogeny ; Plant Leaves ; enzymology ; genetics ; microbiology ; Plant Roots ; enzymology ; genetics ; microbiology ; Plant Stems ; enzymology ; genetics ; microbiology ; Plants, Medicinal ; enzymology ; genetics ; microbiology ; Protein Kinases ; genetics ; metabolism ; Seeds ; enzymology ; genetics ; microbiology ; Sequence Alignment ; Symbiosis

To study the beneficial effect of AMF from the utilization achievement in the agroforestry research, we discuss the application of AM in medicinal plant disease prevention and control. This paper summarized the type of medicinal plant disease, the influence of plant disease and the commonly used prevention method in production. As for the adverse consequences caused by plant's non-infectious and infectious diseases, AM has some improvement function. Something will affect the function of AM in the prevention of medicinal plant disease, for example, the relationship between AMF and the plants, the quantity, the time and the environmental factors about AMF inoculation and so on. In order to achieve the useful effect of AM in the prevention of medicinal plant disease, we should choose the suitable condition during production in practice to carry on the vaccination.
Agriculture ; methods ; Drugs, Chinese Herbal ; Mycorrhizae ; isolation & purification ; physiology ; Plant Diseases ; microbiology ; prevention & control ; Plants, Medicinal ; growth & development ; microbiology

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

The effects of AM fungi on the growth, nutrient uptake and microelement of Scutellaria baicalensis under different applied phosphorous levels in the pot culture were studied. The results showed that applied phosphorous levels had remarkable effect on AM fungal inoculation. Inoculation effect of AM fungi was the best under 0.12-0.18 g x kg(-1) soil. At those levels, the effect of AM fungi on the growth of S. baicalensis was the best, but either lower or higher phosphorous level showed suppressed infecting of AM fungi to S. baicalensis. After inoculation, the contents of biomass, total P, baicalin, total N of root were increased as well as the microelements of K, Ca, Mg, Fe, Zn, but the contents of total N of shoot, N/P were decreased as well as the microelements of Mn, Cu. In conclusion, the growth of host plant and using rate of phosphorus fertilizer can be promoted by inoculation of AM fungi.
Mycorrhizae ; physiology ; Phosphorus ; pharmacology ; Scutellaria baicalensis ; chemistry ; growth & development ; Trace Elements ; analysis

Applications of arbuscular mycorrhizal fungi in research of medicinal plant cultivation are increased in recent years. Medicinal plants habitat is complicated and many inclusions are in root, however crop habitat is simple and few inclusions in root. So appraisal methods and key technologies about the symbiotic system of crop and arbuscular mycorrhizal fungi can't completely suitable for the symbiotic system of medicinal plants and arbuscular mycorrhizal fungi. This article discuss the appraisal methods and key technologies about the symbiotic system of medicinal plant and arbuscular mycorrhizal fungi from the isolation and identification of arbuscular mycorrhiza, and the appraisal of colonization intensity. This article provides guidance for application research of arbuscular mycorrhizal fungi in cultivation of medicinal plants.
Agriculture ; methods ; Fungi ; physiology ; Mycorrhizae ; physiology ; Plant Roots ; microbiology ; physiology ; Plants, Medicinal ; growth & development ; microbiology ; physiology ; Soil Microbiology ; Symbiosis

OBJECTIVETo study the influence of arbuscular mycorrhizal fungi to Pinellia ternata leaf index, propagation coefficient, tuber yield and chemical composition.

METHODThe Pinellia ternata leaf length, width, plant height and leafstalk diameter were measured during growing time till P. ternata loded. The leaf index was calculated and the tuber yield were measured after harvest. The contents of guanosine was determined by HPLC method, and the alkaloid contents were determined by spectrophotometric method.

RESULT AND CONCLUSIONInoculated AM fungi could increase P. ternata propagation coefficient and the yield of tuber. Inoculated AM fungi could increase P. ternata leaf index, made leaf tends to be more like bamboo leaf type. Inoculated AM fungi could delayed P. ternata lodging time; G. mosseae + G. intraradices treatment (early inolulation time) proved better influence on increasing fresh weight and dry weight of P. ternata tuber and the propagation coefficient. Inoculated AM fungi could increase guanosine and alkaloid contents of Pinellia ternata tuber, and the contents of guanosine and alkaloid in inoculated treatments were higher than those in cultivated P. ternata from Hezhang; G. mosseae + G. intraradices treatment (later inolulation time) proved good effect on increasing the contents of guanosine and alkaloid.

Alkaloids ; chemistry ; Chromatography, High Pressure Liquid ; Guanosine ; chemistry ; Mycorrhizae ; growth & development ; physiology ; Pinellia ; chemistry ; growth & development ; microbiology ; Plant Leaves ; chemistry ; growth & development ; microbiology