In order to scientifically prevent and control Dendrobium catenatum southern blight disease,the main factors related to this disease occurrence,the pathogen( Sclerotium delphinii),environmental factors( temperature and humidity) and D. catenatum germplasms,were investigated. The results showed that reaching 25-30 ℃ temperature and over 95% humidity simultaneously should be the main conditions for the occurrence and prevalence of D. catenatum southern blight disease. Moreover,the S. delphinii-infected plants and their contaminated substrates were the disease spreading sources. Therefore,removing the infected plants,dealing with the contaminated substrates,keeping air ventilation,and reducing air humidity are the effective ways to prevent and control the occurrence and prevalence of D. catenatum southern blight disease. The research also indicated that D. catenatum has different resistances to the southern blight disease depending on germplasm. The present study lays important foundations for the breeding of D. catenatum diseaseresistant varieties and the further analysis of the infection and resistance mechanisms underlying southern blight disease.
Basidiomycota ; pathogenicity ; Dendrobium ; microbiology ; Humidity ; Plant Diseases ; microbiology ; Temperature

Through investigation,it was found that the main disease of leaves was grey mold on Dendrobium officinale in Hubei province,which has a great impact on the yield and quality of D. officinale. The identification of morphological and molecular biological was used to prove that the pathogen was Botrytis cinerea. Through test the effect of 5 plant source fungicides and 4 antibiotic fungicides on mycelial growth of strain HS1,which proved 0. 3% eugenol had the best inhibitory effect,EC50 was 0. 29 mg·L^-1,the second was1% osthol and EC50 was 1. 12 mg·L^-1,the EC50 of 0. 5% matrine was 9. 16 mg·L^-1,the EC50 of the other six fungicides was higher than 10 mg·L^-1. The field control effect test proved that 0. 3% eugenol had the best control effect,reaching 89. 44%,secondly for 1%osthole,which was 77. 17%,0. 5% matrine was in the third place with 62. 37% of effective rate. However,the control effect of the other fungicides was less than 60%. The three plant-derived fungicides were safe for the produce of D. officinale and showed no phytotoxicity. The effect of these fungicides on the growth of D. candidum was tested,and proved that all the fungicides were safe and harmless to D. candidum. This study provides a research basis for the safe and effective prevention and control gray mold of D. officinale.
Alkaloids ; Botrytis/pathogenicity* ; Coumarins ; Dendrobium/microbiology* ; Eugenol ; Fungicides, Industrial ; Plant Diseases/prevention & control* ; Plant Leaves/microbiology* ; Quinolizines ; Matrines

The epiphytic orchid, Dendrobium aphyllum and D. devonianum are used as traditional Chinese medicine, and became locally endangered in recent years because of over-collection. We test the effect of inoculations of endophytic fungi FDaI7 (Tulasnella sp.), FDd1 (Epulorhiza sp. ) and FCb4 (Epulorhiza sp.), which isolated from D. aphyllum, D. denonianum and Cymbidium mannii, respectively, on artificial substrate in these two Dendrobium species. In the symbiotic germination experiment, FDaI7 and FDd1 were effective for protocorm formation and seedling development of D. aphyllum and D. denonianum separately. After 60 days, 14.46% of the D. aphyllum seeds grown to protocorms and 12.07% developed to seedlings inoculated only with FDaI7, while contrasted with 0 when inoculated the other two isolates and non-inoculation treatment. However, in D. denonianum, seeds only grown to protocorms and developed to seedlings when inoculated with FDd1, the percentages were 44.36% and 42.91% distinguishingly. High specificity was shown in symbiotic germination on artificial substrate of Dendrobium. Protocorms could further develop to seedlings within or without light when inoculated the compatible fungi. However, light condition (12/12 h Light/Dark) produced the normal seedlings, while dark condition (0/24 h L/D) produced the abnormal seedlings. These may suggest that the development of young seedlings require light based on the effective symbiotic fungi. These findings will aid in seedling production of simulation-forestry ecology cultivation, conservation and reintroduction of Dendrobium.
Basidiomycota ; classification ; physiology ; Darkness ; Dendrobium ; classification ; growth & development ; microbiology ; Germination ; Host-Pathogen Interactions ; Light ; Plants, Medicinal ; classification ; growth & development ; microbiology ; Seedlings ; growth & development ; microbiology ; radiation effects ; Seeds ; growth & development ; microbiology ; Species Specificity ; Symbiosis

The endophytic fungi with plant growth promoting effects were screened by co-culture of each endophytic fungus and seedlings of Dendrobium officinale. Anatomical features of the inoculated roots were studied by paraffin sectioning. Morphological characteristics and rDNA ITS1-5. 8S-ITS2 sequences were applied for the taxonomy of endophytic fungi. The results showed that 8 strains inoculated to D. officinale seedlings greatly enhanced plant height, stem diameter, new roots number and biomass. According to the anatomical features of the inoculated roots, each fungus could infect the velamina of seedlings. The hyphae or pelotons were existed in the exodermis passage cells and cortex cells. The effective fungi could not infect the endodermis and vascular bundle sheath, but which was exception for other fungi with harmful to seedlings. Combined with classic morphologic classification, 2 effective strains were identified which were subjected to Pestalotiopsis and Eurotium. Six species of fungi without conidiophore belonged to Pyrenochaeta, Coprinellus, Pholiota, Alternaria, Helotiales, which were identified by sequencing the PCR-amplified rDNA ITS1-5. 8S-ITS2 regions. The co-culture technology of effective endophytic fungi and plant can apply to cultivate the seedlings of D. officinale. It is feasible to shorten growth cycle of D. officinale and increase the resource of Chinese herbs.
Biomass ; DNA, Fungal ; genetics ; DNA, Ribosomal ; genetics ; DNA, Ribosomal Spacer ; genetics ; Dendrobium ; cytology ; growth & development ; microbiology ; Endophytes ; classification ; genetics ; physiology ; Fungi ; classification ; genetics ; physiology ; Host-Pathogen Interactions ; Hyphae ; physiology ; Plant Roots ; cytology ; growth & development ; microbiology ; Plants, Medicinal ; growth & development ; microbiology ; RNA, Ribosomal, 5.8S ; genetics ; Seedlings ; cytology ; growth & development ; microbiology ; Species Specificity

Artificial cultivation medical Dendrobium flourished quickly and gradually developed in a streamlined production in large scale in Zhejiang, Yunnan, Anhui, Guizhou et al provinces in recent years. As the growing years being extended and area expanded, plant disease is a growing issue and became even worse. In the current review, we summarized the available studies and the investigation in those areas on disease kinds, regular patterns, area specificity, and prevention solutions and so on. We elucidated the limitations of plant disease on medical Dendrobium planting industry development, and provided some suggestions in prevention strategy depending on the occurrence characteristics and epidemic factors. Strengthening basic research, appropriate field management and reasonable utilization of pesticide are the key part of disease integrated management
Agriculture ; statistics & numerical data ; Dendrobium ; chemistry ; growth & development ; microbiology ; Drugs, Chinese Herbal ; Plant Diseases ; microbiology ; prevention & control ; statistics & numerical data

Since the beginning of the new century, the artificial cultivation of Dendrobium officinale has made a breakthrough progress. This paper systematically expounds key technologies, main features and cautions of the cultivation modes e.g. bionic-facility cultivation, the original ecological cultivation, and potting cultivation for D. officinale, which can provide useful information for the development and improvement of D. officinale industry.
Animals ; Biomimetics ; Culture Techniques ; instrumentation ; methods ; Dendrobium ; chemistry ; growth & development ; microbiology ; Drugs, Chinese Herbal ; Pest Control ; Plant Diseases ; microbiology ; prevention & control

S-Adenosyl-L-methionine decarboxylase (SAMDC) is a key enzyme in the polyamines biosynthesis, thus is essential for basic physiological and biochemical processes in plant. In the present study, a full length cDNA of DoSAMDC1 gene was obtained from symbiotic germinated seeds of an endangered medicinal orchid species Dendrobium officinale, using the rapid amplification of cDNA ends (RACE)-PCR technique for the first time. The full length cDNA was 1 979 bp, with three open reading frames, i.e. tiny-uORF, small-uORF and main ORF (mORF). The mORF was deduced to encode a 368 amino acid (aa) protein with a molecular mass of 40.7 kD and a theoretical isoelectric point of 5.2. The deduced DoSAMDC1 protein, without signal peptide, had two highly conserved function domains (proenzyme cleavage site and PEST domain) and a 22-aa transmembrane domain (89-110). Multiple sequence alignments and phylogenetic relationship analyses revealed DoSAMDC1 had a higher level of sequence similarity to monocot SAMDCs than those of dicot. Expression patterns using qRT-PCR analyses showed that DoSAMDC1 transcripts were expressed constitutively without significant change in the five tissues (not infected with fungi). While in the symbiotic germinated seeds, the expression level was enhanced by 2.74 fold over that in the none-germinated seeds, indicating possible involvement of the gene in symbiotic seed germination of D. officinale.
Adenosylmethionine Decarboxylase ; genetics ; isolation & purification ; Amino Acid Sequence ; Basidiomycota ; physiology ; Cloning, Molecular ; DNA, Complementary ; genetics ; Dendrobium ; enzymology ; genetics ; microbiology ; Germination ; Open Reading Frames ; Phylogeny ; Plants, Medicinal ; enzymology ; genetics ; microbiology ; Seeds ; genetics ; growth & development ; microbiology ; Sequence Alignment ; Symbiosis ; physiology

The mitogen-activated protein kinase (MAPK) cascade, composed of MAPK kinase kinase (MAP3K), MAPK kinase (MAP2K), and MAPK, is abundantly conserved in all eukaryotes. MAPK along with MAPK cascade plays a vital regulatory role in the plant-arbuscular mycorrhiza/rhizobium nodule symbioses. However, the biological function of MAPK in orchid mycorrhiza (OM) symbiosis remains elusive. In the present study, a MAPK gene, designated as DoMPK1 (GenBank accession No. JX297594), 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. The full length cDNA of DoMPK1 was 1 263 bp and encoded a 372 aa protein with a molecular weight of 42.61 kD and an isoelectric point (pI) of 6.07. The deduced DoMPK1 protein contained the conserved serine/threonine-protein kinase catalytic domain (39-325) and MAP kinase signature (77-177). Multiple sequence alignment and phylogenetic analysis demonstrated that DoMPK1 was highly homologous (71%-85%) to MAPK genes from various plant species and was closely related to those from monocots. Real time quantitative PCR (qPCR) analysis revealed that DoMPK1 was constitutively expressed in leaves, stems, roots and seeds, and the transcript abundance was not significantly different in the four included tissues. Furthermore, DoMPK1 transcript was markedly induced in roots at 30 d after fungal infection, with 7.91 fold compared to that of the mock inoculated roots, suggesting implication of DoMPK1 in the early D. officinale and Mycena sp. interaction and an essential role in the symbiosis. Our study characterized a MAPK gene associated with OM symbiosis for the first time, and will be helpful for further functional elucidation of DoMPK1 involving in D. officinale and Mycena sp. symbiotic interaction.
Agaricales ; growth & development ; Amino Acid Sequence ; Base Sequence ; Cloning, Molecular ; DNA, Complementary ; genetics ; Dendrobium ; enzymology ; genetics ; microbiology ; Gene Expression Regulation, Plant ; Mitogen-Activated Protein Kinases ; genetics ; metabolism ; Molecular Weight ; Phylogeny ; Plants, Medicinal ; enzymology ; genetics ; microbiology ; Sequence Alignment ; Symbiosis

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

OBJECTIVETo isolate and characterize endophytic fungi from seven Dendrobium species, and detect their antimicrobial activities.

METHODFungal endophytes were isolated by strictly sterile sample preparation and fungal identification methods were based on their ITS ribosomal DNA (ITS rDNA gene) sequences. The agar well diffusion method was then employed to evaluate the antimicrobial activity against six pathogenic organisms and the phylogenetic tree of active isolates was constructed by the MEGA.

RESULTNinety-eight endophytic fungi obtained from seven Dendrobium spp., and among them twenty-four isolates, representing 11 genera and 14 species, displayed anti-microbial activities. The phylogenetic assay based on ITS-rDNA showed that 24 active isolates were sorted to 7 taxonomic orders: Hypocreales, Sordariales, Capnodiales, Eurotiales, Botryosphaeriales, Xylariales and Mucorales. The results of antimicrobial activity assay revealed that 1.02%, 10.2%, 18.4%, 1.02%, 1.02% and 10.2% of fermentation broths of 98 isolates displayed significant antimicrobial activities against E. coli, B. subtilis, S. aureus, C. albicans, C. neoformans and A. fumigatus, respectively. Four strains DL-R-3, DL-S-6, DG-R-10 and DN-S-1 displayed strong and broad antimicrobial spectrum.

CONCLUSIONEndophytic fungi associated with Dendrobium species have fungal diversity, and possess diverse antimicrobial activity.

Anti-Infective Agents ; metabolism ; pharmacology ; Aspergillus fumigatus ; drug effects ; Bacillus subtilis ; drug effects ; Base Sequence ; Biodiversity ; Candida albicans ; drug effects ; China ; Cryptococcus neoformans ; drug effects ; DNA, Fungal ; chemistry ; isolation & purification ; DNA, Ribosomal Spacer ; chemistry ; genetics ; Dendrobium ; microbiology ; physiology ; Endophytes ; classification ; genetics ; isolation & purification ; physiology ; Escherichia coli ; drug effects ; Fungi ; classification ; genetics ; isolation & purification ; physiology ; Microbial Sensitivity Tests ; Molecular Sequence Data ; Phylogeny ; Plant Roots ; microbiology ; physiology ; Plant Stems ; microbiology ; physiology ; Sequence Alignment ; Sequence Analysis, DNA ; Staphylococcus aureus ; drug effects