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1.
Plant Dis ; 2024 Feb 06.
Artigo em Inglês | MEDLINE | ID: mdl-38319631

RESUMO

Epimedium sagittatum is a collective term for herbaceous plants belonging to the family Berberidaceae. Their dried leaves and stems have significant therapeutic effects on tumor inhibition, hypertension control, and coronary heart disease (Ke et al. 2023; Zhao et al. 2019). In 2021 and 2022, plants with similar leaf rot symptoms ranging from 30% to 55% was observed on E. sagittatum in Congjiang County, Guizhou province. The initial symptoms of the disease manifest locally on the leaf, with yellowing on the surface edge of the affected tissue, browning in the middle part, and brown-white discoloration in the innermost part (Supplementary Figure S1B). As the disease progresses, the entire infected leaf gradually softens, while the veins remain intact (Supplementary Figure S1C). Ultimately, the leaf withers and dehisces. The nine samples with typical symptoms were collected from Congjiang County, Guizhou province (26.598°N, 106.707°E). Twenty-seven fungi were isolated, including ten isolates of Rhizopus and seventeen isolates of seven other genera. On isolate YYH-CJ-17 many sporangia were formed and turned to a brown-gray to black color on potato dextrose agar medium (PDA) after culturing 5 days under dark at 25 ℃ (Supplementary Figure S2A and S2B). The branches of mycelium were finger-shaped or root-shaped. The sporangium was spherical or nearly spherical, 60-250 µm in diameter, and sporangiospores were elliptical or spherical and 4-8 µm in diameter. The obtained 547 bp ITS fragment (accession OR225970) and 1231 bp EF-1α region (accession OR242258) from isolate YYH-CJ-17 were compared with NR database using the BLAST tool provided by NCBI, which revealed more than 99.5% identity (query cover more than 98%) with the sequences of ITS (accessions MF522822.1) and EF-1α (accession AB281541.1) of Rhizopus oryzae Went & H.C. Prinsen Geerlings (Gao et al. 2022; Zhang et al. 2022). The phylogenetic tree constructed with the ITS and EF-1α gene sequences demonstrates that strain YYH-CJ-17 clusters with R. oryzae in the same branch and the bootstrap value was greater than 99% (Supplementary Figure S3). Based on the morphological characteristics and ITS and EF-1a sequences, the isolate YYH-CJ-17 is identified as R. oryzae. Pathogenicity tests were performed on detached healthy leaves and living plants of E. sagittatum. Healthy leaves of E. sagittatum were subjected to inoculation with isolate YYH-CJ-17 with 5 × 105 CFU mL-1 concentration in sterile culture dishes. The progression of the disease was marked by the gradual softening of the infected leaves and the expansion of the lesions, which ultimately produced black-brown sporangium (Supplementary Figure S4A). Furthermore, the E. sagittatum living plants were sprayed with 5 × 105 CFU mL-1 conidial suspension of isolate YYH-CJ-17, with ddH2O as a negative control, and then were cultivated at 25℃ and 90% humidity for 21 days in the greenhouse. This assay found that the E. sagittatum leaves treated with isolate YYH-CJ-17 exhibited the same symptoms observed on plants in fields (Supplementary Figure S4B). The fungus re-isolated from the inoculated leaves were identified as R. oryzae by ITS sequencing and were blasted with NR database, which highest matched with the sequence of ITS (accessions MF522822.1) mentioned above, thus fulfilling Koch's postulates. R. oryzae has been identified as a causative agent of a diverse array of host diseases, including leaf mildew of tobacco, fruit rot of yellow oleander and pears, and soft rot of bananas (Farooq et al. 2017; Khokhar et al. 2019; Kwon et al. 2012; Pan et al. 2021). To the best of our knowledge, this is the first report of leaf rot on E. sagittatum caused by R. oryzae in China, which will provide clear prevention and management target for the leaf rot disease of E. sagittatum.

2.
Zhongguo Zhong Yao Za Zhi ; 47(9): 2304-2308, 2022 May.
Artigo em Zh | MEDLINE | ID: mdl-35531676

RESUMO

Mycena, a symbiont of Gastrodia elata, promotes seed germination of G. elata and plays a crucial role in the sexual reproduction of G. elata. However, the lack of genetic transformation system of Mycena blocks the research on the interaction mechanism of the two. In order to establish the protoplast transformation system of Mycena, this study analyzed the protoplast enzymatic hydrolysis system, screened the resistance markers and regeneration medium, and explored the transient transformation. After hydrolysis of Mycena hyphae with complexes enzymes for 8 h and centrifugation at 4 000 r·min~(-1), high-concentration and quality protoplast was obtained. The optimum regeneration medium for Mycena was RMV, and the optimum resistance marker was 50 mg·mL~(-1) hygromycin. The pLH-HygB-HuSHXG-GFP-HdSHXG was transformed into the protoplast of Mycena which then expressed GFP. The established protoplast transformation system of Mycena laid a foundation for analyzing the functional genes of Mycena and the molecular mechanism of the symbiosis of Mycena and G. elata.


Assuntos
Agaricales , Gastrodia , Gastrodia/genética , Protoplastos , Simbiose/genética , Transformação Genética
3.
Zhongguo Zhong Yao Za Zhi ; 46(22): 5792-5796, 2021 Nov.
Artigo em Zh | MEDLINE | ID: mdl-34951166

RESUMO

Fusarium is the major pathogen of root rot of Pseudostellaria heterophylla. This study aims to explain the possible distribution of Fusarium species and the contamination of its toxin-chemotypes in tuberous root of P. heterophylla. A total of 89 strains of fungi were isolated from the tuberous root of P. heterophylla. Among them, 29 strains were identified as Fusarium by ITS2 sequence, accounting for 32.5%. They were identified as five species of F. avenaceum, F. tricinctum, F. fujikuroi, F. oxysporum, and F. graminearum based on ß-Tubulin and EF-1α genes. LC-MS/MS detected 18, 1, and 5 strains able to produce ZEN, DON, and T2, which accounted for 62.1%, 3.4%, and 17.2%, respectively. Strain JK3-3 can produce ZEN, DON, and T2, while strains BH1-4-1, BH6-5, and BH16-2 can produce ZEN and T2. PCR detected six key synthase genes of Tri1, Tri7, Tri8, Tri13, PKS14, and PKS13 in strain JK3-3, which synthesized three toxins of ZEN, DON, and T2. Four key synthase genes of Tri8, Tri13, PKS14, and PKS13 were detected in strains BH1-4-1, BH6-5, and BH16-2, which were responsible for the synthesis of ZEN and T2. The results showed that the key genes of toxin biosynthesis were highly correlated with the toxins produced by Fusarium, and the biosynthesis of toxin was strictly controlled by the genetic information of the strain. This study provides a data basis for the targeted prevention and control of exo-genous mycotoxins in P. heterophylla and a possibility for the development of PCR for rapid detection of toxin contamination.


Assuntos
Caryophyllaceae , Fusarium , Micotoxinas , Cromatografia Líquida , Fusarium/genética , Espectrometria de Massas em Tandem
4.
Mycotoxin Res ; 2024 Oct 24.
Artigo em Inglês | MEDLINE | ID: mdl-39446283

RESUMO

Deoxynivalenol ( DON) is one of the most harmful mycotoxins in food or feed or Traditional Chinese Medicine. An efficient and applicable method for the detoxification of DON is urgently developed. 1152 strains were isolated from the intestinal contents of crucian. Morganella morganii YC12-C3 and Enterococcus faecalis YC12-C10 were screened with the highest degradation rate of DON via HPLC methods. The optimal degradation condition of YC12-C3 and YC12-C10 is co-cultured 24 h and 36 h at 28 ℃ in LB medium with pH 7 and 1.0% inoculation dosage, respectively. LC-MS/MS and 1H NMR results show that YC12-C10 and YC12-C3 can transform DON to 3-deoxy-6-demethanol-DON, a new metabolite biotransformed from DON, by deoxidization at C3 hydroxy and de-methanal reaction at methanol moiety of C6. In addition, the DON-degradation in agricultural material assay showed that YC12-C10 and YC12-C3 can degrade 150 µg·kg-1 DON in Coix lacryma-jobi, with a degradation rate of 68.89% and 59.94%, respectively. This result shows that YC12-C10 and YC12-C3 have a sound efficiency in removing DON ability in Coix lacryma-jobi, providing a new strain resource and application technique for biological detoxification of DON in food or feed or TCM industry.

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