RESUMEN
Bletilla striata (Thunb.) is a perennial herb plant of the orchidaceous family and is used as an ornamental plant in Europe and the United States. Furthermore, it is important as traditional Chinese medicine (TCM) in East Asian countries, such as China, Japan, Korea, Mongolia, and Myanmar (Gou et al. 2022). In April 2023, a severe disease similar to gray mold occurred in a B. striata plantation in Anqing, Anhui province, China (N30°27'15â³, E116°18'32â³), causing disease on about 20% of the plants in the field. Early symptoms were characterized by brown spots or stripes on the leaves of B. striata, and as the disease progressed, large brown irregular spots appeared. Eventually disease spots coalesced, covering the entire leaf surface and causing leaf death. A gray mildew layer was observed on the senescent leaves. To investigate the causal agent, 10 plants with typical symptoms were collected from the field. Leaf pieces (5 × 5 mm) from the border of infected areas were soaked in 75% ethanol for 10 seconds, and then transferred into 0.1% mercury bichloride for three min, rinsed three times with sterile water, and transferred to PDA at 25 °C for three days. Pure cultures were obtained by single spore isolation, and the resulting colonies were morphologically similar, indicating a single pathogen, of which the representative BSFC-7 was selected for further study. BSFC-7 colonies were initially white to gray-brown, and cottony aerial hyphae grew over the entire petri dish after five days of incubation. Grayish, branched conidiophores and their terminal unicellular conidia were observed under a microscope after additional two days at 25 °C. Conidia were colorless or gray, elliptical or oval, and 7.06-12.54 × 8.33-13.55 µm (n=30). Sclerotia appeared in BSFC-7 culture up to about two weeks and were black, hard, and round or irregularly shaped (0.81-4.32 × 0.97-5.68 mm, n=20). The morphological characteristics fit the description of Botrytis cinerea (Li et al. 2016). To further identify the species, genomic DNA of BSFC-7 was extracted. PCR analysis was performed with species-specific primer pairs C729+/C729- and two nuclear genes G3PDH and RPB2 with their corresponding primer pairs G3PDH-F/G3PDH-R and RPB2-F/RPB2-R (Rigotti et al. 2002; Aktaruzzaman et al. 2018). The sequences for all three PCR products of C729, G3PDH, and RPB2 (GenBank accession nos. OR287069, OR255923, and OR255924 respectively) exhibited 99 to 100% similarity with other B. cinerea isolates. In the pathogenicity test, detached leaves of B. striata were inoculated with the BSFC-7 isolate. The leaves were soaked in sodium hypochlorite (1%) for two min, washed with sterile distilled water, and then inoculated with 10 µl of conidial suspension (106 conidia/ml). Sterile water was used as control and samples were incubated at 25 °C. After three days, all leaves inoculated with conidia showed dark brown water-soaked lesions similar to those observed in the field, while the control leaves remained healthy. The pathogen was re-isolated from the affected leaves, fulfilling Koch's postulates. B. cinerea is a common pathogen on a wide range of host plant species worldwide and has been reported to infect B. striata in Yunnan province, China (Romanazzi and Feliziani 2014; Zhang et al. 2020). To our knowledge, this is the first report of B. cinerea causing leaf spots on B. striata in Anhui province, China. This study will provide a basis for controlling the prevalence and economic losses of gray mold on B. striata.
RESUMEN
Objective: Most of the studies on the herb Chuanxiong Rhizoma (CR) have focused on the l-arginine-nitric oxide (NO) pathway, but the nitrate-nitrite-NO (NO3 --NO2 --NO) pathway was rarely investigated. Therefore, the aim of this study was to evaluate the effects and mechanisms of action of CR in coronary artery disease (CAD). Methods: The NO3 -, NO2 - and NO levels were examined in the NO3 --NO2 --NO pathway. High-performance ion chromatography was used to quantify NO3 - and NO2 - levels. Then, NO was quantified using a multifunctional enzyme marker with a fluorescent probe. The tension of aortic rings was measured using a multi myograph system. Results: High content of NO3 - and low content of NO2 - was found in CR, and which could potently convert NO3 - to NO2 - in the presence of endogenous reductase enzyme. Incubating human coronary artery endothelial cells (HCAECs) with CR-containing serum showed that CR significantly decreased the NO3 - content and increased the levels of NO2 - and NO in the cells under hypoxic conditions. In addition, CR significantly relaxed isolated aortic rings when the l-arginine -NO pathway was blocked. The optimal concentration of CR for relaxation was 200 mg/mL. Conclusion: CR supplements large amounts of NO in cells and vessels to achieve relaxation via the NO3 --NO2 --NO pathway, thereby making up for the deficiency caused by the lack of NO after the l-arginine-NO pathway is suppressed. This study also supports the potential use of a traditional Chinese herb for future drug development.