Bletilla striata carbon dots with alleviating effect of DSS-induced ulcerative colitis.

Ulcerative colitis (UC) is a type of inflammatory bowel disease (IBD) that significantly affected quality of life for patients. In this study, carbon dots based on Bletilla striata (BS-CDs) were synthesized by hydrothermal method and characterized by optical property analysis. In addition, the study measured the potential effect of BS-CDs on colonic histopathology and inflammation in dextran sulfate sodium (DSS)-induced ulcerative colitis. The results suggested that BS-CDs significantly increased colon length, improved colonic histopathology, and reduced the levels of pro-inflammatory cytokines (TNF-α, IL-1ß, and IL-6) in colitis mice. Taken together, BS-CDs alleviate clinical inflammation by blocking pro-inflammatory cytokines which were expected to be a potential agent for the treatment of colitis.

The rhizosphere microbiome and its influence on the accumulation of metabolites in Bletilla striata (Thunb.) Reichb. f.

BACKGROUND: Bletilla striata (Thunb.) Reichb. f. (B. striata) is a perennial herbaceous plant in the Orchidaceae family known for its diverse pharmacological activities, such as promoting wound healing, hemostasis, anti-inflammatory effects, antioxidant properties, and immune regulation. Nevertheless, the microbe-plant-metabolite regulation patterns for B. striata remain largely undetermined, especially in the field of rhizosphere microbes. To elucidate the interrelationships between soil physics and chemistry and rhizosphere microbes and metabolites, a comprehensive approach combining metagenome analysis and targeted metabolomics was employed to investigate the rhizosphere soil and tubers from four provinces and eight production areas in China. RESULTS: Our study reveals that the core rhizosphere microbiome of B. striata is predominantly comprised of Paraburkholderia, Methylibium, Bradyrhizobium, Chitinophaga, and Mycobacterium. These microbial species are recognized as potentially beneficial for plants health. Comprehensive analysis revealed a significant association between the accumulation of metabolites, such as militarine and polysaccharides in B. striata and the composition of rhizosphere microbes at the genus level. Furthermore, we found that the soil environment indirectly influenced the metabolite profile of B. striata by affecting the composition of rhizosphere microbes. Notably, our research identifies soil organic carbon as a primary driving factor influencing metabolite accumulation in B. striata. CONCLUSION: Our fndings contribute to an enhanced understanding of the comprehensive regulatory mechanism involving microbe-plant-metabolite interactions. This research provides a theoretical basis for the cultivation of high-quality traditional Chinese medicine B. striata.

Bletilla striata polysaccharide alleviates chronic obstructive pulmonary disease via modulating gut microbiota and NR1H4 expression in mice.

Bletilla striata polysaccharide (BSP) is the main component of Bletilla striata and has been revealed to enhance immune responses. Chronic obstructive pulmonary disease (COPD) results from the chronic inhalation of toxic particles and gases, which initiates innate and adaptive immune responses in the lungs. This study aimed to evaluate whether the effects of BSP on COPD were related to the abundance of gut microbiota and explored the underlying mechanism. COPD mice were induced with cigarette smoke and human bronchial epithelial cells (HBEC) were subjected to cigarette smoke extract (CSE) for in vitro studies. BSP alleviated the inflammatory response and the inflammatory cell infiltration in lung tissues and promoted the recovery of respiratory function in COPD mice. BSP mitigated CSE-induced HBEC injury by repressing inflammation and oxidative stress. 16s rRNA sequencing revealed that BSP increased the abundance of Bacteroides intestinalis. Bacteroides intestinalis colonization enhanced the therapeutic effect of BSP in COPD mice by upregulating NR1H4 and its encoded protein FXR. Reduction of NR1H4 impaired the therapeutic impact of BSP and Bacteroides intestinalis in COPD. These data demonstrate that BSP inhibits COPD by upregulating NR1H4 through Bacteroides intestinalis, which underpins the application of BSP as a therapeutic agent for COPD.

Synergistic effects of selenium and zinc on Bletilla striata (Thunb.) Reichb. F. growth and polysaccharide antioxidation.

Selenium (Se) is a beneficial trace element for plants, while zinc (Zn) is a vital micronutrient. Bletilla striata (Thunb.) Reichb. F. is widely recognized as a medicinal herb. In this study, Se and Zn were introduced to determine the medicinal properties of B. striata. The plant's biomass, polysaccharides, Se and Zn contents, and the antioxidant properties of polysaccharide solutions were all examined. A notable increase in polysaccharide synthesis in B. striata tubers was observed following the application of 0.2 kg ha-1 of Se, and 1.0 kg ha-1 of Zn, either individually or in combination. Se and Zn content in polysaccharides were 3.33 to 3.77 mg kg-1 and 82.82 to 121.78 mg kg-1, at 1.0 kg ha-1 Se and 10.0 kg ha-1 Zn treatments, respectively. These values were 2.1-3.1 times and 1.8-2.8 times higher than those observed in control samples. Polysaccharide antioxidation has resulted in an increase in antioxidant activity as the concentration of polysaccharide solutions increased. The largest scavenging of 1, 1-diphenyl-2-picrylhydrazyl (DPPH) radicals and the most excellent reducing power of the polysaccharide solutions were observed when a mixture of Se and Zn was applied at a rate of 1.0 kg ha-1 and 10.0 kg ha-1. The individual application of Se at 1.0 kg ha-1 and Zn at 10.0 kg ha-1 also resulted in significant DPPH radicals scavenging and reduced power. These data suggested that Se-Zn enriched B. striata is a new source of Se and Zn supplementation and an antioxidant resource.

First Report of Ilyonectria coprosmae Causing Root Rot of Bletilla striata in Yunnan province of China.

Bletilla striata is a valuable medicine in China, belonging to the Orchidaceae family, and is used for treating various ailments such as hemoptysis, pyocutaneous disease, and anal fissure by preventing blood flow, reducing swelling, and promoting granulation. In June 2022, a disease with symptoms similar to root rot was observed on B. striata in the pineland (the area was 0.4 hectare) of Lancang County (22°48'17" N, 99°46'58"22 E), Yunnan Province, China. The root rot incidence rate reached 16% (Table S1). The root rot incidence was calculated as follows: root rot incidence (%) = (number of root rot seedlings/total number of seedlings investigated) × 100. In May 2023, the similar symptoms were observed in the field, and the disease incidence was 17% (Table S1). Initially, there were no obvious symptoms on the leaves. Subsequently, the leaves wilted and brown spots appeared. Later, the entire leaf browned, withered and eventually died (Fig. S1A, B). The roots were brown and the browning spread from the root edge to the center, causing vascular bundle browning and dead lignified fibers in the cortex (Fig. S1C, D). To isolate the causal pathogen, 20 symptomatic root tissues were collected from 20 plants. Cutting the diseased tissues into small pieces (0.5 × 0.5 cm). After surface sterilization (30s with 75% ethanol and 3 min with 2% sodium hypochlorite, rinsed three times with sterile water), the disinfected root tissues were plated onto potato dextrose agar (PDA) and incubated at 25℃ for 4 to 6 days with 12 h light/dark photoperiod. A total of 10 single-spore isolates with similar morphology and conidial characteristics were obtained. one representative isolate BJG6 was selected for identification and further study. The fungal colony was reddish-brown or orange-white on PDA after 8 days of incubation at 25℃. The mycelium was like carpet or cotton, and the edge of colony was uniform (Fig. S1E). Large conidia were formed on simple conidial peduncles (Fig. S1F, G). The conidia with 1~3 septates and 1 mostly, with cylindrical shapes and narrow tops but sharp bases (Fig. S1H-J). Conidia with 1 septate measured as 5.5 (4.3-6.7) × 20.7 (16.0-25.4) µm (n=30), while those with 2 septates measured as 6.6 (5.8-7.4) × 26.5 (21.7-31.3) µm (n=30), and those with 3 septates was 6.9 (6.2-7.8) × 31.8 (29.3-34.3) µm (n=30). Ellipsoidal microconidia could be formed on conidiophore and measured as 2.4 (1.9-2.9) × 4.9 (5.9-3.9) µm to 2.7 (2.2-3.2) × 5.4 (4.3-6.5) µm (n=30). Spherical or subspherical chlamydospores were produced on low-nutrient agar, with an average size of 5.8(5.0-6.6) µm×5.3 (4.4-6.2) µm (n=30) (Fig. S1K, L). According to the morphology and conidial features, the pathogen was consistent with the description of Ilyonectria coprosmae (Cabral et al. 2012). The total genomic DNA was extracted, and primer pairs ITS4/ITS5 were used to amplify and sequence the rDNA-ITS region (ITS1-5.8 S rRNA-ITS2 gene regions) (White et al. 1990). The sequences were deposited in GenBank (SUB13905750 for ITS). BLAST searches revealed BJG6 showed 98% homology with corresponding sequences of Ilyonectria coprosmae in GenBank (JF735260). A phylogenetic tree (MEGA 7.0) was constructed using maximum-likelihood methods (Fig. S2). To identify pathogenicity, a cultured medium in a size of 6mm containing isolate BJG6 was inoculated onto ten healthy roots of B. striata, PDA plugs alone were used as the uninoculated controls. All samples were placed in a dark inoculation chamber at 25℃. The pathogenicity test was replicated three times. After two weeks, all inoculated roots appeared similar symptoms identical to those observed on field plants (Fig. S1M, N-P), while control plants remained healthy (Fig. S1Q, R). The same pathogenic fungus was reisolated from the symptomatic root rot, and the characteristics of colony and conidia were the same as the original isolates (Fig. S1S, T). These results confirmed I. coprosmae as the causal pathogen of root rot disease on B. striata in China by Koch's postulates tests for the first time. Further exploration should be conducted to understand the occurrence and migration of this disease, so as to develop specific and efficient disease management strategies in the future.

First Report of Fusarium annulatum Causing Blight on Bletilla striata (Baiji) in China.

Bletilla striata (Thunb. ex A. Murray) Rchb (known as baiji in Chinese), a herbal plant distributed mainly in China, has become a focus of scientific attention recently due to its medicinal value (He et al. 2017). In May 2023, blight symptoms on leaves and stems were observed approximately 60% of Bletilla striata in Hangzhou, Zhejiang, China (29.80° N, 119.67° E). Brown spots initially appear on the infected leaves, which gradually decay as the spots expand. The wilting is accompanied with fading and yellowing, and eventually leading to defoliation. The infected stem initially appears brown spots, which gradually decay as the spots expand, resulting in the death of the whole plant, affecting the yield and quality of the herbs ultimately. To isolate the pathogen, small symptomatic leaves and stems (5×5 mm) were surface-disinfected with 75% ethanol for 30 s and 1% NaClO for 2 min, then rinsed in distilled water 3 times. Subsequently, the disinfected tissues were placed on PDA and incubated at 27 ℃ for 3 days. A total of 8 fungal isolates with similar morphological characteristics were obtained. The colony by single-spore purification was light purple to dark purple with abundant aerial mycelium. Macroconidia were relatively slender with a curve, mainly three to five septate and measuring 24.34 to 54.64 µm (average 40.29 µm) × 3.59 to 5.45 µm (average 4.49 µm) (n=30). Microconidia appeared obovoid to pyriform, with sizes of 5.31 to 8.43 µm (average 7.12 µm) × 2.30 to 4.29 µm (average 3.22 µm) (n=30). The morphological characteristics were consistent with Fusarium annulatum (Yilmaz et al. 2021). To further confirm the isolate's identification, the genomic DNA of isolates were extracted and identified by phylogenetic analyses of multilocus sequences of the RNA polymerase largest subunit (rpb1, primers Fa and G2R), RNA polymerase second largest subunit (rpb2, primers 7cf and 11ar) and the translation elongation factor 1-alpha (tef1, primers EF1 and EF2) (O'Donnell et al. 2022). The sequences were deposited in GenBank (rpb1: OR493933, OR493934, OR753402; rpb2: OR753398, OR753399, OR753400; tef1: OR493935, OR493936, OR753401). BLAST searches of the rpb1, rpb2, and tef1 sequences revealed 99.83% (1775/1778 nt), 99.79% (957/959 nt), and 98.98% (678/685 nt) homology with those of Fusarium annulatum CBS:258.54 from New Caledonia (rpb1: MT010944; rpb2: MT010983; tef1: MT010994). To confirm pathogenicity, one-year-old B. striata leaves and stems were disinfected with 75% ethanol, wounded with a sterile syringe on 3 healthy leaves and stems, inoculated with 5 × 5 mm mycelial discs of strain BJ-L1 and BJ-S1, respectively. And the control were treated similarly except that they were inoculated with PDA discs. The experiment was replicated 3 times. After 5 days, all inoculated leaves and stems showed similar symptoms to those initially observed on infected plants. The same pathogen was re-isolated and identified by morphological characterization and molecular analysis, confirming Koch's postulates. Thus, the pathogen causing blight of B. striata was determined to be F. annulatum. To our knowledge, this is the first report of F. annulatum causing blight on B. striata in China. F. annulatum has a wide range of hosts and has been reported to infect a wide range of crops, fruits and vegetables (Bacon et al. 1991). This study provides the basis for further research on this disease and is important for the management of this disease and the improvement of the economic benefits of B. striata.

Dihydrophenanthro[b]furan derivatives from the tubers of Bletilla striata.

Two pairs of new dihydrophenanthro[b]furan enantiomers blephebibnols G-H (1-2), one new dihydrophenanthro[b]furan derivative blephebibnol I (3), along with four known analogues (4-7), were isolated from the tubers of Bletilla striata. Their structures including the absolute configurations were determined by the combination of spectroscopic data analysis, ECD and NMR calculations. Compounds 1a, 1b, and 2b showed inhibition of NO production in LPS-stimulated BV-2 cells, with IC50 values ranging from 4.11 to 14.65 µM. Further mechanistic study revealed that 1a suppressed the phosphorylation of p65 subunit to regulate the NF-κB signaling pathway. In addition, some compounds displayed selective cytotoxic activities against HCT-116, HepG2, A549, or HGC27 cancer cell lines with IC50 values ranging from 0.1 to 8.23 µM.

Preparation, Characterization, and Wound Healing Promotion of Hydrogels Containing Glucosyloxybenzyl 2-Isobutylmalates Extract from Bletilla striata (Thunb.) Reichb.f.

Plant-derived medicinal materials have significant potential and promising applications in wound healing and skin regeneration. This study aims to develop a plant-based extract hydrogel from Bletilla striata (Thunb.Reichb.f.), specifically a glucosyloxybenzyl 2-isobutylmalates extract (B), and characterize its potential effects on wound healing. We synthesized the hydrogel using carbomer (C), glycerol (G), and triethanolamine (T) as the matrix, incorporating B into the hydrogel base, and evaluated its physical and chemical properties. In vitro tests assessed the biocompatibility of the glucosyloxybenzyl 2-isobutylmalates-carbomer-glycerol-triethanolamine (B-CGT) hydrogel and its effects on cell proliferation, migration, and adhesion. Animal model experiments evaluated its potential to promote wound healing. The results showed that the prepared B-CGT hydrogel possessed a good three-dimensional network structure and stability, demonstrating significant free radical scavenging capacity in antioxidant tests. In cell experiments, the B-CGT hydrogel exhibited no potential cytotoxicity and showed good hemocompatibility and promotion of cell proliferation. Animal experiments indicated that wounds treated with the B-CGT hydrogel healed significantly faster, with improved formation of new epithelial tissue and collagen. This study suggests that the developed B-CGT hydrogel is a promising candidate for wound dressings, with excellent physicochemical properties and controlled drug release capabilities, effectively promoting the wound healing process.

Optimization of an Ultrasound-Assisted Extraction Technique and the Effectiveness of the Sunscreen Components Isolated from Bletilla striata.

Bletilla striata is the dried tuber of B. striata (Thund.) Reichb.f., which has antibacterial, anti-inflammatory, anti-tumor, antioxidant and wound healing effects. Traditionally, it has been used for hemostasis therapy, as well as to treat sores, swelling and chapped skin. In this study, we used the ultraviolet (UV) absorbance rate of B. striata extracts as the index, and the extraction was varied with respect to the solid-liquid ratio, ethanol concentration, ultrasonic time and temperature in order to optimize the extraction process for its sunscreen components. The main compounds in the sunscreen ingredients of Baiji (B. striata) were analyzed using ultra-high-performance liquid chromatography combined with quadrupole time-of-flight tandem mass spectrometry. The sunscreen properties were subsequently evaluated in vitro using the 3M tape method. The results show that the optimal extraction conditions for the sunscreen components of B. striata were a solid-liquid ratio of 1:40 (g/mL), an ethanol concentration of 50%, an ultrasonic time of 50 min and a temperature of 60 °C. A power of 100 W and an ultrasonic frequency of 40 Hz were used throughout the experiments. Under these optimized conditions, the UV absorption rate of the isolated sunscreen components in the UVB region reached 84.38%, and the RSD was 0.11%. Eighteen compounds were identified, including eleven 2-isobutyl malic acid glucose oxybenzyl esters, four phenanthrenes, two bibenzyl and one α-isobutylmalic acid. An evaluation of the sunscreen properties showed that the average UVB absorption values for the sunscreen samples from different batches of B. striata ranged from 0.727 to 1.201. The sunscreen ingredients of the extracts from B. striata had a good UV absorption capacity in the UVB area, and they were effective in their sunscreen effects under medium-intensity sunlight. Therefore, this study will be an experimental reference for the extraction of sunscreen ingredients from the B. striata plant, and it provides evidence for the future development of B. striata as a candidate cosmetic raw material with UVB protection properties.

The effects of different extraction methods on the structure and antioxidant properties of Bletilla striata polysaccharide.

Bletilla striata polysaccharide (BSP) is one of the main active ingredients of the traditional Chinese medicine Bletilla striata (Thunb) Richb.f and the extraction method of BSP has a significant impact on its properties. This study investigated the effects of four extraction methods, namely hot water extraction, ultrasonic extraction, enzyme extraction, and microwave extraction, on the structure and antioxidant properties of BSP. Characterization results from FTIR and NMR showed that all four BSP consisted mainly of glucose and mannose, forming α-glycosidic and ß-glycosidic linkages to form glucomannan. Hot water extraction had the lowest extraction rate of BSP at 21.78% ± 0.73%. The polysaccharide BSP-H obtained from hot water extraction had the smallest absolute Zeta potential and Grain size, but the largest molecular weight at 204 kDa. It exhibited the best thermal stability and superior antioxidant activity compared to polysaccharides extracted using the other three methods, as evaluated by three different antioxidant assays. Although the antioxidant activity of BSP-V was slightly weaker, it showed a significant improvement compared to the remaining two polysaccharides. These results suggest that hot water extraction is the most suitable method for large-scale application of BSP, preserving its activity effectively, thus facilitating practical production and product development.

Evaluation of volatile components from the tuber, fibrous roots, bud, stem and leaf tissues of Bletilla striata for its anti-colon cancer activity.

Bletilla striata (Thunb.) Rchb.f., a medicinal plant in the Orchidaceae family, is mainly found in East Asia and has extensive pharmacological activities. Plant's volatile components are important active ingredients with a wide range of physiological activities, and B. striata has a special odor and unique volatile components. Yet it has received little attention, hindering a full understanding of its phytochemical components. Employing the ultrasonic-assisted extraction method, the volatile components of B. striata's fibrous root, bud, aerial part and tuber were extracted, resulting in yields of 0.06%, 0.64%, 3.38% and 4.47%, respectively. A total of 78 compounds were identified from their chemical profiles using gas chromatography-mass spectrometry (GC-MS), including 45 components with the main compounds of linoleic acid (content accounting for 31.23%), n-hexadecanoic acid (13.53%), and octadecanoic acid (9.5%) from the tuber, 34 components with the main compounds of eicosane, 2-methyl- (28.42%), linoelaidic acid (10.43%), linoleic acid (4.53%), and n-hexadecanoic acid (6.91%) from the fibrous root, 38 components with the main compounds of pentadeca-6,9-dien-1-ol (9.29%), n-hexadecanoic acid (11%), eicosane,2-methyl- (23.43%), and linoleic acid (23.53%) from the bud, and 27 components with the main compounds of linoelaidic acid (5.97%), n-hexadecanoic acid (15.99%), and linolenic acid ethyl ester (18.9%) from the aerial part. Additionally, the growth inhibition activity against colon cancer HCT116 cells was evaluated using sulforhodamine B (SRB) assay and the thiazolyl blue tetrazolium bromide (MTT) assay, and the accumulation of reactive oxygen species (ROS) was determined using dichloro-dihydro-fluorescein diacetate (DCFH-DA) staining and fluorescence intensity analysis. The volatile extracts exhibited significant growth inhibitory efficacy against HCT116 cells, with half-maximal inhibitory concentration (IC50) values of 3.65, 2.32, 2.42 and 3.89 mg/mL in the SRB assay, and 3.55, 2.58, 3.12 and 4.80 mg/mL in the MTT assay for the root, bud, aerial part, and tuber, respectively. Notably, treatment with the aerial part extract caused morphological changes in the cells and significantly raised the intracellular ROS level. In summary, the chemical profiles of the volatile components of B. striata were revealed for the first time, demonstrating a certain tissue specificity. Additionally, it demonstrated for the first time that these volatile extracts possess potent anti-colon cancer activity, highlighting the importance of these volatile components in B. striata's medicinal properties.

Haplotype-resolved genome assembly of Bletilla striata (Thunb.) Reichb.f. to elucidate medicinal value.

Bletilla striata, commonly known as baiji, is a species used in traditional Chinese medicine; it is highly regarded for its medicinal applications and therefore has high economic value. Here, we report a high-quality haplotype-resolved genome of B. striata, haplotype A (2.37 Gb, with a scaffold N50 of 146.39 Mb and a contig N50 of 1.65 Mb) and haplotype B (2.43 Gb, with a scaffold N50 of 150.22 Mb and a contig N50 of 1.66 Mb), assembled from high-fidelity (HiFi) reads and chromosome conformation capture (Hi-C) reads. We find evidence that B. striata has undergone two whole-genome duplication (WGD) events: an ancient WGD event shared by most monocots and a recent WGD event unique to all orchids. We also reconstructed the ancestral orchid karyotype (AOK) of 18 ancient chromosomes and the evolutionary trajectories of 16 modern B. striata chromosomes. Comparative genomic analysis suggests that the expanded gene families of B. striata might play important roles in secondary metabolite biosynthesis and environmental adaptation. By combining genomic and transcriptomic data, we identified the 10 core members from nine gene families that were probably involved in B. striata polysaccharide (BSP) biosynthesis. Based on virus-induced gene silencing (VIGS) and yeast two-hybrid experiments, we present an MYB transcription factor (TF), BsMYB2, that can regulate BSP biosynthesis by directly interacting with eight key BSP-related genes: sacA1, HK1, scrK1, scrK2, GPI1, manA1, GMPP1 and UGP2_1. Our study will enhance the understanding of orchid evolution and accelerate the molecular-assisted breeding of B. striata for improving traits of medicinal value.

Bletilla striata Polysaccharide Nanoparticles Improved the Therapeutic Efficacy of Omeprazole on the Rat Gastric Ulcer Induced by Ethanol.

Gastric ulcers are a common clinical presentation affecting anyone, regardless of their age or gender. Nanoparticles (NPs) containing Bletilla striata polysaccharide (BSP) and omeprazole (OME) were investigated in the study for their therapeutic effect on gastric ulcers. Ethanol-induced gastric ulcers in rats (240 ± 30 g) were established. Our OME-BSP NPs were more stable than free OME in the acidic environment and can increase the absorption of OME in rat stomach, which was confirmed by in situ gastric absorption and distribution experiments. The extended blood circulation of OME-BSP NPs was also observed in rats with gastric ulcer. More importantly, OME-BSP NPs not only decreased the area of gastric ulcer and inhibited gastric acid secretion but also reversed gastric tissue damage and cell apoptosis, as revealed by HE and TUNEL staining. Subsequent SOD, MDA, PGE2, IL-6, and TNF-α tests further verified the superiority of OME-BSP NPs against rat gastric ulcer, which properly originated from superior antioxidant and anti-inflammatory effects. As a result, our OME-BSP NPs' drug delivery system improved the stability and absorption of OME in the rat stomach and achieved targeted treatment of gastric ulcers.

Polysaccharides from Bletilla striata protect against mercury-induced gastrointestinal toxicology in adult Drosophila melanogaster via modulation of sestrin.

Oxidative stress was one of the major causes of heavy metal-induced toxicity in organisms. The polysaccharide from Bletilla striata (Orchidaceae) (BSP) has been recently recognized as a novel player in the management of oxidative stress response in organisms. Here, we took the midgut of adult Drosophila melanogaster (Diptera: Drosophilidae) (D. melanogaster), a functional equivalent to the mammalian intestine and stomach, as a model to evaluate the protective effects of BSP (50 µg/mL) on mercuric chloride-induced gastrointestinal toxicology in insects. As a result, BSP exposure significantly improved the survival rates and climbing ability of adult flies exposed to mercury. Further study demonstrated that BSP significantly alleviated the mercury-induced oxidative injury to midgut epithelium, at least partly, through increasing antioxidant enzyme activity (glutathione-S-transferase and superoxide dismutase), decreasing reactive oxidative species production, inhibiting cell death, restoring intestinal epithelial barrier and regulating intestinal stem cell-mediated tissue regeneration. Additionally, sestrin, an oxidative-stress gene, was required in mediating the protection of BSP against mercury-induced oxidative damage to midgut. This study suggested that BSP has great potential for future application in the treatment and prevention of heavy metal-induced gastrointestinal adversities in mammals.

Effect of Flowering Stages on the Content of Active Ingredients and Antioxidant Capability of Bletilla striata Flowers.

Bletilla striata (Thunb.) Reichb.f. is a perennial herb with abundant active ingredients. Previous research mainly focused on its tubers, however, the study on flowers, especially the variation of active ingredient contents at different flowering stages, was rarely seen. This study analyzed the total phenols, flavonoids, polysaccharides, anthocyanins, and cyanidin-3-O-glucoside content of B. striata flowers which were in cultivated in Herb Garden of Zhejiang A&F University and collected in May, 2019, in order to investigate the changes in active ingredients and antioxidant capacity among different flowering stages (bud, initial, and full bloom). Changes in radical scavenging capability of DPPH (1,1-Diphenyl-2-picrylhydrazyl radical), ABTS (2,2'-azinobis(3-ethylbenzthiazoline-6-sulphonate)), and hydroxy were analyzed. Significant differences in active ingredient content of flowers were detected among different flowering stages. The total phenolic content increased continuously during the entire flowering stage. The contents of total flavonoid, total polysaccharide, and cyanidin-3-O-glucoside reached peaks at the initial blooming stage and then fell as the flowering process continued. The antioxidant activity in initial stage was the highest than in any other flowering stages. Therefore, we conclude that the initial blooming stage is the best harvesting stage of B. striata flowers. This study provides a robust basis for the harvest and utilization of B. striata flowers in food, medical, and cosmetic industries.

First report of Fusarium solani causing Fusarium wilt of Bletilla striata (hyacinth orchid) in Zhejiang province of China.

Bletilla striata, a member of the family Orchidaceae, is a perennial herbaceous plant used in Chinese medicine. It is a commonly cultivated economic crop in the Yangtze River Basin provinces of China, as its roots are used to treat bleeding and inflammation. In Zhejiang province, Bletilla striata has a planting area of 1400 hectares with a total production of approximately 2.6×106 kg. In October 2021, over 40% of B. striata plants showed severe wilt in a traditional Chinese medicine plantation (ca. 10 ha) in Xianju City, Zhejiang Province, China. In July, leaf curling, crinkling, and leaf-edge browning of the diseased plants were first noticed in the field. Then, necrotic streaks gradually spread to the roots. Stems displayed chlorosis and withering and when they were cut vertically, symptoms such as vascular bundle discoloration, appeared. After October, the individual plants slowly wilted and died, their aboveground parts became filamentous, and the epidermis detached from the corm's fibrous roots. Diseased plants were easily removed as the corm root had fractured. White mycelia were clearly seen in the stem. Three symptomatic leaves and three stems were cut, their surfaces disinfected, and plated on potato dextrose agar (PDA). Six strains were subsequently isolated from all samples. Fungal colonies with white to cream-colored mycelia from all tissues appeared after 3 d of incubation at 26 °C. Pure cultures obtained after monospore isolation were examined for their morphological characteristics. The colonies grew rapidly, were fluffy and appressed, and had cottony white to pale cream coloration. Microconidia were hyaline, oval to reniform, with zero or one-septate (4.0-12.0 × 1.0-5.5 µm), and usually formed on elongated monophialidic conidiogenous cells. Macroconidia were wide, fusiform, or slightly curved with one or three septa (23.0-36.0 × 4.5-7.0 µm). Chlamydospores were spherical and were abundant on carrot agar (CA) medium within 2 wk. Fresh mycelia and conidia that grew at 26 ℃ for 7 d were collected from PDA plates. Next, DNA was extracted using the Ezup Column Fungi Genomic DNA Purification kit (Sangon Biotech, Shanghai, China). We amplified a portion of RNA polymerase II second largest subunit gene (RPB2) using primers 5f2/7cr (O'Donnell et al. 2010), the internal transcribed spacer (ITS) region using primers ITS1F/ITS4 (White et al. 1990), and the partial translation elongation factor-1α gene using primers EF1/ EF2 (O'Donnell et al. 1998) from the genomic DNA and sent the PCR amplicons for sequencing at Tsingke Biotechnology Co., Ltd., Wuhan, China. A BLAST search of the obtained sequences (GenBank accessions OP743920, OP913183, and OP913180) showed 99-100% homology with the respective sequences of the Fusarium solani reference isolate NRRL46702 (O'Donnell et al. 2008). Based on the morphological and molecular characteristics and BLAST search, the fungus was identified as F. solani (Leslie and Summerell 2006). Pathogenicity of the purified F. solani isolate was assessed by inoculateing a F. solani spore suspension of 1×106 conidia/mL (20 mL per seedling) on corm wounds made with a toothpick. Four inoculated and three non-inoculated seedlings (sterilized water as a negative control) were grown in a greenhouse at 26 °C under natural sunlight and covered with plastic bags to maintain humidity for 72 h. After 15 d, leaf browning on leaf edges, new leaf bases, and corm epidermis was observed. Symptoms, similar to those detected in the original sample, developed on the inoculated leaves, whereas the controls remained asymptomatic. Fusarium solani was successfully re-isolated from all four inoculated seedlings, and their identity confirmed by generating partial Tef1 and RPB2 sequences, thereby fulfilling the Koch's postulate. To our knowledge, F. solani has not been previously reported as a pathogen of B. striata.

First report of Curvularia geniculata causing leave spot disease of Bletilla striata in Zhejiang of China.

Bletilla striata, a perennial herbaceous plant belonging to the family Orchidaceae, is native to China and is widely distributed in the Yangtze River basin. In China, B. striata is a popular medicinal plant that is typically used to reduce wound bleeding and inflammation. In September 2021, distinct leaf spot symptoms were observed in more than 50% of B. striata plants in a traditional Chinese medicine plantation (ca. 10 ha) in Xianju City, Zhejiang Province, China. Small, round, pale brown, necrotic spots were first observed on the leaves. Subsequently, these lesions became grayish brown in the center and dark brown with slight protuberances at the margins and eventually enlarged to 5-8 mm on the leaves. Over time, the small spots enlarged and coalesced into necrotic streaks (1-2 cm). Leaves with symptoms of disease were cut, surface-sterilized, and plated on potato dextrose agar (PDA). Fungal colonies (28×28 mm) with grayish-black mycelia from all tissues were produced after 3 days of incubation at 26 °C. The mature colonies eventually turned black in the center, with obvious rings appearing after 10 days of culture. Basal conidia ranged from pale to dark brown, whereas apical ones were pale brown, with central cells being larger and darker than basal cells. Conidia were smooth and either fusiform, cylindrical, or slightly curved with rounded tips. They ranged in length from 22.34 to 36.82 (mean = 28.63) µm with 2-4 septations and slight septal constrictions. Monospore isolation was performed to obtain a pure culture. Strain BJ2Y5 was subsequently stored in the strain Preservation Center of Wuhan University (Wuhan, China) and the strain preservation number CCTCC M 2023123 was obtained. Fresh mycelia and conidia that grew at 26 ℃ for 7 days were collected from PDA plates. DNA was extracted using the Ezup Column Fungi Genomic DNA Purification Kit (Sangon Biotech Co., Shanghai, China). The phylogenetic position of isolate BJ2-Y5 was clarified based on DNA sequence analysis of three loci, namely glyceraldehyde 3-phosphate dehydrogenase (GAPDH; Berbee et al. 1999), the internal transcribed spacer (ITS) region (White et al. 1990), and partial sequences of the second largest subunit of RNA polymerase II (RPB2; O'Donnell et al. 2007). A BLAST search (GenBank accession nos. OP913168, OP743380, and OP913171) showed 99% homology to the reference isolate CBS 220.52. Based on the morphological and molecular information presented in this study these isolates were identified as C. geniculata (Hosokawa et al. 2003). Furthermore, we evaluated the pathogenicity of B. striata leaves by smearing a conidial suspension (106 conidia/mL) on both sides of leaves with and without wounds. Five inoculated and three non-inoculated leaves (smeared with sterile distilled water as a negative control) were kept in a greenhouse at 26 °C under natural sunlight and covered with plastic bags for 72 h to maintain humidity. After 7 days, small round spots appeared on the wounds. Fifteen days later, the symptoms of disease on the wounded inoculated leaves were similar to those observed in the original sample, whereas the control plants remained healthy. No symptoms of infection were observed in unwounded inoculated leaves. C. geniculata was successfully re-isolated from all five inoculated leaves and was confirmed based on Koch's postulates. To the best of our knowledge, C. geniculata infection has not been previously reported in B. striata.

First report of leaf spot caused by Botrytis cinerea on Bletilla striata in Anhui province, China.

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°27'15″, E116°18'32″), 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.

First Report of a Rust Disease on Bletilla striata Caused by Coleosporium bletiae in Anhui province of China.

Bletilla striata is a perennial Orchidaceae which is widely distributed in Anhui, Hubei, Guizhou, Guangxi, Sichuan, Yunnan and other provinces in China (He et al. 2017). It has the effects of convergence, haemostasis, clearing away heat and detoxification, reducing swelling and generating muscle (He et al. 2017; Xu et al. 2019). With the reduction in wild resources of B. striata, cultivation can promote the effective conservation of B. striata germplasm resources. Fusarium root rot, leaf spot disease, and other diseases have been reported on this plant in China (Wang et al. 2022, Xu et al. 2022, Zhou et al. 2022). Coleosporium bletiae on B. striata has been reported in Guizhou, Sichuan, and Hubei provinces in China, with frequent occurrence and serious disease incidences in Guizhou province (Xu et al. 2022). In April to November 2021, rust was found in Anhui Bletilla planting base (30°09' to 30°46'N; 115°45' to 116°30'E). Approximately 17% of the B. striata plants showed disease symptoms (Figure S1). Uredinia are hypophyllous, scattered, round, powdery, and are associated with chlortic spots 1-4 mm wide on the upper side of the leaves. After mid-October, the temperature gradually decreased, and reddish-brown telia appeared around uredinia in circular shape. A total of 60 samples with typical symptoms were collected. Urediospore and teliospores were obtained by sterile needles, and their sizes were observed and measured under a microscope with sterile water. Urediospores were orange‒yellow, mainly oval in shape, 27.2-36.8 µm× 17.6-22.8 µm (n=60), and uniformly covered by verrucae on the surface (Figure S2 a-b). Teliospores were clavate, with a smooth surface and golden yellow contents, and gradually narrowed from top to base, ranging in size from 85.33-109.66 µm× 15.27-20.35 µm (n=60) (Figures S2 c-e). Three samples with typical symptoms were selected; approximately 200 µg of Urediospore of the rust pathogen were colleced per sampleand placed in 1.5 mL sterile centrifuge tubes for genomic DNA extraction by the CTAB method (Xu et al. 2022). The internal transcribed spacer (ITS) region of rDNA and large subunit (LSU) RNA genes were amplified using primer pairs ITS1/ITS4 (Leclerc et al., 2000) and NL1/NL4 (Zhang et al. 2012), respectively. The obtained sequences were deposited in GenBank (OP363678 for ITS and OP363683 for LSU), which were 100% identical with 100% coverage to the ITS sequence (MN108161, locality: Hubei) and the LSU sequence (KX386038) of Coleosporium bletiae. Based on morphological characteristics and DNA sequences, the isolates were identified as C. bletiae (Figures S2 and Figure S3). To confirm pathogenicity, 2-year-old healthy plants of B. striata were sprayed with 5 mL of urediospore suspension (2.6×105/mL). Plants sprayed with sterile distilled water were used as control. The test was conducted in an artificial climate incubator at 25 ± 1°C with a 12 h light/12 h dark photoperiod (relative humidity = 90%). The experiment was repeated three times. Two weeks after inoculation, typical yellowish chlorosis spots appeared on the leaf surface and a few yellow spore piles appeared on the leaves, which was consistent with the field symptoms (Figure S4). Control plants remained healthy. To our knowledge, this is the first report of C. bletiae causing rust on B. striata in Anhui province of China. Correct identification of this disease is of great importance to develop management strategies to control the disease. There may be seedling transport and spore transmission between Hubei and Anhui.

First report of Meloidogyne javanica infecting Bletilla striata in Yunnan, China.

Bletilla striata (Thunb. ex Murray) Rchb. F. (Orchidaceae) is an endangered traditional Chinese medicinal plant and has been traditionally used for hemostasis and detumescence in China (Wang et al. 2022). In March of 2021, during a field survey in Xuanwei city, Yunnan province, China, some B. striata plants with symptoms of plant dwarfing and leaf yellowing were observed. Roots of diseased plants presented numerous galls, typical symptoms of root-knot nematodes (RKNs) infection. The diseased area was approximately 66667 m2, showing a patchy disease distribution pattern. To identify the species of RKNs, females and eggs were isolated from galled tissue, and second-stage juveniles (J2s) were collected from eggs hatched. Nematodes were identified through comprehensive morphological and molecular methods. The perineal pattern of females is round to ovoid with a flat or moderately high dorsal arch and has two conspicuous lateral line striae. Morphological measurements of females (n=20) included body length (L) = 702.9 ± 70.8 (556.2-780.2) µm, body width (BW) = 404.1 ± 48.5 (327.5-470.1) µm, stylet length = 15.5 ± 2.2 (12.3-18.6) µm, distance from base of stylet to dorsal esophageal gland opening (DGO) = 3.7 ± 0.8 (2.1-4.9) µm. The morphometrics of J2s (n=20), L = 438.4 ± 22.6 (354.1-464.8) µm, BW = 17.4 ± 2.0 (12.9-20.8) µm, stylet length = 13.5 ± 0.4 (13.0-14.2) µm, DGO = 3.2 ± 0.6 (2.6-4.7) µm, and hyaline tail terminus = 12.3 ± 1.9 (9.6-15.7) µm. These morphological characteristics were similar to the original descriptions of Meloidogyne javanica (Rammah and Hirschmann 1990). DNA extraction was done 60 times, each from a different single females following the method of Yang et al. (2020). Amplification of ITS1-5.8S-ITS2 region of rDNA and the coxI region of mtDNA was done by using primers 18S/26S (5'-TTGATTACGTCCCTGCCCTTT-3'/5'-TTTCACTCGCCGTTACTAAGG-3') (Vrain et al. 1992) and cox1F/cox1R (5'-TGGTCATCCTGAAGTTTATG-3'/5'-CTACAACATAATAAGTATCATG-3') (Trinh et al. 2019) respectively. The PCR amplification program followed the method described by Yang et al. (2021). The ITS1-5.8S-ITS2 gene sequence (768 bp, GenBank Accession No. OQ091922) showed 99.35-100% identical to the known sequences of M. javanica (GenBank Accession Nos. KX646187, MW672262, KJ739710, KP901063, MK390613). The coxI gene sequence (410 bp, OQ080070) showed 99.75%-100% identical to the known sequences of M. javanica (OP646645, MZ542457, KP202352, KU372169, KU372170). Furthermore, M. javanica species-specific primers Fjav/Rjav (5'-GGTGCGCGATTGAACTGAGC-3'/5'-CAGGCCCTTCAGTGGAACTATAC-3') were used for PCR amplification. An expected fragment of approximately 670 bp was obtained, which was identical to that previously reported for M. javanica (Zijlstra et al. 2000). To verify pathogenicity of this nematode on B. striata, six 1.6-year-old tissue culture seedings of B. striata were maintained in 10-cm-diameter × 9-cm-high plastic pots containing a sterilized mixed soil (humus soil: laterite soil: perlite=3:1:1), and each plant was inoculated with 1000 J2s hatched from eggs of M. javanica. Three non-inoculated B. striata were used as the negative controls. All plants were placed in a greenhouse at approximately 14～26 ℃. After 90 days, the inoculated plants presented symptoms of leaf yellowing, and the roots with root knots identical to those observed in the fields. The root gall rating was 2 according to the 0-5 RKNs rating scale (Anwar and McKenry, 2002) and the reproductive factor (RF= final population/initial population) was 1.6. No symptoms or nematodes were observed on control plants. The nematode was reisolated and identified as M. javanica by morphological and molecular methods as above. To our knowledge, this is the first report of infection of M. javanica on B. striata. The infection of this economically important medicinal plant with M. javanica could pose a great threat to B. striata production in China, and further research will be necessary to develop control strategies.