Hydrogel-based microenvironment engineering of haematopoietic stem cells.

Haematopoietic Stem cells (HSCs) have the potential for self-renewal and multilineage differentiation, and their behaviours are finely tuned by the microenvironment. HSC transplantation (HSCT) is widely used in the treatment of haematologic malignancies while limited by the quantity of available HSCs. With the development of tissue engineering, hydrogels have been deployed to mimic the HSC microenvironment in vitro. Engineered hydrogels influence HSC behaviour by regulating mechanical strength, extracellular matrix microstructure, cellular ligands and cytokines, cell-cell interaction, and oxygen concentration, which ultimately facilitate the acquisition of sufficient HSCs. Here, we review recent advances in the application of hydrogel-based microenvironment engineering of HSCs, and provide future perspectives on challenges in basic research and clinical practice.

Central anterior chamber depth correlated with white-to-white distance in normal, long, and short eyes.

PURPOSE: To explore the associations between central anterior chamber depth (CACD) and other anterior segment biometric parameters and to determine the possible determinants of CACD in short, normal, and long eyes. METHODS: The biometric data of pre-operation patients aged 50-80 years with coexisting cataract and primary angle-closure disease or senile cataract were reviewed. Axial length (AL), CACD, lens thickness (LT), central corneal thickness (CCT), and white-to-white distance (WTW) were measured by Lenstar optical biometry (Lenstar 900). The data of 100 normal eyes (AL = 22 to 26 mm), 100 short eyes (AL ≤ 22 mm), and 100 long eyes (AL ≥ 26 mm) were consecutively collected for subsequent analyses. RESULTS: The mean age of the subjects was 66.60 ± 7.85 years, with 25.7% of the sample being men. Both CACD and WTW were found to be smallest in short eyes and were smaller in normal eyes than in long eyes (F = 126.524, P < 0.001; F = 28.458, P < 0.001). The mean LT was significantly thicker in short eyes than in normal and long eyes (4.66 mm versus 4.49 mm versus 4.40 mm; F = 18.099, P < 0.001). No significant differences were observed in CCT between the three AL groups (F = 2.135, P = 0.120). Stepwise regression analysis highlighted AL, LT, and WTW as three independent factors associated with CACD in the normal AL group. In the short AL group and long AL group, LT and WTW were independent factors associated with CACD. CONCLUSIONS: CACD increases as AL elongates and reaches a peak when AL exceeds 26 mm. Furthermore, CACD showed inverse correlation with LT and positive correlation with WTW. A relatively small WTW results in an anteriorly positioned lens, and thus, a decrease in CACD.

Next generation of boron neutron capture therapy (BNCT) agents for cancer treatment.

Boron neutron capture therapy (BNCT) is one of the most promising treatments among neutron capture therapies due to its long-term clinical application and unequivocally obtained success during clinical trials. Boron drug and neutron play an equivalent crucial role in BNCT. Nevertheless, current clinically used l-boronophenylalanine (BPA) and sodium borocaptate (BSH) suffer from large uptake dose and low blood to tumor selectivity, and that initiated overwhelm screening of next generation of BNCT agents. Various boron agents, such as small molecules and macro/nano-vehicles, have been explored with better success. In this featured article, different types of agents are rationally analyzed and compared, and the feasible targets are shared to present a perspective view for the future of BNCT in cancer treatment. This review aims at summarizing the current knowledge of a variety of boron compounds, reported recently, for the application of BCNT.

Branched-chain keto-acid dehydrogenase kinase regulates vascular permeability and angiogenesis to facilitate tumor metastasis in renal cell carcinoma.

Branched-chain keto-acid dehydrogenase kinase (BCKDK) is the rate-limiting enzyme of branched-chain amino acid (BCAA) metabolism. In the last six years, BCKDK has been used as a kinase to promote tumor proliferation and metastasis. Renal cell carcinoma (RCC) is a highly vascularized tumor. A high degree of vascularization promotes tumor metastasis. Our objective is to explore the relationship between BCKDK and RCC metastasis and its specific mechanism. In our study, BCKDK is highly expressed in renal clear cell carcinoma and promotes the migration of clear cell renal cell carcinoma (ccRCC). Exosomes from ccRCC cells can promote vascular permeability and angiogenesis, especially when BCKDK is overexpressed in ccRCC cells. BCKDK can also augment the miR-125a-5p expression in ccRCC cells and derived exosomes, thereby decreasing the downstream target protein VE-cadherin level, weakening adhesion junction expression, increasing vascular permeability, and promoting angiogenesis in HUVECs. The novel BCKDK/Exosome-miR-125a-5p/VE-cadherin axis regulates intercellular communication between ccRCC cells and HUVECs. BCKDK plays a critical role in renal cancer metastasis, may be used as a molecular marker of metastatic ccRCC, and even may become a potential target of clinical anti-vascular therapy for ccRCC.

Advances in the formation mechanism of set-type plant-based yogurt gel: a review.

Plant-based yogurt has several advantages over traditional yogurt, such as being lactose and cholesterol-free, making it more suitable for individuals with cardiovascular and gastrointestinal diseases. The formation mechanism of the gel in plant-based yogurt needs more attention because it is associated with the gel properties of yogurt. Most plant proteins, except for soybean protein, have poor functional abilities, such as solubility and gelling properties, which limits their application in most food items. This often results in undesirable mechanical quality of plant-based products, particularly plant-based yogurt gels, including grainy texture, high syneresis, and poor consistency. In this review, we summarize the common formation mechanism of plant-based yogurt gel. The main ingredients, including protein and non-protein components, as well as their interactions involved in the gel are discussed to understand their effects on gel formation and properties. The main interventions and their effects on gel properties are highlighted, which have been shown to improve the properties of plant-based yogurt gels effectively. Each type of intervention method may exhibit desirable advantages in different processes. This review provides new opportunities and theoretical guidance for efficiently improving the gel properties of plant-based yogurt for future consumption.

Protein type and content plays an important role in plant yogurt gel formationCarbohydrate and fat affect the formation and properties of plant-based yogurt gelAppropriate intervention promotes the formation and property of plant yogurtHydrophobic interaction is the main force for the stability of the gel network.

Copper-based Ruddlesden-Popper perovskite oxides activated hydrogen peroxide for coal pyrolysis wastewater (CPW) degradation: Performance and mechanism.

Coal pyrolysis wastewater (CPW) contained all kinds of toxic and harmful components, which would seriously threaten the natural environment and human health. However, the traditional advanced oxidation processes frequently failed to remove phenolic substances. An A2BO4-type perovskite (La2CuO4) was successfully synthesized through sol-gel process and first applied in the treatment of CPW. More than 90% of 3, 5-dimethylphenol (DMP) was removed within 200 min at neutral conditions. Moreover, La2CuO4 also displayed excellent catalytic activity and stability in the actual CPW treatment process. Results demonstrated that DMP was removed through the attack of ∙OH, ∙O2- and 1O2 in La2CuO4/H2O2 system. The La2CuO4 were more favorable for H2O2 activation and have a lower adsorption energy than LaFeO3. XPS of fresh and spent La2CuO4 illustrated that the decomposition of hydrogen peroxide (H2O2) was mainly due to the redox cycle between surface copper and oxygen species. Moreover, the possible degradation pathway of DMP was deduced by identifying degradation products and analyzing density functional theory (DFT) calculations. This research provided a novel strategy for the development of perovskite-based catalytic materials on the treatment of practical CPW.

Effect of fiber-bound polyphenols from highland barley on lipid oxidation products of cooked pork during in vitro gastrointestinal digestion.

BACKGROUND: The gastrointestinal (GI) tract is a major site of lipid oxidation, and the lipid oxidation products are related to an increased risk of various chronic diseases. In this study, the inhibition capacity of bound-polyphenol rich insoluble dietary fiber (BP-IDF) from highland barley (HB) to lipid oxidation was evaluated during simulated GI digestion. RESULTS: We found that the level of lipid hydroperoxides (LOOH) and aldehydes were significantly inhibited when highland barley bound-polyphenol rich insoluble dietary fiber (HBBP-IDF) co-digestion with cooked pork. The lipid oxidation products were more effectively scavenged during simulated gastric digestion, with inhibition of 77.4% for LOOH, 52.3% for malondialdehyde, 46.5% for 4-hydroxy-2-hexenal and 48.7% for 4-hydroxy-2-nonenel, respectively. The fiber-bound polyphenols are the principal scavengers of lipid oxidation products. CONCLUSION: These findings suggest that HBBP-IDF could be used as a functional ingredient able to scavenge lipid oxidation products across the GI tract. © 2023 Society of Chemical Industry.

Artemisia argyi allelopathy: a generalist compromises hormone balance, element absorption, and photosynthesis of receptor plants.

BACKGROUND: Allelopathy is expressed through the release of plant chemicals and is considered a natural alternative for sustainable weed management. Artemisia argyi (A. argyi) is widely distributed throughout Asia, and often dominates fields due to its strong allelopathy. However, the mechanism of A. argyi allelopathy is largely unknown and need to be elucidated at the physiological and molecular levels. RESULTS: In this study, we used electron microscopy, ionomics analysis, phytohormone profiling, and transcriptome analysis to investigate the physiological and molecular mechanisms of A. argyi allelopathy using the model plant rice (Oryza sativa) as receptor plants. A. argyi water extract (AAWE)-treated rice plants grow poorly and display root morphological anomalies and leaf yellowing. We found that AAWE significantly inhibits rice growth by destroying the root and leaf system in multiple ways, including the integrity of ultrastructure, reactive oxygen species (ROS) homeostasis, and the accumulation of soluble sugar and chlorophyll synthesis. Further detection of the hormone contents suggests that AAWE leads to indole-3-acetic acid (IAA) accumulation in roots. Moreover, ionomics analysis shows that AAWE inhibits the absorption and transportation of photosynthesis-essential mineral elements, especially Mg, Fe, and Mn. In addition, the results of transcriptome analysis revealed that AAWE affects a series of crucial primary metabolic processes comprising photosynthesis in rice plants. CONCLUSIONS: This study indicates that A. argyi realizes its strongly allelopathy through comprehensive effects on recipient plants including large-scale IAA synthesis and accumulation, ROS explosion, damaging the membrane system and organelles, and obstructing ion absorption and transport, photosynthesis and other pivotal primary metabolic processes of plants. Therefore, AAWE could potentially be developed as an environmentally friendly botanical herbicide due to its strong allelopathic effects.

Highly sensitive thermometry based on thermal quenching and negative thermal quenching materials.

Suppose that the opposite changes of two emissions with temperature variation may result in a high sensitivity for a ratiometric thermometer; therefore, we design such a thermometer based on thermal quenching and negative thermal quenching materials. Herein, the Sc2Mo3O12:Yb3+/Er3+ and Bi2MoO6:Yb3+/Tm3+ crystals are synthesized via the solid-state reaction, respectively, which have the properties of negative thermal expansion (NTE) and positive thermal expansion (PTE). The composite is obtained through simple mechanical mixing between NTE and PTE crystals, in which the Er3+ and Tm3+ luminescence exhibit enhancement and quenching with increasing temperature, respectively. Based on the fluorescence intensity ratio (FIR) technique, the maximum relative sensitivity of the thermometer is 3.80% K-1 in the temperature range of 305-425 K. More importantly, the δT ≈ 0.24 K is relatively small meaning excellent accuracy. These findings indicate that the lanthanide-doped NTE and PTE composites may be good candidates for high sensitivity and accuracy thermometry.

The role of antifungal activity of ethyl acetate extract from Artemisia argyi on Verticillium dahliae.

AIMS: This study investigated the antifungal activity and mechanisms of ethyl acetate extract of Artemisia argyi (EAAA) against Verticillium dahliae. METHODS AND RESULTS: Optical and scanning electron microscopy observation showed that 2.0 mg ml-1 EAAA treatment reduced spore germination rate to 4.56%. Histochemical staining showed that 2.0 mg ml-1 EAAA treatment increased reactive oxygen species (ROS) by more than two times. Physiological test showed that EAAA treatment decreased the contents of soluble proteins and sugars, and reduced the activities of malate dehydrogenase and succinate dehydrogenase by nearly half. Transcriptome analysis showed that EAAA treatment down-regulated the expression of genes involved in primary metabolic pathways of V. dahliae. CONCLUSIONS: Our results revealed that EAAA inhibited the growth and development of V. dahliae from multiple levels and multiple targets, including inhibiting the germination and development of V. dahliae spores, destroying the structure of cell membranes, inducing ROS burst, reducing the activities of respiratory-related enzymes and down-regulating the expression of genes in primary metabolic pathways. SIGNIFICANCE AND IMPACT OF THE STUDY: The mechanism of the multitarget effects of EAAA against V. dahliae may limit the potential of fungus developing resistance and provide the efficient methods to control verticillium wilt disease in the future.

Antibiotic enhances the spread of antibiotic resistance among chlorine-resistant bacteria in drinking water distribution system.

The extensive use of antibiotics leads to the occurrences of antibiotic resistance genes (ARGs) in aquatic environment. As an emerging environmental pollutant, its pollution in aquatic environment has aroused widespread concern. However, the residues of antibiotics and antibiotic resistance genes in drinking water distribution system were barely reported up to now. Here, we studied the correlation and coordination between chlorine resistance mechanism and antibiotic resistance mechanism of chlorine-resistant bacteria. Antibiotics induce the resistance of chlorine-resistant bacteria (CRB) to NaClO, so that low-dose disinfectants can not inactivate CRB. We put forward a strategy to control the growth of CRB by controlling the concentration of biodegradable dissolved organic carbon (BDOC) in the front section of the water network. Moreover, We screened two strains of chlorine-resistant bacteria with different antibiotic resistance after mixed culture, the results showed that antibiotic resistance could spread horizontally among different kinds of bacteria. Then, the non-pathogenic bacteria can be used as a carrier, causing the pathogen to become resistant to antibiotic, and ultimately pose harm to human health. Generally, the antibiotic, antibiotic resistant genes, and the chlorine disinfectants added in water treatment plants will interact with bacteria in the water supply pipe network, which causes pollution to drinking water.

Fe3O4-CuO@Lignite activated coke activated persulfate advanced treatment of phenolic wastewater from coal chemical industry.

In this study, lignite activated coke (LAC) was used as the carrier for the first time, Fe3O4-CuO composite metal oxide was used as the main active material, and the nano-scale magnetic supported composite metal oxide Fe3O4-CuO@LAC catalyst was synthesized for the first time, which can effectively activate the active oxygen in peroxodisulfate (PS). XRD, FTIR, BET, SEM, XPS and other analysis results showed that there was particulate matter with spherical structure on the surface of the active coke, and its diffraction peaks matched well with the characteristic peaks of Fe3O4 and CuO, and it was a mesoporous structure with a specific surface area of 619.090 m2 g-1. By optimizing the experimental conditions, the results showed that more than 92% of hydroquinone can be removed under the conditions of hydroquinone concentration of 50 mg/L, pH = 5, adding 0.1 g/L catalyst and 3 mmol/L PS. EPR and quenching experiments proved that there were four reactive oxygen species in the reaction system ·OH, SO4-·, O2-· and 1O2. According to the degradation products of hydroquinone detected by LC-MS, the possible degradation path was deduced which laid a foundation for solving the problem of difficult treatment of phenol-containing wastewater in coal chemical industry.

First report of Botrytis cinerea causing gray mold on Prunella vulgaris in Hubei province, China.

Prunella vulgaris L. is a perennial herb plant of the Lamiaceae family, and its dried spicas have been widely used as medicine, health-promoting food or tea around the world. P. vulgaris is distributed all over the world, such as Europe, Asia, northwestern Africa and North America, as well as the Huaihe River Basin and the middle and lower Yangtze River Basin in China. In February 2022, a serious disease like gray mold occurred in planting fields of P. vulgaris in Wuhan, Hubei (N30°27'07″, E114°15'49″), causing approximately 20% of plants were diseased in the field. Early symptoms were characterized by small, round gray-brown lesions on the leaves of P. vulgaris. Later, a large number of stems and leaves are wilted or necrotic, associated with wet rot and waterlogged spots and covered with light gray or grayish white flocculent mildew layer. To determine the causal agent of disease, 10 plants with the typical symptoms were collected from fields. The stems and leaves of diseased plants were cut into pieces (2 to 3 mm×5 mm), disinfected with 75% ethanol for 3 minutes, rinsed 3 times with sterile water. Each lesion sample was isolated and purified using separate PDA petri dishes at 25°C, and ultimately all samples yielded morphologically consistent pure strain colonies. From the 10 isolates obtained, XKC-1 was chosen as a representative isolate for further study. XKC-1 colonies showed gray aerial mycelia, which were fast-growing and grew over the whole plate (9 cm) after 4 days. In addition, some black and hard sclerotia (1.88±0.94 mm, n=50) with round or irregular shape developed on the colonies after approximately 10 days of incubation at 25°C (Fig. 2A, B). XKC-1 showed branched conidiophores with enlarged apical cells and numerous conidia (Fig. 2C). Unicellular conidia were colorless or gray, ellipsoid or ovoid, smooth and 7.91-12.38 µm × 10.08-13.82 µm (n=30) in size (Fig. 2D). Based on morphological characteristics, the isolate was initially identified as Botrytis sp. (Ellis 1971). To further identify the species, the genomic DNA of XKC-1 was extracted, and the ITS, LSU and G3PDH genes were amplified with the primers ITS1/ITS4, LROR/LR5 (Zhou et al. 2022) and G3PDH-F/G3PDH-R (Jin et al. 2022), respectively. The results indicated that the ITS (ON090404), LSU (ON090417), and G3PDH (ON169893) sequences were 99.80%, 100% and 99.46% identical to the sequences of Botrytis cinerea Pers. strain (MK370693.1, MN148533.1, MN630267.1), respectively. A phylogenetic tree constructed based on a concatenated sequence (ITS, LSU, G3PDH) using the neighbor-joining method in MEGA7 (Tamura et al. 2013) revealed that XKC-1 grouped with concatenated sequences from three representative B. cinerea isolates in GenBank. Based on the morphological characteristics and molecular identification, the strain XKC-1 was identified as Botrytis cinerea. For pathogenicity tests on detached leaves, 5 mm PDA cakes prepared from XKC-1 were placed on the leaves obtained from healthy P. vulgaris after wounding with a needle (n=10), while PDA medium without mycelia were used as control (25 ± 2°C) (Li et al.2020). Mycelia began to germinate and infect plant tissues at 1 dpi. A large part of the leaves showed water soaked spots covered with mycelia on the surface at 4 dpi. For whole plant inoculations, stem bases of five P. vulgaris seedlings were pierced with sterile needle, and then inoculated with three XKC-1 mycelium PDA cakes. Five plants were inoculated with three PDA cakes without mycelia as a control. After 2-4 days, lesions appeared on the leaves and covered with a gray-white mycelial layer, similar to those observed in the field. However, controls remained symptom free. The pathogen was reisolated from the diseased tissues, the colonies, microscopic characteristics and molecular identification were consistent with those of XKC-1. To our knowledge, this is a first report of B. cinerea causing gray mold on P. vulgaris in Hubei, China. This report would provide resources and reference for controlling of the increased incidence and economic losses of gray mold on P. vulgaris.

First report of seedling blight caused by Fusarium tricinctum on Cynanchum stauntonii in China.

Cynanchum stauntonii is a perennial herb plant of the Asclepiadaceae family. The dried roots and rhizomes have been used as medicine in China for 1500 years and are considered a remedy for cough and phlegm. In recent years, the wild C. stauntonii resources have not been sufficient for market demand, therefore, a large artificial cultivation area was established in Xinzhou, Tuanfeng and Macheng in Hubei province. In March and April 2022, serious outbreaks of seedling blight were observed in C. stauntonii in Xinzhou county (N30°48'12″, E114°49'24″), and the disease occurred on 10 to 15% of plants in five C. stauntonii nursery beds. Early symptoms included withered tips, chlorosis, stunting, yellow leaves and leaf drop, and later, seedlings die in patches. To determine the causal agent of disease, pieces (5 mm × 5 mm) of diseased tissue at the junction of disease and healthy tissue were surface disinfected by soaking in 75% ethanol for 3 min, rinsed three times with sterilized water, and pieces were placed on PDA at 25°C. Fungal isolates obtained were yellow-brown at the center and pink to white toward the periphery, and dark red pigments were observed in the agar. Isolates were cultured in synthetic low nutrient agar (SNA) and carnation leaf agar to observe the spore morphology. The macroconidia were sickle-shaped with 3-4 septate, with sizes of 30.26±2.36×3.77±0.53 µm on SNA and 33.52±2.20×3.81±0.48 µm on carnation leaf agar (n=30). Morphological characteristics of the isolates were consistent with those of Fusarium sp in the Fusarium Laboratory Manual (Leslie et al. 2006). Furthermore, the genomic DNA from a representative isolate BQ-2 was extracted, the ITS, TEF-1α, RPB1 and RPB2 genes were amplified with primers ITS1/ITS4, EF1/EF2, Fa/G2R and 5F2/7cr, respectively (Zhang et al. 2022). BLAST analysis showed that the ITS (ON935780.1), TEF-1α (OP985126.1), RPB1 (OP985125.1) and RPB2 (OP985124.1) amplicon sequence were 99.44%, 98.94%, 99.88% and 100% identical to the sequences of F. tricinctum strain (KU350724.1, AB674264.1, LC701712.1, MW474678.1), respectively. A phylogenetic tree constructed based on a concatenated sequence (ITS, TEF-1α, RPB1, RPB2) using the neighbor-joining and maximum likelihood method in MEGA7 revealed that BQ-2 grouped with concatenated sequences from four representative F. tricinctum isolates in GenBank. Based on the morphological characteristics and molecular identification, the strain BQ-2 was identified as F. tricinctum. For pathogenicity tests, 5 mm pieces of a BQ-2 colony on PDA were placed on excised leaves of healthy C. stauntonii wounded with a needle (n=5) and kept at 25±2℃. Leaves treated PDA were used as a control (Li et al.2020). After three days inoculation, the mycelia proliferated and began to infect leaf tissues. Ten days later, large parts of the detached leaves were extensively infested with the pathogen and brown. For live plant inoculation, stem bases of five healthy seedlings were punctured with sterile needle and then inoculated with BQ-2 mycelia from PDA. Controls were treated with only PDA. The seedlings began wilting after three days and at five days showed typical disease symptoms, similar to those observed in the field. The controls were asymptomatic. The pathogen was reisolated from the diseased tissues, and the colonies and microscopic characteristics were similar to those of BQ-2. To the best of our knowledge, this is the first report of F. tricinctum causing seedling blight on C. stauntonii in China. This report will provide resources and reference for controlling the increased incidence and economic losses of seedling blight on C. stauntonii.

Prognostic and Immunological Role of STK38 across Cancers: Friend or Foe?

Although STK38 (serine-threonine kinase 38) has been proven to play an important role in cancer initiation and progression based on a series of cell and animal experiments, no systemic assessment of STK38 across human cancers is available. We firstly performed a pan-cancer analysis of STK38 in this study. The expression level of STK38 was significantly different between tumor and normal tissues in 15 types of cancers. Meanwhile, a prognosis analysis showed that a distinct relationship existed between STK38 expression and the clinical prognosis of cancer patients. Furthermore, the expression of STK38 was related to the infiltration of immune cells, such as NK cells, memory CD4+ T cells, mast cells and cancer-associated fibroblasts in a few cancers. There were three immune-associated signaling pathways involved in KEGG analysis of STK38. In general, STK38 shows a significant prognostic value in different cancers and is closely associated with cancer immunity.

[Identification, biological characterization, and fungicide screening of pathogen causing southern blight in Aster tataricus].

This study aims to clarify the species and biological characteristics of the pathogen causing southern blight in Aster tataricus and screen out effective fungicides for the prevention and control of this disease. We collected the typical diseased plants and sclerotia on soil surface for the isolation of the pathogen, and identified the pathogen based on morphological characteristics, molecular biological characteristics, and pathogenicity. Further, we evaluated the inhibitory effects of 12 fungicides on the pathogen by plate growth inhibition assay. In the diseased plants, watery brown spots first appeared at the stem base and then spread upward, which were covered with white mycelia and surrounded by white to yellow-brown sclerotia. From the diseased plants, 15 strains with consistent traits were isolated. The pathogen was identified as Athelia rolfsii based on morphological characteristics and ITS and TEF sequences. The pathogenicity test was carried out according to Koch's rule, which showed the disease symptoms consistent with those in the field. The pathogen presented the optimum growth at 28-30 ℃, pH 5-8, and full darkness. The preliminary indoor screening demonstrated that four chemical fungicides(taifujin, hymexazol, flusilazole, and lime-sulphur-synthelic-solution), two botanical fungiticides(ethylicin and garlic oil), and a microbial agent(Bacillus subtilis) had good inhibitory effects on A. rolfsii. The results of gradient inhibition experiments showed that B. subtilis, flusilazole, and ethylicin had stronger inhibitory activity. The further in vivo screening indicated that ethylicin can be used as the main fungicide for the prevention and treatment of southern blight in A. tataricus.

A comparative study of the clinical efficacy of supination-adduction type II ankle fracture surgery based on the medial pilon fracture concept versus the ankle fracture concept.

BACKGROUND: A supination-adduction (SAD) ankle fracture is a special type of ankle fracture that results in collapse of the distal tibial articular surface; as such, orthopaedic surgeons require greater awareness of this type of fracture. The severity of this injury lies between that of an ordinary ankle fracture and a pilon fracture, and the treatment of such fractures based on the ankle fracture concept leads to extremely high rates of postoperative complications and a poor prognosis. In this retrospective study, we aimed to explore the treatment of SAD fractures based on the pilon fracture concept. METHODS: We retrospectively analysed the clinical data of 67 patients with Lauge-Hansen supination-adduction type II (SAD-II) ankle fractures, most of whom had a 44-A AO classification. Patients underwent surgical treatment at the Second Affiliated Hospital of Anhui Medical University from January 2009 to June 2019. The patients were divided into two groups based on the surgical concept employed: 43 patients were included in the ankle fracture surgical concept group, and 24 patients were included in the medial pilon fracture surgical concept group. The therapeutic effect was evaluated based on the Burwell-Charnley radiological reduction standard, the American Orthopaedic Foot and Ankle Society (AOFAS) ankle-hindfoot score and postoperative visual analogue scale (VAS) pain score 1 year after surgery using regression with adjustment for confounding factors. RESULTS: All 67 patients were followed up. Twenty-four patients were treated according to the medial pilon fracture concept, and forty-three patients were treated according to the ankle fracture concept. The AOFAS score 1 year after surgery in the medial pilon group (89.83 ± 2.77) was higher than that in the ankle fracture group (83.63 ± 7.97) (p < 0.05). The VAS score 1 year after surgery in the medial pilon fracture group (1.17 ± 0.96) was significantly better than that in the ankle fracture group (2.28 ± 0.96) (p < 0.05). CONCLUSION: Patients with Lauge-Hansen SAD-II ankle fractures treated based on the medial pilon fracture surgical concept had better postoperative outcomes than those treated based on the ankle fracture surgical concept. LEVEL OF EVIDENCE: Level III, retrospective cohort study.

Comparison of Chemical Constituents and Pharmacological Effects of Different Varieties of Chrysanthemum Flos in China.

Chrysanthemum Flos is the prestigious traditional Chinese medicinal material and the popular health drink. This article comprehensively evaluated the chemical constituents, antioxidant activity, and hepatoprotective effects of 25 common chrysanthemum varieties in China. Firstly, we analyzed the chemical compositions of water extracts of chrysanthemum using UPLC/Q-TOF-MS, and identified 29 chemical components. The results displayed that chrysanthemum was rich in chemical constituents, but there were significant differences in the contents of four phenolic acids and five flavonoids among different varieties, and the coefficient of variation (CVs) ranged from 35.96 % to 114.62 %. Then, the antioxidant activities of different chrysanthemums were investigated, respectively via 1,1-diphenyl-2-picrylhydrazyl (DPPH), 2,2'-azinobis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS), and Ferric Reducing Antioxidant Power (FRAP) assays. The spectrum-effect relationships between nine main components and antioxidant activities were investigated to identify the antioxidant constitutes in chrysanthemums. Meanwhile, H2 O2 -induced hepatocyte injury testing showed wide variation in cultivar antioxidant capacity, with Tongchengju (TCJ) producing the best effect (90.32 %), followed by Chuju (CJ; 85.78 %). In addition, the hepatoprotective effects of 8 mainstream varieties were determined by the model of acute alcoholic liver injury. They protected liver from injury by affecting relevant liver function and antioxidant indexes. Huangshangongju (HSG) could decrease aspartate aminotransferase (AST) activity by 39.27 % in liver tissue; Hangju-Fubaiju (HJ-FBJ), Jinsihuangju (JSH), and Chuju (CJ) significantly decreased the malondialdehyde (MDA) content of liver tissue, which reduced by more than 40 %; Jinsihuangju (JSH) of used for tea could double the content of glutathione (GSH) and had the similar effect on superoxide dismutase (SOD) as the positive group, showing significant antioxidant capacity. Therefore, this study confirmed that chrysanthemums are potential resources as antioxidants, functional foods, and medicinal materials. Importantly, it may provide a scientific support for further development and utilization of chrysanthemum, and screen excellent varieties for different demands.

First Report of Southern Blight on Polygonatum sibiricum Caused by Sclerotium delphinii in China.

Polygonatum sibiricum Delar. ex Redoute is a plant species used for medicine and food. On one hand, its rhizomes have potential medicinal values such as enhancing immunity, anti-aging, anti-tumor and antibacterial as well as the effects of improving memory and reducing blood lipid and sugar. On the other hand, the rhizomes can also be used as raw materials for drinks, preserves, and health products (Su et al. 2018). The annual demand of P. sibiricum is about 3500-4000 tons in China, and the market demands and the price continue to rise in recent years (Su et al. 2018). In August 2019, there was an outbreak of southern blight in the P. sibiricum planting fields (N30°04'06″, E115°39'47″) of Luotian County in Hubei province of China. Approximately 30% of plants were affected in many fields (333.33 ha). We observed that the surface of the infected rhizome and the surrounding soils were covered with white hyphae and sclerotia. The hyphae gradually extended downward to the rhizomes, causing rhizome rot and leaf yellowing and wilting. Mycelial fragments and sclerotia from ten symptomatic rhizomes were collected in the fields and incubated directly on potato dextrose agar (PDA containing 50 µg/ml kanamycin) at 27℃. The fungal colonies were transferred to PDA after two days of cultivation. The white colonies were formed with fluffy aerial mycelia, which grew radially with an average growth rate of 20.54±0.52 mm/d (n=10). The color of the sclerotia was milky white at first, and then gradually turned to beige and yellow-brown. After two-week-incubation, the sclerotia became dark brown. Most of the sclerotia were spherical or nearly spherical, with round-bulges on the surface. The number of mature sclerotia produced per plate ranged from 8-23 (n=10), and the size ranged from 2.5×3.0 mm to 7.5×13.0 mm (5.95 ± 2.34×7.51 ± 2.88 mm; n=50). In addition, clamp connections were observed under the microscope. For molecular identification, genomic DNA was extracted from isolate HJ-1 using the CTAB method (Mahadevakumar et al. 2018). The internal transcribed spacer (ITS) regions of rDNA were amplified with the primers ITS1/ITS4 (White et al. 1990). The resulting showed ITS sequence (Accession number: MW049362) was 99.66% homology with Sclerotium delphinii according to the GenBank database. In addition, the second largest subunit of RNA polymerase II gene (RBP2) and part of the elongation factor 1-alpha (EF1-α) gene were amplified by using the primers RPB26F/RPB2-7CR (Liu et al. 1999) and EF595F/EF1160R, respectively (Wendland and Kothe 1997). RPB2 gene sequence was deposited in GenBank (Accession number: MW415935), and was 99.53% similarity identity to Athelia rolfsii isolate MSB5-1. TEF-1α sequence was deposited in GenBank (Accession number: MW415934), and was 91.35% similarity to S. delphinii strain Sd_405. Because there are very few reference sequences of RPB2 genes from S. delphinii in GenBank to compare, we choose the ITS and TEF-1α gene sequences to construct the concatenated phylogenetic tree by the neighbor-joining method (Tamura et al. 2013). The results showed that HJ-1 was clustered with S. delphinii isolates selected from NCBI database. Based on morphological and molecular characteristics, the fungus was identified as S. delphinii Welch (teleomorph Athelia rolfsii (Curzi) C.C. Tu & Kimbr). Pathogenicity tests were performed on the healthy leaves, roots, stems and plants (n=3) of P. sibiricum. Each sample was inoculated with one sclerotia produced from a fifteen-day-old colony and there was on wound treatment. These inoculated and control samples (treated with sterile water) were incubated in a moist chamber (25 ± 2 °C, RH 85%) (Mahadevakumar et al. 2018). Typical disease symptoms were apparent on leaves, stems, rhizomes and plants at 4, 6, 5 and 15 days post inoculation, respectively. Fulfilling Koch's postulates, the fungal pathogens were isolated and purified from the inoculated site and were reconfirmed as S. delphinii based on the morphological features. To the best of our knowledge, this is the first report of S. delphinii causing southern blight on P. sibiricum in China. S. delphinii has a wide host range worldwide and often causes crop yield reduction. This study will be helpful for the prevention and control of P. sibiricum southern blight in the future.

[Identification,biological characteristics and fungicide screening of pathogen of southern blight in Cynanchum stauntonii].

During the high-temperature and rainy season from June to October in 2017-2019,serious southern blight broke out in the Cynanchum stauntonii planting area in Tuanfeng county,Hubei province,which had a great impact on the yield and quality of medicinal materials. In this study,the pathogen of C. stauntonii was isolated,purified,and identified,and the pathogenicity was tested according to Koch's postulates. Meanwhile,the biological characteristics of the pathogen were analyzed. On this basis,the effective fungicides were screened in laboratory. Finally,the pathogen( BQ-1) was identified as Athelia rolfsii( Deuteromycotina,Basidiomycota,anamorph: Sclerotium rolfsii). The optimum growth conditions for BQ-1 were 25-30 ℃,p H 5-8,and alternating light and dark.The effective chemical fungicides were lime-sulphur-synthelic-solution( LSSS) and flusilazole,and the effective botanical fungicide was osthole. BQ-1 was highly homologous to the pathogen HS-1 of peanut southern blight,with the similarity of 18 S r DNA and TEF sequences at 99. 09%. The southern blight in C. stauntonii might be resulted from that in peanut. In the production of C. stauntonii,the following measures should be taken: avoiding rotation or neighboring with peanut,draining water from June to October to reduce humidity,and reasonably applying fungicides.