Grafting is a widely used technique for pecan propagation; however, the background molecular events underlying grafting are still poorly understood. In our study, the graft partners during pecan [Carya illinoinensis (Wangenh.) K. Koch] graft union formation were separately sampled for RNA-seq, and the transcriptional dynamics were described via weighted gene co-expression network analysis. To reveal the main events underlying grafting, the correlations between modules and grafting traits were analyzed. Functional annotation showed that during the entire graft process, signal transduction was activated in the scion, while messenger RNA splicing was induced in the rootstock. At 2 days after grafting, the main processes occurring in the scion were associated with protein synthesis and processing, while the primary processes occurring in the rootstock were energy release-related. During the period of 7-14 days after grafting, defense response was a critical process taking place in the scion; however, the main process functioning in the rootstock was photosynthesis. From 22 to 32 days after grafting, the principal processes taking place in the scion were jasmonic acid biosynthesis and defense response, whereas the highly activated processes associated with the rootstock were auxin biosynthesis and plant-type secondary cell wall biogenesis. To further prove that the graft partners responded asymmetrically to stress, hydrogen peroxide contents as well as peroxidase and ß-1,3-glucanase activities were detected, and the results showed that their levels were increased in the scion not the rootstock at certain time points after grafting. Our study reveals that the scion and rootstock might respond asymmetrically to grafting in pecan, and the scion was likely associated with stress response, while the rootstock was probably involved in energy supply and xylem bridge differentiation during graft union formation.
Carya , Carya/genetics , Gene Expression Regulation, Plant
Background: Liver metastasis is one of the primary causes of death for the patients with pancreatic neuroendocrine tumors (PNETs). However, no curative therapy has been developed so far. Methods: The anti-tumor efficacy of a genetically engineered tumor-targeting Salmonella typhimurium YB1 was evaluated on a non-functional INR1G9 liver metastasis model. Differential inflammatory factors were screened by Cytometric Bead Array. Antibody depletion assay and liver-targeted AAV2/8 expression vector were used for functional evaluation of the differential inflammatory factors. Results: We demonstrated that YB1 showed significant anti-tumor efficacy as a monotherapy. Since YB1 cannot infect INR1G9 cells, its anti-tumor effect was possibly due to the modulation of the tumor immune microenvironment. Two inflammatory factors IFNγ and CCL2 were elevated in the liver after YB1 administration, but only IFNγ was found to be responsible for the anti-tumor effect. Liver-targeted expression of IFNγ caused the activation of macrophages and NK cells, and reproduced the therapeutic effect of YB1 on liver metastasis. Conclusion: We demonstrated that YB1 may exhibit anti-tumor effect mainly based on IFNγ induction. Targeted IFNγ therapy can replace YB1 for treating liver metastasis of PNETs.
BACKGROUND: Public health workers are a crucial part of the health workforce, particularly during the coronavirus disease (COVID-19) pandemic. They play an important role in achieving universal health coverage and sustainable development goals. Human resources in public health in China are in short supply, their distribution is unequal, and their turnover rate is high. A discrete choice experiment (DCE) was applied to investigate preventive medicine students' preferred job choice criteria and trends in trade-offs by calculating the marginal rate of substitution between these criteria. This study identified the properties of jobs primarily selected by preventive medicine students and estimated the monetary value of each attribute. METHODS: Based on discussions and in-depth interviews with preventive medicine students and a literature review, we developed a DCE that assessed how students' stated preferences for a certain choice were influenced by several job attributes, including location, salary, bianzhi, career development opportunities, working environment, and workload. We applied this DCE to preventive medicine students in Shandong Province, China, using a brief, structured questionnaire. Conditional logit models were used to estimate the utility of each job's attributes. Willingness to pay (WTP) was estimated as the ratio of the value of the coefficient of interest to the negative value of the cost attribute. RESULTS: A total of 307 respondents completed the questionnaire, and 261 passed the internal consistency test. All the attributes were statistically significant. Career development opportunities and work locations were the most important factors for the respondents. Preference heterogeneity existed among respondents, e.g., 3-year medical education college students placed a higher value on jobs with bianzhi compared to 5-year medical education college students. Furthermore, rural students' WTP for a job located in the county or city is much lower than that of urban students. CONCLUSIONS: The heterogeneity of attributes indicates the complexity of job preferences. Monetary and nonmonetary job characteristics significantly influenced the job preferences of preventive medicine students in China. A more effective policy intervention to attract graduates to work in rural areas should consider both job incentives and the backgrounds of preventive medicine graduates.
COVID-19 , Career Choice , Humans , Pandemics/prevention & control , COVID-19/epidemiology , COVID-19/prevention & control , Students , Surveys and Questionnaires , China/epidemiology , Choice Behavior
Phytochemical investigation of Chrysanthemum indicum L. yielded two new quinolinone glycoalkaloids named as Chrysanthemumsides A-B (1-2). The structures of the new compounds were elucidated by analysis of their 1D- and 2D-NMR, HRESIMS and ECD calculations. Compounds 1-4 were evaluated for antimicrobial activity against the Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa and Candida albicans, and the data showed that compound 2 had significant antimicrobial effects (MIC 3.9 to 7.8 µg/mL).
BACKGROUND: Recent studies have shown that gut microbiome plays important roles in response to radiation exposure. IL-18, an inflammatory cytokine, is highly elevated in mice, mini-pigs and nonhuman primates after radiation exposure. Blocking IL-18 using its endogenous binding protein (IL-18BP) increases mice survival after radiation exposure by decreasing bone marrow interferon-gamma levels. METHODS: To further characterize the roles of IL-18 in response to radiation, both wild type and IL-18 knockout (IL-18 KO) mice were exposed to 9.0 Gy total body irradiation (TBI). The 30-day survival result demonstrated that IL-18 KO mice were significantly more resistant to radiation compared to the wild type mice (p < 0.0001). Mouse faecal samples were collected at pre-radiation (d0), d1, d3, d7, d14, d21 and d29 after radiation exposure. Microbiome profiling was performed on the faecal samples using 16S and ITS sequencing technology. RESULTS: Data analysis showed that there was significant difference in the bacterial microbiome between wild type and IL-18 KO mice. Cohousing of wild type and IL-18 KO mice decreased the bacterial microbiome difference between the two genotypes. Much fewer bacterial genera were significantly changed in wild type mice than the IL-18 KO mice after radiation exposure. The different composition of the IL-18 KO mice and wild type mice persisted even after radiation exposure. Bacterial genera that significantly correlated with other genera were identified in the IL-18 KO and wild type mice. The metabolic pathways that differentially expressed in both genotypes were identified. The animal bacterial microbiome data could be used to predict the animal's radiation status. The fungal microbiome had no significant difference regarding genotype or time after radiation exposure. CONCLUSION: The current study helps understand the gut microbiome in different genetic backgrounds and its temporal changes after radiation exposure. Our data provide insight into the mechanisms underlying radiation-induced toxicity and help identify bacteria important in response to radiation.
Radiation injury- and radiation combined with skin injury-induced inflammatory responses in the mouse brain were evaluated in this study. Female B6D2F1/J mice were subjected to a sham, a skin wound (SW), 9.5 Gy 60Co total-body gamma irradiation (RI), or 9.5 Gy RI combined with a skin puncture wound (RCI). Survival, body weight, and wound healing were tracked for 30 days, and mouse brain samples were collected on day 30 after SW, RI, RCI, and the sham control. Our results showed that RCI caused more severe animal death and body weight loss compared with RI, and skin wound healing was significantly delayed by RCI compared to SW. RCI and RI increased the chemokines Eotaxin, IP-10, MIG, 6Ckine/Exodus2, MCP-5, and TIMP-1 in the brain compared to SW and the sham control mice, and the Western blot results showed that IP-10 and p21 were significantly upregulated in brain cells post-RI or -RCI. RI and RCI activated both astrocytes and endothelial cells in the mouse brain, subsequently inducing blood-brain barrier (BBB) leakage, as shown by the increased ICAM1 and GFAP proteins in the brain and GFAP in the serum. The Doublecortin (DCX) protein, the "gold standard" for measuring neurogenesis, was significantly downregulated by RI and RCI compared with the sham group. Furthermore, RI and RCI decreased the expression of the neural stem cell marker E-cadherin, the intermediate progenitor marker MASH1, the immature neuron cell marker NeuroD1, and the mature neuron cell marker NeuN, indicating neural cell damage in all development stages after RI and RCI. Immunohistochemistry (IHC) staining further confirmed the significant loss of neural cells in RCI. Our data demonstrated that RI and RCI induced brain injury through inflammatory pathways, and RCI exacerbated neural cell damage more than RI.
Brain Injuries , Radiation Injuries , Mice , Female , Animals , Chemokine CXCL10 , Endothelial Cells , Radiation Injuries/etiology , Disease Models, Animal , Brain , Brain Injuries/etiology , Skin/radiation effects
Adenia globosa, as an excellent indoor ornamental plant, is planted in Tropical Botanical Museum, Nanjing Zhongshan Botanical Garden, Jiangsu Province, China. In September 2022, a new stem basal rot disease was observed on A. globosa seedlings, being planted here. Stem basal rot were observed on approximately 80% of A. globosa seedlings. The basal stem of cutting seedlings appeared decayed, and stem tip eventually turned dry due to water loss (Figure S1A). To isolate the pathogen, three diseased stems were collected from three cuttings planted in different pots of the Tropical Botanical Museum. The stem sections (3 to 4 mm) were excised from the margins between healthy and diseased tissues, surface sterilized in 75% ethanol for 30 s and 1.5% NaClO for 90 s, rinsed three times in sterilized distilled water, plated on potato dextrose agar (PDA) and incubated at 25â in the dark. Pure cultures were obtained by monosporic isolation. Eight isolates were obtained, and all identified as Lasiodiplodia sp.. The colonies morphology of cultures, growing on PDA were cotton-like, the primary mycelia were black gray after 7 days, and the reverse sides of PDA plates were similar to front sides in color (Figure S1B). A representative isolate, QXM1-2 was selected for the further study. Conidia of QXM1-2 were oval or elliptic, with a mean size of 11.6 µm×6.6 µm (n=35). The conidia are colorless and transparent in the early stage, and become dark brown with one-septum in the later stage (Figure S1C). The conidiophores produced conidia after nearly four weeks of cultivation on PDA plate (Figure S1D). The conidiophore was a transparent cylindrical structure, with a size of (6.4-18.2) µm × (2.3-4.5) µm ( n = 35). These characteristics were consistent with the description of Lasiodiplodia sp. (Alves et al. 2008). The internal transcribed spacer regions (ITS), translation elongation factor 1-alpha (TEF1α) and ß-tubulin (TUB) genes (GenBank Accession No.OP905639, No.OP921005, and No.OP921006, respectively) were amplified and sequenced with the primer pairs ITS1/ITS4 (White et al. 1990), EF1-728F/EF1-986R (Alves et al. 2008) and Bt2a/Bt2b (Glass and Donaldson 1995), respectively. They had 99.8-100% homology to the ITS (504/505 bp) of Lasiodiplodia theobromae strain NH-1 (MK696029), TEF1α (316/316 bp) of strain PaP-3 (MN840491), and TUB (459/459 bp) of isolate J4-1 (MN172230). A neighbor-joining phylogenetic tree was generated by combining all sequenced loci in MEGA7. The isolate QXM1-2 clustered in the L. theobromae clade with 100% bootstrap support (Figure S2). To test pathogenicity, three A. globosa cutting seedlings that previously had been wounded with a sterile needle were inoculated with 20 µL conidia suspension (1×106 conidia/mL) on the stem base. The seedlings inoculated with 20 µL sterile water was used as the control. All plants were covered with clear polyethylene bags to keep moisture in a greenhouse (25â, 80% relative humidity). The experiment was repeated three times. After 7 days post-inoculation, typical stem rot were found on the treated cutting seedlings and the control seedlings did not have any symptoms (Figure S1E-F). The same fungus, identified by morphological characteristics and sequencing using ITS, TEF1α and TUB genes, was isolated from the diseased tissues of the inoculated stems to complete Koch's postulates. This pathogen has been reported infecting the branch of castor bean (Tang et al. 2021) and root of Citrus (Al-Sadi et al. 2014). For our knowledge, this is the first report of L. theobromae infecting A. globosa in China. This study provides an important reference for the biology, epidemiology of L. theobromae.
Pecan [Carya illinoinensis (Wangenh.) K. Koch] is an important nut tree species, which has been widely planted in Jiangsu and Anhui Provinces of China in recent years (Mo et al. 2018). In May 2022, a new leaf spot disease was observed on both young and old leaves of pecan trees in the Luhe area, Nanjing, Jiangsu Province. Approximately 30% of pecan trees suffered from the disease, which affected the growth of young trees and nut production to cause economic loss. Initially, the leaf spots were grayish black and round. Then, disease spots enlarged and joined together, forming irregular lesions with uneven edges. In the last stage, the leaflets were withered. To isolate the pathogen, three symptomatic leaves were collected from each of three different pecan trees. Leaf sections (3 to 4 mm) were excised from the margin of spots, surface sterilized in 75% alcohol for 30 s, then sterilized in 1.5% NaClO for 90 s. After rinsing three times with sterile distilled water, leaf sections were placed on potato dextrose agar (PDA) medium and incubated at 25 °C in a dark environment for 5 days. Pure cultures were obtained by monosporic isolation. A total of 20 isolates were obtained, and 12 isolates were identified as Stemphylium sp. with the same morphological features and ITS sequences. A representative isolate, named LH3-3, was selected for further study. Colonies on PDA were light yellow with dense mycelium and were brownish yellow on the reverse side. Conidia were 16.3 to 34.4 × 8.1 to 16.3 µm) (n=35), muriform, brown, with transverse and longitudinal septa, lightly deformed at the transverse septa. Ascomata were not observed. The morphological characteristics were consistent with the description of Stemphylium eturmiunum (Simmons 2001). The internal transcribed spacer region (ITS) and portions of genes for calmodulin (cmdA) and glyceraldehyde-3-phosphate dehydrogenase (gpd) were amplified and sequenced with the primers ITS1/ITS4 (White et al. 1990), CALDF1/CALDR2 (Xu et al. 2022) and GPD-F/R (Xie et al. 2019), respectively. Sequences were deposited in GenBank under accessions OP482492 (ITS), OP495734 (cmdA), and OP495735 (gpd). BLAST analysis showed that the sequences had 99.67-100% homology to ITS (525/525 bp) of S. eturmiunum strain ST14 (MH843733), cmdA (694/694 bp) of strain CBS122124 (KU850832), and gpd (299/300 bp) of isolate UMSe0030 (MK336876). MEGA 7.0 was used to construct a phylogenetic analysis based on concatenated sequences of ITS, cmdA, and gpd using the neighbor-joining method. The results showed that LH3-3 clustered on the branch of S. eturmiunum, and the support rate was 100%. A spore suspension in sterile water was made from strain LH3-3 grown on PDA, and adjusted to 1×106 spores/mL with a hemocytometer. To test pathogenicity, 20 µl drops of the spore suspension were placed on the left sides of four healthy detached leaflets of mature pecan trees and leaves of three 3-month-old seedlings. The right side of each leaflet was inoculated with 20 µl drops of sterile distilled water as the control. All inoculated seedlings and detached leaflets were covered with a transparent plastic bag and cultured in a greenhouse at 25 °C, 80% relative humidity, and a 12 h light cycle until symptom appeared. The experiment was repeated three times. After 7 days of inoculation, grayish black lesions appeared on all inoculation sites with the spore suspension but not in the controls. The leaf spot symptoms were similar to those observed in orchards. The same fungus, identified by morphological characteristics and sequencing of ITS, cmdA, and gpd, was re-isolated from the diseased spots of the inoculated leaflets to complete Koch's postulates. S. eturmiunum has been reported to infect garlic (Dumin et al. 2022) and tomato (Prencipee et al. 2021), but this is the first report of S. eturmiunum causing leaf spot of C. illinoinensis. This study provides a basis for further study on the biology, epidemiology, and management of the disease.
AtNPF4.5/AIT2, which was predicted to be a low-affinity transporter capable for nitrate uptake, was screened by ABA receptor complex in Arabidopsis ten years ago. However, the molecular and biochemical characterizations of AtNPF4.5 in plants remained largely unclear. In this study, the function of a plasma-membrane-localized and root-specifically-expressed gene MeNPF4.5 (Manihot-esculenta NITRATE TRANSPORTER 1 PTR FAMILY4.5), an ortholog of the Arabidopsis thaliana NPF4.5, was investigated in cassava roots as a nitrate efflux transporter on low nitrate medium and an influx transporter following exposure to high concentration of external nitrates. Moreover, RNA interference (RNAi) of MeNPF4.5 reduced the nitrate efflux capacity but the overexpressing cassava seedlings increased the ability of efflux from the elongation to the mature zone of root under low nitrate treatments. Besides, MeNPF4.5-RNAi expression reduced the nitrate influx capacity but enhanced nitrate absorption in parts of overexpressing plants from the meristem, elongation to mature zone of roots under high nitrate conditions. Furthermore, MeNPF4.5-RNAi seedlings survived owing to roots that could grow normally, but the MeNPF4.5-over-expressors showed adverse growth under 7% PEG6000 stress, suggesting that MeNPF4.5 negatively regulated the osmotic stress and was involved in nitrate flux through cassava seedlings.
Manihot , Nitrate Transporters , Nitrates/metabolism , Manihot/genetics , Manihot/metabolism , Seedlings/metabolism , Plant Proteins/genetics , Plant Proteins/metabolism , Osmotic Pressure , Plant Roots/metabolism
Introduction: Brain hemorrhage was found between 13 and 16 days after acute whole-body 9.5 Gy 60Co-γ irradiation (IR). This study tested countermeasures mitigating brain hemorrhage and increasing survival from IR. Previously, we found that pegylated G-CSF therapy (PEG) (i.e., Neulasta®, an FDA-approved drug) improved survival post-IR by 20-40%. This study investigated whether Ciprofloxacin (CIP) could enhance PEG-induced survival and whether IR-induced brain hemorrhage could be mitigated by PEG alone or combined with CIP. Methods: B6D2F1 female mice were exposed to 60Co-γ-radiation. CIP was fed to mice for 21 days. PEG was injected on days 1, 8, and 15. 30-day survival and weight loss were studied in mice treated with vehicles, CIP, PEG, or PEG + CIP. For the early time point study, blood and sternums on days 2, 4, 9, and 15 and brains on day 15 post-IR were collected. Platelet numbers, brain hemorrhage, and histopathology were analyzed. The cerebellum/pons/medulla oblongata were detected with glial fibrillary acidic protein (GFAP), p53, p16, interleukin-18 (IL-18), ICAM1, Claudin 2, ZO-1, and complement protein 3 (C3). Results: CIP + PEG enhanced survival after IR by 85% vs. the 30% improvement by PEG alone. IR depleted platelets, which was mitigated by PEG or CIP + PEG. Brain hemorrhage, both surface and intracranial, was observed, whereas the sham mice displayed no hemorrhage. CIP or CIP + PEG significantly mitigated brain hemorrhage. IR reduced GFAP levels that were recovered by CIP or CIP + PEG, but not by PEG alone. IR increased IL-18 levels on day 4 only, which was inhibited by CIP alone, PEG alone, or PEG + CIP. IR increased C3 on day 4 and day 15 and that coincided with the occurrence of brain hemorrhage on day 15. IR increased phosphorylated p53 and p53 levels, which was mitigated by CIP, PEG or PEG + CIP. P16, Claudin 2, and ZO-1 were not altered; ICAM1 was increased. Discussion: CIP + PEG enhanced survival post-IR more than PEG alone. The Concurrence of brain hemorrhage, C3 increases and p53 activation post-IR suggests their involvement in the IR-induced brain impairment. CIP + PEG effectively mitigated the brain lesions, suggesting effectiveness of CIP + PEG therapy for treating the IR-induced brain hemorrhage by recovering GFAP and platelets and reducing C3 and p53.
Ciprofloxacin , Granulocyte Colony-Stimulating Factor , Intracranial Hemorrhages , Female , Animals , Mice , Mice, Inbred Strains , Ciprofloxacin/administration & dosage , Granulocyte Colony-Stimulating Factor/administration & dosage , Recombinant Proteins/administration & dosage , Polyethylene Glycols/administration & dosage , Intracranial Hemorrhages/blood , Intracranial Hemorrhages/drug therapy , Intracranial Hemorrhages/pathology , Gamma Rays , Body Weight/drug effects , Brain/metabolism , Brain/pathology , Intercellular Adhesion Molecule-1/metabolism , Claudin-2/metabolism , Zonula Occludens-1 Protein/metabolism , Interleukin-18/blood , Complement C3/analysis , Radiation Dosage
IL-18 has been shown to play important roles in response to total body irradiation. However, homogenous total body irradiation is not a realistic model to reflect the radiation exposure in a real nuclear event. To further study the roles of IL-18 in a real nuclear scenario, we developed a mouse partial body irradiation with 5% bone marrow sparing (PBI/BM5) model to mimic the inhomogeneous radiation exposure. We established the dose response curves of PBI/BM5 using different radiation doses ranging from 12 to 16 Gy. Using the PBI/BM5 model, we showed that IL-18 knockout mice were significantly more radiation resistant than the wild-type mice at 14.73 Gy. We further studied the hematopoietic changes using a complete blood count, bone marrow colony-forming assays, and serum cytokine assays on the mice exposed to PBI/BM5 with IL-18BP treatment and wild-type/IL-18 knockout mice. In conclusion, our data suggest that IL-18 plays important roles in mouse survival in a realistic nuclear exposure model, potentially through the IL-18/IFNγ pathway.
Radiation-combined injury (RCI) augments the risk of morbidity and mortality when compared to radiation injury (RI) alone. No FDA-approved medical countermeasures (MCMs) are available for treating RCI. Previous studies implied that RI and RCI elicit differential mechanisms leading to their detrimental effects. We hypothesize that accelerating wound healing improves the survival of RCI mice. In the current study, we examined the effects of RCI at different doses on lethality, weight loss, wound closure delay, and proinflammatory status, and assessed the relative contribution of systemic and local elements to their delayed wound closure. Our data demonstrated that RCI increased the lethality and weight loss, delayed skin wound closure, and induced a systemic proinflammatory status in a radiation dose-dependent manner. We also demonstrated that delayed wound closure did not specifically depend on the extent of hematopoietic suppression, but was significantly influenced by the toxicity of the radiation-induced systemic inflammation and local elements, including the altered levels of proinflammatory chemokines and factors, and the dysregulated collagen homeostasis in the wounded area. In conclusion, the results from our study indicate a close association between delayed wound healing and the significantly altered pathways in RCI mice. This insightful information may contribute to the evaluation of the prognosis of RCI and development of MCMs for RCI.
Magnolia grandiflora linn, with large and fragrant flowers, is widely planted in the south of Yangtze River valley in China. It is an excellent street tree and a beautiful ornamental tree for landscaping. In October 2021, a new leaf spot disease was observed on M. grandiflora seedlings and mature trees growing in Nanjing Botanical Garden, Jiangsu Province, China. According to statistics, about 300 M. grandiflora trees were planted here, and approximately 60% of M. grandiflora trees suffered from the disease. In the beginning, small black spots appeared on the leaf of M. grandiflora, and then the disease spots were connected into coalesced, and eventually lead to a large area of leaf dead (Figure S1A). To isolate the pathogen, ten diseased leaves were collected from ten plants distributed in different five areas of the botanical garden. The leaf sections (3 to 4 mm) were excised from the margins between healthy and diseased tissues, surface sterilized in 75% alcohol for 30 s and then in 1.5% NaClO for 90 s, rinsed three times in sterilized distilled water, plated on potato dextrose agar (PDA) and incubated at 25âin the darkness. Pure cultures were obtained by monosporic isolation. Twenty-three isolates were obtained (the isolate rate of 72%), and identified as Lasiodiplodia sp.. A representative isolate, G-H-1 was used for the further study. The colony of G-H-1, growing on PDA was cotton-like. The primary mycelia was gray and white in the early stage of culture. It gradually turned black gray in the later stage, and the reverse was similar in color (Figure S1B). The pycnidia (fruiting body) was black and appeared over PDA plates after 15 days (Figure S1C). The hyphae of G-H-1 were dark brown, and the conidia were monospora, oval or elliptic, with a size of (9.6 ~ 13.3) µm× (5.7 ~ 8.0) µm (mean 11.7×6.6 µm, n=35) (Figure S1D). In the pycnidia, the conidiophores were inside and produced conidia (Figure S1E). In the early stage, the conidia of G-H-1 were colorless transparent, then gradually turned dark brown with a septum in the center (Figure S1F). These characteristics were consistent with the description of Lasiodiplodia sp. (Alves et al. 2008). The regions of ITS, translation elongation factor 1-alpha (TEF1α) and ß-tubulin (TUB) genes (GenBank Accession No.OM698339, No.OM942757, and No.OM942756, respectively) were amplified and sequenced with the primer pairs ITS1/ITS4 (White et al. 1990), EF1-728F/EF1-986R (Alves et al. 2008) and Bt2a/Bt2b (Glass and Donaldson 1995). The obtained sequences showed 99.05-99.81% similarity with those from L. theobromae accessions in GenBank. A neighbor-joining phylogenetic tree was generated by combining all sequenced loci in MEGA7. The isolate G-H-1 clustered in the L. theobromae clade with 96% bootstrap support (Figure S2). To test pathogenicity, three one-year-old M. grandiflora seedlings that previously had been wounded with a sterile needle were inoculated with 20 µL conidia suspension (1×106 spores/mL) on the left sides of leaves. Inoculation with 20 µL sterile water was treated as the control, which were inoculated on the right sides of leaves. All plants were covered with clear polyethylene bags to keep moisture. And inoculated detached leaves were incubated in a greenhouse (Institute of Botany, Jiangsu Province and Chinese Academy of Sciences) at 25â, 80% relative humidity, and a 12-h light/dark cycle. The experiment was repeated three times. After 5 days of inoculation, typical black spots were found on the left sides of all inoculated leaves and the right sides did not have any leaf spot symptoms (Figure S1G-H). After 25 days of inoculation, perforation occurred at the black spots on the leaves of the inoculated plants, resulting in incomplete leaf (Figure S1I), which is identical disease symptoms to those observed in garden. The same fungus, identified by morphological characteristics and sequencing using ITS, TEF1α and TUB genes, was isolated from the diseased spots of the inoculated leaves to complete Koch,s postulates. The pathogen has a very wide host range. For example, it has been reported to cause dieback and sooty canker on Ficus trees (Abo Rehab et al. 2014), infected trunk of sultana seedless (Tang et al. 2021) and castor bean (Akgul et al. 2015), root of Citrus (Al-Sadi et al. 2014), date palm, and Mango (Al-Sadi et al. 2013) and Cassia fistula (Deng et al. 2015). But, according to nt.ars-grin.gov, there are no other reports of L. theobromae on M. grandiflora in the world. So, this would be the first one. This study provides an important reference for the biology, epidemiology.
Deutzia crenata Sieb. et Zucc, native to Japan, with white flowers in early summer, is a high quality ornamental shrub widely planted in China. In October 2021, a new leaf spot disease was observed on approximately 70% of the 320 D. crenata trees growing in Nanjing Botanical Garden, Jiangsu Province, China. The disease started as irregular small gray spots on the leaf of D. crenata that coalesced into larger lesions. Infected leaves turned yellow (Figure S1A) and leaves with multiple spots withered. To isolate the pathogen, leaf sections (3 to 4 mm) were excised from the lesion margin, surface sterilized in 75% alcohol for 30 s and then in 1.5% NaClO for 90 s, rinsed three times in sterilized distilled water, plated on potato dextrose agar (PDA) and incubated at 25âin the darkness. Pure cultures were obtained by monosporic isolation. The colony of a representative isolate (L-1), growing on PDA was circular, white, and cottony, and the surface undulate and pale luteous (Figure S1B). The reverse was similar in color (Figure S1C). The conidial masses were black and appeared over PDA plates after 12 days (Figure S1D). Conidia [18.3 to 28.4×5.4 to 8.5 µm (mean 24.5×6.7 µm)] (n=35) were fusiform to ellipsoid and four-septate (one basal and one apical cell hyaline, and three brown median cells), with two to three apical appendages (Figure S1E). These characteristics were consistent with the description of Neopestalotiopsis sp. (Maharachchikumbura et al. 2014). Three regions of the internal transcribed spacer (ITS), translation elongation factor 1-alpha (TEF1α), and ß-tubulin (TUB) genes (GenBank Accession No. OM663738, No. OM687134 and No. OM687133, respectively) were amplified and sequenced with the primers pairs ITS1/ITS4 (Innis et al. 1990), EF1-526F/EF1-1567R (Maharachchikumbura et al. 2014) and Bt2a/Bt2b (Glass and Donaldson 1995), respectively. The obtained sequences were 95.4-99.8% similar to those from Neopestalotiopsis sp. accessions in GenBank. A neighbor-joining phylogenetic tree was generated by combining all sequenced loci in MEGA7. The isolate L-1 clustered in the N. ellipsospora clade with 98% bootstrap support (Figure S2). To test pathogenicity, three detached healthy leaves and three one-year-old D. crenata seedlings were inoculated with 20 µL conidia suspension (1×106 spores/mL) on the left sides of leaves. The right side of each leaf was inoculation with 20 µL of sterile water as the experimental control. All plants were covered with clear polyethylene bags and incubated in a greenhouse (Institute of Botany, Jiangsu Province and Chinese Academy of Sciences) at 25â, 80% relative humidity, and a 12-h light/dark cycle. The experiment was repeated three times. After 5 days of inoculation, leaf spots typical of those observed in the orchards were observed on the left sides of all inoculated leaves and the right sides did not have any leaf spot symptoms (Figure S1F-G). The same fungus was isolated from the diseased spots of the inoculated leaves to complete Koch,s postulates (Figure S1H). N. ellipsospora is known to cause leaf spots on Camellia sinensis and sweet potato, infects fruits of Ardisia crenata in China (Maharachchikumbura et al. 2014; Maharachchikumbura et al. 2016; Wang et al. 2019), and causes stem spots on Acanthopanax divaricatus in Korea (Yun et al. 2015). This is the first report of N. ellipsospora causing leaf spot on D. crenata in the world. The occurrence of this disease needs to be monitored, because it can reduce the ornamental value of D. crenata. This finding provides the foundation to further investigate the biology and epidemiology of this disease so that effective strategies can be developed to manage this disease.
OBJECTIVE: Individuals with major limb amputation(s) frequently experience phantom limb sensations, which are described as vivid impressions of either parts or entire missing limb(s). Despite the high incidence and prevalence of phantom limb pain, the underlying pathophysiology of phantom limb pain remains poorly understood. The objective of this study was to evaluate a possible role of microRNAs in the pathophysiology of phantom limb pain. DESIGN: Adults with acquired limb amputation and varying degrees of phantom limb pain consented to provide clinical data and blood samples. One hundred forty participants with single or multiple limb amputation(s) were enrolled. The Visual analog scale and neuropathic pain symptom inventory were administered to evaluate the pain. Serum samples were analyzed for microRNA expression and bioinformatic analysis was performed. RESULTS: Sixty-seven participants did not experience phantom limb pain, whereas 73 participants experienced varying severities of phantom limb pain measured on a pain scale. Linear regression analysis suggested that the time since amputation is inversely related to severity of the pain. A significantly increased expression of 16 microRNAs was observed in participants experiencing phantom limb pain. Bioinformatic analysis shows a possible role of these microRNAs in regulating genes expressed in peripheral neuropathy. CONCLUSIONS: This study provides the first evidence of association of microRNA in phantom limb pain.
MicroRNAs , Neuralgia , Phantom Limb , Adult , Humans , Phantom Limb/epidemiology , Amputation, Surgical/adverse effects , Pain Measurement , Neuralgia/complications
In nuclear and radiological incidents, overexposure to ionizing radiation is life-threatening. It is evident that radiation depletes blood cells and increases circulating cytokine/chemokine concentrations as well as mortality. While microglia cells of female mice have been observed to be less damaged by radiation than in male mice, it is unclear whether sex affects physio-pathological responses in the bone marrow (BM) and gastrointestinal system (GI). We exposed B6D2F1 male and female mice to 0, 1.5, 3, or 6 Gy with mixed-field radiation containing 67% neutron and 33% gamma at a dose rate of 0.6 Gy/min. Blood and tissues were collected on days 1, 4, and 7 postirradiation. Radiation increased cytokines/chemokines in the femurs and ilea of female and male mice in a dose-dependent manner. Cytokines and chemokines reached a peak on day 4 and declined on day 7 with the exception of G-CSF which continued to increase on day 7 in female mice but not in male mice. MiR-34a (a Bcl-2 inhibitor), G-CSF (a miR-34a inhibitor), MAPK activation (pro-cell death), and citrulline (a biomarker of entroepithelial proliferation), active caspase-3 (a biomarker of apoptosis) and caspase-1 activated gasdermin D (a pyroptosis biomarker) were measured in the sternum, femur BM and ileum. Sternum histopathology analysis with H&E staining and femur BM cell counts as well as Flt-3L showed that BM cellularity was not as diminished in females, with males showing a 50% greater decline on day 7 postirradiation, mainly mediated by pyroptosis as indicated by increased gasdermin D in femur BM samples. Ileum injury, such as villus height and crypt depth, was also 43% and 30%, respectively, less damaged in females than in males. The severity of injury in both sexes was consistent with the citrulline and active caspase-3 measurements as well as active caspase-1 and gasdermin D measurements, suggesting apoptosis and pyroptosis occurred. On day 7, G-CSF in the ileum of female mice continued to be elevated by sevenfold, whereas G-CSF in the ileum of male mice returned to baseline. Furthermore, G-CSF is known to inhibit miR-34a expression, which in ileum on day 1 displayed a 3- to 4-fold increase in female mice after mixed-field (67% neutron + 33% gamma) irradiation, as compared to a 5- to 9-fold increase in male mice. Moreover, miR-34a blocked Bcl-2 expression. Mixed-field (60% neutron + 33% gamma) radiation induced more Bcl-2 in females than in males. On day 7, AKT activation was found in the ileums of females and males. However, MAPK activation including ERK, JNK, and p38 showed no changes in the ileum of females (by 0-fold; P > 0.05), whereas the MAPK activation was increased in the ileum of males (by 100-fold; P < 0.05). Taken together, the results suggest that organ injury from mixed-field (67% neutron + 33% gamma) radiation is less severe in females than in males, likely due to increased G-CSF, less MAPK activation, low miR-34a and increased Bcl-2/Bax ratio.
MicroRNAs , Radiation Injuries , Animals , Apoptosis/radiation effects , Bone Marrow/radiation effects , Caspase 3/metabolism , Chemokines , Citrulline , Cytokines/metabolism , Female , Granulocyte Colony-Stimulating Factor , Ileum/radiation effects , Male , Mice , MicroRNAs/genetics , MicroRNAs/metabolism , Neutrons , Radiation Injuries/pathology , bcl-2-Associated X Protein/metabolism
BACKGROUND: The aim of this study was to evaluate the clinical efficacy of suture-fixation mucopexy in the treatment of prolapsed hemorrhoids. METHODS: A total of 123 patients with grade II, III, and IV hemorrhoids were admitted to The TCM Hospital of Pu Dong New District between 2018 and 2019. They were randomly divided into the suture-fixation group (SF, N.=60) and the Milligan-Morgan hemorrhoidectomy group (MM, N.=63). Clinical efficacy, postoperative pain, average operation time, hospital stay, complications, and patient satisfaction were prospectively evaluated. RESULTS: No significant differences were identified in clinical efficacy; operation time and hospital stay between the two groups (P>0.05). However, VAS Score in the SF group was lower than that in the MM group. And the SF group was also more advantageous in anal function protection (P<0.05). In addition, the results of the follow-up survey revealed no significant difference in postoperative recurrence rate and patient satisfaction (P>0.05). CONCLUSIONS: Compared with Milligan-Morgan hemorrhoidectomy, suture-fixation mucopexy is as effective in the treatment of prolapsed hemorrhoid, but it has more advantages in reducing postoperative pain and protecting the anal function.
Hemorrhoidectomy , Hemorrhoids , Hemorrhoidectomy/adverse effects , Hemorrhoids/surgery , Humans , Pain, Postoperative/etiology , Sutures , Treatment Outcome
Administration of recombinant human IL-18 binding protein (rhIL-18BP), a natural antagonist of IL-18, significantly increased mouse survival after lethal doses of irradiation. To further understand the roles of IL-18BP in radiation mitigation, we studied the pharmacokinetic (PK) parameters of rhIL-18BP, and the serum and intestinal cytokine changes in CD2F1 mice treated with vehicle or rhIL-18BP after 9.0 Gy total body irradiation (TBI). For the PK study, non-compartmental pharmacokinetic analysis was performed using PKsolver. Serum and intestine specimens were collected to measure 44-cytokine levels. Principal component analysis showed a clear separation of the non-irradiated samples from the irradiated samples; and partial separation with or without rhIL-18BP treatment. Cytokine clusters that were significantly correlated in the serum or intestine, respectively were identified. On the individual cytokine levels, serum and intestinal cytokines that were significantly changed by irradiation and rhIL-18BP treatment were identified. Finally, cytokines that were significantly correlated between their serum and intestinal levels were identified. The current study established the PK parameters of rhIL-18BP in mice, identified significantly changed cytokines in mouse serum and intestine after radiation exposure and rhIL-18BP treatment. Current data provide critical insights into IL-18BP's mechanism of action as a radiation mitigator.
Despite predictions of the paperless office, global demand for printing and writing paper remains strong, and paper appears to be here to stay for some time. Not only firms, but also governments, libraries, and archives are in possession of large collections of legacy documents that still must be sorted and scanned. In this study, terahertz-based techniques are demonstrated to address several routine tasks related to the automated paper handling of unsorted legacy documents. Specifically, we demonstrate terahertz-based counting of the number of sheets in unconsolidated paper stacks, as well as locating stapled documents buried in paper stacks.
