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1. Hydrogen sulfide activates calcium signaling to confer tolerance against selenium stress in Brassica rapa

Author

Xiefeng Ye, Haiyan Lu, Aijing Xin, Ruixian Liu, Zhiqi Shi, Jian Chen, and Lifei Yang

Subjects
Brassica rapa, Calcium, Hydrogen sulfide, Phytotoxicity, Reactive oxygen species, Selenium stress, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Abstract Background Se (selenium) pollution is an emerging environmental concern. Excessive Se induces phytotoxicity. The endogenous H2S (hydrogen sulfide) was involved in plant adaptation to Se stress, but the signaling player of H2S remains unclear. Methods The study was conducted in a hydroponic system with different chemicals added to the treatment solution. Fluorescent tracking was performed to detect endogenous signaling molecules in plant tissues. Physiological changes were determined based on pharmaceutics and histochemical experiments. Gene expression was analyzed using qRT-PCR. The data were summarized using hierarchical cluster and Pearson correlation analysis. Results Se stress inhibited B. rapa growth (e.g. root elongation, shoot height, and seedling fresh weight and dry weight) in both dose- and time-dependent manners, with approximately 50% of root growth inhibition occurred at 20 µM Se. Se stress induced ROS (reactive oxygen species) accumulation and oxidative injury in B. rapa. Se exposure resulted in the upregulation of LCDs (L-cysteine desulfhydrase) and DCDs (D-cysteine desulfhydrase) encoding enzymes for H2S production in B. rapa at early stage of Se exposure, followed by downregulation of these genes at late stage. This was consistent with the change of endogenous H2S in B. rapa. Enhancing endogenous H2S level with NaHS (H2S donor) stimulates endogenous Ca2+ in B. rapa upon Se exposure, accompanied the attenuation of growth inhibition, ROS accumulation, oxidative injury, and cell death. The beneficial effects of H2S on detoxifying Se were blocked by decreasing endogenous Ca2+ level with Ca2+ channel blocker or Ca2+ chelator. Finally, hierarchical cluster combined with correlation analysis revealed that Ca2+ might acted as downstream of H2S to confer Se tolerance in B. rapa. Conclusion Ca2+ was an important player of H2S in the regulation of plant physiological response upon Se stress. Such findings extend our knowledge of the mechanism for Se-induced phytotoxicity. Graphical Abstract

Published
2024
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3. Effects of cinnamaldehyde on growth characteristics of tomato seedlings under NaCl stress

Author

Yuxiao WANG, Mingqing LIU, Yan LI, Sijie HUANG, and Lifei YANG

Subjects
tomato(solanum lycopersicum), cinnamaldehyde, nacl stress, growth characteristics, salt tolerance, Botany, QK1-989
Abstract

In order to investigate the effects of cinnamaldehyde (CA) on salt tolerance of tomato seedlings, we used tomato ‘Cooperative 903’ as experimental material, and investigated the characteristics of germination and seedling growth of tomato under NaCl (100 mmol·L-1) stress compared with the treatment of adding CA (100 μg·L-1). We set up four groups of treatments in the experiment: Control (CK, distilled water), NaCl (100 mmol·L-1), NaCl+CA(100 mmol·L-1 NaCl + 100 μg·L-1 CA), and CA(100 μg·L-1). The results were as follows: (1) With the application of CA, the germination potential and the germination rate of tomato seeds were both improved. The root length and fresh weight of tomato seedlings were also significantly increased under NaCl (100 mmol·L-1) stress. (2) CA could effectively alleviate the excessive accumulation, oxidative damage and cell death of total ROS caused by salt stress in roots of tomato seedlings. To sum up, CA can improve the salt tolerance of tomato during germination and seedling stage by alleviating the degree of oxidative damage of seedlings, and CA has the potential in field production as a new preparation.

Published
2023
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4. Thymol Deploys Multiple Antioxidative Systems to Suppress ROS Accumulation in Chinese Cabbage Seedlings under Saline Stress

Author

Changwei Sun, Jian Chen, Lanlan Wang, Jiajun Li, Zhiqi Shi, Lifei Yang, and Xiangyang Yu

Subjects
antioxidant, biostimulant, Chinese cabbage, oxidative stress, ROS, salinity, Agriculture
Abstract

Developing biostimulants is a promising approach for sustainable agriculture under a saline environment. Thymol is a plant-derived compound with a potential antioxidative capacity. However, little is known about whether and how the antioxidative property of thymol plays a role in inducing plant tolerance against abiotic stresses. Here, we find that thymol induces saline tolerance in Chinese cabbage seedlings via enhancing the antioxidative capacity. Treatment with NaCl (100 mM) decreased the seedling fresh weight by 59.9% as compared to a control. Thymol at 20 μM showed the greatest effect on promoting seedling growth under saline stress, with the seedling fresh weight being increased by 71.0% as compared to NaCl treatment. Thymol remarkably decreased the overaccumulation of ROS (hydrogen peroxide and a superoxide radical); cell membrane damage (evaluated by lipid oxidation, membrane integrity, and relative conductivity); and cell death in seedlings under saline stress. Thymol induced three antioxidative systems to lower the ROS level in salt-treated seedlings. First, thymol remarkably activated a set of antioxidative enzymes, such as SOD (superoxide dismutase), APX (ascorbate peroxidase), CAT (catalase), and POD (peroxidase). Second, thymol balanced the cellular redox status by increasing the ratio of AsA/DHA (ascorbic acid/dehydroascorbic acid) and GSH/GSSG (glutathione/oxidized glutathione). Third, thymol significantly enhanced the level-two kinds of antioxidants (total phenol and flavonoid). All of these physiological responses were observed in both the shoots and the roots. In sum, thymol deploys multiple antioxidative systems to help Chinese cabbage seedlings against saline stress. Such findings suggest that thymol has great potential to be developed as a novel biostimulant enhancing crop tolerance against saline stress.

Published
2024
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5. Fusion of the molecular adjuvant C3d to cleavage-independent native-like HIV-1 Env trimers improves the elicited antibody response

Author

Shridhar Bale, Lifei Yang, Mehrdad Alirezaei, Richard Wilson, Takayuki Ota, Esmeralda D. Doyle, Christopher A. Cottrell, Javier Guenaga, Karen Tran, Wenjuan Li, Leonidas Stamatatos, David Nemazee, Andrew B. Ward, and Richard T. Wyatt

Subjects
HIV-1, C3d, immunogenicity, molecular adjuvant, vaccine, Immunologic diseases. Allergy, RC581-607
Abstract

An effective HIV vaccine likely requires the elicitation of neutralizing antibodies (NAbs) against multiple HIV-1 clades. The recently developed cleavage-independent native flexibly linked (NFL) envelope (Env) trimers exhibit well-ordered conformation and elicit autologous tier 2 NAbs in multiple animal models. Here, we investigated whether the fusion of molecular adjuvant C3d to the Env trimers can improve B- cell germinal center (GC) formation and antibody responses. To generate Env-C3d trimers, we performed a glycine-serine- based (G4S) flexible peptide linker screening and identified a linker range that allowed native folding. A 30–60- amino- acid- long linker facilitates Env-to-C3d association and achieves the secretion of well-ordered trimers and the structural integrity and functional integrity of Env and C3d. The fusion of C3d did not dramatically affect the antigenicity of the Env trimers and enhanced the ability of the Env trimers to engage and activate B cells in vitro. In mice, the fusion of C3d enhanced germinal center formation, the magnitude of Env-specific binding antibodies, and the avidity of the antibodies in the presence of an adjuvant. The Sigma Adjuvant System (SAS) did not affect the trimer integrity in vitro but contributed to altered immunogenicity in vivo, resulting in increased tier 1 neutralization, likely by increased exposure of variable region 3 (V3). Taken together, the results indicate that the fusion of the molecular adjuvant, C3d, to the Env trimers improves antibody responses and could be useful for Env-based vaccines against HIV.

Published
2023
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6. Near-infrared fluorescence imaging with indocyanine green for assessment of donor livers in a rat model of ischemia–reperfusion

Author

Liyu Shan, Huan Chen, Lifei Yang, Zhe Feng, Yue Wang, Rongfeng Wang, Nana Zhang, Rongqian Wu, Yi Lv, and Tao Ma

Subjects
Indocyanine green, Near-infrared fluorescence imaging, Liver function assessment, Donor liver, Ischemia–reperfusion injury, Liver transplantation, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Abstract Background Although marginal donor livers expand the donor pool, an ideal method for quantitatively evaluating the quality of donor livers has not been developed. This study aimed to explore the feasibility of indocyanine green (ICG) fluorescence imaging for estimating liver function in an ischemia–reperfusion model. Methods Forty-eight rats were randomly and evenly divided into 8 groups: the control group and the experimental groups (I-VII). The portal vein blocking period was 0 min, 10 min, 20 min, 30 min, 40 min, 50 min and 60 min. After blood flow was reestablished and the hemodynamics stabilized, ICG was injected through the dorsal penile vein as a bolus, and the fluorescence signal was recorded for 30 min in real time. The fluorescence intensity (FI) curve of the liver was fitted with an asymptotic regression model. Fresh liver tissues and serum were obtained from the middle lobe of the liver on postoperative day (POD) 1 and POD 7 for histopathological evaluation and liver function tests. Results The growth rate of the FI curve, parameter b3, decreased from groups I to VII. According to the two sudden changes in b3 (20 min, 50 min), the experimental groups could be classified into 3 groups (A, B and C). Hepatocytes in groups I-II showed slight edema, group III began to show obvious hepatocyte edema and vacuolar degeneration, and in groups VI-VII, severe hepatocyte degeneration, necrosis and large inflammatory cell infiltration were observed. Suzuki’s scores in the 3 groups were also significantly different (P

Published
2022
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7. Cinnamaldehyde Inhibits Postharvest Gray Mold on Pepper Fruits via Inhibiting Fungal Growth and Triggering Fruit Defense

Author

Lifei Yang, Xiaoli Liu, Haiyan Lu, Cunzheng Zhang, Jian Chen, and Zhiqi Shi

Subjects
antifungal, Botrytis cinerea, cinnamaldehyde, gray mold, induced defense, pepper fruit, Chemical technology, TP1-1185
Abstract

Gray mold infected with Botrytis cinerea frequently appears on fruits and vegetables throughout the supply chain after harvest, leading to economic losses. Biological control of postharvest disease with phytochemicals is a promising approach. CA (cinnamaldehyde) is a natural phytochemical with medicinal and antimicrobial activity. This study evaluated the effect of CA in controlling B. cinerea on fresh pepper fruit. CA inhibited B. cinerea growth in vitro significantly in a dose- (0.1–0.8 mM) and time-dependent (6–48 h) manner, with an EC50 (median effective concentration) of 0.5 mM. CA induced the collapse and breakdown of the mycelia. CA induced lipid peroxidation resulting from ROS (reactive oxygen species) accumulation in mycelia, further leading to cell leakage, evidenced by increased conductivity in mycelia. CA induced mycelial glycerol accumulation, resulting in osmotic stress possibly. CA inhibited sporulation and spore germination resulting from ROS accumulation and cell death observed in spores. Spraying CA at 0.5 mM induced a defense response in fresh pepper fruits, such as the accumulation of defense metabolites (flavonoid and total phenols) and an increase in the activity of defense enzymes (PAL, phenylalanine ammonia lyase; PPO, polyphenol oxidase; POD, peroxidase). As CA is a type of environmentally friendly compound, this study provides significant data on the activity of CA in the biocontrol of postharvest gray mold in peppers.

Published
2023
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8. Effect of Selenium Application on Growth, Antioxidative Capacity, and Nutritional Quality in Purple Lettuce Seedlings

Author

Sijie Huang, Zhengzheng Ying, Jian Chen, Yuwen Yang, Jibing Zhang, Lifei Yang, and Mingqing Liu

Subjects
Lactuca sativa, biofortification, selenite, reactive oxygen species, antioxidant enzymes, anthocyanin, Agriculture
Abstract

Selenium (Se) is involved in the growth and development of plants. More importantly, Se from plant foods is a primary source of Se intake for humans and animals. Improving the Se content in vegetables through biofortification is an effective way to solve the hidden hunger induced by Se deficiency. This study demonstrated the effect of different exogenous Se application concentrations on the growth, antioxidative capacity, and nutritional quality of purple lettuce (Lactuca sativa var. crispa L. “Purple Rome”) at the seedling stage. The low Se application concentration (≤8 μM) significantly promoted the lettuce seedling growth. Conversely, the high Se application concentration (16 μM) inhibited the seedling growth and overproduced the reactive oxygen species in lettuce root tips, which caused oxidative damage to membrane lipids and cell death. Furthermore, the enzyme activities and gene expression of the antioxidant enzymes, superoxide dismutase-peroxidase, and catalase, were significantly increased under exogenous Se application. The exogenous Se application significantly increased the accumulation of nutrients in purple lettuce at the seedling stage. Remarkably, the exogenous Se application concentrations were significantly positively related to the Se and anthocyanin contents. The gene expression levels of chalcone synthase were positively correlated with the anthocyanin contents under exogenous Se application. This study contributes to the role of Se in lettuce growth and provides a reference for producing high-quality purple lettuce rich in Se and anthocyanins.

Published
2023
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9. CALM1 promotes progression and dampens chemosensitivity to EGFR inhibitor in esophageal squamous cell carcinoma

Author

Tao Liu, Xiujuan Han, Shutao Zheng, Qing Liu, Aerziguli Tuerxun, Qiqi Zhang, Lifei Yang, and Xiaomei Lu

Subjects
Esophageal squamous cell carcinoma (ESCC), CALM1, EGFR, Afatinib, Chemosensitivity, Cancer progression, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Background Calmodulin1 (CALM1) has been identified as one of the overexpression genes in a variety of cancers and EGFR inhibitor have been widely used in clinical treatment but it is unknown whether CALM1 and epidermal growth factor receptor (EGFR) have a synergistic effect in esophageal squamous cell carcinoma (ESCC). The aim of the present study was to explore the synergistic effects of knock-out CALM1 combined with EGFR inhibitor (Afatinib) and to elucidate the role of CALM1 in sensitizing the resistance to Afatinib in ESCC. Method Immunohistochemistry (IHC) and qRT-PCR were used to examine the expression of CALM1 and EGFR in ESCC tissues. Kaplan–Meier survival analysis was used to analyze the clinical and prognostic significance of CALM1 and EGFR expression in ESCC. Furthermore, to evaluate the biological function of CALM1 in ESCC, the latest gene editing technique CRISPR/Cas9(Clustered regularly interspaced short palindromic repeats)was applied to knockout CALM1 in ESCC cell lines KYSE150, Eca109 and TE-1. MTT, flow cytometry, Transwell migration, scratch wound-healing and colony formation assays were performed to assay the combined effect of knock-out CALM1 and EGFR inhibitor on ESCC cell proliferation and migration. In addition, nude mice xenograft model was used to observe the synergistic inhibition of knock-out CALM1 and Afatinib. Results Both CALM1 and EGFR were found to be significantly over-expressed in ESCC compared with paired normal control. Over-expressed CALM1 and EGFR were significantly associated with clinical stage, T classification and poor overall prognosis, respectively. In vitro, the combined effect of knock-out CALM1 mediated by the lentivirus and EGFR inhibitor was shown to be capable of inhibiting the proliferation, inducing cell cycle arrest at G1/S stage and increasing apoptosis of KYSE-150 and Eca109 cells; invasion and migration were also suppressed. In vivo, the results of tumor weight and total fluorescence were markedly reduced compared with the sgCtrl-infected group and sgCAML1 group. Conclusion Our data demonstrated that knock-out of CALM1 could sensitize ESCC cells to EGFR inhibitor, and it may exert oncogenic role via promotion of EMT. Taken together, CALM1 may be a tempting target to overcome Afatinib resistance.

Published
2021
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10. Thymol Induces Cell Death of Fusarium oxysporum f. sp. niveum via Triggering Superoxide Radical Accumulation and Oxidative Injury In Vitro

Author

Yini Hao, Jiao Zhang, Changwei Sun, Xuenai Chen, Yuxiao Wang, Haiyan Lu, Jian Chen, Zhiqi Shi, Li Zhang, Lifei Yang, and Sijie Huang

Subjects
cell death, fungicide, Fusarium oxysporum, lipid peroxidation, thymol, Agriculture
Abstract

Fusarium oxysporum f. sp. niveum (FON) causes watermelon wilt that is one of the major disease-causing yield losses of watermelon. Sustainable development of agriculture requires controlling watermelon wilt disease with good environmental performance. One important approach is to identify environmental-friendly compounds with inhibitory activity against FON. Thymol is a plant-derived compound that is safe for ecology. Little is known about the application of thymol in agriculture. In this study, we studied the inhibitory activity of thymol against FON by using morphological, physiological, and histochemical approaches. Thymol significantly inhibited colony diameter of FON in a dose-dependent manner, with EC50 at 21 µg/mL. Thymol at 10, 21, and 35 µg/mL decreased the fresh weight of FON mycelia by 29.0%, 50.6%, and 69.5%, respectively. Microscopic observation revealed irregular damage and loss of shape of mycelia upon thymol exposure. Thymol induced the accumulation of superoxide radical in mycelial cells and accompanied increased activity of antioxidative enzymes (SOD, superoxide dismutase; CAT, catalase). Thymol induced membrane permeability was indicated by lipid peroxidation and electrolyte leakage (increased by 29–58%) in mycelial cells. These results suggested that thymol induced oxidative damage in mycelia, which may be one of the possible reasons for thymol-induced mycelial cell death observed with fluorescent detection. Thymol decreased the production of conidia and inhibited the germination of conidia. Thymol induced superoxide radical accumulation, lipid peroxidation, and cell death in conidia as well. All of these results revealed the inhibitory activity of thymol against FON, which may have resulted from the superoxide radical-induced oxidative injury in both conidia and mycelia of FON.

Published
2023
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11. Irisin alleviates liver ischemia-reperfusion injury by inhibiting excessive mitochondrial fission, promoting mitochondrial biogenesis and decreasing oxidative stress

Author

Jianbin Bi, Jia Zhang, Yifan Ren, Zhaoqing Du, Qingshan Li, Yue Wang, Shasha Wei, Lifei Yang, Jingyao Zhang, Chang Liu, Yi Lv, and Rongqian Wu

Subjects
Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Current management of liver ischemia-reperfusion (I/R) injury is mainly based on supportive care and no specific treatment is available. Irisin, a recently identified hormone, plays pivotal roles in energy expenditure and oxidative metabolism; however, it remains unknown whether irisin has any protective effects on hepatic I/R injury. In this study, we found that serum and liver irisin levels were markedly decreased at 24 h after hepatic I/R. Treatment with exogenous irisin improved liver function, reduced liver necrosis and cell apoptosis, and relieved inflammatory response after hepatic I/R. Meanwhile, exogenous irisin markedly inhibited mitochondrial fission related protein dynamin related protein 1 (drp-1) and fission 1 (Fis-1) expression in hepatic I/R. Additionally, treatment with exogenous irisin increased mitochondrial content and increased mitochondrial biogenesis related peroxisome proliferative activated receptor-γ (PPARγ) co-activator 1α (PGC-1α) and mitochondrial transcription factor (TFAM) expression. Furthermore, irisin decreased oxidative stress by upregulating uncoupling proteins (UCP) 2 expression in hepatic I/R. The results reveal that treatment with exogenous irisin alleviated hepatic I/R injury by restraining mitochondrial fission, promoting mitochondrial biogenesis and relieving oxidative stress. Irisin treatment appears to be a novel and promising therapeutic approach for hepatic I/R injury. Keywords: Hepatic I/R, Irisin, Mitochondrial homeostasis, Oxidative stress

Published
2019
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12. Design and Functional Characterization of HIV-1 Envelope Protein-Coupled T Helper Liposomes

Author

Dominik Damm, Ehsan Suleiman, Hannah Theobald, Jannik T. Wagner, Mirjam Batzoni, Bianca Ahlfeld (née Kohlhauser), Bernd Walkenfort, Jens-Christian Albrecht, Jidnyasa Ingale, Lifei Yang, Mike Hasenberg, Richard T. Wyatt, Karola Vorauer-Uhl, Klaus Überla, and Vladimir Temchura

Subjects
T helper liposomes, Env trimer, coupling mechanism, peptide encapsulation, intrastructural help, HIV, Pharmacy and materia medica, RS1-441
Abstract

Functionalization of experimental HIV-1 virus-like particle vaccines with heterologous T helper epitopes (T helper VLPs) can modulate the humoral immune response via intrastructural help (ISH). Current advances in the conjugation of native-like HIV-1 envelope trimers (Env) onto liposomes and encapsulation of peptide epitopes into these nanoparticles renders this GMP-scalable liposomal platform a feasible alternative to VLP-based vaccines. In this study, we designed and analyzed customizable Env-conjugated T helper liposomes. First, we passively encapsulated T helper peptides into a well-characterized liposome formulation displaying a dense array of Env trimers on the surface. We confirmed the closed pre-fusion state of the coupled Env trimers by immunogold staining with conformation-specific antibodies. These peptide-loaded Env-liposome conjugates efficiently activated Env-specific B cells, which further induced proliferation of CD4+ T cells by presentation of liposome-derived peptides on MHC-II molecules. The peptide encapsulation process was then quantitatively improved by an electrostatically driven approach using an overall anionic lipid formulation. We demonstrated that peptides delivered by liposomes were presented by DCs in secondary lymphoid organs after intramuscular immunization of mice. UFO (uncleaved prefusion optimized) Env trimers were covalently coupled to peptide-loaded anionic liposomes by His-tag/NTA(Ni) interactions and EDC/Sulfo-NHS crosslinking. EM imaging revealed a moderately dense array of well-folded Env trimers on the liposomal surface. The conformation was verified by liposomal surface FACS. Furthermore, anionic Env-coupled T helper liposomes effectively induced Env-specific B cell activation and proliferation in a comparable range to T helper VLPs. Taken together, we demonstrated that T helper VLPs can be substituted with customizable and GMP-scalable liposomal nanoparticles as a perspective for future preclinical and clinical HIV vaccine applications. The functional nanoparticle characterization assays shown in this study can be applied to other systems of synthetic nanoparticles delivering antigens derived from various pathogens.

Published
2022
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13. Zircon Hf-Isotopic Mapping Applied to the Metal Exploration of the Sanjiang Tethyan Orogenic Belt, Southwestern China

Author

Bin Du, Zian Yang, Lifei Yang, Qi Chen, Jiaxuan Zhu, Kangxing Shi, Gao Li, Lei Wang, and Jia Lu

Subjects
Hf isotope mapping, mineral exploration, Sanjiang Tethyan orogenic belt, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Zircon Hf-isotopic mapping can be regarded as a useful tool for evaluating the coupling relationship between lithospheric structure and metallic mineralization. Hence, this method shows important significance for mineral prediction. To explore this potential, the published granite zircon Hf isotope data from the Sanjiang Tethyan Orogen were systematically compiled. This study uses the Kriging weighted interpolation in the Mapgis software system to contour Hf isotopes, revealing a relation between the crustal structure and metallogenesis. The mapping results suggest that the Changning–Menglian suture zone is the boundary between ancient and juvenile crust, viz., the western terranes have ancient crust attributes, whereas the eastern terranes exhibit the properties of new juvenile crust. In addition, this study also found that the mineralization and element types in the Sanjiang Tethyan Orogen have a coupling relationship with the crustal structure. The distribution of porphyry Cu-Mo-Au deposits is mainly controlled by the new juvenile crust, whereas the magmatic-hydrothermal Sn-W and porphyry Mo-W(-Cu) deposits are closely related to the reworked ancient crust. The results of zircon Hf isotope mapping prove that the formation and spatial distribution of deposits are related to the composition and properties of the crust. Hf isotope mapping can reveal the regional metallogenic rules and explore metallogenic prediction and metallogenic potential evaluation.

Published
2022
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14. Serum irisin levels are decreased in patients with sepsis, and exogenous irisin suppresses ferroptosis in the liver of septic mice

Author

Shasha Wei, Jianbin Bi, Lifei Yang, Jia Zhang, Yafeng Wan, Xue Chen, Yawen Wang, Zheng Wu, Yi Lv, and Rongqian Wu

Subjects
ferroptosis, GPX4, irisin, mitochondrial function, sepsis, Medicine (General), R5-920
Abstract

Abstract Background Sepsis remains a major health issue without an effective therapy. Ferroptosis, an iron‐dependent programmed cell death, has been proposed to be related to the pathogenesis of sepsis. Irisin, a myokine released during exercise, improves mitochondrial function under various conditions. Ferroptosis is closely related to mitochondrial function. However, the role of irisin in sepsis‐induced ferroptosis and mitochondrial dysfunction in the liver remained unknown. Thus, we hypothesize that irisin treatment suppresses ferroptosis and improves mitochondrial function in sepsis. Methods To study this, we first explored the role of serum irisin levels in patients with sepsis, and then determined the effect of irisin administration on ferroptosis and mitochondrial function in the liver of septic mice. Results Serum irisin levels were decreased and negatively correlated with the APACHE II scores in patients with sepsis. In mice subjected to cecal ligation and puncture (CLP), exogenous irisin administration suppressed ferroptosis, inhibited inflammatory response, decreased reactive oxygen species (ROS) production, restored abnormal mitochondrial morphology, and increased mtDNA copy number and adenosine triphosphate (ATP) content. The effect of irisin on ferroptosis was confirmed in LPS‐treated hepatocytes and CLP‐induced septic mice. Inhibition of glutathione peroxidase 4 (GPX4), a central regulator of ferroptosis, reduced irisin's protective effects in LPS‐treated hepatocytes and CLP‐induced septic mice, while blocking the irisin receptor with RGD peptide or Echistain decreased irisin‐induced GPX4 expression. Conclusions Serum irisin levels are decreased and negatively correlated with disease severity in patients with sepsis, and irisin treatment suppresses ferroptosis and restores mitochondrial function in experimental sepsis. Irisin may offer therapeutic potential in the management of sepsis.

Published
2020
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15. Route of Vaccine Administration Alters Antigen Trafficking but Not Innate or Adaptive Immunity

Author

Sebastian Ols, Lifei Yang, Elizabeth A. Thompson, Pradeepa Pushparaj, Karen Tran, Frank Liang, Ang Lin, Bengt Eriksson, Gunilla B. Karlsson Hedestam, Richard T. Wyatt, and Karin Loré

Subjects
Biology (General), QH301-705.5
Abstract

Summary: Although intramuscular (i.m.) administration is the most commonly used route for licensed vaccines, subcutaneous (s.c.) delivery is being explored for several new vaccines under development. Here, we use rhesus macaques, physiologically relevant to humans, to identify the anatomical compartments and early immune processes engaged in the response to immunization via the two routes. Administration of fluorescently labeled HIV-1 envelope glycoprotein trimers displayed on liposomes enables visualization of targeted cells and tissues. Both s.c. and i.m. routes induce efficient immune cell infiltration, activation, and antigen uptake, functions that are tightly restricted to the skin and muscle, respectively. Antigen is also transported to different lymph nodes depending on route. However, these early differences do not translate into significant differences in the magnitude or quality of antigen-specific cellular and humoral responses over time. Thus, although some distinct immunological differences are noted, the choice of route may instead be motivated by clinical practicality. : Route of immunization, especially intramuscular versus subcutaneous administration, is often debated. Ols et al. use a rhesus macaque model to determine the tissues targeted by a nanoparticle vaccine administered by either route. The authors demonstrate that tissue dissemination is route dependent, but innate and adaptive immune responses develop comparably. Keywords: vaccination, intramuscular, subcutaneous, antigen transport, HIV envelope glycoprotein, dendritic cell, follicular dendritic cell, monocytes, lymph node, B cell follicle

Published
2020
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16. Genesis of the Baiyangping Cu–Co and Pb–Zn Mineralizations in Lanping Basin, SW China

Author

Jiaxuan Zhu, Hongyu Duan, Lifei Yang, Qi Chen, Lijun Liu, Kangxing Shi, Jinlong Qian, Qiaoxin Li, and Rong Hu

Subjects
Baiyangping, base metals, C–O–S isotopes, fluid source and evolution, basinal brines, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The Oligocene to Miocene Baiyangping Cu–Co and Pb–Zn mineralization was deposited during the collision of the India and Asia continents. The mineralization is hosted in veins in faulted carbonate and clastic rocks, which act as fluid pathways. A detailed fluid-inclusion analysis and C–O–S isotopic study are reported, focusing on the origin of the mineralizing fluids and mineralizing processes. The microthermometry of fluid inclusions hosted in quartz and carbonates indicate that the fluid peak temperature for both Cu–Co and Pb–Zn mineralizations ranges from 160 to 200 °C and from 120 to 160 °C, respectively. During these metallogenic hydrothermal events, salinity evolved from 2.7 wt% NaCl equiv to 24.8 wt% NaCl equiv. The δ34S values measured on sphalerite and tennantite range from +5.2‰ to +9.5‰, which indicates that sulfur originated from a reservoir characterized by thermochemical sulfate reduction (TSR). The C–O isotopic values obtained from the carbonate samples suggest that the fluid mainly originates from basinal brines. The combination of C and S isotopic values of the Cu–Co and Pb–Zn mineralization indicate the sedimentary source of the basin. Mineralization is controlled by faults, thermochemical sulfate reduction, and the physicochemical conditions of the fluid.

Published
2022
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17. Full-length transcriptome sequences of ephemeral plant Arabidopsis pumila provides insight into gene expression dynamics during continuous salt stress

Author

Lifei Yang, Yuhuan Jin, Wei Huang, Qi Sun, Fang Liu, and Xianzhong Huang

Subjects
Arabidopsis pumila, Salt tolerance, Differentially expressed genes, MAPK, SMRT, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Arabidopsis pumila is native to the desert region of northwest China and it is extraordinarily well adapted to the local semi-desert saline soil, thus providing a candidate plant system for environmental adaptation and salt-tolerance gene mining. However, understanding of the salt-adaptation mechanism of this species is limited because of genomic sequences scarcity. In the present study, the transcriptome profiles of A. pumila leaf tissues treated with 250 mM NaCl for 0, 0.5, 3, 6, 12, 24 and 48 h were analyzed using a combination of second-generation sequencing (SGS) and third-generation single-molecule real-time (SMRT) sequencing. Results Correction of SMRT long reads by SGS short reads resulted in 59,328 transcripts. We found 8075 differentially expressed genes (DEGs) between salt-stressed tissues and controls, of which 483 were transcription factors and 1157 were transport proteins. Most DEGs were activated within 6 h of salt stress and their expression stabilized after 48 h; the number of DEGs was greatest within 12 h of salt stress. Gene annotation and functional analyses revealed that expression of genes associated with the osmotic and ionic phases rapidly and coordinately changed during the continuous salt stress in this species, and salt stress-related categories were highly enriched among these DEGs, including oxidation–reduction, transmembrane transport, transcription factor activity and ion channel activity. Orphan, MYB, HB, bHLH, C3H, PHD, bZIP, ARF and NAC TFs were most enriched in DEGs; ABCB1, CLC-A, CPK30, KEA2, KUP9, NHX1, SOS1, VHA-A and VP1 TPs were extensively up-regulated in salt-stressed samples, suggesting that they play important roles in slat tolerance. Importantly, further experimental studies identified a mitogen-activated protein kinase (MAPK) gene MAPKKK18 as continuously up-regulated throughout salt stress, suggesting its crucial role in salt tolerance. The expression patterns of the salt-responsive 24 genes resulted from quantitative real-time PCR were basically consistent with their transcript abundance changes identified by RNA-Seq. Conclusion The full-length transcripts generated in this study provide a more accurate depiction of gene transcription of A. pumila. We identified potential genes involved in salt tolerance of A. pumila. These data present a genetic resource and facilitate better understanding of salt-adaptation mechanism for ephemeral plants.

Published
2018
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18. Tensile-Shear Mechanical Behaviors of Friction Stir Spot Weld and Adhesive Hybrid Joint: Experimental and Numerical Study

Author

Guishen Yu, Xin Chen, Biao Zhang, Kaixuan Pan, and Lifei Yang

Subjects
hybrid joint, friction stir spot welding, adhesive bonding, tensile-shear failure load, failure energy, failure mode, Mining engineering. Metallurgy, TN1-997
Abstract

In this work, the tensile-shear mechanical behaviors of friction stir spot weld and adhesive hybrid joint were performed from both numerical and experimental viewpoints. Weld through (WT) and flow in (FI) processes were studied in this research. The focus was to evaluate joint defects, tensile-shear failure load (TSFL), failure energy, failure mode and stress distribution of the joint. In FI joints, keyhole and hook defects appeared in the weld zone and the areas of material removed from the base metal were filled with adhesive. In the WT joints, the adhesive layer close to the weld zone was carbonized due to the welding heat. Meanwhile, under the rotating movement of welding tool, the adhesive impurities entered the stirring zone (SZ) and heat affected zone (HAZ) of the weld, which decreased mechanical performances of WT joints. Compared to the friction stir spot welding (FSSW) joint, the TSFL value, stiffness and failure energy of FI joint were increased by 2.7, 1.1 and 8.14 times, respectively. In order to study the stress distribution of the joints, a finite element (FE) model, which considered the weld structure and mechanical properties of weld regions, was implemented. Moreover, the adhesive layer was simplified by the cohesive zone model (CZM). FE results show that the FI process effectively decreases the stress concentration of the weld edge from 243.09 to 15.5 MPa, under the 2 kN tensile load. The weld can block the adhesive crack propagation, and the adhesive optimized the stress distribution of FI joints through a synergistic effect. So, the use of FI process for aluminum alloy connection is strongly recommended, especially in crucial structure areas.

Published
2020
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19. Structure-Guided Redesign Improves NFL HIV Env Trimer Integrity and Identifies an Inter-Protomer Disulfide Permitting Post-Expression Cleavage

Author

Lifei Yang, Shailendra Kumar Sharma, Christopher Cottrell, Javier Guenaga, Karen Tran, Richard Wilson, Anna-Janina Behrens, Max Crispin, Natalia de Val, and Richard T. Wyatt

Subjects
HIV-1 Env, soluble trimer, vaccines, antigens, stability, antigenicity, Immunologic diseases. Allergy, RC581-607
Abstract

Soluble HIV-1 envelope glycoprotein (Env) trimers are under active investigation as vaccine candidates in relevant pre-clinical models. Like SOSIPs, the cleavage-independent native flexibly linked (NFL) trimers are faithful mimics of the Env spike. Here, we analyzed multiple new designs to explore alternative modifications, informing tertiary interactions, while maintaining NFL trimer homogeneity and integrity. Accordingly, we performed a proline (P) substitution screen in the gp41 heptad repeat 1 region, identifying other trimer-enhancing Ps, including L555P. This P improved trimer integrity compared to I559P in selected properties. Next, we screened 15 structure-guided potential cysteine pairs in gp140 and found that A501C-L663C (“CC2”) forms an inter-protomer disulfide bond that demonstrably increased NFL trimer thermostability. We combined these two approaches with trimer-derived substitutions, coupled with glycine substitutions at helix-to-coil transitions, developed by our group. To increase the exposure of the fusion peptide (FP) N-terminus, we engineered an enterokinase (EK) cleavage site upstream of the FP for controlled post-expression cleavage. In combination, the redesigns resulted in highly stable and homogeneous NFL mimics derived from different clades. Following recombinant EK cleavage, the NFL trimers retained covalent linkage, maintaining a native-like structure while displaying enhanced stability and favorable antigenic features. These trimers also displayed increased exposure of neutralizing epitopes in the FP and gp120/gp41 interface, while retaining other neutralizing epitopes and occluding non-neutralizing elements. This array of Env-structure-guided designs reveals additional interactive regions in the prefusion state of the HIV Env spike, affording the development of novel antigens and immunogens.

Published
2018
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20. Glutaraldehyde Cross-linking of HIV-1 Env Trimers Skews the Antibody Subclass Response in Mice

Author

Martina Soldemo, Monika Àdori, Julian M. Stark, Yu Feng, Karen Tran, Richard Wilson, Lifei Yang, Javier Guenaga, Richard T. Wyatt, and Gunilla B. Karlsson Hedestam

Subjects
HIV-1 env, gluteraldehyde, cross-linking, immunogenicity, mice, vaccine responses, Immunologic diseases. Allergy, RC581-607
Abstract

Well-ordered soluble HIV-1 envelope glycoprotein (Env) spike mimetics such as Native Flexibly Linked (NFL) trimers display high homogeneity, desired antigenicity, and high in vitro stability compared to previous generation soluble HIV-1 Env trimers. Glutaraldehyde (GLA) cross-linking was shown to further increase the thermostability of clade C 16055 NFL trimers and enhance the induction of tier 2 autologous neutralizing antibodies in guinea pigs. Here, we investigated if GLA fixation affected other aspects of the Env-specific immune response by performing a comparative immunogenicity study in C57BL/6 mice with non-fixed and GLA-fixed 16055 NFL trimers administered in AbISCO-100 adjuvant. We detected lower Env-specific binding antibody titers and increased skewing toward Th2 responses in mice immunized with GLA-fixed trimers compared to mice immunized with unfixed trimers, as shown by a higher Env-specific IgG1:IgG2b antibody subclass ratio. These results suggest that the presence of GLA adducts on Env influences the quality of the induced antibody response.

Published
2017
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21. Generation, Annotation, and Analysis of a Large-Scale Expressed Sequence Tag Library from Arabidopsis pumila to Explore Salt-Responsive Genes

Author

Xianzhong Huang, Lifei Yang, Yuhuan Jin, Jun Lin, and Fang Liu

Subjects
Arabidopsis pumila, Olimarabidopsis pumila, ephemerals, salt stress, EST, gene expression, Plant culture, SB1-1110
Abstract

Arabidopsis pumila is an ephemeral plant, and a close relative of the model plant Arabidopsis thaliana, but it possesses higher photosynthetic efficiency, higher propagation rate, and higher salinity tolerance compared to those A. thaliana, thus providing a candidate plant system for gene mining for environmental adaption and salt tolerance. However, A. pumila is an under-explored resource for understanding the genetic mechanisms underlying abiotic stress adaptation. To improve our understanding of the molecular and genetic mechanisms of salt stress adaptation, more than 19,900 clones randomly selected from a cDNA library constructed previously from leaf tissue exposed to high-salinity shock were sequenced. A total of 16,014 high-quality expressed sequence tags (ESTs) were generated, which have been deposited in the dbEST GenBank under accession numbers JZ932319 to JZ948332. Clustering and assembly of these ESTs resulted in the identification of 8,835 unique sequences, consisting of 2,469 contigs and 6,366 singletons. The blastx results revealed 8,011 unigenes with significant similarity to known genes, while only 425 unigenes remained uncharacterized. Functional classification demonstrated an abundance of unigenes involved in binding, catalytic, structural or transporter activities, and in pathways of energy, carbohydrate, amino acid, or lipid metabolism. At least seven main classes of genes were related to salt-tolerance among the 8,835 unigenes. Many previously reported salt tolerance genes were also manifested in this library, for example VP1, H+-ATPase, NHX1, SOS2, SOS3, NAC, MYB, ERF, LEA, P5CS1. In addition, 251 transcription factors were identified from the library, classified into 42 families. Lastly, changes in expression of the 12 most abundant unigenes, 12 transcription factor genes, and 19 stress-related genes in the first 24 h of exposure to high-salinity stress conditions were monitored by qRT-PCR. The large-scale EST library obtained in this study provides first-hand information on gene sequences expressed in young leaves of A. pumila exposed to salt shock. The rapid discovery of known or unknown genes related to salinity stress response in A. pumila will facilitate the understanding of complex adaptive mechanisms for ephemerals.

Published
2017
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22. Investigating the Effect of Thermal Annealing Process on the Photovoltaic Performance of the Graphene-Silicon Solar Cell

Author

Lifei Yang, Xiaolei Wu, Xin Shen, Xuegong Yu, and Deren Yang

Subjects
Renewable energy sources, TJ807-830
Abstract

Graphene-silicon (Gr-Si) Schottky solar cell has attracted much attention recently as promising candidate for low-cost photovoltaic application. For the fabrication of Gr-Si solar cell, the Gr film is usually transferred onto the Si substrate by wet transfer process. However, the impurities induced by this process at the graphene/silicon (Gr/Si) interface, such as H2O and O2, degrade the photovoltaic performance of the Gr-Si solar cell. We found that the thermal annealing process can effectively improve the photovoltaic performance of the Gr-Si solar cell by removing these impurities at the Gr/Si interface. More interestingly, the photovoltaic performance of the Gr-Si solar cell can be improved, furthermore, when exposed to air environment after the thermal annealing process. Through investigating the characteristics of the Gr-Si solar cell and the properties of the Gr film (carrier density and sheet resistance), we point out that this phenomenon is caused by the natural doping effect of the Gr film.

Published
2015
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23. Nonindustrial Family Forest Landowners' Stated Willingness-to-Participate in Forest Cooperatives in Southern China

Author

Lifei Yang, Yali Wen, and Francisco X. Aguilar

Subjects
Forestry, SD1-669.5, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

Forest landowner cooperatives have emerged as a formal institution capable of fostering professional forest management. There are many reasons to motivate participation in forest cooperatives. For instance, cooperatives could ease nonindustrial family forest landowners (NIFFLs) access to financial assistance and enhance market entrance opportunities. In China, various forms of forest cooperatives supported by government agencies are developing rapidly in an effort to facilitate forest management at a large scale. However, the development of forest cooperatives is still in its early stages. An understanding of NIFFLs' attitudes towards the development of cooperatives is instrumental for crafting policies and organizational structures that motivate landowners' participation. Three hundred and ten NIFFLs from Fujian and Jiangxi provinces in Southern China were interviewed to elicit their attitudes and willingness-to-participate in forest cooperatives. Logistic regression was used to evaluate landowner, household, forest resource, and institutional factors associated with NIFFLs' stated decision to participate in a forest cooperative. Results show that NIFFLs' stated willingness-to-participate in forest cooperatives was associated with demographic characteristics like education, forest-related income, size of forestland, and attitudes toward land tenure reform and cooperatives. This paper outlines suggestions on how to further develop forest cooperatives in Southern China.

Published
2013
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29. Effect of Selenium Application on Growth, Antioxidative Capacity, and Nutritional Quality in Purple Lettuce Seedlings

Author

Liu, Sijie Huang, Zhengzheng Ying, Jian Chen, Yuwen Yang, Jibing Zhang, Lifei Yang, and Mingqing

Subjects
Lactuca sativa, biofortification, selenite, reactive oxygen species, antioxidant enzymes, anthocyanin, chalcone synthase
Abstract

Selenium (Se) is involved in the growth and development of plants. More importantly, Se from plant foods is a primary source of Se intake for humans and animals. Improving the Se content in vegetables through biofortification is an effective way to solve the hidden hunger induced by Se deficiency. This study demonstrated the effect of different exogenous Se application concentrations on the growth, antioxidative capacity, and nutritional quality of purple lettuce (Lactuca sativa var. crispa L. “Purple Rome”) at the seedling stage. The low Se application concentration (≤8 μM) significantly promoted the lettuce seedling growth. Conversely, the high Se application concentration (16 μM) inhibited the seedling growth and overproduced the reactive oxygen species in lettuce root tips, which caused oxidative damage to membrane lipids and cell death. Furthermore, the enzyme activities and gene expression of the antioxidant enzymes, superoxide dismutase-peroxidase, and catalase, were significantly increased under exogenous Se application. The exogenous Se application significantly increased the accumulation of nutrients in purple lettuce at the seedling stage. Remarkably, the exogenous Se application concentrations were significantly positively related to the Se and anthocyanin contents. The gene expression levels of chalcone synthase were positively correlated with the anthocyanin contents under exogenous Se application. This study contributes to the role of Se in lettuce growth and provides a reference for producing high-quality purple lettuce rich in Se and anthocyanins.

Published
2023
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33. High-performance perovskite/silicon heterojunction solar cells enabled by industrially compatible post annealing

Author

Guangyi Wang, Zongyi Yue, Zengguang Huang, Wenzhu Liu, Rui Tong, Haipeng Yin, Lifei Yang, Fucheng Yu, Zongyang Sun, and Sihua Zhong

Abstract

In recent years, developing dopant-free carrier-selective contacts, instead of heavily doped Si layer (either externally or internally), for crystalline silicon (c-Si) solar cells have attracted considerable interests with the aims to reduce parasitic light absorption and fabrication cost. However, the stability still remains a big challenge for dopant-free contacts, especially when thermal treatment is involved, which limits their industrial adoption. In this study, a perovskite material ZnTiO combining with an ultrathin (~1 nm) SiO film and Al layer is used as an electron-selective contact, forming an isotype heterojunction with n-type c-Si. The perovskite/c-Si heterojunction solar cells exhibit a performance-enhanced effect by post-metallization annealing when the annealing temperature is 200-350 °C. Thanks to the post-annealing treatment, an impressive efficiency of 22.0% has been demonstrated, which is 3.5% in absolute value higher than that of the as-fabricated solar cell. A detailed material and device characterization reveal that post annealing leads to the diffusion of Al into ZnTiO film, thus doping the film and reducing its work function. Besides, the coverage of SiO is also improved. Both these two factors contribute to the enhanced passivation effect and electron selectivity of the ZnTiO -based contact, and hence improve the cell performance.

Published
2023
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35. Application of principal component analysis and a spectrum-area fractal model to identify geochemical anomalies associated with vanadium mineralization in northeastern Jiangxi Province, South China

Author

Hongli Li, Zenghua Li, Yongpeng Ouyang, Lifei Yang, Youguo Deng, Qibao Jiang, Teng Deng, Pei Shang, Yuheng Lin, and Haoxuan Zeng

Subjects
Geochemistry and Petrology, General Earth and Planetary Sciences, General Chemistry, General Environmental Science
Abstract

The Jiujiang region in northeastern Jiangxi Province is known for hosting many black shale-type vanadium deposits, which are mainly found in the Cambrian Hetang Formation and Sinian Piyuancun Formation. In this paper, based on stream sediment data, principal component analysis (PCA) and spectrum–area (S–A) fractal modelling are used to identify geochemical anomalies associated with vanadium (V) mineralization. First, a dataset containing 957 samples of stream sediments with 39 elements was processed using correlation analysis and cluster analysis to find the closest V-related elements, and Ag and Cd were obtained. Secondly, the raster maps of V, Ag and Cd were created using multifractal inverse distance-weighted interpolation. PCA was then employed to combine the concentration values of V, Ag and Cd into a single variable representing the internal relationships among the three elements. Finally, S–A analysis was used to decompose the first component pattern obtained through PCA and to extract anomalies from the complex background. The results show that the known V deposits are located within highly anomalous areas, which are well corelated with the distribution of black shales of the Hetang and Piyuancun Formations. It is suggested that the northeastern part of Jiangxi Province potentially hosts undiscovered V deposits, and the identified anomalies could be further used to guide mineral exploration.Thematic collection:This article is part of the Applications of Innovations in Geochemical Data Analysis collection available at:https://www.lyellcollection.org/cc/applications-of-innovations-in-geochemical-data-analysis

Published
2022
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37. Research and Application Practice on Technical Supervision of Nuclear Island Mechanical Equipment in NPP

Author

Lifei Yang, Qinhu Wang, Yijin Ma, and Xiaolei Liu

Subjects
History, Computer Science Applications, Education
Abstract

The safe and reliable operation of nuclear island mechanical equipment in NPP is directly related to the stable power generation of units. Strengthening the supervision and management of nuclear island mechanical equipment is an important measure to improve its reliability. This paper presents a nuclear power plant nuclear equipment purpose and significance of electric power and technical supervision, technical supervision scope, equipment identification methods, technical supervision content build process, and the reactor coolant system main pump as an example, compiled the technical supervision guide, some CPR1000 nuclear power plant in the pilot application. The existing problems in the management of the main pump group were found, and suggestions for improvement, reliability improvement and economy improvement were put forward. The practice has proved that the technical supervision of nuclear island mechanical equipment in nuclear power plants is helpful to improve the power generation capacity and economy of nuclear power plants.

Published
2023
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40. Downregulation of GSK-3β Expression via Ultrasound-Targeted Microbubble Destruction Enhances Atherosclerotic Plaque Stability in New Zealand Rabbits

Author

Ye Fang, Suya Ma, Lifei Yang, and Lingzi Chen

Subjects
Male, 0301 basic medicine, Acoustics and Ultrasonics, Biophysics, Down-Regulation, Inflammation, 030204 cardiovascular system & hematology, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, In vivo, GSK-3, Animals, Medicine, Radiology, Nuclear Medicine and imaging, Foam cell, Glycogen Synthase Kinase 3 beta, Microbubbles, Radiological and Ultrasound Technology, business.industry, Transfection, Vulnerable plaque, Plaque, Atherosclerotic, In vitro, 030104 developmental biology, Ultrasonic Waves, Cancer research, Rabbits, medicine.symptom, business
Abstract

Accumulating evidence suggests that atherosclerosis (AS) is the underlying cause of vascular diseases, including heart disease and stroke. Ultrasound-targeted microbubble destruction (UTMD) technology provides a tolerable, efficient and effective system for drug delivery and gene transfection, which has broad application prospects in the treatment of AS. In addition, glycogen synthase kinase (GSK)-3β has been implicated as a potentially valuable therapeutic agent for AS treatment; however, the specific molecular mechanisms remain unknown. Therefore, this study was conducted to explore the effect of downregulation of GSK-3β expression via UTMD on atherosclerotic plaque stability. We established a THP-1 macrophage-derived foam cell model in vitro and an atherosclerotic plaque model in the right common carotid artery of New Zealand rabbits. We determined levels of the relevant vulnerable plaque stability elements. The results indicate that GSK-3β was upregulated in the foam cells and in atherosclerotic rabbits. Downregulation of GSK-3β expression by UTMD suppressed vulnerable plaque factors and inflammation in vitro and in vivo, changed the cytoskeleton of the foam cells in vitro, increased Young's modulus and decreased the peak intensity of atherosclerotic plaque in vivo. Moreover, GSK-3β inhibition by UTMD did not influence the viability of the foam cells. Collectively, our results indicate that GSK-3β could be a potential target for anti-atherogenic interventions and, in particular, can improve the stability of AS plaques in combination with UTMD.

Published
2021
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41. CALM1 promotes progression and dampens chemosensitivity to EGFR inhibitor in esophageal squamous cell carcinoma

Author

Aerziguli Tuerxun, Tao Liu, Lifei Yang, Shutao Zheng, Xiujuan Han, Qiqi Zhang, Qing Liu, and Xiaomei Lu

Subjects
Cancer Research, Cell cycle checkpoint, Afatinib, EGFR, Cancer progression, lcsh:RC254-282, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Esophageal squamous cell carcinoma (ESCC), Genetics, Medicine, Epidermal growth factor receptor, lcsh:QH573-671, Chemosensitivity, 030304 developmental biology, EGFR inhibitors, 0303 health sciences, medicine.diagnostic_test, biology, business.industry, Cell growth, lcsh:Cytology, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Oncology, Apoptosis, CALM1, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Immunohistochemistry, business, Primary Research, medicine.drug
Abstract

Background Calmodulin1 (CALM1) has been identified as one of the overexpression genes in a variety of cancers and EGFR inhibitor have been widely used in clinical treatment but it is unknown whether CALM1 and epidermal growth factor receptor (EGFR) have a synergistic effect in esophageal squamous cell carcinoma (ESCC). The aim of the present study was to explore the synergistic effects of knock-out CALM1 combined with EGFR inhibitor (Afatinib) and to elucidate the role of CALM1 in sensitizing the resistance to Afatinib in ESCC. Method Immunohistochemistry (IHC) and qRT-PCR were used to examine the expression of CALM1 and EGFR in ESCC tissues. Kaplan–Meier survival analysis was used to analyze the clinical and prognostic significance of CALM1 and EGFR expression in ESCC. Furthermore, to evaluate the biological function of CALM1 in ESCC, the latest gene editing technique CRISPR/Cas9(Clustered regularly interspaced short palindromic repeats)was applied to knockout CALM1 in ESCC cell lines KYSE150, Eca109 and TE-1. MTT, flow cytometry, Transwell migration, scratch wound-healing and colony formation assays were performed to assay the combined effect of knock-out CALM1 and EGFR inhibitor on ESCC cell proliferation and migration. In addition, nude mice xenograft model was used to observe the synergistic inhibition of knock-out CALM1 and Afatinib. Results Both CALM1 and EGFR were found to be significantly over-expressed in ESCC compared with paired normal control. Over-expressed CALM1 and EGFR were significantly associated with clinical stage, T classification and poor overall prognosis, respectively. In vitro, the combined effect of knock-out CALM1 mediated by the lentivirus and EGFR inhibitor was shown to be capable of inhibiting the proliferation, inducing cell cycle arrest at G1/S stage and increasing apoptosis of KYSE-150 and Eca109 cells; invasion and migration were also suppressed. In vivo, the results of tumor weight and total fluorescence were markedly reduced compared with the sgCtrl-infected group and sgCAML1 group. Conclusion Our data demonstrated that knock-out of CALM1 could sensitize ESCC cells to EGFR inhibitor, and it may exert oncogenic role via promotion of EMT. Taken together, CALM1 may be a tempting target to overcome Afatinib resistance.

Published
2021

42. Regional anticoagulation magnetic artificial blood vessels constructed by heparin-PLCL core-shell nanofibers for rapid deployment of veno-venous bypass

Author

Peng Liu, Lifei Yang, Aihua Shi, Yerong Qian, Xin Liu, Dinghui Dong, Xufeng Zhang, Yi Lv, and Junxi Xiang

Subjects
Blood Substitutes, Heparin, Magnetic Phenomena, Biomedical Engineering, Nanofibers, Animals, Anticoagulants, General Materials Science, Rats
Abstract

Veno-venous bypass (VVB) is necessary for maintaining hemodynamic and internal environment stabilities in complex liver surgeries. However, the current VVB strategies require systematic anticoagulation and are time-consuming, leading to unexpected complications. This study aims to overcome these limitations by using a novel magnetic artificial blood vessel constructed with heparin-PLCL core-shell nanofibers. Coaxial electrospinning was used to fabricate core-shell nanofibers with heparin encapsulated into the core layer. The microstructure, physical and chemical properties, hemocompatibility, and heparin release behavior were characterized. The regional anticoagulation magnetic artificial vessel was constructed with these nanofibers and used to perform VVB in a rat liver transplantation model for

Published
2022

44. Fusion of the molecular adjuvant C3d to cleavage-independent native-like HIV-1 Env trimers improves the elicited antibody response.

Author

Bale, Shridhar, Lifei Yang, Alirezaei, Mehrdad, Wilson, Richard, Takayuki Ota, Doyle, Esmeralda D., Cottrell, Christopher A., Guenaga, Javier, Tran, Karen, Wenjuan Li, Stamatatos, Leonidas, Nemazee, David, Ward, Andrew B., and Wyatt, Richard T.

Subjects
ANTIBODY formation, GERMINAL centers, HIV, IMMUNE response, AIDS vaccines
Abstract

An effective HIV vaccine likely requires the elicitation of neutralizing antibodies (NAbs) against multiple HIV-1 clades. The recently developed cleavageindependent native flexibly linked (NFL) envelope (Env) trimers exhibit wellordered conformation and elicit autologous tier 2 NAbs in multiple animal models. Here, we investigated whether the fusion of molecular adjuvant C3d to the Env trimers can improve B-cell germinal center (GC) formation and antibody responses. To generate Env-C3d trimers, we performed a glycineserine-based (G4S) flexible peptide linker screening and identified a linker range that allowed native folding. A 30-60-amino-acid-long linker facilitates Env-to-C3d association and achieves the secretion of well-ordered trimers and the structural integrity and functional integrity of Env and C3d. The fusion of C3d did not dramatically affect the antigenicity of the Env trimers and enhanced the ability of the Env trimers to engage and activate B cells in vitro. In mice, the fusion of C3d enhanced germinal center formation, the magnitude of Env-specific binding antibodies, and the avidity of the antibodies in the presence of an adjuvant. The Sigma Adjuvant System (SAS) did not affect the trimer integrity in vitro but contributed to altered immunogenicity in vivo, resulting in increased tier 1 neutralization, likely by increased exposure of variable region 3 (V3). Taken together, the results indicate that the fusion of the molecular adjuvant, C3d, to the Env trimers improves antibody responses and could be useful for Env-based vaccines against HIV. [ABSTRACT FROM AUTHOR]

Published
2023
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45. Hanger pre-tensioning force optimization of steel tied-arch bridges considering operational loads

Author

Lifei Yang, Liuyang Feng, Yupeng Chen, and Hongyou Cao

Subjects
Unit load, Control and Optimization, Critical load, business.industry, Computer science, Particle swarm optimization, Structural engineering, Computer Graphics and Computer-Aided Design, Finite element method, Computer Science Applications, Superposition principle, Control and Systems Engineering, Limit state design, Arch, Engineering design process, business, Software
Abstract

Full design analysis of a bridge usually has lots of load cases and leads to the analysis process, which is extremely time-consuming. To reduce the computational cost, the existing hanger pre-tensioning force optimization approaches for cable-supported bridges always consider only a few critical load cases. This study presents an efficient approach for hanger pre-tensioning force optimization of steel tied-arch bridges, which can include all the operational loads and their combinations based on the code requirements. The proposed method develops a load decoupling approach (LDA) to enhance the computational efficiency of structural analysis in optimization and utilize the particle swarm optimization algorithm to search the global optimal design. The LDA divides the structural analysis procedure into two systems: (1) iteration-varying and (2) iteration-invariant. The former evaluates the structural responses induced by different hanger forces using unit load method (ULM) and the latter solely needs a single finite element (FE) analysis before iteration to calculate the structural responses caused by the other loads. The superposition principle combines the results from the two systems to identify the minimum safety margin of the bridge under the ultimate limit state. A practical bridge is examined to compare the proposed method with three traditional hanger force determination approaches. The obtained results illustrate that the proposed method not only owns high efficiency but also leads to a safer design and has a broader application range.

Published
2020
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46. Widely targeted metabolomic analyses unveil the metabolic variations after stable knock-down of NME4 in esophageal squamous cell carcinoma cells

Author

Xiao Zhang, Lifei Yang, Tao Liu, Xiaomei Lu, Xiujuan Han, Qiqi Zhang, Qing Liu, Shutao Zheng, and Tongxue Shen

Subjects
0301 basic medicine, Purine, Esophageal Neoplasms, Clinical Biochemistry, Biology, Small hairpin RNA, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Metabolomics, Cell Movement, Cell Line, Tumor, Humans, Gene silencing, Neoplasm Invasiveness, Nucleotide, KEGG, Molecular Biology, Cell Proliferation, chemistry.chemical_classification, Nucleoside Diphosphate Kinase D, Cell Biology, General Medicine, In vitro, Mitochondria, Gene Expression Regulation, Neoplastic, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, Metabolome, Cancer research, Esophageal Squamous Cell Carcinoma, Nucleoside
Abstract

NME4, also designated nm23-H4 or NDPK-D, has been known for years for its well-established roles in the synthesis of nucleoside triphosphates, though; little has been known regarding the differential metabolites involved as well as the biological roles NME4 plays in proliferation and invasion of esophageal squamous cell carcinoma (ESCC) cells. To understand the biological roles of NME4 in ESCC cells, lentiviral-based short hairpin RNA interference (shRNA) vectors were constructed and used to stably knock down NME4. Then, the proliferative and invasive variations were assessed using MTT, Colony formation and Transwell assays. To understand the metabolites involved after silencing of NME4 in ESCC cells, widely targeted metabolomic screening was taken. It was discovered that silencing of NME4 can profoundly suppress the proliferation and invasion in ESCC cells in vitro. Metabolically, a total of 11 differential metabolites were screened. KEGG analyses revealed that Tryptophan, Riboflavin, Purine, Nicotinate, lysine degradation, and Linoleic acid metabolism were also involved in addition to the well-established nucleotides metabolism. Some of these differential metabolites, say, 2-Picolinic Acid, Nicotinic Acid and Pipecolinic Acid were suggested to be associated with tumor immunomodulation. The data we described here support the idea that metabolisms occurred in mitochondrial was closely related to tumor immunity.

Published
2020
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48. Trend and prospect of the magnetic surgery

Author

Shoudong Mao, Huan Chen, Yi Lü, Yan Li, Baogen Shen, Feng Ma, Yue Wang, and Lifei Yang

Subjects
medicine.medical_specialty, Multidisciplinary, Technological revolution, Restructuring, Computer science, Endoscopic surgery, equipment and supplies, 010502 geochemistry & geophysics, 01 natural sciences, Precision surgery, Surgery, Basic research, Magnet, Magnetic damping, medicine, Applied research, human activities, 0105 earth and related environmental sciences
Abstract

Reviewing the development history of magnetic surgery in the past 40 years, it has obtained plentiful achievements. By means of the magnetic surgery, a number of sophisticated clinical problems are solved, and some basic surgical operations are optimized, showing good development prospect. The theoretical knowledge system of magnetic surgery has been established, and it enriches the surgical system, and cultivates a group of medical-engineering professionals. The representative achievements of the magnetic surgery are as below. The related basic researches and clinical researches are becoming more comprehensive in breadth and depth, and the rate of transformation of the research achievements is gradually increasing. Additionally, the magnetic surgery practically serves the clinic and benefits the patients. With the deepening of the basic research and the expansion of medical-engineering cross, magnetic surgery has shown huge development space and has accumulated the potential to lead several surgical techniques to change. At present, global scientific and technological innovation has entered an unprecedented period of intensive activity, and a new round of technological revolution and industrial change is restructuring the global innovation landscape and reshaping the global economic structure. Today, the concept of precision surgery, that safe, efficient, minimally invasive, and maximum benefits for patients, has put forward higher requirements for surgical instruments and equipment. Although the surgical energy equipment and instruments, especially original instruments and equipment, has not achieved tremendous development yet, magnetic surgery pays more attention to original innovation and integrated innovation. It is expected to follow the trend driven by innovation and become an emerging branch of surgery. Therefore, this article aims to briefly review the history of the development of magnetic surgery, focusing on the future development trends and directions of magnetic surgery. In the history of the development of magnetic surgery for more than 40 years, the achievements of magnetic surgery research was observed chronologically. We have concluded that the current development of magnetic surgery has the following four trends. Firstly, the basic research on magnetic surgery and research on magnetic materials are getting more thorough. Secondly, the applied research on magnetic surgery is getting deeper. Thirdly, the cross of science and technology related to magnetic medicine is getting closer. Fourthly, the transformation of achievement of magnetic surgery research is getting faster and faster. In addition, we discusse and summarize three potential development directions of magnetic surgery in the next few years. Firstly, new magnetic materials lead to new applications on surgery, such as magnetic hydrogel software robot used in interventional operation and the application of light-curable magnetic materials used in the endoscopic surgery. Secondly, magnetic materials can be combined with other elements to solve complex surgical problems. For instance, magnet and gel will be combined to achieve rapid liver transplantation, and hard magnet combined with soft magnetic solution for treating the refractory constipation. Thirdly, the new application scenarios of magnetic surgery will be discovered and expanded. For example, the magnetic damping technique used to treat nystagmus. In summary, magnetic surgery shows a good development trend, and there are still huge development prospects and directions in the future. We hope that the magnetic surgery will continue to develop and achieve great achievements in the future.

Published
2020
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49. Bifacial passivation of n-silicon metal–insulator–semiconductor photoelectrodes for efficient oxygen and hydrogen evolution reactions

Author

Jinlong Gong, Bin Liu, Tuo Wang, Zhibin Luo, Lifei Yang, Chengcheng Li, and Shijia Feng

Subjects
Photocurrent, Amorphous silicon, Materials science, Passivation, Silicon, Renewable Energy, Sustainability and the Environment, business.industry, chemistry.chemical_element, Schottky diode, Carrier lifetime, Pollution, chemistry.chemical_compound, Semiconductor, Nuclear Energy and Engineering, chemistry, Environmental Chemistry, Optoelectronics, Water splitting, business
Abstract

Silicon-based (Si-based) junctions have been widely investigated in recent years as photoelectrochemical (PEC) water splitting photoelectrodes, including buried junctions and metal–insulator–semiconductor (MIS) Schottky junctions. However, Si-based MIS photoelectrodes suffer from low performance for the PEC oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) because of the dilemma that a thin insulator cannot provide enough interfacial passivation while a thick insulator will block the transport of charge carriers. Another trade-off is the fact that the photovoltage extracted from the band offset between the metal and semiconductor will be counteracted by the parasitic light absorption of the metal layer, sacrificing the saturation photocurrent. This paper describes the design and realization of a bifacial passivation strategy for the metal/Si interface of an MIS photoelectrode, featuring a bi-layer stack consisting of amorphous silicon (a-Si) for passivating the silicon surface and a metal oxide (TiO2) for passivating the metal surface. Upon the bifacial passivation of both a-Si and TiO2, the minority carrier lifetime of the Si MIS photoanode was significantly improved from 18 to 2360 μs. Enabled by this extremely long minority carrier lifetime, it becomes possible to place the MIS junction on the back side of a Si substrate to construct an inverted-MIS (I-MIS) structure to eliminate the parasitic light absorption of traditional Si MIS photoelectrodes. The obtained photoelectrode exhibits an excellent onset potential of 0.85 V and 0.62 V vs. reversible hydrogen electrode (RHE) for the OER and HER, respectively. Eventually, unprecedented applied bias photon-to-current efficiencies (ABPE) of 3.91% and 12.66% were obtained by Si MIS and Si I-MIS, which are the highest among MIS-based photoanodes and photocathodes, with 30 h and 108 h stable operation. When pairing the Si I-MIS photocathode with a BiVO4 photoanode to form a PEC membrane-free tandem cell, an unbiased solar-to-hydrogen conversion efficiency of 1.9% is achieved.

Published
2020
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50. The Defensive Role of Endogenous H

Author

Lifei, Yang, Huimin, Yang, Zhiwei, Bian, Haiyan, Lu, Li, Zhang, and Jian, Chen

Subjects
Selenium, Brassica rapa, Hydrogen Sulfide, Mercury, Plants, Reactive Oxygen Species, Plant Roots
Abstract

Plants are always exposed to the environment, polluted by multiple trace elements. Hydrogen sulfide (H

Published
2022

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