Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives ...Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives of billions who depend on or are affected by monsoons, as it is essential for the water cycle, food security, ecology, disaster prevention, and the economy of monsoon regions. Given the extensive literature on Asian monsoon climate prediction, we limit our focus to reviewing the seasonal prediction and predictability of the Asian Summer Monsoon (ASM). However, much of this review is also relevant to monsoon predictions in other seasons and regions. Over the past two decades, considerable progress has been made in the seasonal forecasting of the ASM, driven by an enhanced understanding of the sources of predictability and the dynamics of seasonal variability, along with advanced development in sophisticated models and technologies. This review centers on advances in understanding the physical foundation for monsoon climate prediction (section 2), significant findings and insights into the primary and regional sources of predictability arising from feedback processes among various climate components (sections 3 and 4), the effects of global warming and external forcings on predictability (section 5), developments in seasonal prediction models and techniques (section 6), the challenges and limitations of monsoon climate prediction (section 7), and emerging research trends with suggestions for future directions (section 8). We hope this review will stimulate creative activities to enhance monsoon climate prediction.展开更多
AIM:To highlight the importance of microRNA(miRNA)-21-5p in directing the phosphatase and tensin homolog(PTEN)gene to control the phosphoinositide 3-kinase/protein kinase B/mammalian target of rapamycin(PI3K/Akt/mTOR)...AIM:To highlight the importance of microRNA(miRNA)-21-5p in directing the phosphatase and tensin homolog(PTEN)gene to control the phosphoinositide 3-kinase/protein kinase B/mammalian target of rapamycin(PI3K/Akt/mTOR)pathway in retinal pigment epithelial(RPE)cells in humans subjected to photodamage.METHODS:Human adult RPE cell line-19(ARPE-19)was cultured in vitro and randomly divided into control,damage,overexpression,negative,and PI3K/Akt blocker groups to establish a photodamage model of ARPE-19 cells.The models were subjected to 24h of light exposure,after which the corresponding indices were detected.The cell counting kit-8 assay quantified cell viability,while flow cytometry determined apoptosis rates.The miRNA-21 mimics and miRNA mimic NC were transfected into ARPE-19 cells using a transient transfection technique.Quantitative reverse transcription polymerase chain reaction(SYBR Green)and Western blotting analyzed expression levels of miRNA-21-5p,PTEN,p-PI3K/PI3K,p-mTOR/mTOR,and p-Akt/Akt.Statistical analyses comprised one-way analysis of variance and the Student-Newman-Keuls test for multiple group comparisons.RESULTS:The photodamage group demonstrated reduced cell survival rates than the control group(P<0.01).The overexpression group exhibited higher cell survival rates than the injury group(P<0.01).The negative group showed no difference in viability(P>0.05).The PI3K/Akt blocker group demonstrated lower cell viability,compared with the overexpression group(P<0.01).CONCLUSION:miRNA-21-5p significantly increases ARPE-19 cell survival after photodamage and inhibits lightinduced ARPE-19 cell apoptosis,suggesting that it may play a protective role in RPE by activating the PI3K/Akt/mTOR pathway while downregulating PTEN expression.展开更多
Efficient and stable photocathodes with versatility are of significance in photoassisted lithium-ion batteries(PLIBs),while there is always a request on fast carrier transport in electrochemical active photocathodes.P...Efficient and stable photocathodes with versatility are of significance in photoassisted lithium-ion batteries(PLIBs),while there is always a request on fast carrier transport in electrochemical active photocathodes.Present work proposes a general approach of creating bulk heterojunction to boost the carrier mobility of photocathodes by simply laser assisted embedding of plasmonic nanocrystals.When employed in PLIBs,it was found effective for synchronously enhanced photocharge separation and transport in light charging process.Additionally,experimental photon spectroscopy,finite difference time domain method simulation and theoretical analyses demonstrate that the improved carrier dynamics are driven by the plasmonic-induced hot electron injection from metal to TiO_(2),as well as the enhanced conductivity in TiO2 matrix due to the formation of oxygen vacancies after Schottky contact.Benefiting from these merits,several benchmark values in performance of TiO2-based photocathode applied in PLIBs are set,including the capacity of 276 mAh g^(−1) at 0.2 A g^(−1) under illumination,photoconversion efficiency of 1.276%at 3 A g^(−1),less capacity and Columbic efficiency loss even through 200 cycles.These results exemplify the potential of the bulk heterojunction strategy in developing highly efficient and stable photoassisted energy storage systems.展开更多
BACKGROUND Return to work(RTW)serves as an indication for young and middle-aged colorectal cancer(CRC)survivors to resume their normal social lives.However,these survivors encounter significant challenges during their...BACKGROUND Return to work(RTW)serves as an indication for young and middle-aged colorectal cancer(CRC)survivors to resume their normal social lives.However,these survivors encounter significant challenges during their RTW process.Hence,scientific research is necessary to explore the barriers and facilitating factors of returning to work for young and middle-aged CRC survivors.AIM To examine the current RTW status among young and middle-aged CRC survivors and to analyze the impact of RTW self-efficacy(RTW-SE),fear of progression(FoP),eHealth literacy(eHL),family resilience(FR),and financial toxicity(FT)on their RTW outcomes.METHODS A cross-sectional investigation was adopted in this study.From September 2022 to February 2023,a total of 209 participants were recruited through a convenience sampling method from the gastrointestinal surgery department of a class A tertiary hospital in Chongqing.The investigation utilized a general information questionnaire alongside scales assessing RTW-SE,FoP,eHL,FR,and FT.To analyze the factors that influence RTW outcomes among young and middle-aged CRC survivors,Cox regression modeling and Kaplan-Meier survival analysis were used.RESULTS A total of 43.54%of the participants successfully returned to work,with an average RTW time of 100 days.Cox regression univariate analysis revealed that RTW-SE,FoP,eHL,FR,and FT were significantly different between the non-RTW and RTW groups(P<0.05).Furthermore,Cox regression multivariate analysis identified per capita family monthly income,job type,RTW-SE,and FR as independent influencing factors for RTW(P<0.05).CONCLUSION The RTW rate requires further improvement.Elevated levels of RTW-SE and FR were found to significantly increase RTW among young and middle-aged CRC survivors.Health professionals should focus on modifiable factors,such as RTW-SE and FR,to design targeted RTW support programs,thereby facilitating their timely reintegration into mainstream society.展开更多
Background: Depression is a typical psychosomatic disease. Shuganheweitang (SGHWT) is a clinical formula that effectively treats depression. However, the potential mechanism used by SGHWT to ameliorate depression-like...Background: Depression is a typical psychosomatic disease. Shuganheweitang (SGHWT) is a clinical formula that effectively treats depression. However, the potential mechanism used by SGHWT to ameliorate depression-like behaviors is still unclear. This study investigated the effects of SGHWT on metabolic change in the liver and hypothalamus with signaling pathways involved in chronic unpredictable mild stress (CUMS)-induced depression in rats to explore the mechanism of the anti-depressive effect. Methods: A total of 52 rats were used to create a model of depression by CUMS combined with solitary rearing for 6 weeks. Open field test (OFT), sucrose preference test (SPT), forced swim test (FST), and body weight (BW) were performed to analyze the pharmacodynamic effects of SGHWT. H&E staining, Nissl staining, immunofluorescence, immunohistochemistry, and western blot were used to evaluate the mechanism of action. Untargeted metabolomics techniques by ultra-performance liquid chromatography-quantitative time-of-flight tandem mass spectrometry (UPLC-Q-TOF-MS/MS) were used to analyze all the metabolic differences in the liver and hypothalamus. Results: SGHWT improved CUMS-induced depression-like behaviors in vivo. SGHWT reduced hepatic c-Fos protein expression and increased hypothalamic c-Fos protein expression. Moreover, p-PI3K, p-AKT473, p-AKT308, and p-mTOR protein expressions were significantly downregulated in the liver and hypothalamus of CUMS rats. Notably, these alterations were reversed by the SGHWT administration. Furthermore, the metabolomic analysis identified 15 and 5 key differential SPT-associated metabolites in the liver and hypothalamus, respectively. Conclusion: This study suggests that SGHWT ameliorates chronic unpredictable mild stress-induced depression-like behaviors, by the involvement of amino acids, glycerophospholipids, energy metabolism, and the PI3K/AKT/mTOR pathway. Highlights: 1) Shuganheweitang was derived from the TCM herbal formula Sinisan. 2) SGHWT treatment reverses depression-like behaviors in CUMS-induced rats. 3) The mechanism of SGHWT on depression by the liver and hypothalamus metabolomics. 4) SGHWT regulates amino acids, glycerophospholipids, and energy metabolism. 5) SGHWT exerts antidepressant effects through the PI3K/AKT/mTOR pathway.展开更多
In 2022,cervical cancer accounted for approximately 662,301 new cases worldwide,representing 6.9%of all cancers diagnosed in women.Furthermore,it was the fourth leading cause of cancer-related deaths among women~1.In ...In 2022,cervical cancer accounted for approximately 662,301 new cases worldwide,representing 6.9%of all cancers diagnosed in women.Furthermore,it was the fourth leading cause of cancer-related deaths among women~1.In China,human papillomavirus(HPV)vaccination is not included in the National Immunization Program,thus creating marked urban±rural disparities:only 5.7%of rural children are vaccinated~2.Local publicly funded initiatives have increased vaccination uptake in some cities(e.g.,Shenzhen pilot;Jinan first-dose coverage>90%among eligible girls)~(3,4).展开更多
Urothelial carcinoma(UC)is the 9th most common and the 13th most deadly cancer worldwide1.Despite the availability of platinum-based chemotherapy and immune checkpoint inhib-itors(ICIs),the 5-year survival rate of pat...Urothelial carcinoma(UC)is the 9th most common and the 13th most deadly cancer worldwide1.Despite the availability of platinum-based chemotherapy and immune checkpoint inhib-itors(ICIs),the 5-year survival rate of patients with metastatic UC(mUC)remains poor(10-15%)2.展开更多
Objective To investigate the effect of electroacupuncture(EA)on microRNA(miRNA)expression spectrum and PI3K/Akt/mTOR signaling pathway in uterine tissue of rats with primary dysmenorrhea(PDM),and to explore the potent...Objective To investigate the effect of electroacupuncture(EA)on microRNA(miRNA)expression spectrum and PI3K/Akt/mTOR signaling pathway in uterine tissue of rats with primary dysmenorrhea(PDM),and to explore the potential mechanism of EA in the treatment of PDM.Methods Thirty female SD rats,weighted(200±20)g were randomly divided into control group,model group and EA group,10 rats in each group.By using subcutaneous injection of estradiol diphenhydrate combined with intraperitoneal injection of oxytocin,PDM models were established.Rats in the EA group received EA at“Sanyinjiao”(SP6)and“Guanyuan”(CV4)at dense waves and a frequency of 50 Hz,once a day,20 min each time,for 10 consecutive days.After the 10-day intervention,samples were collected and transmission electron microscopy was used to observe the ultrastructural changes of the cells in uterine tissue in each group.With RNA-seq method,the changes of miRNA expression spectrum in rat uterine tissue were detected.Bioinformatics analysis such as GO functional annotation and KEGG pathway was performed according to differentially expressed miRNAs.Differentially expressed miRNAs were verified by qRT-PCR.Endometrial stromal cells were selected as the target cells and transfected;and they were divided into control group,NC mimics group,mimic miR-144–3p group,NC inhibitor group and inhibitor miR-144–3p group.The apoptosis was determined by using flow cytometrydetect apoptosis,the miRNA and protein expression of PI3K/Akt/mTOR signaling pathway were detected by qRT-PCR and Western blot in each group separately.Results 1.Transmission electron microscope.(1)Control group:no obvious morphological changes in the uterine tissue.(2)Model group:fibroblasts in uterine tissue were irregular,the edema was presented in cellular cytoplasm,the nuclei were irregular and mitochondria swollen seriously;the rough endoplasmic reticulum was expanded moderately.(3)EA group:fibroblasts were spindle-shaped and pyknotic,the cytoplasm increased in electron density,the nuclei were slightly irregular and pyknotic,mitochondria were oval in shape,with little swelling and vacuolation;the rough endoplasmic reticulum was expanded slightly and retained,with a small amount of degranulation.2.Compared with the control group,there were 26 differentially expressed miRNAs in the uterine tissue of rats with PDM.After EA intervention,the expression of miR-144–3p was significantly up-regulated.GO functional analysis of differentially expressed miRNAs in PDM rats after EA showed that the biological functions involved calcium transmembrane transporter activity,mitogen-activated protein kinase binding,epithelial cell migration,tissue migration,etc.3.KEGG pathway analysis showed that PI3K/Akt signaling pathway,MAPK signaling pathway and calcium signaling pathway were enriched.Mimic miR-144-3p increased the apotosis of endometrial stromal cells,and decreased the mRNA and protein expression of PI3K,Akt,and mTOR(P<0.01).Conclusion EA can optimize the cell morphology in the uterine tissue of rats with PDM and affect the miRNA expression spectrum,which may be associated with the effect of EA for up-regulating miR-144–3p expression in endometrial stromal cells,suppressing PI3K/Akt/mTOR signaling pathway and causing apoptosis.展开更多
Majority of photodynamic therapy(PDT)or photothermal therapy(PTT)is achieved by the integration of photosensitizers or photothermal agents into nanocarriers,which may bring risks due to uncertain leakage with serious ...Majority of photodynamic therapy(PDT)or photothermal therapy(PTT)is achieved by the integration of photosensitizers or photothermal agents into nanocarriers,which may bring risks due to uncertain leakage with serious nonspecific damage to normal tissues.Thus,we report an imine-linked nanoscale covalent organic framework(COF)with intrinsic photo-response ability,showing a high singlet oxygen generation ability by 660 nm irradiation,followed by the surface fabrication of polydopamine(PDA)that displays an excellent photothermal conversion performance under 808 nm irradiation.Furthermore,therapeutic agents with the modulation capacity of subcellular organelle such as mitochondria,shows more precision and effectiveness in cancer therapy.Herein,the obtained COF@PDA nanoplatform not only provides an excellent PDT/PTT-in-one therapeutic effect on inhibition of MCF-7 cancer cells,but also gives a prominent photo-induced mitochondrial regulation performance for enhanced treatment.展开更多
Wide bandgap semiconductors are typically activated under ultraviolet(UV)light irradiation for volatile organic compounds(VOCs)degradation.However,our previous study discovered that certain VOCs can interact with some...Wide bandgap semiconductors are typically activated under ultraviolet(UV)light irradiation for volatile organic compounds(VOCs)degradation.However,our previous study discovered that certain VOCs can interact with some wide bandgap semiconductors,formatting an intermediate bandgap between the VOCs and the conduction band of wide bandgap semiconductor,thus inducing visible light activation of the system,and photo-generated electrons are excited by visible light and transferred from the VOCs to the conduction band of semiconductor.In this work,BaTiO_(3),traditionally is not active under visible light irradiation,however showed degradation rates of 100%and 20%for styrene and toluene under visible light,respectively.Density functional theory(DFT)calculations indicate that the adsorption of styrene or toluene on the BaTiO_(3)surface reduces its bandgap from 2.93 eV to 1.36 eV and 2.26 eV,respectively.The intermediate bandgap in this system is primarily formed by the valence band of BaTiO_(3)and the VOCs,and indicating that photo-generated electrons directly transfer from BaTiO_(3)to the VOCs under visible light,inducing degradation reactions of VOCs,i.e.,this work discovered a new transfer pathway of photo-electrons direct from the valence band of BaTiO_(3)to VOCs,while photo-electrons are from VOCs to the conductive band of wide-bandgap semiconductors in our previous work.展开更多
Objectives:Gastric cancer(GC)is often associated with high invasiveness,epithelial-mesenchymal transition(EMT),and resistance to 5-fluorouracil(5-FU),highlighting the need for novel therapeutic targets.This study expl...Objectives:Gastric cancer(GC)is often associated with high invasiveness,epithelial-mesenchymal transition(EMT),and resistance to 5-fluorouracil(5-FU),highlighting the need for novel therapeutic targets.This study explored whether diallyl disulfide(DADS)upregulates retinoic acid-related orphan receptor alpha(RORα)to weaken the protein kinase C alpha(PKCα)/RORα-mediated RORα/β-catenin pathway,thereby inhibiting GC cell invasion,epithelial-mesenchymal transition(EMT),and enhancing 5-FU sensitivity.Methods:Human GC cell lines MGC-803 and SGC7901 were treated with DADS,RORαagonist SR1078/antagonist T0901317,and PKCαagonist TPA/antagonist GO6976.Cell proliferation(MTT),migration(scratch assay),invasion(Transwell),protein expression(Western blot),protein interactions(coimmunoprecipitation),and localization(immunofluorescence)were detected.Apoptosis and 5-FU sensitivity-related proteins were examined.Experiments were triplicated;statistics used t-test/ANOVA(p<0.05).Results:DADS/SR1078 inhibited GC cell proliferation/migration/invasion,upregulated RORα/E-cadherin,downregulated nuclearβ-catenin/TGF-β1/Rac1/Vimentin,and weakened EMT(reversed by T0901317).DADS/TPA upregulated RORα/p-RORα/PKCα/p-PKCα,promoted PKCα-RORαbinding,and downregulated RORα/β-catenin target genes(counteracted by GO6976).DADS upregulated caspase-3 and downregulated Bcl-2/P-gp/XIAP via RORα,promoting apoptosis and 5-FU sensitivity.Conclusion:DADS inhibits GC progression and enhances 5-FU sensitivity by PKCα/RORα-mediated downregulation of RORα/β-catenin signaling,paralleling SR1078/TPA effects.It may act as a novel RORαagonist for GC therapy.展开更多
Photoinitiators(PIs),as an important component of UV inks,are widely used in the printing of paper food packaging.Nevertheless,there is limited information concerning the identification of PIs in food packaging and th...Photoinitiators(PIs),as an important component of UV inks,are widely used in the printing of paper food packaging.Nevertheless,there is limited information concerning the identification of PIs in food packaging and their potential migration rules under natural storage condition.In this study,23 target PIs detected in paper food packaging were dominated by benzophenones(BZPs),followed by amine co-initiators(ACIs),thioxanthones(TXs)and phosphine oxides(POs).The concentration of ΣPIs ranged between 48.3 and 1.11×10^(5)ng/g.Meanwhile,the concentration ofΣPIs were found to be significantly higher in Corrugated paper compared to Polyethylene(PE)coated paper,Composite paper and White card paper.Benzophenone(BP)was found as the dominant PI congener in Corrugated paper,with the concentration ranging from 923-3.66×10^(4)ng/g.The migration quantity ofΣPIs increased in a time-dependent manner in the first 13 days and then eventually reached equilibrium.Low temperatures had a certain inhibitory effect on the migration of PIs from paper packaging to food.Under high exposure scenario,the EDIs of ΣPIs for children,adolescents,and adults were 31.4 ng/(kg bw·day),17.2 ng/(kg bw·day),and 14.4 ng/(kg bw·day),respectively,all of which did not exceed the reference dose,indicating that dietary intake of PIs does not pose any health risks to the human body.展开更多
Thyroid cancer(TC)is one of the most common endocrine system tumors,and its incidence continues to increase worldwide.Although most TC patients have a good prognosis,especially with continuous advancements in surgery,...Thyroid cancer(TC)is one of the most common endocrine system tumors,and its incidence continues to increase worldwide.Although most TC patients have a good prognosis,especially with continuous advancements in surgery,radioactive iodine therapy,chemotherapy,endocrine therapy and targeted therapy,the effectiveness of disease treatment has significantly improved.However,there are still some cases with a higher risk of death and greater aggressiveness.In these more challenging advanced or highly aggressive cases,tyrosine kinase inhibitors appear to be an effective treatment option.Unfortunately,these drugs are less than ideal in terms of efficacy because of their toxicity and potential for intrinsic or acquired resistance.Therefore,exploring new strategies targeting the metabolic characteristics of TC cells and overcoming drug resistance barriers in existing treatments have become key topics in the current field of TC research.In recent years,lipid metabolic reprogramming has gained attention as an important aspect of cancer development.Lipid metabolic reprogramming not only participates in the formation of the cell membrane structure,but also plays an important role in signal transduction and promoting cell proliferation.In particular,fatty acid(FA)metabolic reprogramming has attracted widespread attention and plays an important role in multiple aspects such as tumor growth,metastasis,enhanced invasive ability,immune escape,and drug resistance.Although TC is considered a disease that is highly dependent on specific types of metabolic activities,a comprehensive understanding of the specific mechanism of action of FA metabolic reprogramming in this process is lacking.This article aims to review how FA metabolic reprogramming participates in the occurrence and development of TC,focusing on the impact of abnormal FA metabolic pathways and changes in the expression and regulation of related genes over the course of this disease.By examining the complex interactions between FA metabolic disorders and carcinogenic signaling pathways in depth,we aim to identify new therapeutic targets and develop more precise and effective treatments for TC.展开更多
Tobacco-planting plays an important role in ensuring the high-quality tobacco raw materials supply and the local social and economic development in Chenzhou City. In recent years whether tobacco-planting is better for...Tobacco-planting plays an important role in ensuring the high-quality tobacco raw materials supply and the local social and economic development in Chenzhou City. In recent years whether tobacco-planting is better for the maintenance and improvement of soil fertility than other crop-planting has been highly concerned. In this study, 16 soil fertility indicators and soil integrated index (<em>IFI</em>) were compared by 21 pairs of fields in Chenzhou city under the rotations of tobacco-rice (TF) and rice-rice (RR), and results showed that, comparing the mean values of soil fertility indicators, the contents of OM, TN, AN, AK, S and <em>IFI</em> were extremely significantly higher in TR than those in RR (p < 0.01), the contents of Cu, Ca, Mg and Fe were significantly higher in TR than those in RR (p < 0.05), but Mn content was significantly lower in TR than those in RR (p < 0.05). Meanwhile the contents of TP, TK and AP were insignificantly higher in TR than those in RR, and the contents of B, Mo and Zn were insignificantly lower in TR than those in RR. The above significant differences in soil fertility indicators were mainly due to relatively higher fertilizer inputs and less nutrient removal during tobacco-growing season than during rape-growing season, the net increase of N, P<sub>2</sub>O<sub>5</sub> and K<sub>2</sub>O are 8.61, 5.25 and 24.89 kg per 667 m<sup>2</sup> respectively in tobacco-growing season, while the net decrease of N, P<sub>2</sub>O<sub>5 </sub>and K<sub>2</sub>O are 8.88, 4.70 and 4.62 kg per 667 m<sup>2</sup> respectively in rape-growing season. C.V. of soil fertility indicators and <em>IFI</em> were meanly lower in TR (52.25% and 15.95%, respectively) than those in RR (63.07% and 22.12%, respectively). Comparatively, tobacco-planting can improve soil fertility better than rape-planting when rotated with late rice in Chenzhou city. For tobacco-planting, Mg fertilizer should be applied for 23.8% TR fields, while more N, K, Ca, Mg, S and B fertilizers should be applied for 42.86%, 23.81%, 14.29%, 47.62%, 80.95% and 47.62% RR fields, respectively.展开更多
Bioinspired nacre-like structured high-density soft magnetic composites(SMCs)have been successfully constructed using flaky-Fe_(73.8)Si_(13.5)B_(8.7)Cu_(1)Nb_(3) powders in the supercooled liquid region(SCLR).These de...Bioinspired nacre-like structured high-density soft magnetic composites(SMCs)have been successfully constructed using flaky-Fe_(73.8)Si_(13.5)B_(8.7)Cu_(1)Nb_(3) powders in the supercooled liquid region(SCLR).These densely arranged particles with a consistent planar orientation significantly enhance the soft magnetic properties of SMCs,including high permeability and low magnetic losses.The internal structures of the composites and microstructure evolution of the flaky nanocrystalline particles during the hot-pressing process have been thoroughly studied.Moreover,systematic investigations into the effects of coatings and particle sizes on the maximum permeability and magnetic losses of the composites are conducted.The SMC prepared using the coated particles with a size of 0-100μm exhibits a high maximum perme-ability of 2170(at 1000 Hz)and low magnetic loss of 41.61 W kg^(-1)(at 1000 Hz and 1.0 T).The losses and permeability analysis reveal that the superior performance of these soft magnetic materials is attributed to their laminated structure,insulation coating,and the reduced planar demagnetizing factor.Compared to the traditional silicon steel,this novel SMCs exhibits high magnetic permeability and reduced magnetic losses at frequencies above 1000 Hz,which possess immense application potential within high-frequency electric machines.展开更多
The solar interfacial evaporation has a broad application prospect in the fields of steam generation and seawater desalination to deal with the global shortage of fresh-water resources.Bamboo is a great material for s...The solar interfacial evaporation has a broad application prospect in the fields of steam generation and seawater desalination to deal with the global shortage of fresh-water resources.Bamboo is a great material for solar interface evaporators because of its low thermal conductivity and inherent micro-channel porous structure.In this paper,a novel bamboo-based solar interface evaporator with a bionic ripple wave surface structure has been proposed.The subsequent evaporation experiments have been conducted to investigate the salt resistance,stability and water absorption of the bionic ripple bamboo based solar interface evaporator.The results have exhibited that the bamboo's water absorption has been enhanced after carbonization modification.Besides,it should be pointed out that this bamboo-based evaporator’s evaporation rate has dropped during the prolonged simulated seawater evaporation experiment,yet it remained fairly consistent at approximately 1.626 kg·m^(-2)·h^(-1).The appearance for this experimental phenomenon is the decrease of the floatability of the evaporator constricted by the stored water body absorbed by the evaporator and the deposition of NaCl crystals at the photothermal interface.Besides,compared with the plate-structure evaporator,the salt deposition in the evaporator equipped with the bionic ripple wave surface structure is greatly improved.In regard to its advantages in low cost,environmental friendliness,good salt tolerance and high evaporation rate,the bamboo-based solar interface evaporator with a bionic ripple wave surface structure can provide a potential solution to the global problem of fresh-water shortage.展开更多
Ozone production sensitivity is widely used to reveal the chemical dominant precursors of urban ozone rise.Here,we diagnose the impact of the decline in global human production activities level caused by the COVID-19 ...Ozone production sensitivity is widely used to reveal the chemical dominant precursors of urban ozone rise.Here,we diagnose the impact of the decline in global human production activities level caused by the COVID-19 on ozone sensitivity through the ratio of formaldehyde(HCHO)and NO_(2)(FNR=HCHO/NO_(2))observations from the TROPOspheric Monitoring Instrument.We use a relative uncertainty threshold to clean the satellite FNR,and our satellite FNR present a good correlation(R=0.6248)with U.S.Environmental Protection Agency observations.We found that the outbreak of the COVID-19 did not change the pattern of global ozone sensitivity,while the global regimes was transforming or strengthening to VOC-limited regimes due to the significant decline of human production activities levels.During the COVID-19,ozone sensitivity in Eastern China and East Africa continued to shift to VOC-limited regimes,while India,Western Europe and North America first moved to NOx-limited regimes,and then changed to VOC-limited regimes with the resumption of production and the increase in travel.The clustering results tell that urban ozone sensitivity tends to shift towards NOx-limited regimes as economic growing.The ozone formation in cities with lower FNR and per capita gross domestic product(GDP)are more sensitive to changes in VOCs,while cities with higher FNR and per capita GDP are more sensitive to variations in NOx.Cities with intermediate FNR and GDP are good evidence of the existence of transitional regimes.Our study identifies the driving role of urban economics in orienting the evolution of ozone sensitivity regimes.展开更多
Aiming at the problems of easy falsification of information and inaccurate evaluation results in the existing university bursary evaluation,a bursary evaluation model(XGBoost Model based on Blockchain,XMB)combining ma...Aiming at the problems of easy falsification of information and inaccurate evaluation results in the existing university bursary evaluation,a bursary evaluation model(XGBoost Model based on Blockchain,XMB)combining machine learning and blockchain was designed.The relevant basic data of the bursary evaluation is stored on the chain to solve the problem of easy falsification of data in the evaluation process.At the same time,the evaluation results of the student bursary are uploaded to the chain to realize the traceability of historical data.In addition,the improved XGBoost algorithm is used to intelligently analyze and evaluate the basic data of students,and objectively give the student a bursary grade,which realizes the intelligence and scientific nature of the evaluation process and ensures the accuracy of the evaluation results.The experimental results prove that the model proposed in this paper has an accuracy rate of about 6% higher than that of the traditional XGBoost model,which has higher evaluation accuracy,throughput,and time efficiency.The method proposed in this paper is suitable for the evaluation of scholarships and bursaries in the student management system of colleges and universities.展开更多
Although diverse signal-amplified methods have been committed to improve the sensitivity of surface plasmon resonance(SPR)biosensing,introducing convenient and robust signal amplification strategy into SPR biosensing ...Although diverse signal-amplified methods have been committed to improve the sensitivity of surface plasmon resonance(SPR)biosensing,introducing convenient and robust signal amplification strategy into SPR biosensing remains challenging.Here,a novel nanozyme-triggered polymerization amplification strategy was proposed for constructing highly sensitive surface plasmon resonance(SPR)immunosensor.In detail,Au@Pd core-shell nanooctahedra nanozyme with superior peroxidase(POD)-like activity was synthesized and utilized as a label probe.Simultaneously,Au@Pd core-shell nanooctahedra nanozyme can catalyze the decomposition of H_(2)O_(2)to form hydroxyl radicals(·OH)that triggers the polymerization of aniline to form polyaniline attaching on the surface of sensor chip,significantly amplifying SPR responses.The sensitivity of SPR immunosensor was enhanced by nanozyme-triggered polymerization amplification strategy.Using human immunoglobulin G(HIgG)as a model,the constructed SPR immunosensor obtains a wide linear range of 0.005–1.0μg/m L with low detection limit of 0.106 ng/m L.This research provides new sights on establishing sensitive SPR immunosensor and may evokes more inspiration for developing signal amplification methods based on nanozyme in biosensing.展开更多
Benzene derivatives are volatile organic compounds commonly present in the atmospheric environment,which are toxic and complex in composition.They have become a key regulatory object in China s atmospheric environment...Benzene derivatives are volatile organic compounds commonly present in the atmospheric environment,which are toxic and complex in composition.They have become a key regulatory object in China s atmospheric environment management.In this paper,Shimadzu Nexis GC-2030 gas chromatography was used to simultaneously detect eight benzene derivatives.According to the Environmental Monitoring—Technical Guideline on Drawing and Revising Analytical Method Standards(HJ 168-2010),the monitoring methods for benzene,toluene,ethylbenzene,p-xylene,m-xylene,isopropylbenzene,o-xylene,and styrene in the Stationary Source Emission—Determination of Benzene and Its Analogies—Bags Sampling/Direct Injection—Gas Chromatography(HJ 1261-2022)are verified,and their linear relationships,detection limits,precision and accuracy are analyzed.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.U2342208)support from NSF/Climate Dynamics Award#2025057。
文摘Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives of billions who depend on or are affected by monsoons, as it is essential for the water cycle, food security, ecology, disaster prevention, and the economy of monsoon regions. Given the extensive literature on Asian monsoon climate prediction, we limit our focus to reviewing the seasonal prediction and predictability of the Asian Summer Monsoon (ASM). However, much of this review is also relevant to monsoon predictions in other seasons and regions. Over the past two decades, considerable progress has been made in the seasonal forecasting of the ASM, driven by an enhanced understanding of the sources of predictability and the dynamics of seasonal variability, along with advanced development in sophisticated models and technologies. This review centers on advances in understanding the physical foundation for monsoon climate prediction (section 2), significant findings and insights into the primary and regional sources of predictability arising from feedback processes among various climate components (sections 3 and 4), the effects of global warming and external forcings on predictability (section 5), developments in seasonal prediction models and techniques (section 6), the challenges and limitations of monsoon climate prediction (section 7), and emerging research trends with suggestions for future directions (section 8). We hope this review will stimulate creative activities to enhance monsoon climate prediction.
文摘AIM:To highlight the importance of microRNA(miRNA)-21-5p in directing the phosphatase and tensin homolog(PTEN)gene to control the phosphoinositide 3-kinase/protein kinase B/mammalian target of rapamycin(PI3K/Akt/mTOR)pathway in retinal pigment epithelial(RPE)cells in humans subjected to photodamage.METHODS:Human adult RPE cell line-19(ARPE-19)was cultured in vitro and randomly divided into control,damage,overexpression,negative,and PI3K/Akt blocker groups to establish a photodamage model of ARPE-19 cells.The models were subjected to 24h of light exposure,after which the corresponding indices were detected.The cell counting kit-8 assay quantified cell viability,while flow cytometry determined apoptosis rates.The miRNA-21 mimics and miRNA mimic NC were transfected into ARPE-19 cells using a transient transfection technique.Quantitative reverse transcription polymerase chain reaction(SYBR Green)and Western blotting analyzed expression levels of miRNA-21-5p,PTEN,p-PI3K/PI3K,p-mTOR/mTOR,and p-Akt/Akt.Statistical analyses comprised one-way analysis of variance and the Student-Newman-Keuls test for multiple group comparisons.RESULTS:The photodamage group demonstrated reduced cell survival rates than the control group(P<0.01).The overexpression group exhibited higher cell survival rates than the injury group(P<0.01).The negative group showed no difference in viability(P>0.05).The PI3K/Akt blocker group demonstrated lower cell viability,compared with the overexpression group(P<0.01).CONCLUSION:miRNA-21-5p significantly increases ARPE-19 cell survival after photodamage and inhibits lightinduced ARPE-19 cell apoptosis,suggesting that it may play a protective role in RPE by activating the PI3K/Akt/mTOR pathway while downregulating PTEN expression.
基金supported by the project of the National Natural Science Foundation of China(52202115 and 52172101)Guangdong Basic and Applied Basic Research Foundation(2024A1515012325)+2 种基金the Natural Science Foundation of Chongqing,China(CSTB2022NSCQ-MSX1085)the Shaanxi Science and Technology Innovation Team(2023-CXTD-44)the Fundamental Research Funds for the Central Universities(G2022KY0604).
文摘Efficient and stable photocathodes with versatility are of significance in photoassisted lithium-ion batteries(PLIBs),while there is always a request on fast carrier transport in electrochemical active photocathodes.Present work proposes a general approach of creating bulk heterojunction to boost the carrier mobility of photocathodes by simply laser assisted embedding of plasmonic nanocrystals.When employed in PLIBs,it was found effective for synchronously enhanced photocharge separation and transport in light charging process.Additionally,experimental photon spectroscopy,finite difference time domain method simulation and theoretical analyses demonstrate that the improved carrier dynamics are driven by the plasmonic-induced hot electron injection from metal to TiO_(2),as well as the enhanced conductivity in TiO2 matrix due to the formation of oxygen vacancies after Schottky contact.Benefiting from these merits,several benchmark values in performance of TiO2-based photocathode applied in PLIBs are set,including the capacity of 276 mAh g^(−1) at 0.2 A g^(−1) under illumination,photoconversion efficiency of 1.276%at 3 A g^(−1),less capacity and Columbic efficiency loss even through 200 cycles.These results exemplify the potential of the bulk heterojunction strategy in developing highly efficient and stable photoassisted energy storage systems.
基金Supported by the Chongqing Medical University Program for Youth Innovation in Future Medicine,No.W0019Chongqing Municipal Education Commission’s 14th Five-Year Key Discipline Support Project,No.20240101 and No.20240102。
文摘BACKGROUND Return to work(RTW)serves as an indication for young and middle-aged colorectal cancer(CRC)survivors to resume their normal social lives.However,these survivors encounter significant challenges during their RTW process.Hence,scientific research is necessary to explore the barriers and facilitating factors of returning to work for young and middle-aged CRC survivors.AIM To examine the current RTW status among young and middle-aged CRC survivors and to analyze the impact of RTW self-efficacy(RTW-SE),fear of progression(FoP),eHealth literacy(eHL),family resilience(FR),and financial toxicity(FT)on their RTW outcomes.METHODS A cross-sectional investigation was adopted in this study.From September 2022 to February 2023,a total of 209 participants were recruited through a convenience sampling method from the gastrointestinal surgery department of a class A tertiary hospital in Chongqing.The investigation utilized a general information questionnaire alongside scales assessing RTW-SE,FoP,eHL,FR,and FT.To analyze the factors that influence RTW outcomes among young and middle-aged CRC survivors,Cox regression modeling and Kaplan-Meier survival analysis were used.RESULTS A total of 43.54%of the participants successfully returned to work,with an average RTW time of 100 days.Cox regression univariate analysis revealed that RTW-SE,FoP,eHL,FR,and FT were significantly different between the non-RTW and RTW groups(P<0.05).Furthermore,Cox regression multivariate analysis identified per capita family monthly income,job type,RTW-SE,and FR as independent influencing factors for RTW(P<0.05).CONCLUSION The RTW rate requires further improvement.Elevated levels of RTW-SE and FR were found to significantly increase RTW among young and middle-aged CRC survivors.Health professionals should focus on modifiable factors,such as RTW-SE and FR,to design targeted RTW support programs,thereby facilitating their timely reintegration into mainstream society.
文摘Background: Depression is a typical psychosomatic disease. Shuganheweitang (SGHWT) is a clinical formula that effectively treats depression. However, the potential mechanism used by SGHWT to ameliorate depression-like behaviors is still unclear. This study investigated the effects of SGHWT on metabolic change in the liver and hypothalamus with signaling pathways involved in chronic unpredictable mild stress (CUMS)-induced depression in rats to explore the mechanism of the anti-depressive effect. Methods: A total of 52 rats were used to create a model of depression by CUMS combined with solitary rearing for 6 weeks. Open field test (OFT), sucrose preference test (SPT), forced swim test (FST), and body weight (BW) were performed to analyze the pharmacodynamic effects of SGHWT. H&E staining, Nissl staining, immunofluorescence, immunohistochemistry, and western blot were used to evaluate the mechanism of action. Untargeted metabolomics techniques by ultra-performance liquid chromatography-quantitative time-of-flight tandem mass spectrometry (UPLC-Q-TOF-MS/MS) were used to analyze all the metabolic differences in the liver and hypothalamus. Results: SGHWT improved CUMS-induced depression-like behaviors in vivo. SGHWT reduced hepatic c-Fos protein expression and increased hypothalamic c-Fos protein expression. Moreover, p-PI3K, p-AKT473, p-AKT308, and p-mTOR protein expressions were significantly downregulated in the liver and hypothalamus of CUMS rats. Notably, these alterations were reversed by the SGHWT administration. Furthermore, the metabolomic analysis identified 15 and 5 key differential SPT-associated metabolites in the liver and hypothalamus, respectively. Conclusion: This study suggests that SGHWT ameliorates chronic unpredictable mild stress-induced depression-like behaviors, by the involvement of amino acids, glycerophospholipids, energy metabolism, and the PI3K/AKT/mTOR pathway. Highlights: 1) Shuganheweitang was derived from the TCM herbal formula Sinisan. 2) SGHWT treatment reverses depression-like behaviors in CUMS-induced rats. 3) The mechanism of SGHWT on depression by the liver and hypothalamus metabolomics. 4) SGHWT regulates amino acids, glycerophospholipids, and energy metabolism. 5) SGHWT exerts antidepressant effects through the PI3K/AKT/mTOR pathway.
基金supported by grants from the China Association for Science and Technology(KXYJS2024012)the Gates Foundation(INV-006373 and INV-023808)+1 种基金Capital’s Funds for Health Improvement and Research(2024-2-30117)Beijing Municipal Health Commission’s Funds for the Highqualified Public Health Professionals Development Project(Discipline Core-03-36)。
文摘In 2022,cervical cancer accounted for approximately 662,301 new cases worldwide,representing 6.9%of all cancers diagnosed in women.Furthermore,it was the fourth leading cause of cancer-related deaths among women~1.In China,human papillomavirus(HPV)vaccination is not included in the National Immunization Program,thus creating marked urban±rural disparities:only 5.7%of rural children are vaccinated~2.Local publicly funded initiatives have increased vaccination uptake in some cities(e.g.,Shenzhen pilot;Jinan first-dose coverage>90%among eligible girls)~(3,4).
基金supported by the Beijing Natural Science Foundation(Grant No.L244024)National Natural Science Foundation of China(Grant Nos.82172604 and 82473199)CSCO Clinical Oncology Research Foundation(Grant No.Y-2022HER2AZMS-0258).
文摘Urothelial carcinoma(UC)is the 9th most common and the 13th most deadly cancer worldwide1.Despite the availability of platinum-based chemotherapy and immune checkpoint inhib-itors(ICIs),the 5-year survival rate of patients with metastatic UC(mUC)remains poor(10-15%)2.
基金supported by the National Natural Science Foundation of China(no.82004490)Hunan Natural Science Foundation Youth Project:2021JJ40402the Innovation Platform Open Fund project of the Hunan Education Department(no.20K091).
文摘Objective To investigate the effect of electroacupuncture(EA)on microRNA(miRNA)expression spectrum and PI3K/Akt/mTOR signaling pathway in uterine tissue of rats with primary dysmenorrhea(PDM),and to explore the potential mechanism of EA in the treatment of PDM.Methods Thirty female SD rats,weighted(200±20)g were randomly divided into control group,model group and EA group,10 rats in each group.By using subcutaneous injection of estradiol diphenhydrate combined with intraperitoneal injection of oxytocin,PDM models were established.Rats in the EA group received EA at“Sanyinjiao”(SP6)and“Guanyuan”(CV4)at dense waves and a frequency of 50 Hz,once a day,20 min each time,for 10 consecutive days.After the 10-day intervention,samples were collected and transmission electron microscopy was used to observe the ultrastructural changes of the cells in uterine tissue in each group.With RNA-seq method,the changes of miRNA expression spectrum in rat uterine tissue were detected.Bioinformatics analysis such as GO functional annotation and KEGG pathway was performed according to differentially expressed miRNAs.Differentially expressed miRNAs were verified by qRT-PCR.Endometrial stromal cells were selected as the target cells and transfected;and they were divided into control group,NC mimics group,mimic miR-144–3p group,NC inhibitor group and inhibitor miR-144–3p group.The apoptosis was determined by using flow cytometrydetect apoptosis,the miRNA and protein expression of PI3K/Akt/mTOR signaling pathway were detected by qRT-PCR and Western blot in each group separately.Results 1.Transmission electron microscope.(1)Control group:no obvious morphological changes in the uterine tissue.(2)Model group:fibroblasts in uterine tissue were irregular,the edema was presented in cellular cytoplasm,the nuclei were irregular and mitochondria swollen seriously;the rough endoplasmic reticulum was expanded moderately.(3)EA group:fibroblasts were spindle-shaped and pyknotic,the cytoplasm increased in electron density,the nuclei were slightly irregular and pyknotic,mitochondria were oval in shape,with little swelling and vacuolation;the rough endoplasmic reticulum was expanded slightly and retained,with a small amount of degranulation.2.Compared with the control group,there were 26 differentially expressed miRNAs in the uterine tissue of rats with PDM.After EA intervention,the expression of miR-144–3p was significantly up-regulated.GO functional analysis of differentially expressed miRNAs in PDM rats after EA showed that the biological functions involved calcium transmembrane transporter activity,mitogen-activated protein kinase binding,epithelial cell migration,tissue migration,etc.3.KEGG pathway analysis showed that PI3K/Akt signaling pathway,MAPK signaling pathway and calcium signaling pathway were enriched.Mimic miR-144-3p increased the apotosis of endometrial stromal cells,and decreased the mRNA and protein expression of PI3K,Akt,and mTOR(P<0.01).Conclusion EA can optimize the cell morphology in the uterine tissue of rats with PDM and affect the miRNA expression spectrum,which may be associated with the effect of EA for up-regulating miR-144–3p expression in endometrial stromal cells,suppressing PI3K/Akt/mTOR signaling pathway and causing apoptosis.
基金financially supported by the National Key R&D Program of China(No.2023YFC2415700)the Natural Science Foundation of China(Nos.T2222021,32025021,22171153)+1 种基金Ningbo Science and Technology Bureau under CM2025 Program(No.2020Z092)Ningbo Natural Science Foundation Program(No.2022J171)。
文摘Majority of photodynamic therapy(PDT)or photothermal therapy(PTT)is achieved by the integration of photosensitizers or photothermal agents into nanocarriers,which may bring risks due to uncertain leakage with serious nonspecific damage to normal tissues.Thus,we report an imine-linked nanoscale covalent organic framework(COF)with intrinsic photo-response ability,showing a high singlet oxygen generation ability by 660 nm irradiation,followed by the surface fabrication of polydopamine(PDA)that displays an excellent photothermal conversion performance under 808 nm irradiation.Furthermore,therapeutic agents with the modulation capacity of subcellular organelle such as mitochondria,shows more precision and effectiveness in cancer therapy.Herein,the obtained COF@PDA nanoplatform not only provides an excellent PDT/PTT-in-one therapeutic effect on inhibition of MCF-7 cancer cells,but also gives a prominent photo-induced mitochondrial regulation performance for enhanced treatment.
基金financially supported by the National Natural Science Foundation of China(No.22176041,T2421005)National Key R&D Program of China(No.2022YFC3901800)+1 种基金the Fundamental Research Funds for the Central Universities(No.2243200011)Guangzhou Science and Technology Planning Project(No.2023A04J0918).
文摘Wide bandgap semiconductors are typically activated under ultraviolet(UV)light irradiation for volatile organic compounds(VOCs)degradation.However,our previous study discovered that certain VOCs can interact with some wide bandgap semiconductors,formatting an intermediate bandgap between the VOCs and the conduction band of wide bandgap semiconductor,thus inducing visible light activation of the system,and photo-generated electrons are excited by visible light and transferred from the VOCs to the conduction band of semiconductor.In this work,BaTiO_(3),traditionally is not active under visible light irradiation,however showed degradation rates of 100%and 20%for styrene and toluene under visible light,respectively.Density functional theory(DFT)calculations indicate that the adsorption of styrene or toluene on the BaTiO_(3)surface reduces its bandgap from 2.93 eV to 1.36 eV and 2.26 eV,respectively.The intermediate bandgap in this system is primarily formed by the valence band of BaTiO_(3)and the VOCs,and indicating that photo-generated electrons directly transfer from BaTiO_(3)to the VOCs under visible light,inducing degradation reactions of VOCs,i.e.,this work discovered a new transfer pathway of photo-electrons direct from the valence band of BaTiO_(3)to VOCs,while photo-electrons are from VOCs to the conductive band of wide-bandgap semiconductors in our previous work.
基金supported by The National Natural Scientific Foundation of China(No.81973532,No.81374013)The Natural Science Foundation of Hunan Province of China(No.2020JJ4522,No.2020JJ4529)+4 种基金The Patency Foundation of Innovation Platform of Hunan Provincial University of China(No.17K081)The Scientific Research Foundation ofHealth and Family Planning Committee of Hunan Province of China(No.A2015-2,No.B2015-182)The Scientific Research Foundation of Hunan Province Education Department of China(No.19C1610)Science and Technology Project of Jiangxi Provincial Administration of Traditional Chinese Medicine(No.2021B715)The Scientific Research Foundation of University of South China(No.220XNK002).
文摘Objectives:Gastric cancer(GC)is often associated with high invasiveness,epithelial-mesenchymal transition(EMT),and resistance to 5-fluorouracil(5-FU),highlighting the need for novel therapeutic targets.This study explored whether diallyl disulfide(DADS)upregulates retinoic acid-related orphan receptor alpha(RORα)to weaken the protein kinase C alpha(PKCα)/RORα-mediated RORα/β-catenin pathway,thereby inhibiting GC cell invasion,epithelial-mesenchymal transition(EMT),and enhancing 5-FU sensitivity.Methods:Human GC cell lines MGC-803 and SGC7901 were treated with DADS,RORαagonist SR1078/antagonist T0901317,and PKCαagonist TPA/antagonist GO6976.Cell proliferation(MTT),migration(scratch assay),invasion(Transwell),protein expression(Western blot),protein interactions(coimmunoprecipitation),and localization(immunofluorescence)were detected.Apoptosis and 5-FU sensitivity-related proteins were examined.Experiments were triplicated;statistics used t-test/ANOVA(p<0.05).Results:DADS/SR1078 inhibited GC cell proliferation/migration/invasion,upregulated RORα/E-cadherin,downregulated nuclearβ-catenin/TGF-β1/Rac1/Vimentin,and weakened EMT(reversed by T0901317).DADS/TPA upregulated RORα/p-RORα/PKCα/p-PKCα,promoted PKCα-RORαbinding,and downregulated RORα/β-catenin target genes(counteracted by GO6976).DADS upregulated caspase-3 and downregulated Bcl-2/P-gp/XIAP via RORα,promoting apoptosis and 5-FU sensitivity.Conclusion:DADS inhibits GC progression and enhances 5-FU sensitivity by PKCα/RORα-mediated downregulation of RORα/β-catenin signaling,paralleling SR1078/TPA effects.It may act as a novel RORαagonist for GC therapy.
基金supported by the National Natural Science Foundation of China(Nos.22106169,22136006,and 22021003)。
文摘Photoinitiators(PIs),as an important component of UV inks,are widely used in the printing of paper food packaging.Nevertheless,there is limited information concerning the identification of PIs in food packaging and their potential migration rules under natural storage condition.In this study,23 target PIs detected in paper food packaging were dominated by benzophenones(BZPs),followed by amine co-initiators(ACIs),thioxanthones(TXs)and phosphine oxides(POs).The concentration of ΣPIs ranged between 48.3 and 1.11×10^(5)ng/g.Meanwhile,the concentration ofΣPIs were found to be significantly higher in Corrugated paper compared to Polyethylene(PE)coated paper,Composite paper and White card paper.Benzophenone(BP)was found as the dominant PI congener in Corrugated paper,with the concentration ranging from 923-3.66×10^(4)ng/g.The migration quantity ofΣPIs increased in a time-dependent manner in the first 13 days and then eventually reached equilibrium.Low temperatures had a certain inhibitory effect on the migration of PIs from paper packaging to food.Under high exposure scenario,the EDIs of ΣPIs for children,adolescents,and adults were 31.4 ng/(kg bw·day),17.2 ng/(kg bw·day),and 14.4 ng/(kg bw·day),respectively,all of which did not exceed the reference dose,indicating that dietary intake of PIs does not pose any health risks to the human body.
文摘Thyroid cancer(TC)is one of the most common endocrine system tumors,and its incidence continues to increase worldwide.Although most TC patients have a good prognosis,especially with continuous advancements in surgery,radioactive iodine therapy,chemotherapy,endocrine therapy and targeted therapy,the effectiveness of disease treatment has significantly improved.However,there are still some cases with a higher risk of death and greater aggressiveness.In these more challenging advanced or highly aggressive cases,tyrosine kinase inhibitors appear to be an effective treatment option.Unfortunately,these drugs are less than ideal in terms of efficacy because of their toxicity and potential for intrinsic or acquired resistance.Therefore,exploring new strategies targeting the metabolic characteristics of TC cells and overcoming drug resistance barriers in existing treatments have become key topics in the current field of TC research.In recent years,lipid metabolic reprogramming has gained attention as an important aspect of cancer development.Lipid metabolic reprogramming not only participates in the formation of the cell membrane structure,but also plays an important role in signal transduction and promoting cell proliferation.In particular,fatty acid(FA)metabolic reprogramming has attracted widespread attention and plays an important role in multiple aspects such as tumor growth,metastasis,enhanced invasive ability,immune escape,and drug resistance.Although TC is considered a disease that is highly dependent on specific types of metabolic activities,a comprehensive understanding of the specific mechanism of action of FA metabolic reprogramming in this process is lacking.This article aims to review how FA metabolic reprogramming participates in the occurrence and development of TC,focusing on the impact of abnormal FA metabolic pathways and changes in the expression and regulation of related genes over the course of this disease.By examining the complex interactions between FA metabolic disorders and carcinogenic signaling pathways in depth,we aim to identify new therapeutic targets and develop more precise and effective treatments for TC.
文摘Tobacco-planting plays an important role in ensuring the high-quality tobacco raw materials supply and the local social and economic development in Chenzhou City. In recent years whether tobacco-planting is better for the maintenance and improvement of soil fertility than other crop-planting has been highly concerned. In this study, 16 soil fertility indicators and soil integrated index (<em>IFI</em>) were compared by 21 pairs of fields in Chenzhou city under the rotations of tobacco-rice (TF) and rice-rice (RR), and results showed that, comparing the mean values of soil fertility indicators, the contents of OM, TN, AN, AK, S and <em>IFI</em> were extremely significantly higher in TR than those in RR (p < 0.01), the contents of Cu, Ca, Mg and Fe were significantly higher in TR than those in RR (p < 0.05), but Mn content was significantly lower in TR than those in RR (p < 0.05). Meanwhile the contents of TP, TK and AP were insignificantly higher in TR than those in RR, and the contents of B, Mo and Zn were insignificantly lower in TR than those in RR. The above significant differences in soil fertility indicators were mainly due to relatively higher fertilizer inputs and less nutrient removal during tobacco-growing season than during rape-growing season, the net increase of N, P<sub>2</sub>O<sub>5</sub> and K<sub>2</sub>O are 8.61, 5.25 and 24.89 kg per 667 m<sup>2</sup> respectively in tobacco-growing season, while the net decrease of N, P<sub>2</sub>O<sub>5 </sub>and K<sub>2</sub>O are 8.88, 4.70 and 4.62 kg per 667 m<sup>2</sup> respectively in rape-growing season. C.V. of soil fertility indicators and <em>IFI</em> were meanly lower in TR (52.25% and 15.95%, respectively) than those in RR (63.07% and 22.12%, respectively). Comparatively, tobacco-planting can improve soil fertility better than rape-planting when rotated with late rice in Chenzhou city. For tobacco-planting, Mg fertilizer should be applied for 23.8% TR fields, while more N, K, Ca, Mg, S and B fertilizers should be applied for 42.86%, 23.81%, 14.29%, 47.62%, 80.95% and 47.62% RR fields, respectively.
基金supported by the National Natural Science Foundation of China(Grant No.52071294)the National Key Research and Development Program(Grant No.2022YFE0109800)the Natural Science Foundation of Zhejiang Province(Grant No.LY20E020015).
文摘Bioinspired nacre-like structured high-density soft magnetic composites(SMCs)have been successfully constructed using flaky-Fe_(73.8)Si_(13.5)B_(8.7)Cu_(1)Nb_(3) powders in the supercooled liquid region(SCLR).These densely arranged particles with a consistent planar orientation significantly enhance the soft magnetic properties of SMCs,including high permeability and low magnetic losses.The internal structures of the composites and microstructure evolution of the flaky nanocrystalline particles during the hot-pressing process have been thoroughly studied.Moreover,systematic investigations into the effects of coatings and particle sizes on the maximum permeability and magnetic losses of the composites are conducted.The SMC prepared using the coated particles with a size of 0-100μm exhibits a high maximum perme-ability of 2170(at 1000 Hz)and low magnetic loss of 41.61 W kg^(-1)(at 1000 Hz and 1.0 T).The losses and permeability analysis reveal that the superior performance of these soft magnetic materials is attributed to their laminated structure,insulation coating,and the reduced planar demagnetizing factor.Compared to the traditional silicon steel,this novel SMCs exhibits high magnetic permeability and reduced magnetic losses at frequencies above 1000 Hz,which possess immense application potential within high-frequency electric machines.
基金financially supported by the National Natural Science Foundation of China(12,405,179)the Natural Science Foundation of Hunan Province(2023JJ40744)+1 种基金the Natural Science Foundation of Hunan Province(2025JJ50227)the High Performance Computing Center of Central South University(2025JJ50226).
文摘The solar interfacial evaporation has a broad application prospect in the fields of steam generation and seawater desalination to deal with the global shortage of fresh-water resources.Bamboo is a great material for solar interface evaporators because of its low thermal conductivity and inherent micro-channel porous structure.In this paper,a novel bamboo-based solar interface evaporator with a bionic ripple wave surface structure has been proposed.The subsequent evaporation experiments have been conducted to investigate the salt resistance,stability and water absorption of the bionic ripple bamboo based solar interface evaporator.The results have exhibited that the bamboo's water absorption has been enhanced after carbonization modification.Besides,it should be pointed out that this bamboo-based evaporator’s evaporation rate has dropped during the prolonged simulated seawater evaporation experiment,yet it remained fairly consistent at approximately 1.626 kg·m^(-2)·h^(-1).The appearance for this experimental phenomenon is the decrease of the floatability of the evaporator constricted by the stored water body absorbed by the evaporator and the deposition of NaCl crystals at the photothermal interface.Besides,compared with the plate-structure evaporator,the salt deposition in the evaporator equipped with the bionic ripple wave surface structure is greatly improved.In regard to its advantages in low cost,environmental friendliness,good salt tolerance and high evaporation rate,the bamboo-based solar interface evaporator with a bionic ripple wave surface structure can provide a potential solution to the global problem of fresh-water shortage.
基金supported by the National Key R&D Program(No.2021YFE0117300)the National Natural Science Foundation of China(No.42375090)+6 种基金Shenzhen Key Laboratory of Precision Measurement and Early Warning Technology for Urban Environmental Health Risks(No.ZDSYS20220606100604008)Guangdong Basic and Applied Basic Research Foundation(No.2021A1515110713)Guangdong University Research Project Science Team(No.2021KCXTD004)the Major Talent Project of Guangdong Province(No.2021QN020924)Shandong Provincial Natural Science Foundation,China(No.ZR2020QD012)Shenzhen Science and Technology Program(Nos.KQTD20210811090048025,JCYJ20210324104604012 and JCYJ20220530115404009)supported by the Center for Computational Science and Engineering at Southern University of Science and Technology.
文摘Ozone production sensitivity is widely used to reveal the chemical dominant precursors of urban ozone rise.Here,we diagnose the impact of the decline in global human production activities level caused by the COVID-19 on ozone sensitivity through the ratio of formaldehyde(HCHO)and NO_(2)(FNR=HCHO/NO_(2))observations from the TROPOspheric Monitoring Instrument.We use a relative uncertainty threshold to clean the satellite FNR,and our satellite FNR present a good correlation(R=0.6248)with U.S.Environmental Protection Agency observations.We found that the outbreak of the COVID-19 did not change the pattern of global ozone sensitivity,while the global regimes was transforming or strengthening to VOC-limited regimes due to the significant decline of human production activities levels.During the COVID-19,ozone sensitivity in Eastern China and East Africa continued to shift to VOC-limited regimes,while India,Western Europe and North America first moved to NOx-limited regimes,and then changed to VOC-limited regimes with the resumption of production and the increase in travel.The clustering results tell that urban ozone sensitivity tends to shift towards NOx-limited regimes as economic growing.The ozone formation in cities with lower FNR and per capita gross domestic product(GDP)are more sensitive to changes in VOCs,while cities with higher FNR and per capita GDP are more sensitive to variations in NOx.Cities with intermediate FNR and GDP are good evidence of the existence of transitional regimes.Our study identifies the driving role of urban economics in orienting the evolution of ozone sensitivity regimes.
文摘Aiming at the problems of easy falsification of information and inaccurate evaluation results in the existing university bursary evaluation,a bursary evaluation model(XGBoost Model based on Blockchain,XMB)combining machine learning and blockchain was designed.The relevant basic data of the bursary evaluation is stored on the chain to solve the problem of easy falsification of data in the evaluation process.At the same time,the evaluation results of the student bursary are uploaded to the chain to realize the traceability of historical data.In addition,the improved XGBoost algorithm is used to intelligently analyze and evaluate the basic data of students,and objectively give the student a bursary grade,which realizes the intelligence and scientific nature of the evaluation process and ensures the accuracy of the evaluation results.The experimental results prove that the model proposed in this paper has an accuracy rate of about 6% higher than that of the traditional XGBoost model,which has higher evaluation accuracy,throughput,and time efficiency.The method proposed in this paper is suitable for the evaluation of scholarships and bursaries in the student management system of colleges and universities.
基金supported by National Natural Science Foundation of China(Nos.22474124,21575125)the National Natural Science Foundation of Jiangsu Province(No.BK20221370)+4 种基金Key University Natural Science Foundation of Jiangsu-Province(No.20KJA150004)the Project for Science and Technology of Yangzhou(No.YZ2022074)Project for Yangzhou City and Yangzhou University corporation(No.YZ2023204)the Open Research Fund of State Key Laboratory of Analytical Chemistry for Life Science(No.SKLACLS2405)Postgraduate Research&Practice Innovation Program of Jiangsu Province(No.KYCX22_3462)。
文摘Although diverse signal-amplified methods have been committed to improve the sensitivity of surface plasmon resonance(SPR)biosensing,introducing convenient and robust signal amplification strategy into SPR biosensing remains challenging.Here,a novel nanozyme-triggered polymerization amplification strategy was proposed for constructing highly sensitive surface plasmon resonance(SPR)immunosensor.In detail,Au@Pd core-shell nanooctahedra nanozyme with superior peroxidase(POD)-like activity was synthesized and utilized as a label probe.Simultaneously,Au@Pd core-shell nanooctahedra nanozyme can catalyze the decomposition of H_(2)O_(2)to form hydroxyl radicals(·OH)that triggers the polymerization of aniline to form polyaniline attaching on the surface of sensor chip,significantly amplifying SPR responses.The sensitivity of SPR immunosensor was enhanced by nanozyme-triggered polymerization amplification strategy.Using human immunoglobulin G(HIgG)as a model,the constructed SPR immunosensor obtains a wide linear range of 0.005–1.0μg/m L with low detection limit of 0.106 ng/m L.This research provides new sights on establishing sensitive SPR immunosensor and may evokes more inspiration for developing signal amplification methods based on nanozyme in biosensing.
文摘Benzene derivatives are volatile organic compounds commonly present in the atmospheric environment,which are toxic and complex in composition.They have become a key regulatory object in China s atmospheric environment management.In this paper,Shimadzu Nexis GC-2030 gas chromatography was used to simultaneously detect eight benzene derivatives.According to the Environmental Monitoring—Technical Guideline on Drawing and Revising Analytical Method Standards(HJ 168-2010),the monitoring methods for benzene,toluene,ethylbenzene,p-xylene,m-xylene,isopropylbenzene,o-xylene,and styrene in the Stationary Source Emission—Determination of Benzene and Its Analogies—Bags Sampling/Direct Injection—Gas Chromatography(HJ 1261-2022)are verified,and their linear relationships,detection limits,precision and accuracy are analyzed.
