Cotton production faces significant challenges from insect pests,with chemical pesticide use becoming increasingly limited by resistance and environmental concerns.This study explores the potential use of caffeine,a n...Cotton production faces significant challenges from insect pests,with chemical pesticide use becoming increasingly limited by resistance and environmental concerns.This study explores the potential use of caffeine,a natural plant alkaloid,as an environmentally friendly insect resistance strategy in cotton.Exogenous caffeine application demonstrated potent insecticidal effects against cotton bollworm(Helicoverpa armigera)larvae,with concentrations≥2 mg mL−1 causing near-complete feeding cessation and up to 70%larval mortality.Building on this,we engineered transgenic cotton(Gossypium hirsutum cv.Jin668)for heterologous caffeine biosynthesis by introducing three key N-methyltransferase genes(CaXMT1,CaMXMT1,CaDXMT1)by multiple gene transformation.Transgenic lines expressing all three genes showed remarkable caffeine accumulation(up to 3.59 mg g−1 dry weight),whereas two-gene combinations exhibited wild-type-level production.Feeding preference assays revealed that caffeine-enriched cotton strongly deterred feeding by H.armigera.Non-choice feeding trials demonstrated reduced leaf consumption and reduced larval growth in H.armigera fed on caffeine-producing cotton.The study highlights the effectiveness of synthetic biology approaches using the TGSII-UNiE multigene stacking system,despite challenges in transgene stability.This work advances plant-derived insect resistance research and provides a sustainable framework for reducing chemical pesticide reliance in cotton production,while underscoring unique potential of cotton as a synthetic biology platform for secondary metabolite engineering.展开更多
Silica aerogel has broad applications in the field of high-temperature thermal insulation due to its low density,low thermal conductivity and high stability.However,its thermal insulation performance deteriorates sign...Silica aerogel has broad applications in the field of high-temperature thermal insulation due to its low density,low thermal conductivity and high stability.However,its thermal insulation performance deteriorates significantly at elevated temperatures exceeding 600℃,primarily due to the collapse of pore structure.Meanwhile,the shielding capacity of SiO_(2) aerogel to the infrared radiation at high temperature is rather low due to the intrinsic properties of SiO_(2).Herein,a strategy for improving the high-temperature stability and infrared shielding properties of SiO_(2) aerogel via Ca doping was explored.Calcium-doped silica aerogel(CSA)powders were prepared by Sol-Gel,hydrothermal,and ambient pressure drying(APD)techniques using water glass and anhydrous calcium chloride as precursors and trimethylchlorosilane as a hydrophobic modifier.The effects of Ca/Si molar ratio in the precursor and hydrothermal conditions(temperature and pH)on the crystalline properties,microscopic morphology and pore structure of CSAs were investigated.The results show that the Ca/Si molar ratio and hydrothermal treatment have significant effects on the microstructure and heat resistance of CSAs in the temperature range of 400-1000℃.The samples sintered at 1000℃have a high specific surface area of 100.1 m^(2)/g and a pore volume of 0.8705 cm^(3)/g,indicating that the CSA has good heat resistance.One-side insulation tests at temperatures up to 600℃show that the sample with a Ca/Si molar ratio of 1.0 has the best insulation performance,with a cold surface temperature of 450℃,which is 27℃lower than that of the pure silica aerogel.展开更多
Objective To determine the proportions of drug-resistant tuberculosis(TB),its trends,and the drug resistance-conferring mutations among patients with pulmonary TB aged 10-24 years in China.Methods The data of patients...Objective To determine the proportions of drug-resistant tuberculosis(TB),its trends,and the drug resistance-conferring mutations among patients with pulmonary TB aged 10-24 years in China.Methods The data of patients with pulmonary TB were retrieved from a national drug-resistant TB survey for analysis.Joinpoint regression software was used to analyze time trends.We also used whole genome sequencing to analyze the lineages and drug resistance-conferring mutations of 621 isolates.Results Among 4,235 patients with pulmonary TB,the proportion of new cases of multidrug-resistant tuberculosis(MDR-TB)was 3.18%(95%confidence interval[CI]:2.37-4.15)for adolescents and 3.76%(95%CI:3.03-4.60)for young adults;for previously treated patients,MDR-TB accounted for 11.25%(95%CI:5.28-20.28)of adolescents and 11.05%(95%CI:6.88-16.55)of young adults.The proportion of patients with MDR-TB remained stable among both new and previously treated patients aged 10-24 years during the study period.Through whole genome sequencing,we found that the most common mutations in the MDR-TB strains were Ser315Thr in the katG gene(71.74%)and Ser450Leu in the rpoB gene(50.00%).Conclusion This study revealed a high proportion of MDR-TB among adolescents and young adults,indicating that urgent and comprehensive measures are needed to reduce the emergence and transmission of drug-resistant TB among this population in China.展开更多
Photoelectrochemical seawater splitting is promising for renewable hydrogen,yet severe chloride corrosion remains a roadblock.Although amorphous catalysts improve hematite(α-Fe_(2)O_(3))photoanode activity,their defe...Photoelectrochemical seawater splitting is promising for renewable hydrogen,yet severe chloride corrosion remains a roadblock.Although amorphous catalysts improve hematite(α-Fe_(2)O_(3))photoanode activity,their defect-enabled functionality inherently accelerates structural degradation,exacerbating chloride-induced corrosion.Here,a synergistic dual-functional nano-armor is designed by anchoring phosphate(PO_(4)^(3-))to active sites on amorphous NiMoO_(4)(a-NiMoO_(4)@PO_(4)^(3-)),achieving dual activitystability enhancement.Detailed physicochemical characterization and density functional theory(DFT)calculations show that the successful and stable anchoring of phosphate is highly dependent on the amorphous structural properties of a-NiMoO_(4).Its rich disordered coordination environment provides sufficient highly reactive sites,allowing PO_(4)^(3-)to be firmly bound through strong coordination bonds,which is the key for the dual role of PO_(4)^(3-)coordination.As a dynamic Cl-shield,PO_(4)^(3-)coordinates unsaturated Ni sites,forming an anionic layer that resists Cl-via steric-electrostatic blocking.As an electronic modulator,PO_(4)^(3-)triggers metal-to-ligand charge transfer at Ni sites,depleting electron density to optimize the intermediate adsorption of oxygen evolution reaction(OER)and reduce kinetic barriers.Simultaneously,this charge redistribution induces a built-in electric field that accelerates holeselective transport.Benefiting from these dual effects,the Fe_(2)O_(3)/a-NiMoO_(4)@PO_(4)^(3-)achieves 4 mA cm^(-2)at 1.23 V_(RHE) with exceptional stability in seawater.This work leverages the unique coordination flexibility of amorphous structures to construct a phosphate-coordinated bifunctional nano-armor on hematite photoanodes,which simultaneously enables efficient chloride exclusion and electronic structure optimization.The synergistic mechanism,rooted in strong phosphate anchoring on amorphous carriers,establishes a new design paradigm for photoelectrochemical systems that integrate high activity with extreme environmental stability,providing an efficient pathway toward corrosion-resistant seawater splitting.展开更多
Banana(Musa spp.),being a globally significant fruit crop,faces a myriad of threats from various diseases,such as Fusarium wilt,Xanthomonas wilt,bunchy top disease,and weevils disease.This review provides an overview ...Banana(Musa spp.),being a globally significant fruit crop,faces a myriad of threats from various diseases,such as Fusarium wilt,Xanthomonas wilt,bunchy top disease,and weevils disease.This review provides an overview of recent advancements in molecular mechanisms and immune signaling pathways underlying disease resistance in banana.First,the review discusses the latest research advances on banana pests and diseases.Subsequently,this review explores the immune responses and signaling pathways,pattern recognition receptor-triggered immunity,effector-triggered immunity,cell death,reactive oxygen species,autophagy,hormonal pathways,and other players involved in bananaedisease interactions.Finally,the review discusses the current understanding of the genetic architecture of disease resistance in banana,focusing on the identification of defense-related genes and quantitative trait loci associated with resistance to major pathogens and offering recommendations for genetic research.The conclusion underscores the significance of research on banana immunity,specifically highlighting the crucial need to identify endogenous resistance genes and elucidate immune signaling pathways for future efforts aimed at breeding disease-resistant banana.This review offers a comprehensive perspective on the molecular mechanisms underlying disease resistance in banana and serves as a valuable reference for breeding efforts aimed at enhancing banana's resistance to pathogens.展开更多
Airless tires are essential for enhancing the safety,reliability,and convenience of maintenance of electric bicycles.Polyurethane(PU)is considered a promising candidate for such applications owing to its versatile pro...Airless tires are essential for enhancing the safety,reliability,and convenience of maintenance of electric bicycles.Polyurethane(PU)is considered a promising candidate for such applications owing to its versatile properties.However,their use is limited by insufficient heat resistance and excessive dynamic heat generation under cyclic loading.In this study,star-shaped trifunctional polypropylene glycerol(PPG3)was incorporated into conventional poly(tetramethylene glycol)(PTMG)and 4,4'-methylenediphenyl diisocyanate(MDI)-based systems to construct microporous star-shaped casting polyurethanes(SCPU),with water serving as a green foaming agent.Unlike conventional small-molecule trifunctional crosslinkers that create junctions within hard segment domains,PPG3 introduces long flexible arms between the hard segments,anchoring the crosslinking points at its molecular core.The large steric hindrance of PPG3 effectively suppresses soft segment crystallization and lowers the degree of microphase separation,whereas the crosslinked network restricts chain mobility,thereby reducing dynamic heat generation.These structural features also enhance the heat resistance,yielding a softening temperature of 183℃,which is 30.9%higher than that of polyurethane without PPG3.When applied to airless tires by casting SCPU into rubber treads,the fabricated hybrid airless tires achieved a rolling distance of over 3000 km under a load of 65 kg at 25km/h without structural failure,satisfying practical performance requirements.This strategy offers a simple,solvent-free,and environmentally friendly process,underscoring the potential of SCPU for scalable production of high-performance airless tires.展开更多
Economical,stable,and corrosion-resistant catalytic electrodes are still urgently needed for the oxygen evolution reaction(OER)in water and seawater.Herein,a mild electroless plating strategy is used to achieve large-...Economical,stable,and corrosion-resistant catalytic electrodes are still urgently needed for the oxygen evolution reaction(OER)in water and seawater.Herein,a mild electroless plating strategy is used to achieve large-scale preparation of the“integrated”phosphorus-based precatalyst(FeP-NiP)on nickel foam(NF),which is in situ reconstructed into a highly active and corrosion-resistant(Fe)NiOOH phase for OER.The interaction between phosphate anions(PO_(x)^(y-))and iron ions(Fe^(3+))tunes the electronic structure of the catalytic phase to further enhance OER kinetics.The integrated FeP-NiP@NF electrode exhibits low overpotentials for OER in alkaline water/seawater,requiring only 275/289,320/336,and 349/358 mV to reach 0.1,0.5,and 1.0 A cm^(−2),respectively.The in situ reconstructed PO_(x)^(y-)anion electrostatically repels Cl−in seawater electrolytes,allowing stable operation for over 7 days at 1.0 A cm^(−2) in extreme electrolytes(1.0 M KOH+seawater and 6.0 M KOH+seawater),demonstrating industrial-level stability.This study overcomes the complex synthesis limitations of P-based materials through innovative material design,opening new avenues for electrochemical energy conversion.展开更多
BACKGROUND Liver transplant(LT)recipients are susceptible to carbapenem-resistant Klebsiella pneumoniae(CRKP)infections.Comprehensive research addressing the incidence,timing,infection sites,resistance patterns,treatm...BACKGROUND Liver transplant(LT)recipients are susceptible to carbapenem-resistant Klebsiella pneumoniae(CRKP)infections.Comprehensive research addressing the incidence,timing,infection sites,resistance patterns,treatment options,and associated risk factors among LT recipients with CRKP is now lacking.AIM To assess the incidence,resistance,therapy,and risk factors of CRKP infections post-LT,and to evaluate the impact of them on prognosis.METHODS A retrospective study was conducted,including 430 consecutive patients who underwent LT between January 2015 and June 2023.This study aimed to investigate the risk factors for CRKP infections and their influence on outcomes using logistic regression analysis.RESULTS Among the 430 patients who underwent LT,20(4.7%)experienced at least one documented CRKP infection within 3 months post-transplantation.The median time from LT to the onset of CRKP infections was 6.5 days.The lungs and bloodstream were the most common sites of CRKP infections.CRKP isolates were relatively susceptible to ceftazidime/avibactam(93.7%),polymyxin B(90.6%),and tigecycline(75.0%)treatment.However,all isolates were resistant to piperacillin/tazobactam,ceftazidime,cefepime,aztreonam,meropenem,and levofloxacin treatment.Recipients with CRKP infections had a mortality rate of 35%,the rate was 12.5%for those receiving ceftazidime/avibactam therapy.Multivariate analysis identified female sex[odds ratio(OR)=3.306;95%confidence interval(CI):1.239-8.822;P=0.017],intraoperative bleeding≥3000 mL(OR=3.269;95%CI:1.018-10.490;P=0.047),alanine aminotransferase on day 1 post-LT≥1500 U/L(OR=4.370;95%CI:1.686-11.326;P=0.002),and post-LT mechanical ventilation(OR=2.772;95%CI:1.077-7.135;P=0.035)as significant variables associated with CRKP.CRKP infections were related to an intensive care unit length(ICU)of stay≥7 days and 6-month all-cause mortality post-LT.CONCLUSION CRKP infections were frequent complications following LT,with poor associated outcomes.Risk factors for post-LT CRKP infections included female sex,significant intraoperative bleeding,elevated alanine aminotransferase levels,and the need for mechanical ventilation.CRKP infections negatively impacted survival and led to prolonged ICU stays.展开更多
Proton exchange membrane water electrolysis(PEMWE)is one of the most promising strategies to pro-duce green hydrogen energy,and it is crucial to exploit highly conductive and good corrosion-resistant coatings on bipol...Proton exchange membrane water electrolysis(PEMWE)is one of the most promising strategies to pro-duce green hydrogen energy,and it is crucial to exploit highly conductive and good corrosion-resistant coatings on bipolar plates(BPs),one of the core components in PEMWE cells.In this work,NbN coatings are deposited on Ti BPs by magnetron sputtering to improve the corrosion resistance and conductivity,for which the critical process parameters,such as the working pressure,partial nitrogen pressure and de-position temperature are well optimized.It is found that the compact microstructure,highly conductive δ-NbN and uniform nanoparticles play a dominant role in the synergistic improvement of the corrosion resistance and electrical conductivity of NbN coatings.The optimized NbN coatings exhibit excellent cor-rosion resistance with the low corrosion current density of 1.1×10^(-8) A cm^(-2),a high potential value of-0.005 V vs.SCE and a low ICR value of 15.8 mΩcm2@1.5 MPa.Accordingly,NbN coatings can be a promising candidate for the development of the low-cost and high-anti-corrosion Ti BPs of PEMWE.展开更多
A series of transparent,intrinsically flame-retardant,and impact-resistant poly(carbonates-b-siloxanes)were synthesized by incorporating Schiff-base modified polysiloxanes(DMS-Schiff)and naphthalene-sulfonate units in...A series of transparent,intrinsically flame-retardant,and impact-resistant poly(carbonates-b-siloxanes)were synthesized by incorporating Schiff-base modified polysiloxanes(DMS-Schiff)and naphthalene-sulfonate units into the polycarbonate(PC)chain.In addition to high transparency,the resultant copolymers(SS-co-PC5,SS-co-PC9,SS-co-PC14,and SS-co-PC20)exhibited remarkable improvements in fire safety and mechanical performance.Compared to pure PC,these copolymers demonstrated significantly enhanced limiting oxygen index(LOI,up to 34.5%)and a UL-94 V-0 rating under a thickness of only 1.6 mm.The incorporation of the polysiloxane blocks not only improved flame retardancy but also enhanced the impact strength,with SS-co-PC9 showing a 48%increase in elongation at break and a 38%rise in impact toughness compared to pure PC.In addition,SS-co-PC9 presented high mechanical strength.The synergistic effects between the naphthalene-sulfonate and polysiloxane blocks,along with the well-controlled polysiloxane phase separation(sulfonate units enabled lower processing viscosity of copolymers),led to superior comprehensive performance.These findings provide a promising pathway to create high-performance copolycarbonates for real-world applications.展开更多
Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment proc...Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment processes used in wastewater treatment plants have a limited efficiencies of antibiotics resistant bacteria(ARB)disinfection and ARGs degradation and even promote the proliferation of ARGs.Problematically,ARB and ARGs in effluent pose potential risks if they are not further treated.Photocatalytic oxidation is considered a promising disinfection technology,where the photocatalytic process generates many free radicals that enhance the interaction between light and deoxyribonucleic acid(DNA)for ARB elimination and subsequent degradation of ARGs.This reviewaims to illustrate the progress of photocatalytic oxidation technology for removing antibiotics resistant(AR)from wastewater in recent years.We discuss the sources and transfer of ARGs in wastewater.The overall removal efficiencies of ultraviolet radiation(UV)/chlorination,UV/ozone,UV/H_(2)O_(2),and UV/sulfate-radical based system for ARB and ARGs,as well as the experimental parameters and removal mechanisms,are systematically discussed.The contribution of photocatalytic materials based on TiO_(2) and g-C_(3)N_(4) to the inactivation of ARB and degradation of ARGs is highlighted,producingmany free radicals to attack ARB and ARGs while effectively limiting the horizontal gene transfer(HGT)in wastewater.Finally,based on the reviewed studies,future research directions are proposed to realize specific photocatalytic oxidation technology applications and overcome current challenges.展开更多
Layered double hydroxides(LDHs)as coatings attract much attention in corrosion and protection of light metals due to their interesting properties such as in-situ synthesis,unique layer-stacking structure,tunable compo...Layered double hydroxides(LDHs)as coatings attract much attention in corrosion and protection of light metals due to their interesting properties such as in-situ synthesis,unique layer-stacking structure,tunable composition,and good biocompatibility as well.Currently,single LDH coating faces challenges such as time-consumed synthesis,thin coating thickness and inadequate density.This paper provides a systematic review of the cutting-edge advancements in modulation of composition,synthesis and applications of LDHs on Mg and Al alloys in corrosion protection and biomedicalfields.The focus is concentrated on the intercalation of corrosion inhibitors into LDH coatings.Particularly the anti-corrosion mechanisms of both inorganic anions(nitrate,vanadate,and molybdate)and organic anion intercalation(carboxylic acid anions and hydroxyquinolines)were discussed within the context of corrosion inhibitor intercalation LDH.The modification of LDHs is introduced with low surface energy substances such as silanes and fatty acids.The formation mechanism of LDHfilms and the active anti-corrosion mechanisms were proposed.A comparison of LDH coatings between Mg alloy and Al alloy was carried out from different perspectives,and further researches on LDH corrosion protection were prospected.展开更多
Recent studies have shown a noticeable increase in global Helicobacter pylori(H.pylori)resistance,with clarithromycin resistance surpassing 15%in various areas.However,inadequate epidemiological monitoring,especially ...Recent studies have shown a noticeable increase in global Helicobacter pylori(H.pylori)resistance,with clarithromycin resistance surpassing 15%in various areas.However,inadequate epidemiological monitoring,especially in developing countries,and the absence of uniform testing methods lead to discrepancies between regions and a possible underestimation of resistance levels.The complexity of treating H.pylori is driven by its highly dynamic genome,which is prone to frequent mutations contributing to phenotypical resistance.The usual course of action in empirical treatment involves using a combination of various drugs simultaneously,leading to significant resistance selection pressure and potential side effects.The emergence of H.pylori strains resistant to multiple drugs is closely tied to failures in first-line treatment,highlighting the need to prevent further resistance by using optimal initial empirical therapy or regimens guided by antibiotic susceptibility testing,requiring a collection of mixed samples and multiple isolates for accurate assessment.The emergence of new treatments like potassium-competitive acid blockers offers a hopeful approach to decrease antimicrobial usage while still ensuring effectiveness in comparison to traditional therapies with proton pump inhibitors.Additionally,the use of probiotics is under investigation to identify specific strains and formulations that may mitigate therapy-associated adverse effects.展开更多
1Introduction To date,in model-based gait-planning methods,the dynamics of the center of mass(COM)of bipedal robots have been analyzed by establishing their linear inverted pendulum model(LIPM)or extended forms(Owaki ...1Introduction To date,in model-based gait-planning methods,the dynamics of the center of mass(COM)of bipedal robots have been analyzed by establishing their linear inverted pendulum model(LIPM)or extended forms(Owaki et al.,2010;Englsberger et al.,2015;Xie et al.,2020).With regard to model-based gait-generation methods for uphill and downhill terrain,Kuo(2007)simulated human gait using an inverted pendulum,which provided a circular trajectory for the COM rather than a horizontal trajectory.He found that a horizontal COM trajectory consumed more muscle energy.Massah et al.(2012)utilized a 3D LIPM and the concept of zero moment point(ZMP).They developed a trajectory planner using the semi-elliptical motion equations of an NAO humanoid robot and simulated walking on various sloped terrains using the Webots platform.展开更多
Transparent materials utilized as underwater optical windows are highly vulnerable to various forms of pollution or abrasion due to their intrinsic hydrophilic properties.This susceptibility is particularly pronounced...Transparent materials utilized as underwater optical windows are highly vulnerable to various forms of pollution or abrasion due to their intrinsic hydrophilic properties.This susceptibility is particularly pronounced in underwater environments where pollutants can impede the operation of these optical devices,significantly degrading or even compromising their optical properties.The glass catfish,known for its remarkable transparency in water,maintains surface cleanliness and clarity despite exposure to contaminants,impurities abrasion,and hydraulic pressure.Inspired by the glass catfish’s natural attributes,this study introduces a new solution named subaquatic abrasion-resistant and anti-fouling window(SAAW).Utilizing femtosecond laser ablation and electrodeposition,the SAAW is engineered by embedding fine metal bone structures into a transparent substrate and anti-fouling sliding layer,akin to the sturdy bones among catfish’s body.This approach significantly bolsters the window’s abrasion resistance and anti-fouling performance while maintaining high light transmittance.The sliding layer on the SAAW’s surface remarkably reduces the friction of various liquids,which is the reason that SAAW owns the great anti-fouling property.The SAAW demonstrates outstanding optical clarity even after enduring hundreds of sandpaper abrasions,attributing to the fine metal bone structures bearing all external forces and protecting the sliding layer of SAAW.Furthermore,it exhibits exceptional resistance to biological adhesion and underwater pressure.In a green algae environment,the window remains clean with minimal change in transmittance over one month.Moreover,it retains its wettability and anti-fouling properties when subjected to a depth of 30 m of underwater pressure for 30 d.Hence,the SAAW prepared by femtosecond laser ablation and electrodeposition presents a promising strategy for developing stable optical windows in liquid environments.展开更多
Objectives:Apatinib has been reported to be a promising treatment for sorafenib-resistant hepatocellular carcinoma(HCC)patients.However,the underlying mechanism remains ambiguous.The study aimed to explore the efficac...Objectives:Apatinib has been reported to be a promising treatment for sorafenib-resistant hepatocellular carcinoma(HCC)patients.However,the underlying mechanism remains ambiguous.The study aimed to explore the efficacy of apatinib in sorafenib-resistant HCC and the underlying mechanism both in vitro and in vivo.Methods:After observing epithelial-mesenchymal transformation(EMT)changes in HepG2 and HepG2/Sorafenib cells,we treated them with varying concentrations of apatinib to assess its impact on sorafenib-resistant HCC.Subsequently,specific inhibitors of c-Jun N-terminal kinase(JNK,SP600125)and extracellular signal-regulated kinase(ERK,PD98059)were introduced to investigate whether apatinib influenced sorafenib-resistant HCC via modulation of the epidermal growth factor receptor(EGFR)/JNK/ERK signaling pathway in vitro and in vivo.Biological behavior changes were assessed through cell counting kit-8(CCK-8),colony formation,transwell,and immunofluorescence tests.Simultaneously,Western blot analysis was conducted to elucidate the expression of proteins associated with EMT and the EGFR/JNK/ERK signaling pathway.Results:The HepG2/Sorafenib cells exhibited greater resistance to sorafenib compared to HepG2 cells,and sorafenib-resistant HCC was characterized by EMT changes.Apatinib demonstrated concentration-dependent inhibition of biological behaviors in HepG2/Sorafenib cells,with minimal impact on HepG2 cells.Additionally,apatinib had a pronounced effect on the expression of EMT-related proteins in sorafenib-resistant cells similar to that in sorafenib-sensitive cells.Furthermore,there was a dose-dependent reduction in the expression of proteins associated with the EGFR/JNK/ERK pathway in apatinib-treated groups.Notably,SP600125 and PD98059 contributed to the inhibition of EMT and EGFR/JNK/ERK pathway-related proteins by apatinib in sorafenib-resistant HCC.Conclusion:Apatinib potentially hindered the progression of sorafenib-resistant HCC by suppressing both EMT and the EGFR/JNK/ERK pathway.展开更多
Antimicrobial resistance(AMR)has become a critical global public health challenge in the 21st century.Since the initial isolation of a blaNDM-1-carrying and carbapenem-resistant Klebsiella pneumoniae from an Indian ho...Antimicrobial resistance(AMR)has become a critical global public health challenge in the 21st century.Since the initial isolation of a blaNDM-1-carrying and carbapenem-resistant Klebsiella pneumoniae from an Indian hospital in 2009[1],the escalating prevalence of New Delhi metallo-β-lactamase(NDM)-encoding genes(blaNDM)has transformed carbapenem resistance into a worldwide phenomenon,transcending national and regional boundaries[2].Up to 90 distinct NDM variants have been reported globally according to the NCBI GenBank Pathogens database.Plasmidmediated horizontal gene transfer(HGT),which occurs both within and across bacterial species,has significantly accelerated the global dissemination of blaNDM-related genes and the associated resistance[3].Carbapenem-resistant pathogens were responsible for 200,000 deaths globally in 2019[4].Although NDM-1 has been relatively well characterized[5],the epidemiological profiles of other NDM variants require continued surveillance and indepth investigation.The novel NDM-9 variant(GenBank accession no.KC999080)was first identified in 2013 from a clinically significant isolate of Klebsiella pneumoniae ST107 strain PPH1303 with a high level of resistance to carbapenems recovered from the urine culture of a pediatric patient in Beijing,China,who had acute lymphocytic leukemia and had undergone allogeneic stem cell transplantation[6].展开更多
This is a review on resistant starch(RS),resistant dextrin(RD),and polydextrose(PDX),focusing on their similarities and differences.RS refers to the starch(or a portion of)that cannot be digested in the small intestin...This is a review on resistant starch(RS),resistant dextrin(RD),and polydextrose(PDX),focusing on their similarities and differences.RS refers to the starch(or a portion of)that cannot be digested in the small intestine,but can be partially fermented in the colon.The enzyme resistance of RS is mainly due to either its crystalline/granular structure or its interaction with other components.RD is produced by pyrodextrinization of starch,while PDX is produced by polycondensation of glucose and sorbitol.Both RD and PDX contain glycosidic linkages that are not digestible by the enzymes in the small intestine.RS is not soluble in water,whereas RD and PDX are soluble,mainly due to their molecular structures and other structural features.The major health benefits of RS,RD,and PDX are quite similar,including gut health,prebiotic effects,glycemic control,weight management,and prevention of cardiovascular disease.However,the efficacies can be different among them,for example,the degree and rate of gut fermentation.This review compares the definitions,functional properties,and health benefits of RS,RD,and PDX with the underlying mechanisms,which can be useful for their incorporation in food formulations to improve human health and wellness.展开更多
Bioremediation is an efficient and popular approach for domestic wastewater treatment while the pollutant discharge standards are difficult to achieve under low-temperature conditions. The application of cold-resistan...Bioremediation is an efficient and popular approach for domestic wastewater treatment while the pollutant discharge standards are difficult to achieve under low-temperature conditions. The application of cold-resistant bacteria has gained increasing attention, but direct introduction to sewage leads to poor environmental adaptability and low microbial activity. Biochar was used as a carrier to immobilize the bacteria to improve microbial survival and activity in this study. The basic physicochemical properties of bacteria immobilized by biochar and ammonium nitrogen removal efficiency were analyzed. The process mechanism of ammonium nitrogen removal was further explored using kinetic fitting and molecular simulation calculations. The results showed that biochar immobilization of cold-resistant bacteria achieved a significantly higher ammonium nitrogen removal rate of 0.88 mg/(L·h) compared to free mixed bacteria(0.74 mg/(L·h)) and biochar alone(0.22 mg/(L·h)). It also exhibited a removal efficiency of 96.56%, which was 15.02% and 72.58% higher than that of free mixed bacteria and biochar, respectively. Adsorption kinetics further revealed that the pseudosecond-order kinetic equation was a better fit for characterizing ammonia-nitrogen removal by biocharimmobilized cold-resistant bacteria. Combining microscopic morphology analysis and molecular simulations demonstrated that enriching functional groups on biochar enhanced its NH_(4)^(+) adsorption capacity by increasing surface activity and polarity, as well as the biodegradation ability of NH_(4)^(+) by improving the interactions between biochar and active enzymes. These findings provide valuable insights into developing more effective ways to improve wastewater treatment efficiency under low temperatures.展开更多
Leptocybe invasa is an invasive pest,native to Australia,which causes serious damage to Eucalyptus all over the world.Here,we monitored gall development in resistant and susceptible Eucalyptus clones to determine whet...Leptocybe invasa is an invasive pest,native to Australia,which causes serious damage to Eucalyptus all over the world.Here,we monitored gall development in resistant and susceptible Eucalyptus clones to determine whether plant genotype affects the durations of the different gall stages.Gall development varied among six Eucalyptus clones that differed in susceptibility to L.invasa viz.,PE-5,316,3011,PE-11,3020 and P-13 in Punjab in a nethouse.In susceptible clones PE-5 and 316,L.invasa emerged from both green and pink galls.Five stages of gall formation were found:Stage 1(tissue disruption),Stage 2(gall develop-ment),Stage 3(glossy pink),Stage 4(dull pink)and Stage 5(exit hole)in susceptible clones when adults emerged from pink galls.However,in resistant clones,adults emerged only from green galls,and galls formed in three stages.In the susceptible clones,when adults emerged from pink galls,the life cycle was 105–115 d;however,when adults emerged from green galls,the duration was significantly shorter(81–87 d).In the most-resistant clone,P-13,corky tissue formed after oviposition,and galls did not develop further.In the resistant clones(3020,PE-11 and 3011),adults emerged from green galls,and the life cycle lasted 90–96 d.When adults emerged from green galls in susceptible and resist-ant clones,Stage 1 lasted longer in resistant clones than in the susceptible;however,in susceptible clones,Stage 5 was longer.When adults emerged from pink galls in susceptible clones and from green galls in resistant clones,the life cycle was longer in susceptible clones.In susceptible clones,the number of emergence holes was significantly higher than resistant clones.Gall width and gall length also differed significantly between susceptible and resistant clones.The results showed that the Eucalyptus genotype had a signifi-cant effect on gall development induced by gall wasps.展开更多
基金supported by the National Natural Science Foundation of China (32325039)
文摘Cotton production faces significant challenges from insect pests,with chemical pesticide use becoming increasingly limited by resistance and environmental concerns.This study explores the potential use of caffeine,a natural plant alkaloid,as an environmentally friendly insect resistance strategy in cotton.Exogenous caffeine application demonstrated potent insecticidal effects against cotton bollworm(Helicoverpa armigera)larvae,with concentrations≥2 mg mL−1 causing near-complete feeding cessation and up to 70%larval mortality.Building on this,we engineered transgenic cotton(Gossypium hirsutum cv.Jin668)for heterologous caffeine biosynthesis by introducing three key N-methyltransferase genes(CaXMT1,CaMXMT1,CaDXMT1)by multiple gene transformation.Transgenic lines expressing all three genes showed remarkable caffeine accumulation(up to 3.59 mg g−1 dry weight),whereas two-gene combinations exhibited wild-type-level production.Feeding preference assays revealed that caffeine-enriched cotton strongly deterred feeding by H.armigera.Non-choice feeding trials demonstrated reduced leaf consumption and reduced larval growth in H.armigera fed on caffeine-producing cotton.The study highlights the effectiveness of synthetic biology approaches using the TGSII-UNiE multigene stacking system,despite challenges in transgene stability.This work advances plant-derived insect resistance research and provides a sustainable framework for reducing chemical pesticide reliance in cotton production,while underscoring unique potential of cotton as a synthetic biology platform for secondary metabolite engineering.
文摘Silica aerogel has broad applications in the field of high-temperature thermal insulation due to its low density,low thermal conductivity and high stability.However,its thermal insulation performance deteriorates significantly at elevated temperatures exceeding 600℃,primarily due to the collapse of pore structure.Meanwhile,the shielding capacity of SiO_(2) aerogel to the infrared radiation at high temperature is rather low due to the intrinsic properties of SiO_(2).Herein,a strategy for improving the high-temperature stability and infrared shielding properties of SiO_(2) aerogel via Ca doping was explored.Calcium-doped silica aerogel(CSA)powders were prepared by Sol-Gel,hydrothermal,and ambient pressure drying(APD)techniques using water glass and anhydrous calcium chloride as precursors and trimethylchlorosilane as a hydrophobic modifier.The effects of Ca/Si molar ratio in the precursor and hydrothermal conditions(temperature and pH)on the crystalline properties,microscopic morphology and pore structure of CSAs were investigated.The results show that the Ca/Si molar ratio and hydrothermal treatment have significant effects on the microstructure and heat resistance of CSAs in the temperature range of 400-1000℃.The samples sintered at 1000℃have a high specific surface area of 100.1 m^(2)/g and a pore volume of 0.8705 cm^(3)/g,indicating that the CSA has good heat resistance.One-side insulation tests at temperatures up to 600℃show that the sample with a Ca/Si molar ratio of 1.0 has the best insulation performance,with a cold surface temperature of 450℃,which is 27℃lower than that of the pure silica aerogel.
基金funded by the National Key Research and Development Program of China(grant number 2022YFC2305204).
文摘Objective To determine the proportions of drug-resistant tuberculosis(TB),its trends,and the drug resistance-conferring mutations among patients with pulmonary TB aged 10-24 years in China.Methods The data of patients with pulmonary TB were retrieved from a national drug-resistant TB survey for analysis.Joinpoint regression software was used to analyze time trends.We also used whole genome sequencing to analyze the lineages and drug resistance-conferring mutations of 621 isolates.Results Among 4,235 patients with pulmonary TB,the proportion of new cases of multidrug-resistant tuberculosis(MDR-TB)was 3.18%(95%confidence interval[CI]:2.37-4.15)for adolescents and 3.76%(95%CI:3.03-4.60)for young adults;for previously treated patients,MDR-TB accounted for 11.25%(95%CI:5.28-20.28)of adolescents and 11.05%(95%CI:6.88-16.55)of young adults.The proportion of patients with MDR-TB remained stable among both new and previously treated patients aged 10-24 years during the study period.Through whole genome sequencing,we found that the most common mutations in the MDR-TB strains were Ser315Thr in the katG gene(71.74%)and Ser450Leu in the rpoB gene(50.00%).Conclusion This study revealed a high proportion of MDR-TB among adolescents and young adults,indicating that urgent and comprehensive measures are needed to reduce the emergence and transmission of drug-resistant TB among this population in China.
基金supported by the Shandong Provincial Natural Science Foundation(No.ZR2022ME052)the National Natural Science Foundation of China(No.22404153)+4 种基金the TaiShan Scholars of Shandong China(No.tsqn202306113 and tsqn202408081)the Excellent Youth Science Fund Project of Shandong China(No.2025HWYQ-032)the China Postdoctoral Science Foundation(No.2024M753044)the Postdoctoral Fellowship Program of CPSF(No.GZB20240693)the Natural Science Foundation of Qingdao(No.24-4-4-zrjj-9-jch)。
文摘Photoelectrochemical seawater splitting is promising for renewable hydrogen,yet severe chloride corrosion remains a roadblock.Although amorphous catalysts improve hematite(α-Fe_(2)O_(3))photoanode activity,their defect-enabled functionality inherently accelerates structural degradation,exacerbating chloride-induced corrosion.Here,a synergistic dual-functional nano-armor is designed by anchoring phosphate(PO_(4)^(3-))to active sites on amorphous NiMoO_(4)(a-NiMoO_(4)@PO_(4)^(3-)),achieving dual activitystability enhancement.Detailed physicochemical characterization and density functional theory(DFT)calculations show that the successful and stable anchoring of phosphate is highly dependent on the amorphous structural properties of a-NiMoO_(4).Its rich disordered coordination environment provides sufficient highly reactive sites,allowing PO_(4)^(3-)to be firmly bound through strong coordination bonds,which is the key for the dual role of PO_(4)^(3-)coordination.As a dynamic Cl-shield,PO_(4)^(3-)coordinates unsaturated Ni sites,forming an anionic layer that resists Cl-via steric-electrostatic blocking.As an electronic modulator,PO_(4)^(3-)triggers metal-to-ligand charge transfer at Ni sites,depleting electron density to optimize the intermediate adsorption of oxygen evolution reaction(OER)and reduce kinetic barriers.Simultaneously,this charge redistribution induces a built-in electric field that accelerates holeselective transport.Benefiting from these dual effects,the Fe_(2)O_(3)/a-NiMoO_(4)@PO_(4)^(3-)achieves 4 mA cm^(-2)at 1.23 V_(RHE) with exceptional stability in seawater.This work leverages the unique coordination flexibility of amorphous structures to construct a phosphate-coordinated bifunctional nano-armor on hematite photoanodes,which simultaneously enables efficient chloride exclusion and electronic structure optimization.The synergistic mechanism,rooted in strong phosphate anchoring on amorphous carriers,establishes a new design paradigm for photoelectrochemical systems that integrate high activity with extreme environmental stability,providing an efficient pathway toward corrosion-resistant seawater splitting.
基金supported by the Natural Science Foundation of Guangdong Province(Grant Nos.2022A15151104922023A1515012955)Guangzhou Science and Technology Plan Project(Grant No.2023A04J0795).
文摘Banana(Musa spp.),being a globally significant fruit crop,faces a myriad of threats from various diseases,such as Fusarium wilt,Xanthomonas wilt,bunchy top disease,and weevils disease.This review provides an overview of recent advancements in molecular mechanisms and immune signaling pathways underlying disease resistance in banana.First,the review discusses the latest research advances on banana pests and diseases.Subsequently,this review explores the immune responses and signaling pathways,pattern recognition receptor-triggered immunity,effector-triggered immunity,cell death,reactive oxygen species,autophagy,hormonal pathways,and other players involved in bananaedisease interactions.Finally,the review discusses the current understanding of the genetic architecture of disease resistance in banana,focusing on the identification of defense-related genes and quantitative trait loci associated with resistance to major pathogens and offering recommendations for genetic research.The conclusion underscores the significance of research on banana immunity,specifically highlighting the crucial need to identify endogenous resistance genes and elucidate immune signaling pathways for future efforts aimed at breeding disease-resistant banana.This review offers a comprehensive perspective on the molecular mechanisms underlying disease resistance in banana and serves as a valuable reference for breeding efforts aimed at enhancing banana's resistance to pathogens.
基金financially supported by the National Natural Science Foundation of China(No.52303063)Hubei Provincial Department of Education Guided Scientific Research Project(No.B2024056)。
文摘Airless tires are essential for enhancing the safety,reliability,and convenience of maintenance of electric bicycles.Polyurethane(PU)is considered a promising candidate for such applications owing to its versatile properties.However,their use is limited by insufficient heat resistance and excessive dynamic heat generation under cyclic loading.In this study,star-shaped trifunctional polypropylene glycerol(PPG3)was incorporated into conventional poly(tetramethylene glycol)(PTMG)and 4,4'-methylenediphenyl diisocyanate(MDI)-based systems to construct microporous star-shaped casting polyurethanes(SCPU),with water serving as a green foaming agent.Unlike conventional small-molecule trifunctional crosslinkers that create junctions within hard segment domains,PPG3 introduces long flexible arms between the hard segments,anchoring the crosslinking points at its molecular core.The large steric hindrance of PPG3 effectively suppresses soft segment crystallization and lowers the degree of microphase separation,whereas the crosslinked network restricts chain mobility,thereby reducing dynamic heat generation.These structural features also enhance the heat resistance,yielding a softening temperature of 183℃,which is 30.9%higher than that of polyurethane without PPG3.When applied to airless tires by casting SCPU into rubber treads,the fabricated hybrid airless tires achieved a rolling distance of over 3000 km under a load of 65 kg at 25km/h without structural failure,satisfying practical performance requirements.This strategy offers a simple,solvent-free,and environmentally friendly process,underscoring the potential of SCPU for scalable production of high-performance airless tires.
基金funding support from Natural Science Foundation of Shanghai(Grant No.23ZR1443900)the National Natural Science Foundation of China(Grant Nos.22178309,22476131 and 22176127)。
文摘Economical,stable,and corrosion-resistant catalytic electrodes are still urgently needed for the oxygen evolution reaction(OER)in water and seawater.Herein,a mild electroless plating strategy is used to achieve large-scale preparation of the“integrated”phosphorus-based precatalyst(FeP-NiP)on nickel foam(NF),which is in situ reconstructed into a highly active and corrosion-resistant(Fe)NiOOH phase for OER.The interaction between phosphate anions(PO_(x)^(y-))and iron ions(Fe^(3+))tunes the electronic structure of the catalytic phase to further enhance OER kinetics.The integrated FeP-NiP@NF electrode exhibits low overpotentials for OER in alkaline water/seawater,requiring only 275/289,320/336,and 349/358 mV to reach 0.1,0.5,and 1.0 A cm^(−2),respectively.The in situ reconstructed PO_(x)^(y-)anion electrostatically repels Cl−in seawater electrolytes,allowing stable operation for over 7 days at 1.0 A cm^(−2) in extreme electrolytes(1.0 M KOH+seawater and 6.0 M KOH+seawater),demonstrating industrial-level stability.This study overcomes the complex synthesis limitations of P-based materials through innovative material design,opening new avenues for electrochemical energy conversion.
文摘BACKGROUND Liver transplant(LT)recipients are susceptible to carbapenem-resistant Klebsiella pneumoniae(CRKP)infections.Comprehensive research addressing the incidence,timing,infection sites,resistance patterns,treatment options,and associated risk factors among LT recipients with CRKP is now lacking.AIM To assess the incidence,resistance,therapy,and risk factors of CRKP infections post-LT,and to evaluate the impact of them on prognosis.METHODS A retrospective study was conducted,including 430 consecutive patients who underwent LT between January 2015 and June 2023.This study aimed to investigate the risk factors for CRKP infections and their influence on outcomes using logistic regression analysis.RESULTS Among the 430 patients who underwent LT,20(4.7%)experienced at least one documented CRKP infection within 3 months post-transplantation.The median time from LT to the onset of CRKP infections was 6.5 days.The lungs and bloodstream were the most common sites of CRKP infections.CRKP isolates were relatively susceptible to ceftazidime/avibactam(93.7%),polymyxin B(90.6%),and tigecycline(75.0%)treatment.However,all isolates were resistant to piperacillin/tazobactam,ceftazidime,cefepime,aztreonam,meropenem,and levofloxacin treatment.Recipients with CRKP infections had a mortality rate of 35%,the rate was 12.5%for those receiving ceftazidime/avibactam therapy.Multivariate analysis identified female sex[odds ratio(OR)=3.306;95%confidence interval(CI):1.239-8.822;P=0.017],intraoperative bleeding≥3000 mL(OR=3.269;95%CI:1.018-10.490;P=0.047),alanine aminotransferase on day 1 post-LT≥1500 U/L(OR=4.370;95%CI:1.686-11.326;P=0.002),and post-LT mechanical ventilation(OR=2.772;95%CI:1.077-7.135;P=0.035)as significant variables associated with CRKP.CRKP infections were related to an intensive care unit length(ICU)of stay≥7 days and 6-month all-cause mortality post-LT.CONCLUSION CRKP infections were frequent complications following LT,with poor associated outcomes.Risk factors for post-LT CRKP infections included female sex,significant intraoperative bleeding,elevated alanine aminotransferase levels,and the need for mechanical ventilation.CRKP infections negatively impacted survival and led to prolonged ICU stays.
基金supported by the National Key Re-search and Development Program of China(No.2022YFB4002100)the National Natural Science Foundation of China(No.52271136)the Natural Science Foundation of Shaanxi Province(Nos.2019TD-020 and 2021JC-06).
文摘Proton exchange membrane water electrolysis(PEMWE)is one of the most promising strategies to pro-duce green hydrogen energy,and it is crucial to exploit highly conductive and good corrosion-resistant coatings on bipolar plates(BPs),one of the core components in PEMWE cells.In this work,NbN coatings are deposited on Ti BPs by magnetron sputtering to improve the corrosion resistance and conductivity,for which the critical process parameters,such as the working pressure,partial nitrogen pressure and de-position temperature are well optimized.It is found that the compact microstructure,highly conductive δ-NbN and uniform nanoparticles play a dominant role in the synergistic improvement of the corrosion resistance and electrical conductivity of NbN coatings.The optimized NbN coatings exhibit excellent cor-rosion resistance with the low corrosion current density of 1.1×10^(-8) A cm^(-2),a high potential value of-0.005 V vs.SCE and a low ICR value of 15.8 mΩcm2@1.5 MPa.Accordingly,NbN coatings can be a promising candidate for the development of the low-cost and high-anti-corrosion Ti BPs of PEMWE.
基金financially supported by the National Natural Science Foundation of China(Nos.52403117,52173083,51991355,and 52173082)the 2024 Ningbo Yongjiang Talent Programme,the Natural Science Foundation of Zhejiang Province(No.LY24E030007)the Australian Research Council(No.DE230100616).
文摘A series of transparent,intrinsically flame-retardant,and impact-resistant poly(carbonates-b-siloxanes)were synthesized by incorporating Schiff-base modified polysiloxanes(DMS-Schiff)and naphthalene-sulfonate units into the polycarbonate(PC)chain.In addition to high transparency,the resultant copolymers(SS-co-PC5,SS-co-PC9,SS-co-PC14,and SS-co-PC20)exhibited remarkable improvements in fire safety and mechanical performance.Compared to pure PC,these copolymers demonstrated significantly enhanced limiting oxygen index(LOI,up to 34.5%)and a UL-94 V-0 rating under a thickness of only 1.6 mm.The incorporation of the polysiloxane blocks not only improved flame retardancy but also enhanced the impact strength,with SS-co-PC9 showing a 48%increase in elongation at break and a 38%rise in impact toughness compared to pure PC.In addition,SS-co-PC9 presented high mechanical strength.The synergistic effects between the naphthalene-sulfonate and polysiloxane blocks,along with the well-controlled polysiloxane phase separation(sulfonate units enabled lower processing viscosity of copolymers),led to superior comprehensive performance.These findings provide a promising pathway to create high-performance copolycarbonates for real-world applications.
基金supported by the National Natural Science Foundation of China (Nos.52100182 and 52300204)the the Science and Technology Innovation Program of Hunan Province (No.2023RC3122).
文摘Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment processes used in wastewater treatment plants have a limited efficiencies of antibiotics resistant bacteria(ARB)disinfection and ARGs degradation and even promote the proliferation of ARGs.Problematically,ARB and ARGs in effluent pose potential risks if they are not further treated.Photocatalytic oxidation is considered a promising disinfection technology,where the photocatalytic process generates many free radicals that enhance the interaction between light and deoxyribonucleic acid(DNA)for ARB elimination and subsequent degradation of ARGs.This reviewaims to illustrate the progress of photocatalytic oxidation technology for removing antibiotics resistant(AR)from wastewater in recent years.We discuss the sources and transfer of ARGs in wastewater.The overall removal efficiencies of ultraviolet radiation(UV)/chlorination,UV/ozone,UV/H_(2)O_(2),and UV/sulfate-radical based system for ARB and ARGs,as well as the experimental parameters and removal mechanisms,are systematically discussed.The contribution of photocatalytic materials based on TiO_(2) and g-C_(3)N_(4) to the inactivation of ARB and degradation of ARGs is highlighted,producingmany free radicals to attack ARB and ARGs while effectively limiting the horizontal gene transfer(HGT)in wastewater.Finally,based on the reviewed studies,future research directions are proposed to realize specific photocatalytic oxidation technology applications and overcome current challenges.
基金supported by the National Natural Science Foundation of China(Grant Nos.52471080 and 52071191).
文摘Layered double hydroxides(LDHs)as coatings attract much attention in corrosion and protection of light metals due to their interesting properties such as in-situ synthesis,unique layer-stacking structure,tunable composition,and good biocompatibility as well.Currently,single LDH coating faces challenges such as time-consumed synthesis,thin coating thickness and inadequate density.This paper provides a systematic review of the cutting-edge advancements in modulation of composition,synthesis and applications of LDHs on Mg and Al alloys in corrosion protection and biomedicalfields.The focus is concentrated on the intercalation of corrosion inhibitors into LDH coatings.Particularly the anti-corrosion mechanisms of both inorganic anions(nitrate,vanadate,and molybdate)and organic anion intercalation(carboxylic acid anions and hydroxyquinolines)were discussed within the context of corrosion inhibitor intercalation LDH.The modification of LDHs is introduced with low surface energy substances such as silanes and fatty acids.The formation mechanism of LDHfilms and the active anti-corrosion mechanisms were proposed.A comparison of LDH coatings between Mg alloy and Al alloy was carried out from different perspectives,and further researches on LDH corrosion protection were prospected.
基金Supported by the Industrial Technological Initiation Scholarship of National Council for Scientific and Technological Development,CNPq,Brazil,No.0932204294929829 and No.7414780530977345the Scientific Initiation Scholarship Programme(PIBIC)of National Council for Scientific and Technological Development,CNPq,Brazil,No.5763023359532159,No.6472982965854452,and No.7340128440641417+2 种基金the Scientific Initiation Scholarship Programme(PIBIC)of Bahia State Research Support Foundation,FAPESB,Brazil,No.19.573.301.5418the PERMANECER Programme of Pro-Rectory of Student Assistance at Federal University of Bahia,No.R8EZ-4V4W-6LQX-5LC8the CNPq Research Productivity Fellow,No.4357511882624145.
文摘Recent studies have shown a noticeable increase in global Helicobacter pylori(H.pylori)resistance,with clarithromycin resistance surpassing 15%in various areas.However,inadequate epidemiological monitoring,especially in developing countries,and the absence of uniform testing methods lead to discrepancies between regions and a possible underestimation of resistance levels.The complexity of treating H.pylori is driven by its highly dynamic genome,which is prone to frequent mutations contributing to phenotypical resistance.The usual course of action in empirical treatment involves using a combination of various drugs simultaneously,leading to significant resistance selection pressure and potential side effects.The emergence of H.pylori strains resistant to multiple drugs is closely tied to failures in first-line treatment,highlighting the need to prevent further resistance by using optimal initial empirical therapy or regimens guided by antibiotic susceptibility testing,requiring a collection of mixed samples and multiple isolates for accurate assessment.The emergence of new treatments like potassium-competitive acid blockers offers a hopeful approach to decrease antimicrobial usage while still ensuring effectiveness in comparison to traditional therapies with proton pump inhibitors.Additionally,the use of probiotics is under investigation to identify specific strains and formulations that may mitigate therapy-associated adverse effects.
基金supported by the National Natural Science Foundation of China(No.12332023)the Zhejiang Provincial Natural Science Foundation of China(No.LY23E050010).
文摘1Introduction To date,in model-based gait-planning methods,the dynamics of the center of mass(COM)of bipedal robots have been analyzed by establishing their linear inverted pendulum model(LIPM)or extended forms(Owaki et al.,2010;Englsberger et al.,2015;Xie et al.,2020).With regard to model-based gait-generation methods for uphill and downhill terrain,Kuo(2007)simulated human gait using an inverted pendulum,which provided a circular trajectory for the COM rather than a horizontal trajectory.He found that a horizontal COM trajectory consumed more muscle energy.Massah et al.(2012)utilized a 3D LIPM and the concept of zero moment point(ZMP).They developed a trajectory planner using the semi-elliptical motion equations of an NAO humanoid robot and simulated walking on various sloped terrains using the Webots platform.
基金supported by the National Science Foundation of China under Grant Nos(Nos.12127806,62175195)the International Joint Research Laboratory for Micro/Nano Manufacturing and Measurement Technologies。
文摘Transparent materials utilized as underwater optical windows are highly vulnerable to various forms of pollution or abrasion due to their intrinsic hydrophilic properties.This susceptibility is particularly pronounced in underwater environments where pollutants can impede the operation of these optical devices,significantly degrading or even compromising their optical properties.The glass catfish,known for its remarkable transparency in water,maintains surface cleanliness and clarity despite exposure to contaminants,impurities abrasion,and hydraulic pressure.Inspired by the glass catfish’s natural attributes,this study introduces a new solution named subaquatic abrasion-resistant and anti-fouling window(SAAW).Utilizing femtosecond laser ablation and electrodeposition,the SAAW is engineered by embedding fine metal bone structures into a transparent substrate and anti-fouling sliding layer,akin to the sturdy bones among catfish’s body.This approach significantly bolsters the window’s abrasion resistance and anti-fouling performance while maintaining high light transmittance.The sliding layer on the SAAW’s surface remarkably reduces the friction of various liquids,which is the reason that SAAW owns the great anti-fouling property.The SAAW demonstrates outstanding optical clarity even after enduring hundreds of sandpaper abrasions,attributing to the fine metal bone structures bearing all external forces and protecting the sliding layer of SAAW.Furthermore,it exhibits exceptional resistance to biological adhesion and underwater pressure.In a green algae environment,the window remains clean with minimal change in transmittance over one month.Moreover,it retains its wettability and anti-fouling properties when subjected to a depth of 30 m of underwater pressure for 30 d.Hence,the SAAW prepared by femtosecond laser ablation and electrodeposition presents a promising strategy for developing stable optical windows in liquid environments.
基金supported by Natural Science Foundation of Shandong Province,No.ZR2021QH186National Natural Science Foundation of China,No.81870205+3 种基金Foundation Research Project of Qinghai Province,2021-ZJ-719National Natural Science Foundation of China,No.82000579Qinghai Provincial Health System Key Project No.2021-wjzd-06Foundation Research Project of Qinghai Province,2023-ZJ-786.
文摘Objectives:Apatinib has been reported to be a promising treatment for sorafenib-resistant hepatocellular carcinoma(HCC)patients.However,the underlying mechanism remains ambiguous.The study aimed to explore the efficacy of apatinib in sorafenib-resistant HCC and the underlying mechanism both in vitro and in vivo.Methods:After observing epithelial-mesenchymal transformation(EMT)changes in HepG2 and HepG2/Sorafenib cells,we treated them with varying concentrations of apatinib to assess its impact on sorafenib-resistant HCC.Subsequently,specific inhibitors of c-Jun N-terminal kinase(JNK,SP600125)and extracellular signal-regulated kinase(ERK,PD98059)were introduced to investigate whether apatinib influenced sorafenib-resistant HCC via modulation of the epidermal growth factor receptor(EGFR)/JNK/ERK signaling pathway in vitro and in vivo.Biological behavior changes were assessed through cell counting kit-8(CCK-8),colony formation,transwell,and immunofluorescence tests.Simultaneously,Western blot analysis was conducted to elucidate the expression of proteins associated with EMT and the EGFR/JNK/ERK signaling pathway.Results:The HepG2/Sorafenib cells exhibited greater resistance to sorafenib compared to HepG2 cells,and sorafenib-resistant HCC was characterized by EMT changes.Apatinib demonstrated concentration-dependent inhibition of biological behaviors in HepG2/Sorafenib cells,with minimal impact on HepG2 cells.Additionally,apatinib had a pronounced effect on the expression of EMT-related proteins in sorafenib-resistant cells similar to that in sorafenib-sensitive cells.Furthermore,there was a dose-dependent reduction in the expression of proteins associated with the EGFR/JNK/ERK pathway in apatinib-treated groups.Notably,SP600125 and PD98059 contributed to the inhibition of EMT and EGFR/JNK/ERK pathway-related proteins by apatinib in sorafenib-resistant HCC.Conclusion:Apatinib potentially hindered the progression of sorafenib-resistant HCC by suppressing both EMT and the EGFR/JNK/ERK pathway.
基金supported financially by the National Key Research and Science Program of the Ministry of Science and Technology of the People’s Republic of China(2022YFC2303900)the Beijing Natural Science Foundation(7232242).
文摘Antimicrobial resistance(AMR)has become a critical global public health challenge in the 21st century.Since the initial isolation of a blaNDM-1-carrying and carbapenem-resistant Klebsiella pneumoniae from an Indian hospital in 2009[1],the escalating prevalence of New Delhi metallo-β-lactamase(NDM)-encoding genes(blaNDM)has transformed carbapenem resistance into a worldwide phenomenon,transcending national and regional boundaries[2].Up to 90 distinct NDM variants have been reported globally according to the NCBI GenBank Pathogens database.Plasmidmediated horizontal gene transfer(HGT),which occurs both within and across bacterial species,has significantly accelerated the global dissemination of blaNDM-related genes and the associated resistance[3].Carbapenem-resistant pathogens were responsible for 200,000 deaths globally in 2019[4].Although NDM-1 has been relatively well characterized[5],the epidemiological profiles of other NDM variants require continued surveillance and indepth investigation.The novel NDM-9 variant(GenBank accession no.KC999080)was first identified in 2013 from a clinically significant isolate of Klebsiella pneumoniae ST107 strain PPH1303 with a high level of resistance to carbapenems recovered from the urine culture of a pediatric patient in Beijing,China,who had acute lymphocytic leukemia and had undergone allogeneic stem cell transplantation[6].
文摘This is a review on resistant starch(RS),resistant dextrin(RD),and polydextrose(PDX),focusing on their similarities and differences.RS refers to the starch(or a portion of)that cannot be digested in the small intestine,but can be partially fermented in the colon.The enzyme resistance of RS is mainly due to either its crystalline/granular structure or its interaction with other components.RD is produced by pyrodextrinization of starch,while PDX is produced by polycondensation of glucose and sorbitol.Both RD and PDX contain glycosidic linkages that are not digestible by the enzymes in the small intestine.RS is not soluble in water,whereas RD and PDX are soluble,mainly due to their molecular structures and other structural features.The major health benefits of RS,RD,and PDX are quite similar,including gut health,prebiotic effects,glycemic control,weight management,and prevention of cardiovascular disease.However,the efficacies can be different among them,for example,the degree and rate of gut fermentation.This review compares the definitions,functional properties,and health benefits of RS,RD,and PDX with the underlying mechanisms,which can be useful for their incorporation in food formulations to improve human health and wellness.
基金financial support from the Western Light Young Scholars Project,Chinese Academy of Sciences (2022)the Science and Technology Project of Sichuan Province,China (Project No.2021YFG0279)。
文摘Bioremediation is an efficient and popular approach for domestic wastewater treatment while the pollutant discharge standards are difficult to achieve under low-temperature conditions. The application of cold-resistant bacteria has gained increasing attention, but direct introduction to sewage leads to poor environmental adaptability and low microbial activity. Biochar was used as a carrier to immobilize the bacteria to improve microbial survival and activity in this study. The basic physicochemical properties of bacteria immobilized by biochar and ammonium nitrogen removal efficiency were analyzed. The process mechanism of ammonium nitrogen removal was further explored using kinetic fitting and molecular simulation calculations. The results showed that biochar immobilization of cold-resistant bacteria achieved a significantly higher ammonium nitrogen removal rate of 0.88 mg/(L·h) compared to free mixed bacteria(0.74 mg/(L·h)) and biochar alone(0.22 mg/(L·h)). It also exhibited a removal efficiency of 96.56%, which was 15.02% and 72.58% higher than that of free mixed bacteria and biochar, respectively. Adsorption kinetics further revealed that the pseudosecond-order kinetic equation was a better fit for characterizing ammonia-nitrogen removal by biocharimmobilized cold-resistant bacteria. Combining microscopic morphology analysis and molecular simulations demonstrated that enriching functional groups on biochar enhanced its NH_(4)^(+) adsorption capacity by increasing surface activity and polarity, as well as the biodegradation ability of NH_(4)^(+) by improving the interactions between biochar and active enzymes. These findings provide valuable insights into developing more effective ways to improve wastewater treatment efficiency under low temperatures.
文摘Leptocybe invasa is an invasive pest,native to Australia,which causes serious damage to Eucalyptus all over the world.Here,we monitored gall development in resistant and susceptible Eucalyptus clones to determine whether plant genotype affects the durations of the different gall stages.Gall development varied among six Eucalyptus clones that differed in susceptibility to L.invasa viz.,PE-5,316,3011,PE-11,3020 and P-13 in Punjab in a nethouse.In susceptible clones PE-5 and 316,L.invasa emerged from both green and pink galls.Five stages of gall formation were found:Stage 1(tissue disruption),Stage 2(gall develop-ment),Stage 3(glossy pink),Stage 4(dull pink)and Stage 5(exit hole)in susceptible clones when adults emerged from pink galls.However,in resistant clones,adults emerged only from green galls,and galls formed in three stages.In the susceptible clones,when adults emerged from pink galls,the life cycle was 105–115 d;however,when adults emerged from green galls,the duration was significantly shorter(81–87 d).In the most-resistant clone,P-13,corky tissue formed after oviposition,and galls did not develop further.In the resistant clones(3020,PE-11 and 3011),adults emerged from green galls,and the life cycle lasted 90–96 d.When adults emerged from green galls in susceptible and resist-ant clones,Stage 1 lasted longer in resistant clones than in the susceptible;however,in susceptible clones,Stage 5 was longer.When adults emerged from pink galls in susceptible clones and from green galls in resistant clones,the life cycle was longer in susceptible clones.In susceptible clones,the number of emergence holes was significantly higher than resistant clones.Gall width and gall length also differed significantly between susceptible and resistant clones.The results showed that the Eucalyptus genotype had a signifi-cant effect on gall development induced by gall wasps.
