Coconut(Cocos nucifera L.),a major oil and fruit crop of the Arecaceae family,is extensively cultivated across the Asia—Pacific region.Despite its agricultural importance,genome assembly in coconut remains challengin...Coconut(Cocos nucifera L.),a major oil and fruit crop of the Arecaceae family,is extensively cultivated across the Asia—Pacific region.Despite its agricultural importance,genome assembly in coconut remains challenging due to its large genome size and high proportion of repetitive sequences.Allele-specific expression(ASE)plays a key role in regulating plant development and evolution,yet research on ASE in coconut is limited(Shao et al.,2019;Li et al.,2021;Zhang et al.,2021;Hu et al.,2022).Among phenotypic traits,fruit color is especially important as an indicator of maturity,guiding harvest timing and post-harvest processes(Kapoor et al.,2022).While prior studies have explored various coconut traits such as salt tolerance,fiber content,and plant height(Wang et al.,2021;Yang et al.,2021),investigations into ASE and fruit color remain scarce.展开更多
Positive activation and negative activation of glucose metabolism can be detected in different brain regions under acupuncture conditions using functional magnetic resonance imaging (fMRI) which reveals acupoint fun...Positive activation and negative activation of glucose metabolism can be detected in different brain regions under acupuncture conditions using functional magnetic resonance imaging (fMRI) which reveals acupoint function and location-acupoint specificity. This study observed the regional cerebral activation of the Waiguan (SJ 5) acupoint following true needling at the true Waiguan acupoint, sham needling at the true Waiguan acupoint and true needling at a sham point using fMRI. The fMRI results demonstrated that compared with sham needling, true needling at Waiguan activated the BA8 area and left cerebellum. Compared with needling at the sham point, needling at Waiguan activated the BA2 area, the left cerebellum and the right inferior semilunar lobule. Thus the activated brain areas caused by needling Waiguan may be the basis for treatment of certain diseases.展开更多
The axis tlhesis of this paper is that, today, it is ESP (English for Specific Purposes) in particular, rather than General English, that is the agent of the spread of globalization. Currently, ESP is witnessing an ...The axis tlhesis of this paper is that, today, it is ESP (English for Specific Purposes) in particular, rather than General English, that is the agent of the spread of globalization. Currently, ESP is witnessing an unprecedented spread, to a point of almost taking over the relevance and frequency of teaching of General English. Hereby, we look at the phenomenon of globalization as a social concept that demands of education that students are taught performativity, therefore just skills needed for the global economy functioning, and not education as a move towards change, refinement, and individuation of a personality. ESP is taught as a sort of socially neutral language, as it presumably deals only with the language of some specific science or profession. Relying on the relevant work of the acclaimed social theorists, it is our claim that as there is no socially and/or ideologically neutral language, and that this fact applies for ESP. It is because of this, that we hereby advocate a strong and urgent need for the application of critical pedagogy and critical literacy stances in the practice of ESP, and we give some broad directions of how that can be achieved.展开更多
This paper aims at strengthening teachers’understanding as well as optimizing future curriculum design of ESP(Eng⁃lish Specific Purpose).According to the literature ESP is one of the means for language learning and t...This paper aims at strengthening teachers’understanding as well as optimizing future curriculum design of ESP(Eng⁃lish Specific Purpose).According to the literature ESP is one of the means for language learning and teaching,which is based on learners’needs.By adopting needs analysis,teachers are able to deeply and appropriately understand the needs from students and the real-life settings like working places in society.According to the three cases that have been reviewed,there are always discrep⁃ancies between teaching and learning in the classroom,and the real-life needs of job requirements in society.Combining the curric⁃ulum design of ESP and the method of needs analysis is an effective way to close the discrepancy.展开更多
Device-based measurements are recommended to improve population-based physical activity(PA)surveillance.1,2However,implementation remains challenging due to lack of consensus on analytical methods,and the most widely ...Device-based measurements are recommended to improve population-based physical activity(PA)surveillance.1,2However,implementation remains challenging due to lack of consensus on analytical methods,and the most widely used“generic”(absolute intensity)cut-point approach has limited generalisability to population-level free-living data.Further,current methods generally fail to account for differences in people's physical capacity.展开更多
Conventional gas sensing materials(e.g.,metal oxides)suffer from deficient sensitivity and serve cross-sensitivity issues due to the lack of efficient adsorption sites.Herein,the heteroatom atomically doping strategy ...Conventional gas sensing materials(e.g.,metal oxides)suffer from deficient sensitivity and serve cross-sensitivity issues due to the lack of efficient adsorption sites.Herein,the heteroatom atomically doping strategy is demonstrated to significantly enhance the sensing performance of metal oxides-based gas sensing materials.Specifically,the Sn atoms were incorporated into porous Fe_(2)O_(3)in the form of atomically dispersed sites.As revealed by X-ray absorption spectroscopy and atomic-resolution scanning transmission electron microscopy,these Sn atoms successfully occupy the Fe sites in the Fe_(2)O_(3)lattice,forming the unique Sn-O-Fe sites.Compared to Fe-O-Fe sites(from bare Fe_(2)O_(3))and Sn-O-Sn sites(from SnO_(2)/Fe_(2)O_(3)with high Sn loading),the Sn-O-Fe sites on porous Fe_(2)O_(3)exhibit a superior sensitivity(Rg/Ra=2646.6)to 1 ppm NO_(2),along with dramatically increased selectivity and ultra-low limits of detection(10 ppb).Further theoretical calculations suggest that the strong adsorption of NO_(2)on Sn-O-Fe sites(N atom on Sn site,O atom on Fe site)contributes a more efficient gas response,compared to NO_(2)on Fe-O-Fe sites and other gases on Sn-O-Fe sites.Moreover,the incorporated Sn atoms reduce the bandgap of Fe_(2)O_(3),not only facilitating the electron release but also increasing the NO_(2)adsorption at a low working temperature(150°C).This work introduces an effective strategy to construct effective adsorption sites that show a unique response to specific gas molecules,potentially promoting the rational design of atomically modified gas sensing materials with high sensitivity and high selectivity.展开更多
HLA-C,HLA-DP and HLA-DQ are thought to be benign due to low expression and few initial negative studies.Historically,most allocation programs used HLA-A,HLA-B and HLA-DR antigens for matching.With the advent and use o...HLA-C,HLA-DP and HLA-DQ are thought to be benign due to low expression and few initial negative studies.Historically,most allocation programs used HLA-A,HLA-B and HLA-DR antigens for matching.With the advent and use of single-bead antigen assays,more was learned about donor-specific antibodies(DSAs)against these antigens.Interest in these antigens and antibodies grew when cases of acute antibody-mediated rejection(AMR),mixed rejections,chronic AMR,and reduced graft survival were reported with DSAs against these antigens.Although the deleterious effects of these DSAs are more pronounced in retransplants,harmful effects have also been observed in first-time recipients.DSAs against each of these antigens can trigger rejection alone.Their combination with DSAs against HLA-A,HLA-B and HLA-DR can cause more damage.It has been shown that strategies that reduce mismatches for these antigen lead to fewer rejections and better graft survival.There is a need for greater consensus on the universal typing of these antigens prior to transplantation for better patient and graft outcomes.This review focuses on the interaction of these antigens with lymphocytes and killer immunoglobulin receptors,arguments for not typing them,detailed analyses of the literature about their harmful effects,potential strategies moving forward,and recommendations for the future.展开更多
Caffeine is a widely consumed stimulant known for its cardiovascular and metabolic effects.However,its impact on cardiovascular risk,including arrhythmias,in older adults remains underexplored.Emerging evidence highli...Caffeine is a widely consumed stimulant known for its cardiovascular and metabolic effects.However,its impact on cardiovascular risk,including arrhythmias,in older adults remains underexplored.Emerging evidence highlights sex-specific differences in caffeine metabolism,which may influence its role in cardiovascular health.This perspective examines the interaction between caffeine,hormonal changes,metabolic processes,and lifestyle factors,focusing on older women compared to men.Understanding these differences is essential for tailoring dietary and clinical recommendations to mitigate cardiovascular risks and promote healthy aging.展开更多
The calcium-containing rare earth solution is generated during the recovery processes of NdFeB waste,which is treated as wastewater by enterprises.In this paper,the carbon dioxide carbonization method was applied to t...The calcium-containing rare earth solution is generated during the recovery processes of NdFeB waste,which is treated as wastewater by enterprises.In this paper,the carbon dioxide carbonization method was applied to the separation of rare earths and calcium in the solution,as well as the preparation of rare earth oxides with a large specific surface.It is shown that the process of CO_(2)carbonization of solution includes reactions such as the dissolution,diffusion and ionization of CO_(2),the carbonate precipitation of rare earth ions,and the neutralization of hydrogen ions.At a pH of 4.5,the carbonization precipitation rate is effectively controlled,enabling homogeneous precipitation and ensuring both high precipitation yield and rare earth oxides purity.In this way,the crystallization of carbonization products is a process dominated by the oriented attachment theory and coexisting with the Ostwald ripening theory,resulting in abundant pores formed by multiple layers of stacking in the products.With the optimal carbonization conditions,the rare earth precipitation yield solution reaches 99.32%.The obtained carbonization products are crystalline(LaCe)(CO_(3))_(3)·8H_(2)O,and the purity of the rare earth oxides is as high as 99.22 wt%.The specific surface area of the rare earth oxides reaches 94.7 m^(2)/g,and its adsorption efficiency for tetracycline hydrochloride in solution can reach 92.6%in a short time.The rare earth oxides are expected to be used as an adsorption material for wastewater treatment and other adsorption environments.展开更多
Iron oxide nanoparticles(IONPs)with intrinsic peroxidase(POD)-mimic activity have gained significant attention as nanozymes.Reducing sizes of IONPs is the mostly applied strategy to boost their enzymatic activity due ...Iron oxide nanoparticles(IONPs)with intrinsic peroxidase(POD)-mimic activity have gained significant attention as nanozymes.Reducing sizes of IONPs is the mostly applied strategy to boost their enzymatic activity due to their high specific surface areas.Herein,we synthesized a series of uniformly sized IONPs ranging from3.17 to 21.2 nm,and found that POD activity of IONPs is not monotone increased by reducing their sizes,with the optimal size of 7.82 nm rather than smaller sized 3.17 nm.The reason for this unnormal phenomenon is that electronic structure also had great influence on POD activity,especially at the ultrasmall size region.Since Fe^(2+)are with higher enzymatic activity than Fe^(3+),3.17 nm IONPs although have the largest specific surface area,are prone to be oxidized,which reduced their iron content and ratio of Fe^(2+)to Fe^(3+),and consequently decreased their POD activity.By intentionally oxidized 7.82 nm IONPs in air,POD activity was obviously reduced,illustrating electronic structure cannot be overlooked.At the larger sized region ranging from 7.82 to 21.2 nm,oxidation degree of IONPs is similar,and surface electronic structure had a negligible effect on POD activity,and therefore,POD activity is predominantly influenced by specific surface area.By using the optimized 7.82 nm IONPs,tumor growth was obviously inhibited,demonstrating their potential in cancer therapeutics.Our results reveal that the designing of nanozymes should comprehensively balance their influence of surface electronic structure and specific surface area.展开更多
Site-specific protein labeling plays important roles in drug discovery and illuminating biological processes at the molecular level.However,it is challenging to label proteins with high specificity while not affecting...Site-specific protein labeling plays important roles in drug discovery and illuminating biological processes at the molecular level.However,it is challenging to label proteins with high specificity while not affecting their structures and biochemical activities.Over the last few years,a variety of promising strategies have been devised that address these challenges including those that involve introduction of small-size peptide tags or unnatural amino acids(UAAs),chemical labeling of specific protein residues,and affinity-driven labeling.This review summarizes recent developments made in the area of site-specific protein labeling utilizing genetically encoding-and chemical-based methods,and discusses future issues that need to be addressed by researchers in this field.展开更多
The present study monitored bacterial succession,physicochemical properties,and volatile organic compounds(VOCs)changes in smoked chicken legs with modified atmosphere packaging(MAP,60% CO_(2) and 40%N_(2))during a 25...The present study monitored bacterial succession,physicochemical properties,and volatile organic compounds(VOCs)changes in smoked chicken legs with modified atmosphere packaging(MAP,60% CO_(2) and 40%N_(2))during a 25-day storage period at 4℃.After 15 days of storage,S erratia proteamaculans and Pseudomonas fragi became the predominant bacteria.Furthermore,physicochemical properties changed significantly,as evidenced by an increase in thiobarbituric acid reactive substances and b*(yellowness)value,and a decrease in hardness.A total of 65 VOCs were identified during storage.Correlation between bacterial succession and quality indicators(including VOCs and physicochemical properties)allowed the identification of 26 core dominant bacteria,including S.proteamaculans,Psychrobacter alimentarius,Pseudomonas putida,and Pseudomonas poae,which were positively related to spoilage VOCs(e.g.,1-octen-3-ol,1-pentanol,and 3-methyl-1-butanol)and could be defined as specific spoilage organisms(SSOs).The results of this study provide a systematic approach to predict SSOs in smoked chicken legs during storage,which can also provide a basis for product safety.展开更多
Mo_(2)CT_(x)MXene is a novel two-dimensional material,which is generally made by the etching of inorganic acid solutions,such as hydrofluoric acid(HF)or hydrochloric acid(HCl).Those solutions are always corrosive and ...Mo_(2)CT_(x)MXene is a novel two-dimensional material,which is generally made by the etching of inorganic acid solutions,such as hydrofluoric acid(HF)or hydrochloric acid(HCl).Those solutions are always corrosive and hazardous.In this paper,a mild organic acid,acetic acid(CH_(3)COOH),was selected to synthesize Mo_(2)CT_(x)MXene.30 mL acetic acid(HAc)with the concentration of 13 mol/L was mixed with 2 g acetate(CH_(3)COONa or CH_(3)COOK)and 10 mL water to make etching solution(NaAc+HAc or KAc+HAc).In the solution,the concentration of CH_(3)COO^(-)was 10 mol/L,the concentration of Na^(+)/K^(+)is 0.6/0.5 mol/L.The pH value is 2.8.Mo_(2)CT_(x)was obtained by hydrothermal etching at 240℃for 1 d.Compared with the general method of HF etching,the etchant is milder and the etching process is safer.On the surface of Mo_(2)CT_(x)nanosheet made by this method,acetate group(CH_(3)COO^(-))was adsorbed as termination,which is larger than the F/O/OH termination of that made by general HF etching.The lattice parameter c(LP c)of Mo_(2)CT_(x)etched with NaAc+HAc/KAc+HAc is 21.09Å/20.89Å.Moreover,the specific surface areas of the samples etched by NaAc+HAc and KAc+HAc were 18.1 m^(2)/g and 14.1 m^(2)/g,respectively,which were much larger than those etched by conventional methods.As the anode of lithium-ion battery,the specific capacity under current density of 100 mA/g at 100 th cycle was 108 mA·h/g,which is higher than the capacity of samples made by general HF etching.This work reports a novel method to make Mo_(2)CT_(x)MXene by the solution of mild acetic acid.The samples made by this method had very high specific surface area and relatively high lithium-storage performance.展开更多
This mixed-methods study presents a needs analysis to investigate the workplace English language needs of medical students in China who are learning and using English as non-native speakers,the circumstances in which ...This mixed-methods study presents a needs analysis to investigate the workplace English language needs of medical students in China who are learning and using English as non-native speakers,the circumstances in which the various language skills are required,and stakeholders’perceived workplace preparedness in the light of language-related instructional provision during medical training.A leading university in China was chosen as the study case.Altogether,294 online questionnaires were collected from undergraduate medical students,graduate medical students and recent graduates working as physicians,and 33 semi-structured individual interviews were conducted with undergraduate medical students,graduate medical students,recent graduates working as physicians,medical teachers,English for Medical Purposes(EMP)teachers,program leaders and English-speaking patients.Results showed that in addition to physicians experiencing pressure to publish scientific articles internationally,participants attached greater importance to physicians’oral English communication ability,especially in undertaking clinical consultations in English,working with medical interpreters or acting as ad hoc interpreters.The participants also reported a lack of relevant EMP courses or trainings available at this university.Given these communicative events that physicians face in China,EMP courses need to include training in these specific areas.展开更多
In the field of specific emitter identification(SEI),power amplifiers(PAs)have long been recognized as significant contributors to unintentional modulation characteristics.To enhance signal quality,digital pre-distort...In the field of specific emitter identification(SEI),power amplifiers(PAs)have long been recognized as significant contributors to unintentional modulation characteristics.To enhance signal quality,digital pre-distortion(DPD)techniques are commonly employed in practical applications to mitigate the nonlinear effects of PAs.However,DPD techniques may diminish the distinctive characteristics of individual transmitters,potentially compromising SEI performance.This study investigates the influence of SEI in the presence of DPD applied to PAs.We construct a semi-physical emitter platform using AD9361 and ZYNQ,incorporating memory and non-memory models to emulate an amplification system comprising DPD devices and PAs.Furthermore,we delve into the analysis and evaluation of LMS-based and QRDRLS-based DPD algorithms to ascertain their efficacy in compensating for amplifier nonlinearity.Finally,we conduct a comprehensive set of experiments to demonstrate the adverse impact of DPD techniques on SEI.Our findings demonstrate a direct correlation between the degree of DPD performance and its impact magnitude on SEI,thereby providing a foundational basis for future studies investigating SEI techniques under DPD.展开更多
Extensive experiments suggest that kurtosis-based fingerprint features are effective for specific emitter identification (SEI). Nevertheless, the lack of mechanistic explanation restricts the use of fingerprint featur...Extensive experiments suggest that kurtosis-based fingerprint features are effective for specific emitter identification (SEI). Nevertheless, the lack of mechanistic explanation restricts the use of fingerprint features to a data-driven technique and fur-ther reduces the adaptability of the technique to other datasets. To address this issue, the mechanism how the phase noise of high-frequency oscillators and the nonlinearity of power ampli-fiers affect the kurtosis of communication signals is investigated. Mathematical models are derived for intentional modulation (IM) and unintentional modulation (UIM). Analysis indicates that the phase noise of high-frequency oscillators and the nonlinearity of power amplifiers affect the kurtosis frequency and amplitude, respectively. A novel SEI method based on frequency and ampli-tude of the signal kurtosis (FA-SK) is further proposed. Simula-tion and real-world experiments validate theoretical analysis and also confirm the efficiency and effectiveness of the proposed method.展开更多
Oral squamous cell carcinoma(OSCC)progresses from preneoplastic precursors via genetic and epigenetic alterations.Previous studies have focused on the treatment of terminally developed OSCC.However,the role of epigene...Oral squamous cell carcinoma(OSCC)progresses from preneoplastic precursors via genetic and epigenetic alterations.Previous studies have focused on the treatment of terminally developed OSCC.However,the role of epigenetic regulators as therapeutic targets during the transition from preneoplastic precursors to OSCC has not been well studied.Our study identified lysine-specific demethylase 1(LSD1)as a crucial promoter of OSCC,demonstrating that its knockout or pharmacological inhibition in mice reversed OSCC preneoplasia.LSD1 inhibition by SP2509 disrupted cell cycle,reduced immunosuppression,and enhanced CD4+and CD8+T-cell infiltration.In a feline model of spontaneous OSCC,a clinical LSD1 inhibitor(Seclidemstat or SP2577)was found to be safe and effectively inhibit the STAT3 network.Mechanistic studies revealed that LSD1 drives OSCC progression through STAT3 signaling,which is regulated by phosphorylation of the cell cycle mediator CDK7 and immunosuppressive CTLA4.Notably,LSD1 inhibition reduced the phosphorylation of CDK7 at Tyr170 and eIF4B at Ser422,offering insights into a novel mechanism by which LSD1 regulates the preneoplastic-to-OSCC transition.This study provides a deeper understanding of OSCC progression and highlights LSD1 as a potential therapeutic target for controlling OSCC progression from preneoplastic lesions.展开更多
Ti-based bulk metallic glasses(BMGs)have attracted increasing attention due to their high specific strength.However,a fundamental conflict exists between the specific strength and glass-forming ability(GFA)of Ti-based...Ti-based bulk metallic glasses(BMGs)have attracted increasing attention due to their high specific strength.However,a fundamental conflict exists between the specific strength and glass-forming ability(GFA)of Ti-based BMGs,restricting their commercial applications significantly.In this study,this challenge was addressed by introducing a two-step alloying strategy to mitigate the remarkable density increment effect associated with heavy alloying elements required for enhancing the GFA.Consequently,through two-step alloying with Al and Fe in sequence,simultaneous enhancements in specific strength and GFA were achieved based on a Ti-Zr-Be ternary metallic glass,resulting in the development of a series of centimeter-sized metallic glasses exhibiting ultrahigh-specific strength.Notably,the newly developed(Ti_(45)Zr_(20)Be_(31)A_(l4))_(94)Fe_(6)alloy established a new record for the specific strength of Ti-based BMGs.Along with a critical diameter(D_(c))of 10 mm,it offers the optimal scheme for balancing the specific strength and GFA of Ti-based BMGs.The present results further brighten the application prospects of Ti-based BMGs as lightweight materials.展开更多
This study explores the broad-spectrum application of OsRALF26,a small secreted peptide belonging to the rapid alkalinization factor(RALF)family in rice.We found that the rice genome carries numerous lineage-specific ...This study explores the broad-spectrum application of OsRALF26,a small secreted peptide belonging to the rapid alkalinization factor(RALF)family in rice.We found that the rice genome carries numerous lineage-specific OsRALFs,suggesting that this evolutionary expansion could be the result of an arms race with pathogens.Among them,we focused on the Oryza-specific Os RALF26 and its closest homolog,OsRALF27,analyzing their effects across a range of plant species from monocots to dicots.The exogenous application of OsRALF26 significantly reduced bacterial populations in rice challenged with Xanthomonas oryzae pv.oryzae(Xoo)and in Arabidopsis and tomato challenged with Pseudomonas syringae pv.tomato DC3000(Pst DC3000),whereas Os RALF27 did not enhance resistance.展开更多
Iodine is an essential element for the synthesis of thyroid hormones.Iodine deficiency increases the burden on thyroid function and causes harm to health.The identification of convenient and reliable biomarkers for as...Iodine is an essential element for the synthesis of thyroid hormones.Iodine deficiency increases the burden on thyroid function and causes harm to health.The identification of convenient and reliable biomarkers for assessing iodine nutritional status is essential for evaluating iodine intake.Urinary iodine concentration(UIC)is commonly used for population level iodine status assessment but is less reliable for individuals.A 24-h urine sample is more accurate but difficult to collect[1].Thyroid volume(Tvol)and goiter rate are suitable for evaluating the long-term iodine nutritional status in populations[2].Blood indicator collection is an invasive procedure.展开更多
基金supported by Central Public-interest Scientific Institution Basal Research Fund(CATAS-Nos.1630152023007,1630152023011,1630152023012,1630152023013)the National Natural Science Foundation of China(Grant No.32071805).
文摘Coconut(Cocos nucifera L.),a major oil and fruit crop of the Arecaceae family,is extensively cultivated across the Asia—Pacific region.Despite its agricultural importance,genome assembly in coconut remains challenging due to its large genome size and high proportion of repetitive sequences.Allele-specific expression(ASE)plays a key role in regulating plant development and evolution,yet research on ASE in coconut is limited(Shao et al.,2019;Li et al.,2021;Zhang et al.,2021;Hu et al.,2022).Among phenotypic traits,fruit color is especially important as an indicator of maturity,guiding harvest timing and post-harvest processes(Kapoor et al.,2022).While prior studies have explored various coconut traits such as salt tolerance,fiber content,and plant height(Wang et al.,2021;Yang et al.,2021),investigations into ASE and fruit color remain scarce.
基金the National 973 Program of China,No.2006CB504505the National Natural Science Foundation of China,No.90709027
文摘Positive activation and negative activation of glucose metabolism can be detected in different brain regions under acupuncture conditions using functional magnetic resonance imaging (fMRI) which reveals acupoint function and location-acupoint specificity. This study observed the regional cerebral activation of the Waiguan (SJ 5) acupoint following true needling at the true Waiguan acupoint, sham needling at the true Waiguan acupoint and true needling at a sham point using fMRI. The fMRI results demonstrated that compared with sham needling, true needling at Waiguan activated the BA8 area and left cerebellum. Compared with needling at the sham point, needling at Waiguan activated the BA2 area, the left cerebellum and the right inferior semilunar lobule. Thus the activated brain areas caused by needling Waiguan may be the basis for treatment of certain diseases.
文摘The axis tlhesis of this paper is that, today, it is ESP (English for Specific Purposes) in particular, rather than General English, that is the agent of the spread of globalization. Currently, ESP is witnessing an unprecedented spread, to a point of almost taking over the relevance and frequency of teaching of General English. Hereby, we look at the phenomenon of globalization as a social concept that demands of education that students are taught performativity, therefore just skills needed for the global economy functioning, and not education as a move towards change, refinement, and individuation of a personality. ESP is taught as a sort of socially neutral language, as it presumably deals only with the language of some specific science or profession. Relying on the relevant work of the acclaimed social theorists, it is our claim that as there is no socially and/or ideologically neutral language, and that this fact applies for ESP. It is because of this, that we hereby advocate a strong and urgent need for the application of critical pedagogy and critical literacy stances in the practice of ESP, and we give some broad directions of how that can be achieved.
文摘This paper aims at strengthening teachers’understanding as well as optimizing future curriculum design of ESP(Eng⁃lish Specific Purpose).According to the literature ESP is one of the means for language learning and teaching,which is based on learners’needs.By adopting needs analysis,teachers are able to deeply and appropriately understand the needs from students and the real-life settings like working places in society.According to the three cases that have been reviewed,there are always discrep⁃ancies between teaching and learning in the classroom,and the real-life needs of job requirements in society.Combining the curric⁃ulum design of ESP and the method of needs analysis is an effective way to close the discrepancy.
文摘Device-based measurements are recommended to improve population-based physical activity(PA)surveillance.1,2However,implementation remains challenging due to lack of consensus on analytical methods,and the most widely used“generic”(absolute intensity)cut-point approach has limited generalisability to population-level free-living data.Further,current methods generally fail to account for differences in people's physical capacity.
基金supported by the National Key Research and Development Project of China(Grant No.2022YFB3205500)the National Natural Science Foundation of China(Grant No.12275190,12105201)+2 种基金Jiangsu Funding Program for Excellent Postdoctoral Talent(Grant No.2024ZB723)the Shenzhen Research Funding Program(JCYJ20230807154402004)supported by the Collaborative Innovation Center of Suzhou Nano Science&Technology,the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD),the 111 Project,the Joint International Research Laboratory of Carbon-Based Functional Materials and Devices,and the Suzhou Key Laboratory of Functional Nano&Soft Materials and Soochow University-Western University Centre for Synchrotron Radiation Research.
文摘Conventional gas sensing materials(e.g.,metal oxides)suffer from deficient sensitivity and serve cross-sensitivity issues due to the lack of efficient adsorption sites.Herein,the heteroatom atomically doping strategy is demonstrated to significantly enhance the sensing performance of metal oxides-based gas sensing materials.Specifically,the Sn atoms were incorporated into porous Fe_(2)O_(3)in the form of atomically dispersed sites.As revealed by X-ray absorption spectroscopy and atomic-resolution scanning transmission electron microscopy,these Sn atoms successfully occupy the Fe sites in the Fe_(2)O_(3)lattice,forming the unique Sn-O-Fe sites.Compared to Fe-O-Fe sites(from bare Fe_(2)O_(3))and Sn-O-Sn sites(from SnO_(2)/Fe_(2)O_(3)with high Sn loading),the Sn-O-Fe sites on porous Fe_(2)O_(3)exhibit a superior sensitivity(Rg/Ra=2646.6)to 1 ppm NO_(2),along with dramatically increased selectivity and ultra-low limits of detection(10 ppb).Further theoretical calculations suggest that the strong adsorption of NO_(2)on Sn-O-Fe sites(N atom on Sn site,O atom on Fe site)contributes a more efficient gas response,compared to NO_(2)on Fe-O-Fe sites and other gases on Sn-O-Fe sites.Moreover,the incorporated Sn atoms reduce the bandgap of Fe_(2)O_(3),not only facilitating the electron release but also increasing the NO_(2)adsorption at a low working temperature(150°C).This work introduces an effective strategy to construct effective adsorption sites that show a unique response to specific gas molecules,potentially promoting the rational design of atomically modified gas sensing materials with high sensitivity and high selectivity.
文摘HLA-C,HLA-DP and HLA-DQ are thought to be benign due to low expression and few initial negative studies.Historically,most allocation programs used HLA-A,HLA-B and HLA-DR antigens for matching.With the advent and use of single-bead antigen assays,more was learned about donor-specific antibodies(DSAs)against these antigens.Interest in these antigens and antibodies grew when cases of acute antibody-mediated rejection(AMR),mixed rejections,chronic AMR,and reduced graft survival were reported with DSAs against these antigens.Although the deleterious effects of these DSAs are more pronounced in retransplants,harmful effects have also been observed in first-time recipients.DSAs against each of these antigens can trigger rejection alone.Their combination with DSAs against HLA-A,HLA-B and HLA-DR can cause more damage.It has been shown that strategies that reduce mismatches for these antigen lead to fewer rejections and better graft survival.There is a need for greater consensus on the universal typing of these antigens prior to transplantation for better patient and graft outcomes.This review focuses on the interaction of these antigens with lymphocytes and killer immunoglobulin receptors,arguments for not typing them,detailed analyses of the literature about their harmful effects,potential strategies moving forward,and recommendations for the future.
文摘Caffeine is a widely consumed stimulant known for its cardiovascular and metabolic effects.However,its impact on cardiovascular risk,including arrhythmias,in older adults remains underexplored.Emerging evidence highlights sex-specific differences in caffeine metabolism,which may influence its role in cardiovascular health.This perspective examines the interaction between caffeine,hormonal changes,metabolic processes,and lifestyle factors,focusing on older women compared to men.Understanding these differences is essential for tailoring dietary and clinical recommendations to mitigate cardiovascular risks and promote healthy aging.
基金Project supported by the National Key Research and Development Project of China(2022YFC2905202)Natural Science Foundation of Jiangxi Province(20232ACB204014)Youth Jinggang Scholars Program in Jiangxi Province(QNJG2019056)。
文摘The calcium-containing rare earth solution is generated during the recovery processes of NdFeB waste,which is treated as wastewater by enterprises.In this paper,the carbon dioxide carbonization method was applied to the separation of rare earths and calcium in the solution,as well as the preparation of rare earth oxides with a large specific surface.It is shown that the process of CO_(2)carbonization of solution includes reactions such as the dissolution,diffusion and ionization of CO_(2),the carbonate precipitation of rare earth ions,and the neutralization of hydrogen ions.At a pH of 4.5,the carbonization precipitation rate is effectively controlled,enabling homogeneous precipitation and ensuring both high precipitation yield and rare earth oxides purity.In this way,the crystallization of carbonization products is a process dominated by the oriented attachment theory and coexisting with the Ostwald ripening theory,resulting in abundant pores formed by multiple layers of stacking in the products.With the optimal carbonization conditions,the rare earth precipitation yield solution reaches 99.32%.The obtained carbonization products are crystalline(LaCe)(CO_(3))_(3)·8H_(2)O,and the purity of the rare earth oxides is as high as 99.22 wt%.The specific surface area of the rare earth oxides reaches 94.7 m^(2)/g,and its adsorption efficiency for tetracycline hydrochloride in solution can reach 92.6%in a short time.The rare earth oxides are expected to be used as an adsorption material for wastewater treatment and other adsorption environments.
基金financially supported by the Natural Science Foundation of Zhejiang Province(No.LR22E010001)the National Natural Science Foundation of China(No.52073258)+1 种基金the Fundamental Research Funds for the Provincial Universities of Zhejiang(No.RF-B2022006)the R&D Program of Zhejiang University of Technology(No.KYY-HX-20190730)
文摘Iron oxide nanoparticles(IONPs)with intrinsic peroxidase(POD)-mimic activity have gained significant attention as nanozymes.Reducing sizes of IONPs is the mostly applied strategy to boost their enzymatic activity due to their high specific surface areas.Herein,we synthesized a series of uniformly sized IONPs ranging from3.17 to 21.2 nm,and found that POD activity of IONPs is not monotone increased by reducing their sizes,with the optimal size of 7.82 nm rather than smaller sized 3.17 nm.The reason for this unnormal phenomenon is that electronic structure also had great influence on POD activity,especially at the ultrasmall size region.Since Fe^(2+)are with higher enzymatic activity than Fe^(3+),3.17 nm IONPs although have the largest specific surface area,are prone to be oxidized,which reduced their iron content and ratio of Fe^(2+)to Fe^(3+),and consequently decreased their POD activity.By intentionally oxidized 7.82 nm IONPs in air,POD activity was obviously reduced,illustrating electronic structure cannot be overlooked.At the larger sized region ranging from 7.82 to 21.2 nm,oxidation degree of IONPs is similar,and surface electronic structure had a negligible effect on POD activity,and therefore,POD activity is predominantly influenced by specific surface area.By using the optimized 7.82 nm IONPs,tumor growth was obviously inhibited,demonstrating their potential in cancer therapeutics.Our results reveal that the designing of nanozymes should comprehensively balance their influence of surface electronic structure and specific surface area.
基金supported by the National Key R&D Program of China(No.2021YFC2103600)the National Natural Science Foundation of China(Nos.22278224,22478191)+1 种基金the Project of Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)the State Key Laboratory of Materials Oriented Chemical Engineering(No.KL21-08)。
文摘Site-specific protein labeling plays important roles in drug discovery and illuminating biological processes at the molecular level.However,it is challenging to label proteins with high specificity while not affecting their structures and biochemical activities.Over the last few years,a variety of promising strategies have been devised that address these challenges including those that involve introduction of small-size peptide tags or unnatural amino acids(UAAs),chemical labeling of specific protein residues,and affinity-driven labeling.This review summarizes recent developments made in the area of site-specific protein labeling utilizing genetically encoding-and chemical-based methods,and discusses future issues that need to be addressed by researchers in this field.
基金funded by the National Natural Science Foundation of China(U22A20547)the Major Science and Technology Projects of Heilongjiang Province(2021ZX12B05 and 2020ZX07B02)。
文摘The present study monitored bacterial succession,physicochemical properties,and volatile organic compounds(VOCs)changes in smoked chicken legs with modified atmosphere packaging(MAP,60% CO_(2) and 40%N_(2))during a 25-day storage period at 4℃.After 15 days of storage,S erratia proteamaculans and Pseudomonas fragi became the predominant bacteria.Furthermore,physicochemical properties changed significantly,as evidenced by an increase in thiobarbituric acid reactive substances and b*(yellowness)value,and a decrease in hardness.A total of 65 VOCs were identified during storage.Correlation between bacterial succession and quality indicators(including VOCs and physicochemical properties)allowed the identification of 26 core dominant bacteria,including S.proteamaculans,Psychrobacter alimentarius,Pseudomonas putida,and Pseudomonas poae,which were positively related to spoilage VOCs(e.g.,1-octen-3-ol,1-pentanol,and 3-methyl-1-butanol)and could be defined as specific spoilage organisms(SSOs).The results of this study provide a systematic approach to predict SSOs in smoked chicken legs during storage,which can also provide a basis for product safety.
基金Projects(52372284,52275187,62004143)supported by the National Natural Science Foundation of ChinaProject(2022BAA084)supported by the Key R&D Program of Hubei Province,ChinaProject(232300421135)supported by the Natural Science Foundation of Henan Province,China。
文摘Mo_(2)CT_(x)MXene is a novel two-dimensional material,which is generally made by the etching of inorganic acid solutions,such as hydrofluoric acid(HF)or hydrochloric acid(HCl).Those solutions are always corrosive and hazardous.In this paper,a mild organic acid,acetic acid(CH_(3)COOH),was selected to synthesize Mo_(2)CT_(x)MXene.30 mL acetic acid(HAc)with the concentration of 13 mol/L was mixed with 2 g acetate(CH_(3)COONa or CH_(3)COOK)and 10 mL water to make etching solution(NaAc+HAc or KAc+HAc).In the solution,the concentration of CH_(3)COO^(-)was 10 mol/L,the concentration of Na^(+)/K^(+)is 0.6/0.5 mol/L.The pH value is 2.8.Mo_(2)CT_(x)was obtained by hydrothermal etching at 240℃for 1 d.Compared with the general method of HF etching,the etchant is milder and the etching process is safer.On the surface of Mo_(2)CT_(x)nanosheet made by this method,acetate group(CH_(3)COO^(-))was adsorbed as termination,which is larger than the F/O/OH termination of that made by general HF etching.The lattice parameter c(LP c)of Mo_(2)CT_(x)etched with NaAc+HAc/KAc+HAc is 21.09Å/20.89Å.Moreover,the specific surface areas of the samples etched by NaAc+HAc and KAc+HAc were 18.1 m^(2)/g and 14.1 m^(2)/g,respectively,which were much larger than those etched by conventional methods.As the anode of lithium-ion battery,the specific capacity under current density of 100 mA/g at 100 th cycle was 108 mA·h/g,which is higher than the capacity of samples made by general HF etching.This work reports a novel method to make Mo_(2)CT_(x)MXene by the solution of mild acetic acid.The samples made by this method had very high specific surface area and relatively high lithium-storage performance.
文摘This mixed-methods study presents a needs analysis to investigate the workplace English language needs of medical students in China who are learning and using English as non-native speakers,the circumstances in which the various language skills are required,and stakeholders’perceived workplace preparedness in the light of language-related instructional provision during medical training.A leading university in China was chosen as the study case.Altogether,294 online questionnaires were collected from undergraduate medical students,graduate medical students and recent graduates working as physicians,and 33 semi-structured individual interviews were conducted with undergraduate medical students,graduate medical students,recent graduates working as physicians,medical teachers,English for Medical Purposes(EMP)teachers,program leaders and English-speaking patients.Results showed that in addition to physicians experiencing pressure to publish scientific articles internationally,participants attached greater importance to physicians’oral English communication ability,especially in undertaking clinical consultations in English,working with medical interpreters or acting as ad hoc interpreters.The participants also reported a lack of relevant EMP courses or trainings available at this university.Given these communicative events that physicians face in China,EMP courses need to include training in these specific areas.
基金supported by the National Natural Science Foundation of China under Grant No.61671185 and 62071153.
文摘In the field of specific emitter identification(SEI),power amplifiers(PAs)have long been recognized as significant contributors to unintentional modulation characteristics.To enhance signal quality,digital pre-distortion(DPD)techniques are commonly employed in practical applications to mitigate the nonlinear effects of PAs.However,DPD techniques may diminish the distinctive characteristics of individual transmitters,potentially compromising SEI performance.This study investigates the influence of SEI in the presence of DPD applied to PAs.We construct a semi-physical emitter platform using AD9361 and ZYNQ,incorporating memory and non-memory models to emulate an amplification system comprising DPD devices and PAs.Furthermore,we delve into the analysis and evaluation of LMS-based and QRDRLS-based DPD algorithms to ascertain their efficacy in compensating for amplifier nonlinearity.Finally,we conduct a comprehensive set of experiments to demonstrate the adverse impact of DPD techniques on SEI.Our findings demonstrate a direct correlation between the degree of DPD performance and its impact magnitude on SEI,thereby providing a foundational basis for future studies investigating SEI techniques under DPD.
基金supported by the Youth Science and Technology Innovation Award of National University of Defense Technology (18/19-QNCXJ)the National Science Foundation of China (62271494)
文摘Extensive experiments suggest that kurtosis-based fingerprint features are effective for specific emitter identification (SEI). Nevertheless, the lack of mechanistic explanation restricts the use of fingerprint features to a data-driven technique and fur-ther reduces the adaptability of the technique to other datasets. To address this issue, the mechanism how the phase noise of high-frequency oscillators and the nonlinearity of power ampli-fiers affect the kurtosis of communication signals is investigated. Mathematical models are derived for intentional modulation (IM) and unintentional modulation (UIM). Analysis indicates that the phase noise of high-frequency oscillators and the nonlinearity of power amplifiers affect the kurtosis frequency and amplitude, respectively. A novel SEI method based on frequency and ampli-tude of the signal kurtosis (FA-SK) is further proposed. Simula-tion and real-world experiments validate theoretical analysis and also confirm the efficiency and effectiveness of the proposed method.
基金NIH/NIDCR grant R01 DE031413 and CTSA pilot grant UL1TR001430 to Manish V.Bais.
文摘Oral squamous cell carcinoma(OSCC)progresses from preneoplastic precursors via genetic and epigenetic alterations.Previous studies have focused on the treatment of terminally developed OSCC.However,the role of epigenetic regulators as therapeutic targets during the transition from preneoplastic precursors to OSCC has not been well studied.Our study identified lysine-specific demethylase 1(LSD1)as a crucial promoter of OSCC,demonstrating that its knockout or pharmacological inhibition in mice reversed OSCC preneoplasia.LSD1 inhibition by SP2509 disrupted cell cycle,reduced immunosuppression,and enhanced CD4+and CD8+T-cell infiltration.In a feline model of spontaneous OSCC,a clinical LSD1 inhibitor(Seclidemstat or SP2577)was found to be safe and effectively inhibit the STAT3 network.Mechanistic studies revealed that LSD1 drives OSCC progression through STAT3 signaling,which is regulated by phosphorylation of the cell cycle mediator CDK7 and immunosuppressive CTLA4.Notably,LSD1 inhibition reduced the phosphorylation of CDK7 at Tyr170 and eIF4B at Ser422,offering insights into a novel mechanism by which LSD1 regulates the preneoplastic-to-OSCC transition.This study provides a deeper understanding of OSCC progression and highlights LSD1 as a potential therapeutic target for controlling OSCC progression from preneoplastic lesions.
基金supported by the National Natural Science Foundation of China(Nos.52271148 and 51871129).
文摘Ti-based bulk metallic glasses(BMGs)have attracted increasing attention due to their high specific strength.However,a fundamental conflict exists between the specific strength and glass-forming ability(GFA)of Ti-based BMGs,restricting their commercial applications significantly.In this study,this challenge was addressed by introducing a two-step alloying strategy to mitigate the remarkable density increment effect associated with heavy alloying elements required for enhancing the GFA.Consequently,through two-step alloying with Al and Fe in sequence,simultaneous enhancements in specific strength and GFA were achieved based on a Ti-Zr-Be ternary metallic glass,resulting in the development of a series of centimeter-sized metallic glasses exhibiting ultrahigh-specific strength.Notably,the newly developed(Ti_(45)Zr_(20)Be_(31)A_(l4))_(94)Fe_(6)alloy established a new record for the specific strength of Ti-based BMGs.Along with a critical diameter(D_(c))of 10 mm,it offers the optimal scheme for balancing the specific strength and GFA of Ti-based BMGs.The present results further brighten the application prospects of Ti-based BMGs as lightweight materials.
基金supported by the National Research Foundation of Korea grant funded by the Korea government(Grant Nos.NRF-2020R1A2C1007778 and RS-2024-00454908)。
文摘This study explores the broad-spectrum application of OsRALF26,a small secreted peptide belonging to the rapid alkalinization factor(RALF)family in rice.We found that the rice genome carries numerous lineage-specific OsRALFs,suggesting that this evolutionary expansion could be the result of an arms race with pathogens.Among them,we focused on the Oryza-specific Os RALF26 and its closest homolog,OsRALF27,analyzing their effects across a range of plant species from monocots to dicots.The exogenous application of OsRALF26 significantly reduced bacterial populations in rice challenged with Xanthomonas oryzae pv.oryzae(Xoo)and in Arabidopsis and tomato challenged with Pseudomonas syringae pv.tomato DC3000(Pst DC3000),whereas Os RALF27 did not enhance resistance.
基金supported by the National Natural Science Foundation of China(Grant numbers 82204041)Gansu Provincial Science and Technology Program Funded Projects(Grant numbers 22JR11RA184).
文摘Iodine is an essential element for the synthesis of thyroid hormones.Iodine deficiency increases the burden on thyroid function and causes harm to health.The identification of convenient and reliable biomarkers for assessing iodine nutritional status is essential for evaluating iodine intake.Urinary iodine concentration(UIC)is commonly used for population level iodine status assessment but is less reliable for individuals.A 24-h urine sample is more accurate but difficult to collect[1].Thyroid volume(Tvol)and goiter rate are suitable for evaluating the long-term iodine nutritional status in populations[2].Blood indicator collection is an invasive procedure.
