This paper systematically reviews the research progress of Advance Care Planning(ACP)in the field of lung cancer,and discusses its implementation status,key influencing factors and future development direction,includi...This paper systematically reviews the research progress of Advance Care Planning(ACP)in the field of lung cancer,and discusses its implementation status,key influencing factors and future development direction,including deepening of theoretical research,innovation of practice mode,optimization of policy support and cultural adaptation research.展开更多
Global Navigation Satellite System(GNSS)-based continuous and accurate train positioning is one of the key technologies for advanced train operations such as train virtual coupling.However,GNSS-based train positioning...Global Navigation Satellite System(GNSS)-based continuous and accurate train positioning is one of the key technologies for advanced train operations such as train virtual coupling.However,GNSS-based train positioning faces significant challenges in real-world scenarios due to environmental complexities and signal interferences.Considering this issue,this paper presents an approach for modeling and performance analysis of GNSS-based train positioning systems using Colored Petri Nets(CPNs).By systematically modeling the GNSS signal reception and processing process,the performance of the positioning system under various environment scenarios is evaluated.The system model integrates three types of interference signals(i.e.,Amplitude Modulation(AM)signals,Frequency Modulation(FM)signals,and pulse signals)while incorporating environmental factors such as terrain obstructions and tunnel shielding.Additionally,the Extended Kalman Filter(EKF)algorithm is employed to process GNSS observation data,providing accurate train position estimations.The simulation results demonstrate that signal interferences and complex environmental conditions significantly affect the GNSS-based positioning accuracy.This study offers a comprehensive framework for evaluating the performance of GNSS-based train positioning systems in different scenarios,highlighting critical factors that influence positioning accuracy and stability.展开更多
The ecdysone-induced transcription factor E93 in model insects plays multiple roles in the insect metamorphosis processes,such as remodeling larval tissues and determining adult tissue formation.The knockdown of E93in...The ecdysone-induced transcription factor E93 in model insects plays multiple roles in the insect metamorphosis processes,such as remodeling larval tissues and determining adult tissue formation.The knockdown of E93in insects leads to incomplete metamorphosis,suggesting that E93 is a potential target for pest control.In this study,the HaE93 gene in the cotton bollworm Helicoverpa armigera,a polyphagous pest of various commercial crops worldwide,was identified and found to have high expression in the egg,prepupal,and pupal stages.The injection of ds HaE93 induced about 60%mortality in H.armigera at the larval-pupal stage.About 30%survived but showed delayed pupation and abnormal wings,and the females developed reduced ovaries.Therefore,about 90%of the HaE93 knockdown individuals failed to reproduce before they died.The results of qRT-PCR showed that the expression levels of ecdysone primary-response genes,chitin synthesis-related genes,and wing and ovary development-related genes were reduced in HaE93 knockdown H.armigera.These results indicated that HaE93plays a critical role in larva-pupa-adult metamorphosis and the development of the cuticle,wing,and ovary in female H.armigera by regulating the expression of the associated genes.Bioassays of ds HaE93 administered by either oral delivery or injection showed similar knockdown results,which suggested that HaE93 can be used as a target gene for the RNAi control of the pest H.armigera.展开更多
Multifunctional drug delivery systems(DDSs)have shown great prospects in overcoming the heterogeneous barrier of delivery drugs to the complex tumor microenvironment(TME).In this study,multifunctional AS/Ge-pNAB micro...Multifunctional drug delivery systems(DDSs)have shown great prospects in overcoming the heterogeneous barrier of delivery drugs to the complex tumor microenvironment(TME).In this study,multifunctional AS/Ge-pNAB microgels with dual-active targeting,triple environment responsiveness,and fluorescence imaging capability were prepared through a straightforward procedure.This was aimed to improve the antitumor therapeutic application of gambogic acid(GA)based on the biological characteristics of TME.The microgels have a uniform double-layer structure with aptamer in the outer layer which helps in recognizing receptors on the tumor cells.The GA loaded nano-herb exhibited environment-responsive drug release profiles under acidic pH,reductant and high temperature.The nano-herb significantly improved the accumulation of GA in tumor sites through the synergistic combination of the enhanced permeability and retention effect and dual-ligand mediated internalization.Then,it accelerated intracellular drug release and killed tumor cells.Therefore,the nano-herb had specific therapeutic effects on the tumor in vitro and in vivo as they remarkably inhibited tumor growth while depicting optimal biosafety and lower levels of off-target toxicity.Overall,these findings demonstrate the great potential of the multifunctional AS/Ge-pNAB microgels for precisely targeted GA delivery and open a new avenue for the facile preparation of multifunctional DDSs.展开更多
Urban-rural integration (URI) is a global challenge that is highly related to inequalities, poverty, economic growth, and other Sustainable Development Goals (SDGs). Existing research has evaluated the extent of URI a...Urban-rural integration (URI) is a global challenge that is highly related to inequalities, poverty, economic growth, and other Sustainable Development Goals (SDGs). Existing research has evaluated the extent of URI and explored its influencing factors, but urban-rural linkages are seldom incorporated in evaluation systems, and geographical factors are rarely recognized as the influencing factors. We construct a URI framework including regional economy, rural development, urban-rural linkage, and urban-rural gap. Based on a dataset consisting of 1,669 counties in China in 2020, we reveal the spatial pattern of URI and find a high correlation between the spatial pattern of URI and the relief degree of land surface (RDLS). Using structural equation modeling, we discover that topography has direct ( − 0.18, p < 0.001) and indirect ( − 0.17, p < 0.001) effects on URI. The indirect negative effects are mediated through the infrastructure, and the combination of localized advantages and modern technical conditions could mitigate the negative impact of topography. Finally, we identify 742 counties as lagging regions in URI, which can be clustered into eight types. Our findings could facilitate policy designing for those countries striving for integrated and sustainable development of urban and rural areas.展开更多
Dear Editor Legumes,the second-largest family of crops,contribute over one-third of human dietary proteins.Soybean(Glycine max L.),common bean(Phaseolus vulgaris L.),pea(Pisum sativum L.),and cowpea(Vigna unguiculata ...Dear Editor Legumes,the second-largest family of crops,contribute over one-third of human dietary proteins.Soybean(Glycine max L.),common bean(Phaseolus vulgaris L.),pea(Pisum sativum L.),and cowpea(Vigna unguiculata L.)are among the most widely culti-vated crop legumes for grain and vegetable and are essential for food security globally.展开更多
Upon recognizing elicitors derived from herbivores,many plants activate specific defenses.Most of the elicitors identified thus far are from the oral secretions and egg-laying fluids of herbivores;in contrast,herbivor...Upon recognizing elicitors derived from herbivores,many plants activate specific defenses.Most of the elicitors identified thus far are from the oral secretions and egg-laying fluids of herbivores;in contrast,herbivore fecal excreta have been sparsely studied in this context.In this study,we identified elicitors in the frass of the striped stem borer(SSB;Chilo suppressalis)larvae using a combination of molecular and chemical analyses,bioactivity tests and insect performance bioassays.Treating rice plants with SSB frass or a solution composed of SSB frass and buffer elicited mitogen-activated protein kinase(MPK)cascades and the jasmonic acid(JA)-signaling pathway.Moreover,the treatment induced both the expression of defense-related genes and the production of defensive compounds,and enhanced the resistance of rice plants to SSB.Heating SSB frass solution did not affect its induction activity,but eliminating proteins and peptides from the solution by adding proteinase K impaired its activity.Additional chemical analyses and bioassays revealed that the rice phytocytokine,immune response peptide 1(IRP1),together with some of its derived peptides in SSB frass,induced the MPK cascades,JA biosynthesis,the expression of defense genes and the production of defensive compounds in rice.These results reveal an important role for the plant-derived fecal peptide phytocytokine IRP1 and some of its derived peptides in inducing defenses in rice against SSB.展开更多
This article first reviews the basic concepts and theoretical frameworks of empathic ability.Subsequently,it analyzes the characteristics of student nurses'empathic ability,its measurement methods,and influencing ...This article first reviews the basic concepts and theoretical frameworks of empathic ability.Subsequently,it analyzes the characteristics of student nurses'empathic ability,its measurement methods,and influencing factors,and explores effective strategies for enhancing it.Finally,this paper summarizes the impact of student nurses'empathic ability on nursing practice,professional development,and emotional health,and proposes directions for future research.Through the integration and analysis of existing literature,this study provides nursing educators with a solid theoretical foundation and practical guidance for enhancing student nurses'empathic ability.展开更多
In this work,a novel fluorescent biosensor has been constructed for rapid detection of Cu(Ⅱ)via the interaction between the fluorophore groups on the surface of nitrogen-doped-carbon-dots(N-CDs)and·OH produced f...In this work,a novel fluorescent biosensor has been constructed for rapid detection of Cu(Ⅱ)via the interaction between the fluorophore groups on the surface of nitrogen-doped-carbon-dots(N-CDs)and·OH produced from the catalytic reaction between Cu(Ⅱ)and cysteine(Cys).Specifically,Cu(Ⅱ)can catalyze the oxidation of Cys to form cystine(Cys–Cys)and hydrogen peroxide(H_(2)O_(2)),and Cu(Ⅱ)can also catalyze the decomposition of H_(2)O_(2)to produce hydroxyl radicals(·OH)by the Fenton-like reaction.·OH can oxidize and destroy the surface structure of N-CDs,resulting in the fluorescence quenching of the N-CDs.Under the optimal experimental conditions,the linear range of Cu(Ⅱ)is determined to be 0.05–25μmol L_(-1,),and the limit of detection is 23 nmol L^(-1)with the limit of quantitation of 77 nmol L^(-1).Besides,some characterizations are provided to verify the proposed principle.The method has been successfully applied for the detection of Cu(Ⅱ)in human serum and environmental water with high sensitivity and higher selectivity.展开更多
基金Supported by National Natural Science Foundation of China(71774049).
文摘This paper systematically reviews the research progress of Advance Care Planning(ACP)in the field of lung cancer,and discusses its implementation status,key influencing factors and future development direction,including deepening of theoretical research,innovation of practice mode,optimization of policy support and cultural adaptation research.
基金supported by the National Key Research and Development Program of China(2023YFB3907300)the Fundamental Research Funds for the Central Universities(2024JBMC002)the National Natural Science Foundation of China(T2222015,U2268206).
文摘Global Navigation Satellite System(GNSS)-based continuous and accurate train positioning is one of the key technologies for advanced train operations such as train virtual coupling.However,GNSS-based train positioning faces significant challenges in real-world scenarios due to environmental complexities and signal interferences.Considering this issue,this paper presents an approach for modeling and performance analysis of GNSS-based train positioning systems using Colored Petri Nets(CPNs).By systematically modeling the GNSS signal reception and processing process,the performance of the positioning system under various environment scenarios is evaluated.The system model integrates three types of interference signals(i.e.,Amplitude Modulation(AM)signals,Frequency Modulation(FM)signals,and pulse signals)while incorporating environmental factors such as terrain obstructions and tunnel shielding.Additionally,the Extended Kalman Filter(EKF)algorithm is employed to process GNSS observation data,providing accurate train position estimations.The simulation results demonstrate that signal interferences and complex environmental conditions significantly affect the GNSS-based positioning accuracy.This study offers a comprehensive framework for evaluating the performance of GNSS-based train positioning systems in different scenarios,highlighting critical factors that influence positioning accuracy and stability.
基金supported by the National Natural Science Foundation of China(32001912 and 32370525)the Henan Provincial Natural Science Foundation,China(232300420012)。
文摘The ecdysone-induced transcription factor E93 in model insects plays multiple roles in the insect metamorphosis processes,such as remodeling larval tissues and determining adult tissue formation.The knockdown of E93in insects leads to incomplete metamorphosis,suggesting that E93 is a potential target for pest control.In this study,the HaE93 gene in the cotton bollworm Helicoverpa armigera,a polyphagous pest of various commercial crops worldwide,was identified and found to have high expression in the egg,prepupal,and pupal stages.The injection of ds HaE93 induced about 60%mortality in H.armigera at the larval-pupal stage.About 30%survived but showed delayed pupation and abnormal wings,and the females developed reduced ovaries.Therefore,about 90%of the HaE93 knockdown individuals failed to reproduce before they died.The results of qRT-PCR showed that the expression levels of ecdysone primary-response genes,chitin synthesis-related genes,and wing and ovary development-related genes were reduced in HaE93 knockdown H.armigera.These results indicated that HaE93plays a critical role in larva-pupa-adult metamorphosis and the development of the cuticle,wing,and ovary in female H.armigera by regulating the expression of the associated genes.Bioassays of ds HaE93 administered by either oral delivery or injection showed similar knockdown results,which suggested that HaE93 can be used as a target gene for the RNAi control of the pest H.armigera.
基金financially supported by the National Natural Science Foundation of China(Nos.21907076 and 31901908)Natural Science Foundation of Tianjin(No.22JCQNJC01570)Scientific Project of Tianjin Municipal Education Commission(No.2022KJ026).
文摘Multifunctional drug delivery systems(DDSs)have shown great prospects in overcoming the heterogeneous barrier of delivery drugs to the complex tumor microenvironment(TME).In this study,multifunctional AS/Ge-pNAB microgels with dual-active targeting,triple environment responsiveness,and fluorescence imaging capability were prepared through a straightforward procedure.This was aimed to improve the antitumor therapeutic application of gambogic acid(GA)based on the biological characteristics of TME.The microgels have a uniform double-layer structure with aptamer in the outer layer which helps in recognizing receptors on the tumor cells.The GA loaded nano-herb exhibited environment-responsive drug release profiles under acidic pH,reductant and high temperature.The nano-herb significantly improved the accumulation of GA in tumor sites through the synergistic combination of the enhanced permeability and retention effect and dual-ligand mediated internalization.Then,it accelerated intracellular drug release and killed tumor cells.Therefore,the nano-herb had specific therapeutic effects on the tumor in vitro and in vivo as they remarkably inhibited tumor growth while depicting optimal biosafety and lower levels of off-target toxicity.Overall,these findings demonstrate the great potential of the multifunctional AS/Ge-pNAB microgels for precisely targeted GA delivery and open a new avenue for the facile preparation of multifunctional DDSs.
基金the National Natural Science Foundation of China(Grants No.T2261129477 and 41971220)the Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDA23070300).
文摘Urban-rural integration (URI) is a global challenge that is highly related to inequalities, poverty, economic growth, and other Sustainable Development Goals (SDGs). Existing research has evaluated the extent of URI and explored its influencing factors, but urban-rural linkages are seldom incorporated in evaluation systems, and geographical factors are rarely recognized as the influencing factors. We construct a URI framework including regional economy, rural development, urban-rural linkage, and urban-rural gap. Based on a dataset consisting of 1,669 counties in China in 2020, we reveal the spatial pattern of URI and find a high correlation between the spatial pattern of URI and the relief degree of land surface (RDLS). Using structural equation modeling, we discover that topography has direct ( − 0.18, p < 0.001) and indirect ( − 0.17, p < 0.001) effects on URI. The indirect negative effects are mediated through the infrastructure, and the combination of localized advantages and modern technical conditions could mitigate the negative impact of topography. Finally, we identify 742 counties as lagging regions in URI, which can be clustered into eight types. Our findings could facilitate policy designing for those countries striving for integrated and sustainable development of urban and rural areas.
基金This work was supported by the National Key Research&Development Program of China(2022YFE0198000)the National Nature Science Foundation of China(32202470,32202521)+1 种基金the State Key Laboratory for Managing Biotic and Chemical Threats to the Quality and Safety of Agro-products(2021 DC700024-KF202217)the Natural Science Foundation of Zhejiang Province(LQ21C150004).
文摘Dear Editor Legumes,the second-largest family of crops,contribute over one-third of human dietary proteins.Soybean(Glycine max L.),common bean(Phaseolus vulgaris L.),pea(Pisum sativum L.),and cowpea(Vigna unguiculata L.)are among the most widely culti-vated crop legumes for grain and vegetable and are essential for food security globally.
基金sponsored by the National Natural Science Foundation of China(31930091)the earmarked fund for China AgricultureResearch System(CARS-01-43).
文摘Upon recognizing elicitors derived from herbivores,many plants activate specific defenses.Most of the elicitors identified thus far are from the oral secretions and egg-laying fluids of herbivores;in contrast,herbivore fecal excreta have been sparsely studied in this context.In this study,we identified elicitors in the frass of the striped stem borer(SSB;Chilo suppressalis)larvae using a combination of molecular and chemical analyses,bioactivity tests and insect performance bioassays.Treating rice plants with SSB frass or a solution composed of SSB frass and buffer elicited mitogen-activated protein kinase(MPK)cascades and the jasmonic acid(JA)-signaling pathway.Moreover,the treatment induced both the expression of defense-related genes and the production of defensive compounds,and enhanced the resistance of rice plants to SSB.Heating SSB frass solution did not affect its induction activity,but eliminating proteins and peptides from the solution by adding proteinase K impaired its activity.Additional chemical analyses and bioassays revealed that the rice phytocytokine,immune response peptide 1(IRP1),together with some of its derived peptides in SSB frass,induced the MPK cascades,JA biosynthesis,the expression of defense genes and the production of defensive compounds in rice.These results reveal an important role for the plant-derived fecal peptide phytocytokine IRP1 and some of its derived peptides in inducing defenses in rice against SSB.
基金Supported by National Natural Science Foundation of China(71774049).
文摘This article first reviews the basic concepts and theoretical frameworks of empathic ability.Subsequently,it analyzes the characteristics of student nurses'empathic ability,its measurement methods,and influencing factors,and explores effective strategies for enhancing it.Finally,this paper summarizes the impact of student nurses'empathic ability on nursing practice,professional development,and emotional health,and proposes directions for future research.Through the integration and analysis of existing literature,this study provides nursing educators with a solid theoretical foundation and practical guidance for enhancing student nurses'empathic ability.
基金financially supported by the National Natural Science Foundation of China(21775026,21904020,21974020)the Program for Changjiang Scholars and Innovative Research Team in University(IRT15R11)+2 种基金the cooperative project of production and study in the University of Fujian Province(2018Y4007)the Sciences Foundation of Fujian Province(2018J05018,2018J01685,2018J01682)“Thirteenth Five-Year Plan”Marine Economy Innovation and Development Demonstration Project(FZHJ19)
文摘In this work,a novel fluorescent biosensor has been constructed for rapid detection of Cu(Ⅱ)via the interaction between the fluorophore groups on the surface of nitrogen-doped-carbon-dots(N-CDs)and·OH produced from the catalytic reaction between Cu(Ⅱ)and cysteine(Cys).Specifically,Cu(Ⅱ)can catalyze the oxidation of Cys to form cystine(Cys–Cys)and hydrogen peroxide(H_(2)O_(2)),and Cu(Ⅱ)can also catalyze the decomposition of H_(2)O_(2)to produce hydroxyl radicals(·OH)by the Fenton-like reaction.·OH can oxidize and destroy the surface structure of N-CDs,resulting in the fluorescence quenching of the N-CDs.Under the optimal experimental conditions,the linear range of Cu(Ⅱ)is determined to be 0.05–25μmol L_(-1,),and the limit of detection is 23 nmol L^(-1)with the limit of quantitation of 77 nmol L^(-1).Besides,some characterizations are provided to verify the proposed principle.The method has been successfully applied for the detection of Cu(Ⅱ)in human serum and environmental water with high sensitivity and higher selectivity.
