Background The deposition of intramuscular fat(IMF)in livestock can enhance the flavor and tenderness of meat products,significantly increasing consumer satisfaction.To achieve this industrial trait,this study investi...Background The deposition of intramuscular fat(IMF)in livestock can enhance the flavor and tenderness of meat products,significantly increasing consumer satisfaction.To achieve this industrial trait,this study investigated the regulatory effects of 20 dietary nutrients on sheep IMF deposition using a 3D organoid culture model.Results Key nutrients enhancing angiogenesis,adipocyte differentiation,and lipid accumulation were identified through assessments of capillary sprouts development,mRNA expression,and Oil Red O staining.Vitamins C(VC),E(VE),and K1(VK1),guanidinoacetic acid(GAA),leucine(Leu),lysine(Lys),methionine(Met),N-carbamylglutamate(NCG),tryptophan(Trp),α-linolenic acid(ALA),linoleic acid(LA),cis-9,trans-11 conjugated linoleic acid(c9,t11-CLA),acetic acid(HAc),and sodium acetate(NaAc)stimulated while vitamins B9(VB9),D(VD),K2(VK2),taurine(Tau),and sodium butyrate(NaBu)inhibited angiogenesis(P<0.05).Furthermore,VC,VE,VK1,VK2,GAA,Leu,NCG,Trp,ALA,LA,and HAc enhanced adipocyte differentiation,with VE,VK1,GAA,Leu,LA,and HAc additionally elevating lipid accumulation(P<0.05).Conclusions Various nutrients play distinct regulatory roles in angiogenesis,adipocyte differentiation,and lipid accumulation.These findings provide a roadmap for further optimizing the production of marbled meat through nutritional intervention in actual livestock breeding production.展开更多
Soft X-ray detectors play a vital role in materials science,high-energy physics and medical imaging.Cs_(2)AgBiBr_(6),a lead-free double perovskite,has gained attention for its excellent optoelectronic properties,stabi...Soft X-ray detectors play a vital role in materials science,high-energy physics and medical imaging.Cs_(2)AgBiBr_(6),a lead-free double perovskite,has gained attention for its excellent optoelectronic properties,stability,and nontoxicity.However,its fast crystallization and requirement for high-temperature annealing(>250℃)often lead to inferior film quality,limiting its application in flexible devices.This study introduces an alloying strategy that significantly improves the quality of Cs_(2)AgBiBr_(6)thin films annealed at a reduced temperature of 150℃.Devices based on the alloyed thin films exhibit an ultra-low dark current of 0.32 nA·cm^(-2)and a quantum efficiency of 725%.Furthermore,the first successful integration of Cs_(2)AgBiBr_(6)with a thinfilm transistor backplane demonstrates its superior imaging performance,indicating that Cs_(2)AgBiBr_(6)is a promising material for next-generation soft X-ray sensors.展开更多
The occurrence of extreme rainfall events and associated flooding has been enhanced due to climate changes, and is thought to influence the flux of total dissolved iron(TDI) in rivers considerably. Since TDI is a co...The occurrence of extreme rainfall events and associated flooding has been enhanced due to climate changes, and is thought to influence the flux of total dissolved iron(TDI) in rivers considerably. Since TDI is a controlling factor in primary productivity in marine ecosystems, alteration of riverine TDI input to the ocean may lead to climate change via its effect on biological productivity. During an extreme rainfall event that arose in northeastern China in 2013, water samples were collected in the midstream of the Heilongjiang River to analyze the concentration and species of TDI as well as other basic parameters. The speciation of TDI was surveyed by filtration and ultrafiltration methods.Compared with data monitored from 2007 to 2012, the concentration of TDI increased significantly during this event, with an average concentration of 1.11 mg/L, and the estimated TDI flux reached 1.2 × 10^5 tons, equaling the average annual TDI flux level.Species analysis revealed that low-molecular-weight complexed iron was the dominant species, and the impulse of TDI flux could probably be attributed to the hydrological connection to riparian wetlands and iron-rich terrestrial runoff. Moreover, dissolved organic matter played a key role in the flux, species and bioavailability of TDI. In addition,there is a possibility that the rising TDI flux could further influence the transport and cycling of nutrients and related ecological processes in the river, estuary coupled with the coastal ecosystems, which merits closer attention in the future.展开更多
This paper explores the issue of secure synchronization control in piecewise-homogeneous Markovian jump delay neural networks affected by denial-of-service(DoS)attacks.Initially,a novel memory-based adaptive event-tri...This paper explores the issue of secure synchronization control in piecewise-homogeneous Markovian jump delay neural networks affected by denial-of-service(DoS)attacks.Initially,a novel memory-based adaptive event-triggered mechanism(MBAETM)is designed based on sequential growth rates,focusing on event-triggered conditions and thresholds.Subsequently,from the perspective of defenders,non-periodic DoS attacks are re-characterized,and a model of irregular DoS attacks with cyclic fluctuations within time series is further introduced to enhance the system's defense capabilities more effectively.Additionally,considering the unified demands of network security and communication efficiency,a resilient memory-based adaptive event-triggered mechanism(RMBAETM)is proposed.A unified Lyapunov-Krasovskii functional is then constructed,incorporating a loop functional to thoroughly consider information at trigger moments.The master-slave system achieves synchronization through the application of linear matrix inequality techniques.Finally,the proposed methods'effectiveness and superiority are confirmed through four numerical simulation examples.展开更多
Heat dissipation and thermal switches are vital for adaptive cooling and extending the lifespan of electronic devices and batteries. In this work, we conducted high-throughput investigations on the thermal transport o...Heat dissipation and thermal switches are vital for adaptive cooling and extending the lifespan of electronic devices and batteries. In this work, we conducted high-throughput investigations on the thermal transport of 24 experimentally realized two-dimensional(2D) materials and their potential as thermal switches, leveraging machine-learning-assisted strain engineering and phonon transport simulations. We identified several highperformance thermal switches with ratios exceeding 2, with germanene(Ge) achieving an ultrahigh ratio of up to9.64 within the reversible deformation range. The underlying mechanism is strain-induced bond softening, which sensitively affects anharmonicity represented by three-and four-phonon scattering. The widespread occurrence of four-phonon scattering was confirmed in the thermal transport of 2D materials. Opposite switching trends were discovered, with 2D transition metal dichalcogenide materials showing negative responses to tensile strain while buckled 2D elemental materials showed positive responses. We further proposed a screening descriptor based on strain-induced changes in the Gr¨uneisen parameter for efficiently identifying new high-performance thermal switch materials. This work establishes a paradigm for thermal energy control in 2D materials through strain engineering, which may be experimentally realized in the future via bending, substrate mismatch, and related approaches, thereby laying a robust foundation for further developments and applications.展开更多
This editorial comments on the review by Da Silva et al,published in the World Journal of Clinical Oncology which focuses on the molecular perspectives of lung cancer.With the rapid development of molecular technology...This editorial comments on the review by Da Silva et al,published in the World Journal of Clinical Oncology which focuses on the molecular perspectives of lung cancer.With the rapid development of molecular technology,new diagnostic methods are constantly emerging,including liquid biopsy,the identification of gene mutations,and the monitoring biomarkers,thus providing precise in-formation with which to identify the occurrence and development of lung cancer.Biomarkers,such as circulating tumor cells,circulating tumor DNA,and cir-culating RNA can provide helpful information for clinical application.Common types of genetic mutations and immune checkpoints include epidermal growth factor receptor,anaplastic lymphoma kinase,c-ROS proto-oncogene 1,progra-mmed death-1 and cytotoxic T-lymphocyte-associated protein.According to specific biomarkers,targeted therapy and immunotherapy can improve survival outcomes based on the types of gene mutation and immune checkpoints.The application of molecular approaches can facilitate our ability to control the progression of disease and select appropriate therapeutic strategies for patients with lung cancer.展开更多
基金supported by the Key Research and Development Program-Key Projects(2021YFD1200900,2023YFD1301302)the grants from the National Natural Science Foundation of China(32272892,32472886)+2 种基金the Bayannaoer Research Institute Young Scientist Project(2024BYNECAU003)the Chinese Universities Scientific Fund(2025TC101)the 2115 Talent Development Program of China Agricultural University。
文摘Background The deposition of intramuscular fat(IMF)in livestock can enhance the flavor and tenderness of meat products,significantly increasing consumer satisfaction.To achieve this industrial trait,this study investigated the regulatory effects of 20 dietary nutrients on sheep IMF deposition using a 3D organoid culture model.Results Key nutrients enhancing angiogenesis,adipocyte differentiation,and lipid accumulation were identified through assessments of capillary sprouts development,mRNA expression,and Oil Red O staining.Vitamins C(VC),E(VE),and K1(VK1),guanidinoacetic acid(GAA),leucine(Leu),lysine(Lys),methionine(Met),N-carbamylglutamate(NCG),tryptophan(Trp),α-linolenic acid(ALA),linoleic acid(LA),cis-9,trans-11 conjugated linoleic acid(c9,t11-CLA),acetic acid(HAc),and sodium acetate(NaAc)stimulated while vitamins B9(VB9),D(VD),K2(VK2),taurine(Tau),and sodium butyrate(NaBu)inhibited angiogenesis(P<0.05).Furthermore,VC,VE,VK1,VK2,GAA,Leu,NCG,Trp,ALA,LA,and HAc enhanced adipocyte differentiation,with VE,VK1,GAA,Leu,LA,and HAc additionally elevating lipid accumulation(P<0.05).Conclusions Various nutrients play distinct regulatory roles in angiogenesis,adipocyte differentiation,and lipid accumulation.These findings provide a roadmap for further optimizing the production of marbled meat through nutritional intervention in actual livestock breeding production.
基金supported by the NSFC under Grant No.62474169the National Key Research and Development Program of China under Grant No.2024YFB3212200the funding from USTC under Grant Nos.WK2100000025,KY2190000003,and KY2190000006。
文摘Soft X-ray detectors play a vital role in materials science,high-energy physics and medical imaging.Cs_(2)AgBiBr_(6),a lead-free double perovskite,has gained attention for its excellent optoelectronic properties,stability,and nontoxicity.However,its fast crystallization and requirement for high-temperature annealing(>250℃)often lead to inferior film quality,limiting its application in flexible devices.This study introduces an alloying strategy that significantly improves the quality of Cs_(2)AgBiBr_(6)thin films annealed at a reduced temperature of 150℃.Devices based on the alloyed thin films exhibit an ultra-low dark current of 0.32 nA·cm^(-2)and a quantum efficiency of 725%.Furthermore,the first successful integration of Cs_(2)AgBiBr_(6)with a thinfilm transistor backplane demonstrates its superior imaging performance,indicating that Cs_(2)AgBiBr_(6)is a promising material for next-generation soft X-ray sensors.
基金supported by the National Nature Science Foundation of China (No. 41271499)the Major Science and Technology Program for Water Pollution Control and Treatment (No. 2012ZX07201004)
文摘The occurrence of extreme rainfall events and associated flooding has been enhanced due to climate changes, and is thought to influence the flux of total dissolved iron(TDI) in rivers considerably. Since TDI is a controlling factor in primary productivity in marine ecosystems, alteration of riverine TDI input to the ocean may lead to climate change via its effect on biological productivity. During an extreme rainfall event that arose in northeastern China in 2013, water samples were collected in the midstream of the Heilongjiang River to analyze the concentration and species of TDI as well as other basic parameters. The speciation of TDI was surveyed by filtration and ultrafiltration methods.Compared with data monitored from 2007 to 2012, the concentration of TDI increased significantly during this event, with an average concentration of 1.11 mg/L, and the estimated TDI flux reached 1.2 × 10^5 tons, equaling the average annual TDI flux level.Species analysis revealed that low-molecular-weight complexed iron was the dominant species, and the impulse of TDI flux could probably be attributed to the hydrological connection to riparian wetlands and iron-rich terrestrial runoff. Moreover, dissolved organic matter played a key role in the flux, species and bioavailability of TDI. In addition,there is a possibility that the rising TDI flux could further influence the transport and cycling of nutrients and related ecological processes in the river, estuary coupled with the coastal ecosystems, which merits closer attention in the future.
文摘This paper explores the issue of secure synchronization control in piecewise-homogeneous Markovian jump delay neural networks affected by denial-of-service(DoS)attacks.Initially,a novel memory-based adaptive event-triggered mechanism(MBAETM)is designed based on sequential growth rates,focusing on event-triggered conditions and thresholds.Subsequently,from the perspective of defenders,non-periodic DoS attacks are re-characterized,and a model of irregular DoS attacks with cyclic fluctuations within time series is further introduced to enhance the system's defense capabilities more effectively.Additionally,considering the unified demands of network security and communication efficiency,a resilient memory-based adaptive event-triggered mechanism(RMBAETM)is proposed.A unified Lyapunov-Krasovskii functional is then constructed,incorporating a loop functional to thoroughly consider information at trigger moments.The master-slave system achieves synchronization through the application of linear matrix inequality techniques.Finally,the proposed methods'effectiveness and superiority are confirmed through four numerical simulation examples.
基金supported bythe Science and Technology Commission of Shanghai Municipality (Grant No.24CL2901702)The numerical calculations were performed at the Supercomputer Center (Project No.2024-Cb-0042)Institute for Solid State Physics,the University of Tokyo。
文摘Heat dissipation and thermal switches are vital for adaptive cooling and extending the lifespan of electronic devices and batteries. In this work, we conducted high-throughput investigations on the thermal transport of 24 experimentally realized two-dimensional(2D) materials and their potential as thermal switches, leveraging machine-learning-assisted strain engineering and phonon transport simulations. We identified several highperformance thermal switches with ratios exceeding 2, with germanene(Ge) achieving an ultrahigh ratio of up to9.64 within the reversible deformation range. The underlying mechanism is strain-induced bond softening, which sensitively affects anharmonicity represented by three-and four-phonon scattering. The widespread occurrence of four-phonon scattering was confirmed in the thermal transport of 2D materials. Opposite switching trends were discovered, with 2D transition metal dichalcogenide materials showing negative responses to tensile strain while buckled 2D elemental materials showed positive responses. We further proposed a screening descriptor based on strain-induced changes in the Gr¨uneisen parameter for efficiently identifying new high-performance thermal switch materials. This work establishes a paradigm for thermal energy control in 2D materials through strain engineering, which may be experimentally realized in the future via bending, substrate mismatch, and related approaches, thereby laying a robust foundation for further developments and applications.
文摘This editorial comments on the review by Da Silva et al,published in the World Journal of Clinical Oncology which focuses on the molecular perspectives of lung cancer.With the rapid development of molecular technology,new diagnostic methods are constantly emerging,including liquid biopsy,the identification of gene mutations,and the monitoring biomarkers,thus providing precise in-formation with which to identify the occurrence and development of lung cancer.Biomarkers,such as circulating tumor cells,circulating tumor DNA,and cir-culating RNA can provide helpful information for clinical application.Common types of genetic mutations and immune checkpoints include epidermal growth factor receptor,anaplastic lymphoma kinase,c-ROS proto-oncogene 1,progra-mmed death-1 and cytotoxic T-lymphocyte-associated protein.According to specific biomarkers,targeted therapy and immunotherapy can improve survival outcomes based on the types of gene mutation and immune checkpoints.The application of molecular approaches can facilitate our ability to control the progression of disease and select appropriate therapeutic strategies for patients with lung cancer.
