The effects of bagging at different times in Mengyin area on the fruit quality and disease and pest incidence of Huimin short-cut Fuji apple were investigated,with unbagged fruit as the control. The results showed tha...The effects of bagging at different times in Mengyin area on the fruit quality and disease and pest incidence of Huimin short-cut Fuji apple were investigated,with unbagged fruit as the control. The results showed that among the apples bagged on May 5,May 15,May 25,June 2 and June 12,the single fruit weight and fruit shape index of the apples bagged on June 2 were highest,308. 1 g and 0. 868,respectively; the peeled harness of the apples bagged during May 5-25 was higher than that of the control; the peeled harness of the apples bagged on June 2 and June 12 was lower than that of the control; the soluble solids content of bagged fruit was lower than that of unbagged ones,and no significant differences were found among different treatments; the coloring index of the apples bagged on June 2 was up to 100%; the smooth finish index of the apples bagged on May 5 reached 96. 67%,the highest; the red chromatic value( a*) of bagged fruit was higher than that of unbagged ones,and there were no significant differences among different bagging treatments. The earlier the bagging was,the higher the incidence of black spot and bitter pit was. The incidence of black spot and bitter pit in bagged fruit was higher than that in unbagged ones. In conclusion,in Mengyin area of Shandong Province,bagging is better to be carried out on June 2,45 d after the full bloom.展开更多
1.Introduction Hydrogen is an ideal energy carrier to tackle the energy crisis and greenhouse effect,because of its high energy density and low emission.The production,storage and transportation of hydrogen are key fa...1.Introduction Hydrogen is an ideal energy carrier to tackle the energy crisis and greenhouse effect,because of its high energy density and low emission.The production,storage and transportation of hydrogen are key factors to the practical application of hydrogen energy.As the scientific and technological understanding of the electrochemical devices was advancing in the past few decades,water electrolyzers based on the proton exchange membrane (PEM) have attracted much focus for its huge potential on the production of hydrogen via water splitting.PEM electrolyzers use perfluorinated sulfonic acid (PFSA) based membranes as the electrolyte.展开更多
[ Objective] This study aimed to investigate the effects of different water and fertilizer combinations on apple saplings. [ Method] ' Tianhong 2' Fuji /SH40/Malus robusta Rehd. was used as the experimental material...[ Objective] This study aimed to investigate the effects of different water and fertilizer combinations on apple saplings. [ Method] ' Tianhong 2' Fuji /SH40/Malus robusta Rehd. was used as the experimental material to analyze the effects of different irrigation modes and combinations of basal fertilizer and dressing fertilizer on tree structure, leaf parameters and photosynthesis of apple saplings. [ Result] The results showed that different water and fertilizer combinations ex- hibited varying effects on tree structure, leaf parameters and photosynthesis of apple saplings. To be specific, applying 432 000 kg/hm2 basal fertilizer, 480 kg/hm2 urea and 915 kg/hmz organic fertilizer + 0 + 915 kg/hm2 organic fertilizer as dressing fertilizer, and 1% urea as leaf fertilizer was conducive to promoting growth of branches and leaves, increasing leaf thickness, individual leaf area and SPAD, and improving photosynthesis of apple saplings under half root irrigation and whole root irrigation conditions. In addition, the effects were more significant under whole root irrigation conditions. [ Conclusion] Selecting the appropriate water and fertilizer combination is conducive to the growth of apple saplings.展开更多
A neural network classification method,and a batch-learning self-organizing map(BLSOM),was established using trinucleotide and tetranucleotide in the hemagglutinin gene sequences of 25 avian influenza viruses isolated...A neural network classification method,and a batch-learning self-organizing map(BLSOM),was established using trinucleotide and tetranucleotide in the hemagglutinin gene sequences of 25 avian influenza viruses isolated in Guangdong Province. Statistical analysis and normalization of the fragment number were done and MATLAB function was used to simulate the human brain thinking for self-organizing learning. When the number of training steps was 100 and above,the strains could be successfully clustered. H_1,H_3,H_5,H_7 and H_9 subtype strains fell within different classes,respectively,and the HA gene cluster map of H_3N_2 and H_7N_9strains was quite similar,suggesting that these strains shared the same origin; H_5N_1 strain was quite different in different years; H_1N_1 and H_9N_2 strains could be clustered into one group,indicating the natural recombinant variation in the two kinds of viruses,thereby providing a reference for high-risk strain screening and traceability.展开更多
Water-saving irrigation is an important way to realize the sustainable development of the apple industry.In order to screen the best irrigation pattern for apple,taking 9-year-old‘Yanfu 10'Fuji/Malus robusta appl...Water-saving irrigation is an important way to realize the sustainable development of the apple industry.In order to screen the best irrigation pattern for apple,taking 9-year-old‘Yanfu 10'Fuji/Malus robusta apple as the material,the effects of different irrigation methods(drip irrigation,sprinkling irrigation,and flood irrigation) on the growth,fruit quality,and yield of apple trees were studied.The results showed that compared with the flood irrigation,drip irrigation and sprinkling irrigation significantly increased the spring shoot length by 14.8%and 9.1%,respectively,and decreased the autumn shoot length by 11.7% and 8.8%,respectively.Drip irrigation and sprinkling irrigation significantly increased the leaf area,chlorophyll content,and leaf weight,the leaf area increased by 3.0% and 1.9%,respectively,the chlorophyll content increased by 13.9% and 11.5%,respectively,and the leaf weight increased by 5.8% and 5.1%,respectively.Drip irrigation and sprinkling irrigation could slightly increase the single fruit weight and fruit shape index,significantly increase the coloring index and smoothness index.The single fruit weight increased by 3.2% and 1.9%,the coloring index increased by 6.1% and 4.1%,the smoothness index increased by 4.7% and 2.8%,and the proportion of red fruit increased by 4.2% and 2.2%,respectively.The content of soluble solids in drip irrigation and sprinkling irrigation was significantly higher than that in flood irrigation,which was 13.0% and 2.6% higher than CK,respectively.The fruit hardness in drip irrigation and sprinkling irrigation was 7.9% and 2.2% higher than CK,respectively,and that in drip irrigation increased significantly.The yield in drip irrigation and sprinkling irrigation was 12.1% and 8.2% higher than CK,respectively.In conclusion,drip irrigation and sprinkling irrigation could promote the growth of apple trees,improve the fruit quality,and increase the yield of apple trees,and the effect of drip irrigation is better than sprinkling irrigation.展开更多
In order to optimize and transform closed mature apple orchards with standard rootstocks and improve the quality of fruit,taking a closed Red Fuji apple orchard as the test object,the effects of different density-redu...In order to optimize and transform closed mature apple orchards with standard rootstocks and improve the quality of fruit,taking a closed Red Fuji apple orchard as the test object,the effects of different density-reducing methods(deinterlacing,removing every other plant in each row,removing every other plant every other row)on the canopy microenvironment,tree structure,leaf photosynthesis and fruit quality were studied.The results showed that different density-reducing methods significantly reduced the orchard coverage and increased the crown transmittance.Among them,the deinterlacing treatment was the best in improving the population structure of the closed orchard,as it reduced the orchard coverage rate by 55.68 percentage points and the canopy transmittance by 82.38 percentage points,compared with the control(CK).Different density-reducing methods all could significantly reduce the branch amount in the closed orchard and optimized the branch composition.The three density-reducing methods decreased the number of branches per plant by 18.96%,12.41%and 19.58%,respectively,compared with the CK.And compared with the CK,the proportion of short branches and leafy branches to the total branches was increased by 17.13%,14.27%and 7.37%,respectively,and the proportion of long branches and developmental branches to the total branches was decreased by 24.47%,18.04%and 10.79%,respectively.The effects of the different density-reducing methods on the temperature,relative light intensity,SPAD and leaf photosynthetic rate in canopies all followed an order of deinterlacing>removing every other plant in each row>removing every other plant every other row>CK,while those on the relative humidity showed an order of deinterlacing>removing every other plant in each row>removing every other plant every other row>CK,while those on the relative humidity showed an order of deinterlacing<removing every other plant in each row<removing every other plant every other row<CK.The average single fruit weight(238.3 g),coloring index(89.2),smoothness index(83.2),soluble solid content(15.1%)and high quality fruit rate(82.4%)of the deinterlacing treatment were higher than those of other treatments,and the values were 18.2%,11.4%,5.85%,26.9%and 25.2%higher than the CK,respectively.The use of dein ̄terlacing to reduce density is the best for improving the microenvironment of closed apple orchards and improving the photosynthetic efficiency and fruit quality.展开更多
Objective:To investigate the anatomical basis of Rubens'flap based on the deep circumflex iliac artery,and to apply more donor site tissue amount for big chest wall defect.Methods:Gross anatomical study was carrie...Objective:To investigate the anatomical basis of Rubens'flap based on the deep circumflex iliac artery,and to apply more donor site tissue amount for big chest wall defect.Methods:Gross anatomical study was carried on 8 sides of fresh specimens of 4 cases and data was measured by mean of the Vernier caliper.Besides,the surgical simulation was carried on 1 specimen(2 sides).Results:At the inguinal segment,the via artery gave off(9.16±6.22)branches;the diameter of the origin was(3.97±0.86)mm;the distance from starting point to the first branch was(15.87±9.24)mm;amount of osteomusculocutaneous branch was 3.12±1.34;the biggest diameter of perforator was(1.48±1.02)mm;pedicle length was(132.51±48.24)mm.In the surgical simulation,the layers of Ruben's flap from up to down ranged in skin,subcutaneous tissue,obliquus externus abdominis,oblique internal abdominis and transversus abdominis.Conclusion:Rubens'flap,with large tissue amount,based on the deep circumflex iliac artery,near to traditional abdominal flap,has a good clinical application prospect in breast reconstruction and repair of big chest wall defect,for its thin waist effect and slight donor site defect.展开更多
Hydrogen energy from electrocatalysis driven by sustainable energy has emerged as a solution against the background of carbon neutrality.Proton exchange membrane(PEM)-based electrocatalytic systems represent a promisi...Hydrogen energy from electrocatalysis driven by sustainable energy has emerged as a solution against the background of carbon neutrality.Proton exchange membrane(PEM)-based electrocatalytic systems represent a promising technology for hydrogen production,which is equipped to combine efficiently with intermittent electricity from renewable energy sources.In this review,PEM-based electrocatalytic systems for H2 production are summarized systematically from low to high operating temperature systems.When the operating temperature is below 130℃,the representative device is a PEM water electrolyzer;its core components and respective functions,research status,and design strategies of key materials especially in electrocatalysts are presented and discussed.However,strong acidity,highly oxidative operating conditions,and the sluggish kinetics of the anode reaction of PEM water electrolyzers have limited their further development and shifted our attention to higher operating temperature PEM systems.Increasing the temperature of PEM-based electrocatalytic systems can cause an increase in current density,accelerate reaction kinetics and gas transport and reduce the ohmic value,activation losses,ΔGH*,and power consumption.Moreover,further increasing the operating temperature(120-300℃)of PEM-based devices endows various hydrogen carriers(e.g.,methanol,ethanol,and ammonia)with electrolysis,offering a new opportunity to produce hydrogen using PEM-based electrocatalytic systems.Finally,several future directions and prospects for developing PEM-based electrocatalytic systems for H_(2) production are proposed through devoting more efforts to the key components of devices and reduction of costs.展开更多
[Objectives]To study the effect of carcinoma cell line(HepG2)and mechanism of anti-tumor activity of cucurbitacin B(CuB)and cucurbitacin E(CuE)on HepG2 cells.[Methods]HepG2 cells were treated with various concentratio...[Objectives]To study the effect of carcinoma cell line(HepG2)and mechanism of anti-tumor activity of cucurbitacin B(CuB)and cucurbitacin E(CuE)on HepG2 cells.[Methods]HepG2 cells were treated with various concentrations of CuB and CuE,and the proliferation,cell cycle distribution,apoptosis,and performed RNA-seqtranscriptomics of these cells were evaluated after treatment.[Results]The results demonstrated that,in comparison to the control group,HepG2 cells treated with CuB and CuE displayed a synergistic effect on growth inhibition,cell cycle arrest at the G 2/M phase,and apoptosis induction in a concentration-and time-dependent manner.Western blotting analysis using protein extracts derived from HepG2 cells showed that CuB and CuE induced apoptosis by increasing the expression of endogenous levels of full-length caspase-3(35 kDa)and the large fragment of cleaved caspase-3(17 kDa).Moreover,transcriptomic results demonstrated that after treatment,the differentially expressed genes associated with pathways such as"cell cycle","spliceosome","metabolic pathways",and"carbon metabolism"were significantly up-/down-regulated.[Conclusions]These results demonstrate that the anti-tumor mechanisms of CuB and CuE are attributed to their interference in cell cycle and metabolism processes.Collectively,the treatment with CuB and CuE may serve as a promising therapeutic option for hepatocellular carcinoma.展开更多
The angiogenic response is essential for the repair of ischemic brain tissue.Integrin α6(Itga6)expression has been shown to increase under hypoxic conditions and is expressed exclusively in vascular structures;howeve...The angiogenic response is essential for the repair of ischemic brain tissue.Integrin α6(Itga6)expression has been shown to increase under hypoxic conditions and is expressed exclusively in vascular structures;however,its role in post-ischemic angiogenesis remains poorly understood.In this study,we demonstrate that mice with endothelial cell-specific knockout of Itga6 exhibit reduced neovascularization,reduced pericyte coverage on microvessels,and accelerated breakdown of microvascular integrity in the peri-infarct area.In vitro,endothelial cells with ITGA6 knockdown display reduced proliferation,migration,and tube-formation.Mechanistically,we demonstrated that ITGA6 regulates post-stroke angiogenesis through the PI3K/Akt-eNOS-VEGFA axis.Importantly,the specific overexpression of Itga6 in endothelial cells significantly enhanced neovascularization and enhanced the integrity of microvessels,leading to improved functional recovery.Our results suggest that endothelial cell Itga6 plays a crucial role in key steps of post-stroke angiogenesis,and may represent a promising therapeutic target for promoting recovery after stroke.展开更多
基金Supported by Earmarked Fund for China Agriculture Research System(CARS-27)Key Research and Development Project of Shandong Province(2017CXGC0210)Youth Research Fund of Shandong Institute of Pomology(2018KY07)
文摘The effects of bagging at different times in Mengyin area on the fruit quality and disease and pest incidence of Huimin short-cut Fuji apple were investigated,with unbagged fruit as the control. The results showed that among the apples bagged on May 5,May 15,May 25,June 2 and June 12,the single fruit weight and fruit shape index of the apples bagged on June 2 were highest,308. 1 g and 0. 868,respectively; the peeled harness of the apples bagged during May 5-25 was higher than that of the control; the peeled harness of the apples bagged on June 2 and June 12 was lower than that of the control; the soluble solids content of bagged fruit was lower than that of unbagged ones,and no significant differences were found among different treatments; the coloring index of the apples bagged on June 2 was up to 100%; the smooth finish index of the apples bagged on May 5 reached 96. 67%,the highest; the red chromatic value( a*) of bagged fruit was higher than that of unbagged ones,and there were no significant differences among different bagging treatments. The earlier the bagging was,the higher the incidence of black spot and bitter pit was. The incidence of black spot and bitter pit in bagged fruit was higher than that in unbagged ones. In conclusion,in Mengyin area of Shandong Province,bagging is better to be carried out on June 2,45 d after the full bloom.
基金supported by the National Key R&D Program of China(2021YFA1500900,2020YFA0710000)the National Natural Science Foundation of China(22172047,22002039,21825201 and U19A2017)+3 种基金the Provincial Natural Science Foundation of Hunan(2021JJ30089,2016TP1009 and 2020JJ5045)the China Postdoctoral Science Foundation(2019M662759,2020M682541 and 2020M682549)the Shenzhen Science and Technology Program(JCYJ20210324122209025)the Changsha Municipal Natural Science Foundation(kq2107008 and kq2007009)。
文摘1.Introduction Hydrogen is an ideal energy carrier to tackle the energy crisis and greenhouse effect,because of its high energy density and low emission.The production,storage and transportation of hydrogen are key factors to the practical application of hydrogen energy.As the scientific and technological understanding of the electrochemical devices was advancing in the past few decades,water electrolyzers based on the proton exchange membrane (PEM) have attracted much focus for its huge potential on the production of hydrogen via water splitting.PEM electrolyzers use perfluorinated sulfonic acid (PFSA) based membranes as the electrolyte.
基金Supported by National Modern Agricultural(Apple)Industry Technology System of China(CARS-28)
文摘[ Objective] This study aimed to investigate the effects of different water and fertilizer combinations on apple saplings. [ Method] ' Tianhong 2' Fuji /SH40/Malus robusta Rehd. was used as the experimental material to analyze the effects of different irrigation modes and combinations of basal fertilizer and dressing fertilizer on tree structure, leaf parameters and photosynthesis of apple saplings. [ Result] The results showed that different water and fertilizer combinations ex- hibited varying effects on tree structure, leaf parameters and photosynthesis of apple saplings. To be specific, applying 432 000 kg/hm2 basal fertilizer, 480 kg/hm2 urea and 915 kg/hmz organic fertilizer + 0 + 915 kg/hm2 organic fertilizer as dressing fertilizer, and 1% urea as leaf fertilizer was conducive to promoting growth of branches and leaves, increasing leaf thickness, individual leaf area and SPAD, and improving photosynthesis of apple saplings under half root irrigation and whole root irrigation conditions. In addition, the effects were more significant under whole root irrigation conditions. [ Conclusion] Selecting the appropriate water and fertilizer combination is conducive to the growth of apple saplings.
基金Supported by National Entry-Exit Inspection and Quarantine Research Project(2015IK054)Special Project of Ministry of Science and Technology for Development of Major Scientific Instruments and Equipments(2012YQ0901-9705)
文摘A neural network classification method,and a batch-learning self-organizing map(BLSOM),was established using trinucleotide and tetranucleotide in the hemagglutinin gene sequences of 25 avian influenza viruses isolated in Guangdong Province. Statistical analysis and normalization of the fragment number were done and MATLAB function was used to simulate the human brain thinking for self-organizing learning. When the number of training steps was 100 and above,the strains could be successfully clustered. H_1,H_3,H_5,H_7 and H_9 subtype strains fell within different classes,respectively,and the HA gene cluster map of H_3N_2 and H_7N_9strains was quite similar,suggesting that these strains shared the same origin; H_5N_1 strain was quite different in different years; H_1N_1 and H_9N_2 strains could be clustered into one group,indicating the natural recombinant variation in the two kinds of viruses,thereby providing a reference for high-risk strain screening and traceability.
基金Supported by National Key Technologies R&D Program of China(2014BAD16B02-2)Key Research and Development Program of Shandong Province(2017CXGC0210)+1 种基金Agricultural Science and Technology Innovation Project of Shandong Academy of Agricultural Sciences(CXGC2017D01)Modern Agricultural Industry Technology System of China for Apple(CARS-27)
文摘Water-saving irrigation is an important way to realize the sustainable development of the apple industry.In order to screen the best irrigation pattern for apple,taking 9-year-old‘Yanfu 10'Fuji/Malus robusta apple as the material,the effects of different irrigation methods(drip irrigation,sprinkling irrigation,and flood irrigation) on the growth,fruit quality,and yield of apple trees were studied.The results showed that compared with the flood irrigation,drip irrigation and sprinkling irrigation significantly increased the spring shoot length by 14.8%and 9.1%,respectively,and decreased the autumn shoot length by 11.7% and 8.8%,respectively.Drip irrigation and sprinkling irrigation significantly increased the leaf area,chlorophyll content,and leaf weight,the leaf area increased by 3.0% and 1.9%,respectively,the chlorophyll content increased by 13.9% and 11.5%,respectively,and the leaf weight increased by 5.8% and 5.1%,respectively.Drip irrigation and sprinkling irrigation could slightly increase the single fruit weight and fruit shape index,significantly increase the coloring index and smoothness index.The single fruit weight increased by 3.2% and 1.9%,the coloring index increased by 6.1% and 4.1%,the smoothness index increased by 4.7% and 2.8%,and the proportion of red fruit increased by 4.2% and 2.2%,respectively.The content of soluble solids in drip irrigation and sprinkling irrigation was significantly higher than that in flood irrigation,which was 13.0% and 2.6% higher than CK,respectively.The fruit hardness in drip irrigation and sprinkling irrigation was 7.9% and 2.2% higher than CK,respectively,and that in drip irrigation increased significantly.The yield in drip irrigation and sprinkling irrigation was 12.1% and 8.2% higher than CK,respectively.In conclusion,drip irrigation and sprinkling irrigation could promote the growth of apple trees,improve the fruit quality,and increase the yield of apple trees,and the effect of drip irrigation is better than sprinkling irrigation.
基金Supported by Key Research and Development Program of Shandong Province(2017CXGC0210)Agricultural Science and Technology Innovation Project of Shandong Academy of Agricultural Sciences(CXGC2017D01)+3 种基金National Key R&D Program of China(2016YFD0201100)National Natural Science Foundation of China(31600021)Modern Agricultural Industry Technology System of China for Apple(CARS-27)Dongying Science and Technology Program(2015GG0104)
文摘In order to optimize and transform closed mature apple orchards with standard rootstocks and improve the quality of fruit,taking a closed Red Fuji apple orchard as the test object,the effects of different density-reducing methods(deinterlacing,removing every other plant in each row,removing every other plant every other row)on the canopy microenvironment,tree structure,leaf photosynthesis and fruit quality were studied.The results showed that different density-reducing methods significantly reduced the orchard coverage and increased the crown transmittance.Among them,the deinterlacing treatment was the best in improving the population structure of the closed orchard,as it reduced the orchard coverage rate by 55.68 percentage points and the canopy transmittance by 82.38 percentage points,compared with the control(CK).Different density-reducing methods all could significantly reduce the branch amount in the closed orchard and optimized the branch composition.The three density-reducing methods decreased the number of branches per plant by 18.96%,12.41%and 19.58%,respectively,compared with the CK.And compared with the CK,the proportion of short branches and leafy branches to the total branches was increased by 17.13%,14.27%and 7.37%,respectively,and the proportion of long branches and developmental branches to the total branches was decreased by 24.47%,18.04%and 10.79%,respectively.The effects of the different density-reducing methods on the temperature,relative light intensity,SPAD and leaf photosynthetic rate in canopies all followed an order of deinterlacing>removing every other plant in each row>removing every other plant every other row>CK,while those on the relative humidity showed an order of deinterlacing>removing every other plant in each row>removing every other plant every other row>CK,while those on the relative humidity showed an order of deinterlacing<removing every other plant in each row<removing every other plant every other row<CK.The average single fruit weight(238.3 g),coloring index(89.2),smoothness index(83.2),soluble solid content(15.1%)and high quality fruit rate(82.4%)of the deinterlacing treatment were higher than those of other treatments,and the values were 18.2%,11.4%,5.85%,26.9%and 25.2%higher than the CK,respectively.The use of dein ̄terlacing to reduce density is the best for improving the microenvironment of closed apple orchards and improving the photosynthetic efficiency and fruit quality.
基金This study was supported by Capital Development Fund(Grant No.20093010)Clinical Characteristic Application of Capital City(Grant No.Z111107058811097)+2 种基金Research and Development Fund of Peking University People's Hospital(Grant No.RDC2014-27)Research and Development Fund of Peking University People's Hospital(Discipline Cultivation Project)(Grant No.RDD2016-05)Youth Fund Project of Natural Science Foundation of Hainan Province(2018)(Grant No.818QN313).
文摘Objective:To investigate the anatomical basis of Rubens'flap based on the deep circumflex iliac artery,and to apply more donor site tissue amount for big chest wall defect.Methods:Gross anatomical study was carried on 8 sides of fresh specimens of 4 cases and data was measured by mean of the Vernier caliper.Besides,the surgical simulation was carried on 1 specimen(2 sides).Results:At the inguinal segment,the via artery gave off(9.16±6.22)branches;the diameter of the origin was(3.97±0.86)mm;the distance from starting point to the first branch was(15.87±9.24)mm;amount of osteomusculocutaneous branch was 3.12±1.34;the biggest diameter of perforator was(1.48±1.02)mm;pedicle length was(132.51±48.24)mm.In the surgical simulation,the layers of Ruben's flap from up to down ranged in skin,subcutaneous tissue,obliquus externus abdominis,oblique internal abdominis and transversus abdominis.Conclusion:Rubens'flap,with large tissue amount,based on the deep circumflex iliac artery,near to traditional abdominal flap,has a good clinical application prospect in breast reconstruction and repair of big chest wall defect,for its thin waist effect and slight donor site defect.
基金National Key R&D Program of China,Grant/Award Number:2021YFA1500900Basic and Applied Basic Research Foundation of Guangdong Province-Regional Joint Fund Project,Grant/Award Number:2021B1515120024+9 种基金Science Funds of the Education Office of Jiangxi Province,Grant/Award Number:GJJ2201324Science Funds of Jiangxi Province,Grant/Award Numbers:20242BAB25168,20224BAB213018Doctoral Research Start-up Funds of JXSTNU,Grant/Award Number:2022BSQD05China Postdoctoral Science Foundation,Grant/Award Number:2023M741121National Natural Science Foundation of China,Grant/Award Number:22172047Provincial Natural Science Foundation of Hunan,Grant/Award Number:2021JJ30089Shenzhen Science and Technology Program,Grant/Award Number:JCYJ20210324122209025Changsha Municipal Natural Science Foundation,Grant/Award Number:kq2107008Hunan Province of Huxiang Talent project,Grant/Award Number:2023rc3118Natural Science Foundation of Hunan Province,Grant/Award Number:2022JJ10006.
文摘Hydrogen energy from electrocatalysis driven by sustainable energy has emerged as a solution against the background of carbon neutrality.Proton exchange membrane(PEM)-based electrocatalytic systems represent a promising technology for hydrogen production,which is equipped to combine efficiently with intermittent electricity from renewable energy sources.In this review,PEM-based electrocatalytic systems for H2 production are summarized systematically from low to high operating temperature systems.When the operating temperature is below 130℃,the representative device is a PEM water electrolyzer;its core components and respective functions,research status,and design strategies of key materials especially in electrocatalysts are presented and discussed.However,strong acidity,highly oxidative operating conditions,and the sluggish kinetics of the anode reaction of PEM water electrolyzers have limited their further development and shifted our attention to higher operating temperature PEM systems.Increasing the temperature of PEM-based electrocatalytic systems can cause an increase in current density,accelerate reaction kinetics and gas transport and reduce the ohmic value,activation losses,ΔGH*,and power consumption.Moreover,further increasing the operating temperature(120-300℃)of PEM-based devices endows various hydrogen carriers(e.g.,methanol,ethanol,and ammonia)with electrolysis,offering a new opportunity to produce hydrogen using PEM-based electrocatalytic systems.Finally,several future directions and prospects for developing PEM-based electrocatalytic systems for H_(2) production are proposed through devoting more efforts to the key components of devices and reduction of costs.
文摘[Objectives]To study the effect of carcinoma cell line(HepG2)and mechanism of anti-tumor activity of cucurbitacin B(CuB)and cucurbitacin E(CuE)on HepG2 cells.[Methods]HepG2 cells were treated with various concentrations of CuB and CuE,and the proliferation,cell cycle distribution,apoptosis,and performed RNA-seqtranscriptomics of these cells were evaluated after treatment.[Results]The results demonstrated that,in comparison to the control group,HepG2 cells treated with CuB and CuE displayed a synergistic effect on growth inhibition,cell cycle arrest at the G 2/M phase,and apoptosis induction in a concentration-and time-dependent manner.Western blotting analysis using protein extracts derived from HepG2 cells showed that CuB and CuE induced apoptosis by increasing the expression of endogenous levels of full-length caspase-3(35 kDa)and the large fragment of cleaved caspase-3(17 kDa).Moreover,transcriptomic results demonstrated that after treatment,the differentially expressed genes associated with pathways such as"cell cycle","spliceosome","metabolic pathways",and"carbon metabolism"were significantly up-/down-regulated.[Conclusions]These results demonstrate that the anti-tumor mechanisms of CuB and CuE are attributed to their interference in cell cycle and metabolism processes.Collectively,the treatment with CuB and CuE may serve as a promising therapeutic option for hepatocellular carcinoma.
基金supported by grants from the Scientific Research Foundation for Young Doctors of the Second Affiliated Hospital,Army Medical University(2022YQB041)the Chongqing Natural Science Foundation(CSTB2024NSCQ-MSX0924 and CSTB2024NSCQ-MSX0909).
文摘The angiogenic response is essential for the repair of ischemic brain tissue.Integrin α6(Itga6)expression has been shown to increase under hypoxic conditions and is expressed exclusively in vascular structures;however,its role in post-ischemic angiogenesis remains poorly understood.In this study,we demonstrate that mice with endothelial cell-specific knockout of Itga6 exhibit reduced neovascularization,reduced pericyte coverage on microvessels,and accelerated breakdown of microvascular integrity in the peri-infarct area.In vitro,endothelial cells with ITGA6 knockdown display reduced proliferation,migration,and tube-formation.Mechanistically,we demonstrated that ITGA6 regulates post-stroke angiogenesis through the PI3K/Akt-eNOS-VEGFA axis.Importantly,the specific overexpression of Itga6 in endothelial cells significantly enhanced neovascularization and enhanced the integrity of microvessels,leading to improved functional recovery.Our results suggest that endothelial cell Itga6 plays a crucial role in key steps of post-stroke angiogenesis,and may represent a promising therapeutic target for promoting recovery after stroke.
