Solar radiation modification,a scheme aimed at mitigating rapid global warming triggered by anthropogenic greenhouse gas emissions,has been explored through the G1ext experiment under the Geoengineering Model Intercom...Solar radiation modification,a scheme aimed at mitigating rapid global warming triggered by anthropogenic greenhouse gas emissions,has been explored through the G1ext experiment under the Geoengineering Model Intercomparison Project(GeoMIP) framework,utilizing the Chinese Academy of Sciences Earth System Model version 2(CAS-ESM2.0).This paper briefly describes the basic configuration and experimental design of the CAS-ESM2.0 for G1ext,which involves a sudden reduction in solar irradiance to counterbalance the radiative forcing of an abrupt quadrupling of atmospheric CO_(2) concentration,running for 100 years.Preliminary results show that this model can reproduce well the compensatory effect of a uniform decrease in global solar radiation on the radiative forcing resulting from an abrupt quadrupling of CO_(2) concentration.Like other Earth system models,CAS-ESM2.0 reasonably captures variations in radiative adjustments,surface air temperature,and precipitation patterns,both globally and locally,under the G1ext scenario.The generated datasets have been released on the Earth System Grid Federation data server,providing insight into the potential efficacy and impact of solar geoengineering strategies.展开更多
A phase-field model integrated with the thermodynamic databases was constructed to investigate the impact of Ni content on the precipitation kinetics and phase transformation of the Cu-rich phase in Fe-Cu-Ni alloy at ...A phase-field model integrated with the thermodynamic databases was constructed to investigate the impact of Ni content on the precipitation kinetics and phase transformation of the Cu-rich phase in Fe-Cu-Ni alloy at 773 K.The results demonstrated that the Cu core-Ni shell structures form via the decomposition of Cu-Ni co-clusters,which is consistent with previous experimental results.As the Ni content increases,both the volume fraction and number density of Cu-rich precipitates increase,while their size decreases.With the increase in Ni content,the transformation from a Cu to 9R Cu is accelerated,which is the opposite to the result of increasing Mn content.Magnetic energy can increase the nucleation rate of the Cu-rich phase,but it does not affect the phase transformation driving force required for its crystal structure transformation.展开更多
Brown carbon(BrC)is one of the important light absorption substances that have high light absorption ability under short wavelength light.However,limit studies have focused on the BrC emission from ships.In this study...Brown carbon(BrC)is one of the important light absorption substances that have high light absorption ability under short wavelength light.However,limit studies have focused on the BrC emission from ships.In this study,size-segregated particulate matters(PM)were collected from three different types of ships,light absorption characteristics and size distribution of methanol-soluble BrC and water-soluble BrC in PM from ship exhausts were investigated.Results showed that four-stroke low-power diesel fishing boat(4-LDF)had the highest mass concentrations of methanol-soluble organic carbon(MSOC)and water-soluble organic carbon(WSOC),followed by 2-stroke high-power heavy-fuel-oil vessel(2-HHV),and fourstroke high-power marine-diesel vessel(4-HMV).While 2-HHV had obviously higher light absorption coefficients of methanol-soluble BrC(Abs365,M)and water-soluble BrC(Abs365,W)in unit weight of PM than the other two types of ships.The tested ships presented comparable or higher absorption efficiency of BrC in water extracts(MAE365,W)compared with other BrC emission sources.Majority of BrC was concentrated in fine particles,and the particle size distributions of both Abs365,Mand Abs365,Wshowed bimodal patterns,peaking at0.43–0.65μm and 4.7–5.8μm,respectively.However,different particle size distributions were found for MAE365,Mbetween diesel and heavy fuel oil ships.Besides,different wavelength dependence in particles with different size were also detected.Ship exhaust could be confirmed as a non-ignorable BrC emission source,and complex influencing factor could affect the light absorption characteristics of ship emissions.Particle size should also be considered when light absorption ability of BrC was evaluated.展开更多
Pathogenic African swine fever virus(ASFV)remains a lethal causative agent in the domestic pig industry,which poses a burden on the swine market and causes substantial socioeconomic losses worldwide.Currently,there ar...Pathogenic African swine fever virus(ASFV)remains a lethal causative agent in the domestic pig industry,which poses a burden on the swine market and causes substantial socioeconomic losses worldwide.Currently,there are no commercially efcacious vaccines or specifc treatments available for ASF prevention and control.Unfortunately,little is known about the swine immune response upon ASFV infection.Here,we investigated the host immune response discrepancy induced by the feld moderately virulent strain ASFV HB-2208 among healthy,diseased and asymptomatic pigs.In the peripheral blood of diseased swine,lymphopenia is caused by the massive loss of bystander lymphocytes,such asγδT cells,B cells and CD4^(+)T cells.Conversely,ASFV has a strong tropism for the mononuclear phagocyte system(MPS)and partial dendritic cells(DCs),whose antigen-presenting ability is impeded by the downregulation of CD80 and MHC I.However,no signifcant diference in the number of CD8α^(high) T cells was detected,whereas the frequencies of NK cells,NKT cells,and regulatory T cells(Tregs)were signifcantly increased.Additionally,an in vitro model was established with a coculture of primary pulmonary alveolar macrophages(PAMs)and peripheral blood mononuclear cells(PBMCs),which signifcantly reducedγδT cells,B cells and CD4^(+)T cells and increased Tregs.The diferentiated immune response might aid in enhancing the understanding of ASFV pathogenesis in suids and provide insights into the mechanism of ASFV-induced lymphopenia for further studies.展开更多
Pets become vital companions in human life.Tey ofer companionship and emotional support,and contribute signifcantly to physical and mental health,as well as social activities.Living with pets can stimulate human bodie...Pets become vital companions in human life.Tey ofer companionship and emotional support,and contribute signifcantly to physical and mental health,as well as social activities.Living with pets can stimulate human bodies to release more“afnity hormones”such as serotonin,dopamine,and oxytocin,which helps alleviate negative emotions.Te human-animal bond can enhance the human body’s ability to eliminate toxins,reduce the risk of illnesses,strengthen the immune system,and alleviate depressive symptoms.Moreover,pet-related social activities can facilitate the making of new friends and the establishment of social connections,serving as a bridge for those who struggle with social interactions.展开更多
BACKGROUND Previous studies suggest that appendectomy has a protective effect against ulcera-tive colitis(UC);however,relatively few studies focusing on this topic have been reported in China.AIM To explore the correl...BACKGROUND Previous studies suggest that appendectomy has a protective effect against ulcera-tive colitis(UC);however,relatively few studies focusing on this topic have been reported in China.AIM To explore the correlation between appendectomy and the onset of UC.METHODS A total of 313 patients with newly diagnosed UC and 313 healthy individuals were selected for this study.According to whether their appendix was removed before the diagnosis of UC,patients were divided into appendectomized and non-appendectomized groups.Their general clinical data,appendectomy history,disease severity,extent of involvement,and blood routine test results were collec-ted to evaluate the relationship between appendectomy and the onset of UC.RESULTS The study revealed that the average time interval for the diagnosis of UC after appendectomy was 14.72±13.87 years.55.81%patients were diagnosed with UC five years after appendectomy.Among them,eight patients underwent appendec-tomy before the age of 20 years and were diagnosed with UC five years later.In the appendectomized group,the onset age of UC was higher,and the degree of disease activity was significantly lower.This group had a higher proportion of patients in clinical remission or with mild disease and a lower proportion of patients with severe disease.The extent of lesions in the appendectomized group was limited,with a higher pro-portion of E1 and E2,whereas a lower proportion of E3 lesions.CONCLUSION Appendectomy may delay the onset of UC,reduce disease severity,and lessen the scope of involvement.展开更多
Rabies is a zoonotic disease that still causes 59,000 human deaths each year,and rabies vaccine is the most effective way to control the disease.Our previous studies suggested that the maturation of DC plays an import...Rabies is a zoonotic disease that still causes 59,000 human deaths each year,and rabies vaccine is the most effective way to control the disease.Our previous studies suggested that the maturation of DC plays an important role in enhancing the immunogenicity of rabies vaccine.Flt3L has been reported to own the ability to accelerate the DC maturation,therefore,in this study,a recombinant rabies virus expressing mouse Flt3L,designated as LBNSE-Flt3L,was constructed,and its immunogenicity was characterized.It was found that LBNSE-FU3L could enhance the maturation of DC both in vitro and in vivo,and significantly more TFH cells and Germinal Center B(GC B)cells were generated in mice immunized with LBNSE-FU3L than those immunized with the parent virus LBNSE.Consequently,expressing of Flt3L could elevate the level of virus-neutralizing antibodies(VNA)in immunized mice which provides a better protection from a lethal rabies virus challenge.Taken together,our study extends the potential of Flt3L as a good adjuvant to develop novel rabies vaccine by enhancing the VNA production through activating the DC—Tfh^GC B axis in immunized mice.展开更多
Japanese encephalitis virus(JEV) is a mosquito-borne virus and the major cause of viral encephalitis in Asia. NS1', a52-amino acid C-terminal extension of NS1, is generated with a-1 programmed ribosomal frameshift...Japanese encephalitis virus(JEV) is a mosquito-borne virus and the major cause of viral encephalitis in Asia. NS1', a52-amino acid C-terminal extension of NS1, is generated with a-1 programmed ribosomal frameshift and is only present in members of the Japanese encephalitis serogroup of flaviviruses. Previous studies demonstrated that NS1' plays a vital role in virulence, but the mechanism is unclear. In this study, an NS1' defected(rG66A) virus was generated. We found that rG66A virus was less virulent than its parent virus(pSA14) in wild-type mice. However, similar mortality caused by the two viruses was observed in an IFNAR knockout mouse model. Moreover, we found that rG66A virus induced a greater type Ⅰ interferon(IFN) response than that by pSA14, and JEV NS1' significantly inhibited the production of IFN-b and IFN-stimulated genes. Taken together, our results reveal that NS1' plays a vital role in blocking type I IFN production to help JEV evade antiviral immunity and benefit viral replication.展开更多
Rabies remains a public health threat that kills approximately 59,000 people worldwide each year,most of which are from the developing countries of Africa and Asia where dog rabies are endemic.Therefore, developing an...Rabies remains a public health threat that kills approximately 59,000 people worldwide each year,most of which are from the developing countries of Africa and Asia where dog rabies are endemic.Therefore, developing an affordable and efficacious vaccine is crucial for rabies control in these countries. Interleukin(IL)-15, an immunoregulatory cytokine, is a pluripotent molecule with therapeutic potential, which targets many cell types and links the innate and adaptive immune system. In this study, IL-15 gene was cloned and inserted into the genome of a recombinant rabies virus(RABV) strain LBNSE(designated as LBNSE-IL15), and the effect of over-expression of IL-15 on the immunogenicity of RABV was investigated. It was found that mice vaccinated with LBNSEIL15 could induce significantly higher level of virus-neutralizing antibody(VNA) than those immunized with LBNSE, resulting in the higher protection after challenge. Further investigation was performed to find out the possible role of IL-15 plays in the process of antibody induction, and it was found that LBNSE-IL15 could enhance the maturation of dendritic cells(DCs) in immunized mice. Furthermore, the mice immunized with LBNSE-IL15 could promote the T_(FH) cells differentiation and the generation of germinal center B cells and plasma cells. Together, these data indicated that IL-15 could be a potential adjuvant in enhancing the immunogenicity of RABV, contributing to the development of more-efficacious rabies vaccines.展开更多
AIM:To investigate the changes of retinal nerve fiber layer(RNFL)among normal individuals,diabetic patients without diabetic retinopathy(NDR)and non-proliferative diabetic retinopathy(NPDR),and explore the possible ri...AIM:To investigate the changes of retinal nerve fiber layer(RNFL)among normal individuals,diabetic patients without diabetic retinopathy(NDR)and non-proliferative diabetic retinopathy(NPDR),and explore the possible risk factors of early diabetic retinopathy(DR).METHODS:In this cross-sectional study,107 participants were divided in three groups.Totally 31 normal individuals(control group),40 diabetic patients without DR(NDR group)and 36 patients with NPDR(NPDR group)were included.Optical coherence tomography(OCT)was used to detect RNFL thickness and other optic disc parameters among different groups.The potential association between RNFL loss and systemic risk factors were assessed for DR,including diabetes duration,body mass index(BMI),hemoglobin A1 c(Hb A1 c),serum lipids,and blood pressure.RESULTS:The average and each quadrant RNFL thickness were thinner in NPDR group compared to control group of the right(P=0.00,P=0.01,P=0.01,P=0.02,P=0.04)and left eyes(P=0.00,P=0.00,P=0.00,P=0.03,P=0.04).The average,superior and inferior RNFL thickness were thinner in NDR group compared to the NPDR group of the right(P=0.00,P=0.02,P=0.03)and left eyes(P=0.00,P=0.00,P=0.01).Diabetic duration was negatively correlated with the superior,inferior,and average RNFL thickness of the right(r=-0.385,P=0.001;r=-0.366,P=0.001;r=-0.503,P=0.000)and left eyes(r=-0.271,P=0.018;r=0.278,P=0.015;r=-0.260,P=0.023).Hb A1 c was negatively correlated with the superior,inferior,and average RNFL thickness of the right(r=-0.316 P=0.005;r=-0.414,P=0.000;r=-0.418,P=0.000)and left eyes(r=-0.367,P=0.001;r=-0.250,P=0.030;r=-0.393,P=0.000).Systolic pressure was negatively correlated with the inferior and average RNFL thickness of the right eye(r=-0.402,P=0.000;r=-0.371,P=0.001)and was negatively correlated with the superior and average RNFL thickness of the left eye(r=-0.264,P=0.021;r=-0.233,P=0.043).CONCLUSION:RNFL loss,especially in the superior and inferior quadrants,may be the earliest structural change of the retina in diabetic patients,and is also associated with diabetic duration,Hb A1 c,and systolic pressure.展开更多
Based on the transport equation of the semiconductor device model for 0.524 e V Ge Sn alloy and the experimental parameters of the material,the thermal-electricity conversion performance governed by a Ge Sn diode has ...Based on the transport equation of the semiconductor device model for 0.524 e V Ge Sn alloy and the experimental parameters of the material,the thermal-electricity conversion performance governed by a Ge Sn diode has been systematically studied in its normal and inverted structures.For the normal p^(+)/n(n^(+)/p)structure,it is demonstrated here that an optimal base doping N_(d(a))=3(7)×10^(18)cm^(-3) is observed,and the superior p^(+)/n structure can achieve a higher performance.To reduce material consumption,an economical active layer can comprise a 100 nm-300 nm emitter and a 3μm-6μm base to attain comparable performance to that for the optimal configuration.Our results offer many useful guidelines for the fabrication of economical Ge Sn thermophotovoltaic devices.展开更多
The mammalian intestinal epithelium constitutes the largest barrier against the external environment and makes flexible responses to various types of stimuli.Epithelial cells are fast-renewed to counteract constant da...The mammalian intestinal epithelium constitutes the largest barrier against the external environment and makes flexible responses to various types of stimuli.Epithelial cells are fast-renewed to counteract constant damage and disrupted barrier function to maintain their integrity.The homeostatic repair and regeneration of the intestinal epithelium are governed by the Lgr5+intestinal stem cells(ISCs)located at the base of crypts,which fuel rapid renewal and give rise to the different epithelial cell types.Protracted biological and physicochemical stress may challenge epithelial integrity and the function of ISCs.The field of ISCs is thus of interest for complete mucosal healing,given its relevance to diseases of intestinal injury and inflammation such as inflammatory bowel diseases.Here,we review the current understanding of the signals and mechanisms that control homeostasis and regeneration of the intestinal epithelium.We focus on recent insights into the intrinsic and extrinsic elements involved in the process of intestinal homeostasis,injury,and repair,which fine-tune the balance between self-renewal and cell fate specification in ISCs.Deciphering the regulatory machinery that modulates stem cell fate would aid in the development of novel therapeutics that facilitate mucosal healing and restore epithelial barrier function.展开更多
(1 - x)PbZr0.54Tio.4603-xKNbO3 (0 〈 x 〈 25mo1%) (abbreviated as PZT-xKN) piezoelectric ceramics were successfully fabricated by a traditional sintering technique at 1225℃ for 30 min. The influence of KNbO3 co...(1 - x)PbZr0.54Tio.4603-xKNbO3 (0 〈 x 〈 25mo1%) (abbreviated as PZT-xKN) piezoelectric ceramics were successfully fabricated by a traditional sintering technique at 1225℃ for 30 min. The influence of KNbO3 content on the crystal structure and electrical properties of the PZT-xKN piezoelectric ceramics was studied. Samples with 0 〈 x 0.20 show a pure peroskite structure, indicating that ul KNbOdiffused ito the crystal lattice of PZT to form a single solid solution in this compositional range. A second Pb3Nb4013 phase is observed in the PZT-0.25KN sample, showing that the maximum solid solubility of KNbO3 in PZT matrix ceramic is less than 25mo1%. Compared with pure PZT piezoelectric ceramics, samples containing KNbO3 have smaller crystal grains. PZT-0.15KN exhibits excellent piezoelectric properties with d33 : 209 pC/N.展开更多
Intervertebral disc(ID)degeneration(IDD)is one of the main causes of chronic low back pain,and degenerative lesions are usually caused by an imbalance between catabolic and anabolic processes in the ID.The environment...Intervertebral disc(ID)degeneration(IDD)is one of the main causes of chronic low back pain,and degenerative lesions are usually caused by an imbalance between catabolic and anabolic processes in the ID.The environment in which the ID is located is harsh,with almost no vascular distribution within the disc,and the nutrient supply relies mainly on the diffusion of oxygen and nutrients from the blood vessels located under the endplate.The stability of its internal environment also plays an important role in preventing IDD.The main feature of disc degeneration is a decrease in the number of cells.Mesenchymal stem cells have been used in the treatment of disc lesions due to their ability to differentiate into nucleus pulposus cells in a nonspecific anti-inflammatory manner.The main purpose is to promote their regeneration.The current aim of stem cell therapy is to replace the aged and metamorphosed cells in the ID and to increase the content of the extracellular matrix.The treatment of disc degeneration with stem cells has achieved good efficacy,and the current challenge is how to improve this efficacy.Here,we reviewed current treatments for disc degeneration and summarize studies on stem cell vesicles,enhancement of therapeutic effects when stem cells are mixed with related substances,and improvements in the efficacy of stem cell therapy by adjuvants under adverse conditions.We reviewed the new approaches and ideas for stem cell treatment of disc degeneration in order to contribute to the development of new therapeutic approaches to meet current challenges.展开更多
Animals play an important role in our lives.Increased human-animal interactions lead to the transmission of zoonotic pathogens between animals and humans,directly threatening human health and societal development.Near...Animals play an important role in our lives.Increased human-animal interactions lead to the transmission of zoonotic pathogens between animals and humans,directly threatening human health and societal development.Nearly all major public health events that occurred in the last several decades have been closely related to animal diseases.Approximately,60%of human infectious diseases are zoonotic,and 75%of emerging human infectious diseases originate from animals.As of April 20,2022,the global coronavirus infectious disease19(COVID-19)pandemic caused more than 503 million infections and more than 6.2 million deaths in humans.Over 11 billion doses of vaccines have been given to humans worldwide(WHO 2022).Despite the consensus among international organizations and animal experts that the SARS-CoV-2 originated from animals,the route of transmission between humans and other animals remains unclear.Furthermore,it is still a challenge for continually tracing the origin of SARS-CoV-2.展开更多
Tri-doped Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors were prepared by a high-temperature solid state method.Under UV light excitation,Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+)samples exhibit a broad band r...Tri-doped Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors were prepared by a high-temperature solid state method.Under UV light excitation,Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+)samples exhibit a broad band ranging from 320 to 500 nm.At 77 K,the emission spectra of Ca_(9)LiY_(2/3)(PO_(4))7:Ce^(3+)samples present two obvious emission peaks,indicating that Ce^(3+)ions occupy two different kinds of lattice sites(Ca(1/2)and Ca(3)),As a good sensitizer for Tb^(3+),Ce^(3+)ions in Ca_(9)LiY_(2/3)(PO_(4))_(7)lattice can effectively transfer part of energy to Tb^(3+),and the energy trans fer mechanism is determined to be dipole-dipole interaction.Consequently,the emitting color for Ce^(3+)and Tb^(3+)co-doped Ca_(9)LiY_(2/3)(PO_(4))_(7)samples can be tuned from bluish violet to green.In order to further enlarge the emission gamut,Mn^(2+)ions as red emission components were added,forming tri-doped single-phase Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors.The Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors exhibit tunable emission properties through controlling the relative doping concentration of Ce^(3+),Tb^(3+)and Mn^(2+).Especially,Ca_(9)LiY_(2/3)(PO_(4))_(7):0.09 Ce^(3+),0.12 Tb^(3+),0.30 Mn^(2+)can emit warm white light.The sample shows good thermal stability.At 150℃,the emission intensity for Ce^(3+)(360 nm),Tb^(3+)(545 nm)and Mn^(2+)(655 nm)decreases to 63%,69%,and 72%of its initial intensity,respectively.Moreover,the sample obtains good stability after 10 cycles between room temperature and150℃.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.41875126)the National Key Scientific and Technological Infrastructure project “Earth System Numerical Simulation Facility”(EarthLab)。
文摘Solar radiation modification,a scheme aimed at mitigating rapid global warming triggered by anthropogenic greenhouse gas emissions,has been explored through the G1ext experiment under the Geoengineering Model Intercomparison Project(GeoMIP) framework,utilizing the Chinese Academy of Sciences Earth System Model version 2(CAS-ESM2.0).This paper briefly describes the basic configuration and experimental design of the CAS-ESM2.0 for G1ext,which involves a sudden reduction in solar irradiance to counterbalance the radiative forcing of an abrupt quadrupling of atmospheric CO_(2) concentration,running for 100 years.Preliminary results show that this model can reproduce well the compensatory effect of a uniform decrease in global solar radiation on the radiative forcing resulting from an abrupt quadrupling of CO_(2) concentration.Like other Earth system models,CAS-ESM2.0 reasonably captures variations in radiative adjustments,surface air temperature,and precipitation patterns,both globally and locally,under the G1ext scenario.The generated datasets have been released on the Earth System Grid Federation data server,providing insight into the potential efficacy and impact of solar geoengineering strategies.
基金supported by the National Natural Science Foundation of China(Grant No.51871086).
文摘A phase-field model integrated with the thermodynamic databases was constructed to investigate the impact of Ni content on the precipitation kinetics and phase transformation of the Cu-rich phase in Fe-Cu-Ni alloy at 773 K.The results demonstrated that the Cu core-Ni shell structures form via the decomposition of Cu-Ni co-clusters,which is consistent with previous experimental results.As the Ni content increases,both the volume fraction and number density of Cu-rich precipitates increase,while their size decreases.With the increase in Ni content,the transformation from a Cu to 9R Cu is accelerated,which is the opposite to the result of increasing Mn content.Magnetic energy can increase the nucleation rate of the Cu-rich phase,but it does not affect the phase transformation driving force required for its crystal structure transformation.
基金supported by the National Natural Science Foundation of China(Nos.42130704,42077195)the State Environmental Protection Key Laboratory of Formation and Prevention of Urban Air Pollution Complex(No.2021080547)the Ministry of Industry and Information Technology of China(No.MC-202019-C08)。
文摘Brown carbon(BrC)is one of the important light absorption substances that have high light absorption ability under short wavelength light.However,limit studies have focused on the BrC emission from ships.In this study,size-segregated particulate matters(PM)were collected from three different types of ships,light absorption characteristics and size distribution of methanol-soluble BrC and water-soluble BrC in PM from ship exhausts were investigated.Results showed that four-stroke low-power diesel fishing boat(4-LDF)had the highest mass concentrations of methanol-soluble organic carbon(MSOC)and water-soluble organic carbon(WSOC),followed by 2-stroke high-power heavy-fuel-oil vessel(2-HHV),and fourstroke high-power marine-diesel vessel(4-HMV).While 2-HHV had obviously higher light absorption coefficients of methanol-soluble BrC(Abs365,M)and water-soluble BrC(Abs365,W)in unit weight of PM than the other two types of ships.The tested ships presented comparable or higher absorption efficiency of BrC in water extracts(MAE365,W)compared with other BrC emission sources.Majority of BrC was concentrated in fine particles,and the particle size distributions of both Abs365,Mand Abs365,Wshowed bimodal patterns,peaking at0.43–0.65μm and 4.7–5.8μm,respectively.However,different particle size distributions were found for MAE365,Mbetween diesel and heavy fuel oil ships.Besides,different wavelength dependence in particles with different size were also detected.Ship exhaust could be confirmed as a non-ignorable BrC emission source,and complex influencing factor could affect the light absorption characteristics of ship emissions.Particle size should also be considered when light absorption ability of BrC was evaluated.
基金support provided by the National Natural Sciences Foundation of China(Grant Nos.32172873 and 31941005)the National Programme on Key Research Project of China(2021YFD1800105-2)National Natural Sciences Foundation of China,32172873,Min Cui,31941005,Min Cui,National Programme on Key Research Project of China,2021YFD1800105-2,Min Cui。
文摘Pathogenic African swine fever virus(ASFV)remains a lethal causative agent in the domestic pig industry,which poses a burden on the swine market and causes substantial socioeconomic losses worldwide.Currently,there are no commercially efcacious vaccines or specifc treatments available for ASF prevention and control.Unfortunately,little is known about the swine immune response upon ASFV infection.Here,we investigated the host immune response discrepancy induced by the feld moderately virulent strain ASFV HB-2208 among healthy,diseased and asymptomatic pigs.In the peripheral blood of diseased swine,lymphopenia is caused by the massive loss of bystander lymphocytes,such asγδT cells,B cells and CD4^(+)T cells.Conversely,ASFV has a strong tropism for the mononuclear phagocyte system(MPS)and partial dendritic cells(DCs),whose antigen-presenting ability is impeded by the downregulation of CD80 and MHC I.However,no signifcant diference in the number of CD8α^(high) T cells was detected,whereas the frequencies of NK cells,NKT cells,and regulatory T cells(Tregs)were signifcantly increased.Additionally,an in vitro model was established with a coculture of primary pulmonary alveolar macrophages(PAMs)and peripheral blood mononuclear cells(PBMCs),which signifcantly reducedγδT cells,B cells and CD4^(+)T cells and increased Tregs.The diferentiated immune response might aid in enhancing the understanding of ASFV pathogenesis in suids and provide insights into the mechanism of ASFV-induced lymphopenia for further studies.
文摘Pets become vital companions in human life.Tey ofer companionship and emotional support,and contribute signifcantly to physical and mental health,as well as social activities.Living with pets can stimulate human bodies to release more“afnity hormones”such as serotonin,dopamine,and oxytocin,which helps alleviate negative emotions.Te human-animal bond can enhance the human body’s ability to eliminate toxins,reduce the risk of illnesses,strengthen the immune system,and alleviate depressive symptoms.Moreover,pet-related social activities can facilitate the making of new friends and the establishment of social connections,serving as a bridge for those who struggle with social interactions.
基金Supported by National Natural Science Foundation of China,No.82460110.
文摘BACKGROUND Previous studies suggest that appendectomy has a protective effect against ulcera-tive colitis(UC);however,relatively few studies focusing on this topic have been reported in China.AIM To explore the correlation between appendectomy and the onset of UC.METHODS A total of 313 patients with newly diagnosed UC and 313 healthy individuals were selected for this study.According to whether their appendix was removed before the diagnosis of UC,patients were divided into appendectomized and non-appendectomized groups.Their general clinical data,appendectomy history,disease severity,extent of involvement,and blood routine test results were collec-ted to evaluate the relationship between appendectomy and the onset of UC.RESULTS The study revealed that the average time interval for the diagnosis of UC after appendectomy was 14.72±13.87 years.55.81%patients were diagnosed with UC five years after appendectomy.Among them,eight patients underwent appendec-tomy before the age of 20 years and were diagnosed with UC five years later.In the appendectomized group,the onset age of UC was higher,and the degree of disease activity was significantly lower.This group had a higher proportion of patients in clinical remission or with mild disease and a lower proportion of patients with severe disease.The extent of lesions in the appendectomized group was limited,with a higher pro-portion of E1 and E2,whereas a lower proportion of E3 lesions.CONCLUSION Appendectomy may delay the onset of UC,reduce disease severity,and lessen the scope of involvement.
基金supported by the National Program on Key Research Project of China (2016YFD0500400 and 2017YFD0501701)the National Natural Science Foundation of China (31872494, 31402176, 31372419, and 31522057)+2 种基金the Fundamental Research Funds for the Central Universities (No. 2662016QD036 to MZ)the Ministry of Science and Technology of China (863 program, No. 2011AA10A212)the Ministry of Agriculture of China (Special Fund for Agro-scientific Research in the Public Interest, No. 201303042 to ZFF)
文摘Rabies is a zoonotic disease that still causes 59,000 human deaths each year,and rabies vaccine is the most effective way to control the disease.Our previous studies suggested that the maturation of DC plays an important role in enhancing the immunogenicity of rabies vaccine.Flt3L has been reported to own the ability to accelerate the DC maturation,therefore,in this study,a recombinant rabies virus expressing mouse Flt3L,designated as LBNSE-Flt3L,was constructed,and its immunogenicity was characterized.It was found that LBNSE-FU3L could enhance the maturation of DC both in vitro and in vivo,and significantly more TFH cells and Germinal Center B(GC B)cells were generated in mice immunized with LBNSE-FU3L than those immunized with the parent virus LBNSE.Consequently,expressing of Flt3L could elevate the level of virus-neutralizing antibodies(VNA)in immunized mice which provides a better protection from a lethal rabies virus challenge.Taken together,our study extends the potential of Flt3L as a good adjuvant to develop novel rabies vaccine by enhancing the VNA production through activating the DC—Tfh^GC B axis in immunized mice.
基金supported by the National Key Research and Development Program of China (2016YFD0500407)National Natural Science Foundation of China (31502065 and 31572517)Fundamental Research Funds for the Central Universities (2013PY051, 2662016Q003, and 2662015PY083)
文摘Japanese encephalitis virus(JEV) is a mosquito-borne virus and the major cause of viral encephalitis in Asia. NS1', a52-amino acid C-terminal extension of NS1, is generated with a-1 programmed ribosomal frameshift and is only present in members of the Japanese encephalitis serogroup of flaviviruses. Previous studies demonstrated that NS1' plays a vital role in virulence, but the mechanism is unclear. In this study, an NS1' defected(rG66A) virus was generated. We found that rG66A virus was less virulent than its parent virus(pSA14) in wild-type mice. However, similar mortality caused by the two viruses was observed in an IFNAR knockout mouse model. Moreover, we found that rG66A virus induced a greater type Ⅰ interferon(IFN) response than that by pSA14, and JEV NS1' significantly inhibited the production of IFN-b and IFN-stimulated genes. Taken together, our results reveal that NS1' plays a vital role in blocking type I IFN production to help JEV evade antiviral immunity and benefit viral replication.
基金partially supported by the National Natural Science Foundation of China(31402176,31372419,31522057)the National Program on Key Research Project of China(2016YFD0500400)+2 种基金the Fundamental Research Funds for the Central Universities(2662016 QD036,to MZ)the Ministry of Science and Technology of China(863 program,number 2011AA10A212)the Ministry of Agriculture of China(special fund for Agro-scientific research in the Public Interest,2013 03042,to ZFF)
文摘Rabies remains a public health threat that kills approximately 59,000 people worldwide each year,most of which are from the developing countries of Africa and Asia where dog rabies are endemic.Therefore, developing an affordable and efficacious vaccine is crucial for rabies control in these countries. Interleukin(IL)-15, an immunoregulatory cytokine, is a pluripotent molecule with therapeutic potential, which targets many cell types and links the innate and adaptive immune system. In this study, IL-15 gene was cloned and inserted into the genome of a recombinant rabies virus(RABV) strain LBNSE(designated as LBNSE-IL15), and the effect of over-expression of IL-15 on the immunogenicity of RABV was investigated. It was found that mice vaccinated with LBNSEIL15 could induce significantly higher level of virus-neutralizing antibody(VNA) than those immunized with LBNSE, resulting in the higher protection after challenge. Further investigation was performed to find out the possible role of IL-15 plays in the process of antibody induction, and it was found that LBNSE-IL15 could enhance the maturation of dendritic cells(DCs) in immunized mice. Furthermore, the mice immunized with LBNSE-IL15 could promote the T_(FH) cells differentiation and the generation of germinal center B cells and plasma cells. Together, these data indicated that IL-15 could be a potential adjuvant in enhancing the immunogenicity of RABV, contributing to the development of more-efficacious rabies vaccines.
基金Supported by National Natural Science Foundation of China(No.81472081)Natural Science Foundation of Jiangsu Province Project(No.BK2010539)2020 Qing Lan Project of Jiangsu Province。
文摘AIM:To investigate the changes of retinal nerve fiber layer(RNFL)among normal individuals,diabetic patients without diabetic retinopathy(NDR)and non-proliferative diabetic retinopathy(NPDR),and explore the possible risk factors of early diabetic retinopathy(DR).METHODS:In this cross-sectional study,107 participants were divided in three groups.Totally 31 normal individuals(control group),40 diabetic patients without DR(NDR group)and 36 patients with NPDR(NPDR group)were included.Optical coherence tomography(OCT)was used to detect RNFL thickness and other optic disc parameters among different groups.The potential association between RNFL loss and systemic risk factors were assessed for DR,including diabetes duration,body mass index(BMI),hemoglobin A1 c(Hb A1 c),serum lipids,and blood pressure.RESULTS:The average and each quadrant RNFL thickness were thinner in NPDR group compared to control group of the right(P=0.00,P=0.01,P=0.01,P=0.02,P=0.04)and left eyes(P=0.00,P=0.00,P=0.00,P=0.03,P=0.04).The average,superior and inferior RNFL thickness were thinner in NDR group compared to the NPDR group of the right(P=0.00,P=0.02,P=0.03)and left eyes(P=0.00,P=0.00,P=0.01).Diabetic duration was negatively correlated with the superior,inferior,and average RNFL thickness of the right(r=-0.385,P=0.001;r=-0.366,P=0.001;r=-0.503,P=0.000)and left eyes(r=-0.271,P=0.018;r=0.278,P=0.015;r=-0.260,P=0.023).Hb A1 c was negatively correlated with the superior,inferior,and average RNFL thickness of the right(r=-0.316 P=0.005;r=-0.414,P=0.000;r=-0.418,P=0.000)and left eyes(r=-0.367,P=0.001;r=-0.250,P=0.030;r=-0.393,P=0.000).Systolic pressure was negatively correlated with the inferior and average RNFL thickness of the right eye(r=-0.402,P=0.000;r=-0.371,P=0.001)and was negatively correlated with the superior and average RNFL thickness of the left eye(r=-0.264,P=0.021;r=-0.233,P=0.043).CONCLUSION:RNFL loss,especially in the superior and inferior quadrants,may be the earliest structural change of the retina in diabetic patients,and is also associated with diabetic duration,Hb A1 c,and systolic pressure.
基金Project supported by the Beijing Natural Science Foundation Program,China(Grant No.4192016)。
文摘Based on the transport equation of the semiconductor device model for 0.524 e V Ge Sn alloy and the experimental parameters of the material,the thermal-electricity conversion performance governed by a Ge Sn diode has been systematically studied in its normal and inverted structures.For the normal p^(+)/n(n^(+)/p)structure,it is demonstrated here that an optimal base doping N_(d(a))=3(7)×10^(18)cm^(-3) is observed,and the superior p^(+)/n structure can achieve a higher performance.To reduce material consumption,an economical active layer can comprise a 100 nm-300 nm emitter and a 3μm-6μm base to attain comparable performance to that for the optimal configuration.Our results offer many useful guidelines for the fabrication of economical Ge Sn thermophotovoltaic devices.
基金Supported by the National Natural Science Foundation of China,No.82202766the Natural Science Foundation of Hubei Province of China,No.2022CFB686+1 种基金the Science Foundation of Union Hospital,No.2021xhyn102the Scientific Research Training Program for Young Talents in Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,China。
文摘The mammalian intestinal epithelium constitutes the largest barrier against the external environment and makes flexible responses to various types of stimuli.Epithelial cells are fast-renewed to counteract constant damage and disrupted barrier function to maintain their integrity.The homeostatic repair and regeneration of the intestinal epithelium are governed by the Lgr5+intestinal stem cells(ISCs)located at the base of crypts,which fuel rapid renewal and give rise to the different epithelial cell types.Protracted biological and physicochemical stress may challenge epithelial integrity and the function of ISCs.The field of ISCs is thus of interest for complete mucosal healing,given its relevance to diseases of intestinal injury and inflammation such as inflammatory bowel diseases.Here,we review the current understanding of the signals and mechanisms that control homeostasis and regeneration of the intestinal epithelium.We focus on recent insights into the intrinsic and extrinsic elements involved in the process of intestinal homeostasis,injury,and repair,which fine-tune the balance between self-renewal and cell fate specification in ISCs.Deciphering the regulatory machinery that modulates stem cell fate would aid in the development of novel therapeutics that facilitate mucosal healing and restore epithelial barrier function.
基金financially supported by the Program of University-Industry Cooperation supported by the Ministry of Education and Guangdong Province of China (No.2008B090500262)the Specialized Research Fund for the Doctoral Program of Higher Education of China(No. 20090006110010)
文摘(1 - x)PbZr0.54Tio.4603-xKNbO3 (0 〈 x 〈 25mo1%) (abbreviated as PZT-xKN) piezoelectric ceramics were successfully fabricated by a traditional sintering technique at 1225℃ for 30 min. The influence of KNbO3 content on the crystal structure and electrical properties of the PZT-xKN piezoelectric ceramics was studied. Samples with 0 〈 x 0.20 show a pure peroskite structure, indicating that ul KNbOdiffused ito the crystal lattice of PZT to form a single solid solution in this compositional range. A second Pb3Nb4013 phase is observed in the PZT-0.25KN sample, showing that the maximum solid solubility of KNbO3 in PZT matrix ceramic is less than 25mo1%. Compared with pure PZT piezoelectric ceramics, samples containing KNbO3 have smaller crystal grains. PZT-0.15KN exhibits excellent piezoelectric properties with d33 : 209 pC/N.
基金National Natural Science Foundation of China,No.82202766Natural Science Foundation of Hubei Province of China,No.2022CFB686+1 种基金Science Foundation of Union Hospital,No.2021xhyn102Scientific Research Training Program for Young Talents in Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,China.
文摘Intervertebral disc(ID)degeneration(IDD)is one of the main causes of chronic low back pain,and degenerative lesions are usually caused by an imbalance between catabolic and anabolic processes in the ID.The environment in which the ID is located is harsh,with almost no vascular distribution within the disc,and the nutrient supply relies mainly on the diffusion of oxygen and nutrients from the blood vessels located under the endplate.The stability of its internal environment also plays an important role in preventing IDD.The main feature of disc degeneration is a decrease in the number of cells.Mesenchymal stem cells have been used in the treatment of disc lesions due to their ability to differentiate into nucleus pulposus cells in a nonspecific anti-inflammatory manner.The main purpose is to promote their regeneration.The current aim of stem cell therapy is to replace the aged and metamorphosed cells in the ID and to increase the content of the extracellular matrix.The treatment of disc degeneration with stem cells has achieved good efficacy,and the current challenge is how to improve this efficacy.Here,we reviewed current treatments for disc degeneration and summarize studies on stem cell vesicles,enhancement of therapeutic effects when stem cells are mixed with related substances,and improvements in the efficacy of stem cell therapy by adjuvants under adverse conditions.We reviewed the new approaches and ideas for stem cell treatment of disc degeneration in order to contribute to the development of new therapeutic approaches to meet current challenges.
文摘Animals play an important role in our lives.Increased human-animal interactions lead to the transmission of zoonotic pathogens between animals and humans,directly threatening human health and societal development.Nearly all major public health events that occurred in the last several decades have been closely related to animal diseases.Approximately,60%of human infectious diseases are zoonotic,and 75%of emerging human infectious diseases originate from animals.As of April 20,2022,the global coronavirus infectious disease19(COVID-19)pandemic caused more than 503 million infections and more than 6.2 million deaths in humans.Over 11 billion doses of vaccines have been given to humans worldwide(WHO 2022).Despite the consensus among international organizations and animal experts that the SARS-CoV-2 originated from animals,the route of transmission between humans and other animals remains unclear.Furthermore,it is still a challenge for continually tracing the origin of SARS-CoV-2.
基金Project supported by the National Natural Science Foundation of China(51672265)the Natural Science Foundation of Shandong Province(ZR2018JL016)+1 种基金the Applied Basic Research Plan of Qingdao(18-2-2-15-jch)the Open Funds of the State Key Laboratory of Rare Earth Resource Utilization(RERU2019003)。
文摘Tri-doped Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors were prepared by a high-temperature solid state method.Under UV light excitation,Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+)samples exhibit a broad band ranging from 320 to 500 nm.At 77 K,the emission spectra of Ca_(9)LiY_(2/3)(PO_(4))7:Ce^(3+)samples present two obvious emission peaks,indicating that Ce^(3+)ions occupy two different kinds of lattice sites(Ca(1/2)and Ca(3)),As a good sensitizer for Tb^(3+),Ce^(3+)ions in Ca_(9)LiY_(2/3)(PO_(4))_(7)lattice can effectively transfer part of energy to Tb^(3+),and the energy trans fer mechanism is determined to be dipole-dipole interaction.Consequently,the emitting color for Ce^(3+)and Tb^(3+)co-doped Ca_(9)LiY_(2/3)(PO_(4))_(7)samples can be tuned from bluish violet to green.In order to further enlarge the emission gamut,Mn^(2+)ions as red emission components were added,forming tri-doped single-phase Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors.The Ca_(9)LiY_(2/3)(PO_(4))_(7):Ce^(3+),Tb^(3+),Mn^(2+)phosphors exhibit tunable emission properties through controlling the relative doping concentration of Ce^(3+),Tb^(3+)and Mn^(2+).Especially,Ca_(9)LiY_(2/3)(PO_(4))_(7):0.09 Ce^(3+),0.12 Tb^(3+),0.30 Mn^(2+)can emit warm white light.The sample shows good thermal stability.At 150℃,the emission intensity for Ce^(3+)(360 nm),Tb^(3+)(545 nm)and Mn^(2+)(655 nm)decreases to 63%,69%,and 72%of its initial intensity,respectively.Moreover,the sample obtains good stability after 10 cycles between room temperature and150℃.
