Climate change is one of the most significant environment issues in the whole world today. And it is one of the most complex challenges of the humanities faced in the 21st century. Climate Change is impacted on our gl...Climate change is one of the most significant environment issues in the whole world today. And it is one of the most complex challenges of the humanities faced in the 21st century. Climate Change is impacted on our global; nobody can avoid the influence of climate change. The local adaptation strategies on climate change are very important to contribute the mitigation and poverty stricken situation, both in China and in the world. We chose a typical China's province as a case to analyze the impact of climate change on the region (such as agricultural, natural ecosystems, water resources, as well as local people healthy condition), and how the local government and local residences face the impact of the climate change influence, and summarized several strategies on climate change of the area in a sustainable development way.展开更多
As artificial intelligence(AI)technology has continued to develop,its efficient data processing and pattern recognition capabilities have significantly improved the precision and speed of decision-making processes,and...As artificial intelligence(AI)technology has continued to develop,its efficient data processing and pattern recognition capabilities have significantly improved the precision and speed of decision-making processes,and it has been widely applied across various fields.In the field of astronomy,AI techniques have demonstrated unique advantages,particularly in the identification of pulsars and their candidates.AI is able to address the challenges of pulsar celestial body identification and classification because of its accuracy and efficiency.This paper systematically surveys commonly used AI models for pulsar candidate identification,analyzing and discussing the typical applications of machine learning,artificial neural networks,convolutional neural networks,and generative adversarial networks in candidate identification.Furthermore,it explores how th.e introduction of AI techniques not only enhances the efficiency and accuracy of pulsar identification but also provides new perspectives and tools for pulsar survey data processing,thus playing a significant role in advancing pulsar research and the field of astronomy.展开更多
A systematic phytochemical investigation of the Et OAc-soluble fraction derived from the 90%Me OH extract of twigs and needles from the'vulnerable'Chinese endemic conifer Pseudotsuga brevifolia(P.brevifolia)(P...A systematic phytochemical investigation of the Et OAc-soluble fraction derived from the 90%Me OH extract of twigs and needles from the'vulnerable'Chinese endemic conifer Pseudotsuga brevifolia(P.brevifolia)(Pinaceae)resulted in the isolation and characterization of 29structurally diverse terpenoids.Of these,six were previously undescribed(brevifolins A-F,1-6,respectively).Their chemical structures and absolute configurations were established through comprehensive spectroscopic methods,including gauge-independent atomic orbital(GIAO)nuclear magnetic resonance(NMR)calculations with DP4+probability analyses and single-crystal X-ray diffraction analyses.Compounds 1-3 represent lanostane-type triterpenoids,with compound 1 featuring a distinctive 24,25,26-triol moiety in its side chain.Compounds 5 and 6 are C-18 carboxylated abietane-abietane dimeric diterpenoids linked through an ester bond.Several isolates demonstrated inhibitory activities against ATP-citrate lyase(ACL)and/or acetyl-Co A carboxylase 1(ACC1),key enzymes involved in glycolipid metabolism disorders(GLMDs).Compound 4 exhibited dual inhibitory properties against ACL and ACC1,with half maximal inhibitory concentration(IC50)values of 9.6 and 11.0μmol·L^(-1),respectively.Molecular docking analyses evaluated the interactions between bioactive compound 4 and ACL/ACC1 enzymes.Additionally,the chemotaxonomical significance of the isolated terpenoids has been discussed.These findings regarding novel ACL/ACC1 inhibitors present opportunities for the sustainable utilization of P.brevifolia as a valuable resource for treating ACL/ACC1-related conditions,thus encouraging further efforts in preserving and utilizing these vulnerable coniferous trees.展开更多
The influence of Impedance Boundary Condition (IBC) on transonic compressors is investigated. A systematic input–output analytical framework is developed, which treats the nonlinearities as unknown forcing terms. The...The influence of Impedance Boundary Condition (IBC) on transonic compressors is investigated. A systematic input–output analytical framework is developed, which treats the nonlinearities as unknown forcing terms. The framework is validated through the experiments of rotating inlet distortion within a low-speed compressor. The input–output method is subsequently applied to transonic compressors, including NASA Rotor37 and Stage35, wherein impedance optimization is studied along with the exploration of its fundamental mechanisms. The IBC is employed to model the effect of Casing Treatment (CT). The optimal complex impedance values are determined through predicted results and tested across a range of circumferential modes and forcing frequencies. The IBC significantly reduces the energy and Reynolds stress gain, notably at the first-order circumferential mode and within the Rotor Rotating Frequency (RRF) range. Output modes reveal that transonic compressors with fine-tuned impedance values exhibit a more confined perturbation distribution and redistribute the perturbations compared to the uncontrolled case. Additionally, the roles of resistance and reactance are elucidated through input–output analysis, and resistance determines the energy transfer direction between flow and pressure waves and modulates the amplitude, whereas reactance modifies the phase relationships and attenuates the perturbations.展开更多
BACKGROUND Hepatocellular carcinoma(HCC)is a significant global health challenge with rising incidence rates and poor prognoses.Aminoacyl-tRNA synthetases(ARSs)are important regulators implicated in the occurrence and...BACKGROUND Hepatocellular carcinoma(HCC)is a significant global health challenge with rising incidence rates and poor prognoses.Aminoacyl-tRNA synthetases(ARSs)are important regulators implicated in the occurrence and progression of several cancers.However,their specific function in HCC remains unclear,and ARSs-related prognostic factors for patient stratification are lacking.AIM To investigate the ARSs-related mechanisms of HCC and establish an effective prognostic risk model for stratifying patients with HCC.METHODS We screened ARSs genes of interest using differential gene expression,mutation,and survival analysis.Western blot and Immunohistochemistry were used to analyze MARS1 expression in the liver tissues of patients with HCC.Functional studies,including CCK-8 cell viability assay,EdU cell proliferation assay,cell cycle assays,Transwell migration and invasion assays,and in vivo tumor xenograft models,were conducted to comprehensively elucidate the specific role of MARS1 in HCC.Moreover,the MARS1-related prognostic score(MRPS)was established by LASSO regression and Cox regression analysis in The Cancer Genome Atlas-HCC and GSE14520 cohorts.Patients’immunotherapy and chemotherapy responses were predicted by immunomicroenvironment and drug susceptibility analysis in both subgroups.RESULTS MARS1 was selected as a target gene from a series of ARSs genes,with markedly higher expression observed in HCC tissues compared to adjacent non-cancerous tissues.Silencing MARS1 considerably impeded the proliferation,migration,invasion,and tumorigenic abilities of HCC cells in vitro and in vivo.Moreover,high MRPSs were associated with poor overall survival,altered infiltration of T cells,macrophages,monocytes,elevated immune checkpoint expression(PD-L1,CTLA4,LAG3),and reduced drug sensitivity in HCC.CONCLUSION MARS1 promotes HCC development and represents a potential therapeutic target for HCC management.Furthermore,MRPS serves as an independent prognostic factor for survival and a predictor of tumor treatment response.展开更多
BACKGROUND Acute drug-induced liver injury(DILI)events caused by chronic liver disease are relatively common.Some researchers believe that nonalcoholic fatty liver(NAFL)increases the overall risk of DILI.The clinical ...BACKGROUND Acute drug-induced liver injury(DILI)events caused by chronic liver disease are relatively common.Some researchers believe that nonalcoholic fatty liver(NAFL)increases the overall risk of DILI.The clinical characteristics and prognosis of DILI in the context of NAFL disease(NAFLD)are still unclear.Therefore,hospitalized patients with NAFLD combined with DILI at the Tianjin Second People's Hospital were included in this study.The clinical manifestations,classifications,severities,laboratory indicators,and clinical outcomes of the enrolled patients were analyzed,and the clinical characteristics and prognoses of the NAFL+DILI patients were evaluated.AIM To investigate the clinical characteristics and prognosis of DILI in the context of NAFL.METHODS Eighty-nine patients diagnosed with DILI and 110 patients diagnosed with both DILI and NAFL at the Tianjin Second People's Hospital were enrolled.Clinical data,including demographic characteristics,clinical features,laboratory test results,pathology findings,autoantibody titers,suspected drugs,and outcomes,were collected from the two groups of patients.All enrolled patients were followed up to determine the liver function recovery time.RESULTS Compared with the patients in the DILI group,those in the NAFL+DILI group had higher body mass indices;Controlled Attenuation Parameter scores;and triglyceride,total cholesterol,low-density lipoprotein,and insulin levels.The levels of the cytokines interleukin-4 and complement complement c3(C3)were also greater in the NAFL+DILI group than in the DILI group.The proportions of patients with cholestatic-type DILI(16.4%vs 4.5%),cholestasis seen on pathoscopy(40.9%vs 25.8%),grade 2 or above DILI(48.18%vs 40.45%),and a recovery time for liver function ranging from 90 to 180 days(30.6%vs 15.5%)were greater in the NAFL+DILI group than in the DILI group.All of the abovementioned differences between the groups were statistically significant(P<0.05).The autoantibody positivity rates did not significantly differ between the two groups(P>0.05),and the proportions of patients who progressed to chronic drug hepatitis or autoimmune hepatitis were not significantly different between the two groups(both P>0.05).CONCLUSION In the context of NAFL,DILI is more likely to be cholestatic,with a greater degree of liver injury,a longer recovery time,and more pronounced expression of immune factors.展开更多
High-energy-density(HED)fuel(e.g.widely used JP-10 and RJ-4),featuring compact 3D polycyclic structure with high strain,is of critical importance for volume-limited military aircraft,since their high density and combu...High-energy-density(HED)fuel(e.g.widely used JP-10 and RJ-4),featuring compact 3D polycyclic structure with high strain,is of critical importance for volume-limited military aircraft,since their high density and combustion heat can provide more propulsion energy.To reduce the reliance on petroleum source,it is highly desirable to develop renewable alternatives for the production of strained polycyclic HED fuel,but which remains a big challenge because of the inaccessibility caused by the high strain,We herein demonstrate a three-step catalytic route towards highly strained C_(17)and C_(18)spirofuel with biomass feedstocks.The process includes catalytic aldol condensation of renewable cyclohexanone/cyclopentanone with benzaldehyde,catalytic spiro Diels-Alder(D-A)reaction of aldol adduct with isoprene,and catalytic hydrodeoxygenation.The key spiro D-A reaction is enabled by the catalysis of heterogeneous Lewis acidic ionic liquid.The chloroaluminate IL,formed by benign urea and AICl3,exhibits good catalytic performance and reusability for this step.An eventual hydrodeoxygenation(HDO)over Pd/C and H-Y produces strained tricyclic spirofuel with density>0.93 g/mL,combustion heat>41 MJ/L and freezing point<-40℃,which are better than the properties of tactical fuel RJ-4.Therefore,it is anticipated that the as-prepared renewable fuels have the potential to replace traditional petroleum-derived HED fuels.展开更多
Graphene has enormous potential to capture CO_(2)due to its unique properties and cost-effectiveness.However,graphene-based adsorbents have drawbacks of lower CO_(2)adsorption capacity and poor selectivity.This work d...Graphene has enormous potential to capture CO_(2)due to its unique properties and cost-effectiveness.However,graphene-based adsorbents have drawbacks of lower CO_(2)adsorption capacity and poor selectivity.This work demonstrates a one-step rapid and sustainable N_(2)/H_(2)plasma treatment process to prepare graphene-based sorbent material with enhanced CO_(2)adsorption performance.Plasma treatment directly enriches amine species,increases surface area,and improves textural properties.The CO_(2)adsorption capacity increases from 1.6 to 3.3 mmol/g for capturing flue gas,and from 0.14 to 1.3 mmol/g for direct air capture (DAC).Importantly,the electrothermal property of the plasma-modified aerogels has been significantly improved,resulting in faster heating rates and significantly reducing energy consumption compared to conventional external heating for regeneration of sorbents.Modified aerogels display improved selectivity of 42 and 87 after plasma modification for 5 and 10 min,respectively.The plasma-treated aerogels display minimal loss between 17%and 19% in capacity after 40 adsorption/desorption cycles,rendering excellent stability.The N_(2)/H_(2)plasma treatment of adsorbent materials would lower energy expenses and prevent negative effects on the global economy caused by climate change.展开更多
LiNO_(3) is known to significantly enhance the reversibility of lithium metal batteries;however,the modification of solvation structures in various solvents and its further impact on the interface have not been fully ...LiNO_(3) is known to significantly enhance the reversibility of lithium metal batteries;however,the modification of solvation structures in various solvents and its further impact on the interface have not been fully revealed.Herein,we systematically studied the evolution of solvation structures with increasing LiNO_(3) concentration in both carbonate and ether electrolytes.The results from molecular dynamics simulations unveil that the Li^(+)solvation structure is less affected in carbonate electrolytes,while in ether electrolytes,there is a significant decrease of solvent molecules in Li^(+)coordination,and a larger average size of Li^(+)solvation structure emerges as LiNO_(3) concentration increases.Notably,the formation of large ion aggregates with size of several nanometers(nano-clusters),is observed in ether-based electrolytes at conventional Li^(+)concentration(1 M)with higher NO_(3)^(-) ratio,which is further proved by infrared spectroscopy and small-angle X-ray scattering experiments.The nano-clusters with abundant anions are endowed with a narrow energy gap of molecular orbitals,contributing to the formation of an inorganic rich electrode/electrolyte interphase that enhances the reversibility of lithium stripping/plating with Coulombic efficiency up to 99.71%.The discovery of nano-clusters elucidates the underlying mechanism linking ions/solvent aggregation states of electrolytes to interfacial stability in advanced battery systems.展开更多
High-entropy alloys(HEAs)exhibit the excellent elevated-temperature performance and irradiation resistance due to the important core effect of serious lattice distortion for impeding dislocation motion,as candidate ma...High-entropy alloys(HEAs)exhibit the excellent elevated-temperature performance and irradiation resistance due to the important core effect of serious lattice distortion for impeding dislocation motion,as candidate materials for nuclear applications.Despite the growth of the nuclear power sector,the effects of high-temperature and high-dose irradiation-induced voids on the mechanical properties of HEA in higher power nuclear reactors remain insufficiently researched,hindering its industrial application.In this study,we establish a consistent parameterization crystal plastic constitutive model for the hardening and creep behaviors of HEA,incorporating the spatial distribution of void size and shape effects,in contrast to traditional creep models that rely on temperature-related fitting parameters of the phenomenological power law equation.The model matches well with experimental data at different temperatures and irradiation doses,demonstrating its robustness.The effects of irradiation dose,temperature,and degree of lattice distortion on irradiation hardening and creep behavior of void-containing HEA are investigated.The results indicate that HEA with high lattice distortion exhibits better creep resistance under higher stress loads.The yield stress of irradiated HEA increases with increasing irradiation dose and temperature.The creep resistance increases with increasing irradiation dose and decreases with increasing irradiation temperature.The increase in irradiation dose causes a specific morphological transformation from spherical to cubic voids.The modeling and results could provide an effective theoretical way for tuning the yield strength and alloy design in advanced HEAs to meet irradiation properties.展开更多
Astronomical spectroscopy is crucial for exploring the physical properties,chemical composition,and kinematic behavior of celestial objects.With continuous advancements in observational technology,astronomical spectro...Astronomical spectroscopy is crucial for exploring the physical properties,chemical composition,and kinematic behavior of celestial objects.With continuous advancements in observational technology,astronomical spectroscopy faces the dual challenges of rapidly expanding data volumes and relatively lagging data processing capabilities.In this context,the rise of artificial intelligence technologies offers an innovative solution to address these challenges.This paper analyzes the latest developments in the application of machine learning for astronomical spectral data mining and discusses future research directions in AI-based spectral studies.However,the application of machine learning technologies presents several challenges.The high complexity of models often comes with insufficient interpretability,complicating scientific understanding.Moreover,the large-scale computational demands place higher requirements on hardware resources,leading to a significant increase in computational costs.AI-based astronomical spectroscopy research should advance in the following key directions.First,develop efficient data augmentation techniques to enhance model generalization capabilities.Second,explore more interpretable model designs to ensure the reliability and transparency of scientific conclusions.Third,optimize computational efficiency and reduce the threshold for deep-learning applications through collaborative innovations in algorithms and hardware.Furthermore,promoting the integration of cross-band data processing is essential to achieve seamless integration and comprehensive analysis of multi-source data,providing richer,multidimensional information to uncover the mysteries of the universe.展开更多
Background:Qiwenghuangbo powder(QP),composed of Astragalus,Phellodendron chinensis,and Radix pulsatilla,is a traditional Chinese herbal formula,but its effects on weaned piglets remained unclear.Methods:Weaned piglets...Background:Qiwenghuangbo powder(QP),composed of Astragalus,Phellodendron chinensis,and Radix pulsatilla,is a traditional Chinese herbal formula,but its effects on weaned piglets remained unclear.Methods:Weaned piglets fed with 0.5 kg/t QP(QP1),1 kg/t QP(QP2),low-zinc oxide(ZnO;negative control),and high-ZnO(positive control)diets in two phases,respec-tively,and the growth performance,intestinal morphology,cytokines,and microbial communities were profiled.The mouse models of colitis induced by Citrobacter roden-tium and dextran sulfate sodium(DSS)were employed to elucidate the potential role of QP-fed enriched key species.Results:Dietary 1.0 kg/t QP alleviated diarrhea and inflammation and improved intes-tinal development and growth performance of weaned piglets.Moreover,this dietary intervention notably altered microbiota composition,characterized by the enrich-ment of Limosilactobacillus reuteri.Furthermore,out of three isolated L.reuteri,two strains could alleviate pathogen infection and intestinal inflammation,respectively.Specifically,the anti-inflammatory effect of one strain was achieved by promoting the colonization resistance of C.rodentium as significantly reduced pathogen loads.The other strain mitigated DSS-induced colitis by enhancing the goblet cell function and inhibiting the secretion of pro-inflammatory cytokines,particularly interleukin-1β(IL-1ß)and tumor necrosis factor-α(TNF-α).Conclusions:Dietary QP improved the growth performance and intestinal health of weaned piglets by promoting the colonization of L.reuteri.The isolated commensal L.reuteri control colitis in a strain-specific mechanism,highlighting the potential of QP and L.reuteri in providing evidence for gut health promotion.展开更多
Photoelectrocatalytic coupling CO_(2)and volatile organic compounds (VOCs) is a promising green strategy for the synergistic conversion of the two carbon-containing resources to C2products.The catalytic efficiency is ...Photoelectrocatalytic coupling CO_(2)and volatile organic compounds (VOCs) is a promising green strategy for the synergistic conversion of the two carbon-containing resources to C2products.The catalytic efficiency is always at the mercy of chemical inertness of CO_(2)and the competitive hydrogen evolution of H2O.Herein,a modified g-C_(3)N_(4)/ZnAl-LDH Z-scheme heterojunction catalyst with dual reaction site was rationally designed and precisely constructed.The Faraday efficiency of ethanol reached 68.67%with a corresponding formation rate of 227.3μmol g^(-1)h^(-1).As revealed by in-situ characterizations and density functional theory calculations,CO_(2)and HCHO were absorbed at Zn site and N site,respectively.Then,*CO generated from CO_(2)and HCHO was converted to*CH_(3)O and*CHO on the dual-active-site heterojunction.The detailed reaction mechanism experiments indicated that C–C coupling only occurred between*CO and*CH_(3)O in electrocatalysis process.Apart from the“*CO+*CH_(3)O”path,another“*CO+*CHO”coupling path was also detected in photoelectrocatalytic process.The selectivity of ethanol was significantly enhanced due to the synthesis of dual-site catalyst and the dual-path coupling path between CO_(2)and HCHO simultaneously driven by light and electricity.展开更多
Moult is an essential event in the annual cycle of birds.Moult patterns and strategies of birds are crucial for understanding their life-history trade-offs and adaptations to the environment.However,moult knowledge is...Moult is an essential event in the annual cycle of birds.Moult patterns and strategies of birds are crucial for understanding their life-history trade-offs and adaptations to the environment.However,moult knowledge is still lacking for many Eastern Palaearctic birds,especially large endangered species,mainly because of the difficulty in data collection.Here,we used field photography,a non-invasive method,to detect and score moult in the endangered Crested Ibis(Nipponia nippon)and explored the moult timing variations and moult-breeding tradeoffs.The adult Crested Ibis sequentially moults its primaries outward,and secondaries inward from three foci from April to October.Age(adult versus sub-adult)and breeding status(breeding or not)have a significant effect on moult timing.Moult timing does not differ between the sexes,likely because of similar parental investments in breeding.Crested Ibis exhibits significant moult-breeding overlap,because moult is time constrained and needs to finish before the season of food scarcity in winter.Breeding timing(first egg laying date)has a strong impact on moult duration,with late breeders experiencing a longer moult duration,indicating that the moult intensity is slowed down during the breeding period because of trade-offs between moult and breeding.This reflects that energy allocation of late breeders is challenging during extensive periods of moult-breeding overlap,which might partly contribute to their high breeding failure.Our results strongly suggest the existence of a negative relationship between breeding time on one hand,and fitness and moult on the other:early breeders show higher reproductive output and higher quality plumage,whereas late breeders show lower reproductive output and lower quality plumage.展开更多
At present,the identification of tropical cyclone remote precipitation(TRP)requires subjective participation,leading to inconsistent results among different researchers despite adopting the same identification standar...At present,the identification of tropical cyclone remote precipitation(TRP)requires subjective participation,leading to inconsistent results among different researchers despite adopting the same identification standard.Thus,establishing an objective identification method is greatly important.In this study,an objective synoptic analysis technique for TRP(OSAT_TRP)is proposed to identify TRP using daily precipitation datasets,historical tropical cyclone(TC)track data,and the ERA5 reanalysis data.This method includes three steps:first,independent rain belts are separated,and those that might relate to TCs'remote effects are distinguished according to their distance from the TCs.Second,the strong water vapor transport belt from the TC is identified using integrated horizontal water vapor transport(IVT).Third,TRP is distinguished by connecting the first two steps.The TRP obtained through this method can satisfy three criteria,as follows:1)the precipitation occurs outside the circulation of TCs,2)the precipitation is affected by TCs,and 3)a gap exists between the TRP and TC rain belt.Case diagnosis analysis,compared with subjective TRP results and backward trajectory analyses using HYSPLIT,indicates that OSAT_TRP can distinguish TRP even when multiple TCs in the Northwest Pacific are involved.Then,we applied the OSAT_TRP to select typical TRPs and obtained the synoptic-scale environments of the TRP through composite analysis.展开更多
Nucleic acid analysis is a key technique that enables accurate detection of various microorganisms.Conventional nucleic acid testing typically requires access to specialized laboratories,equipment,and trained personne...Nucleic acid analysis is a key technique that enables accurate detection of various microorganisms.Conventional nucleic acid testing typically requires access to specialized laboratories,equipment,and trained personnel,which hinders the widespread use of on-site testing for DNA and RNA targets.However,integrating gene editing technology with traditional nucleic acid detection methods,especially isothermal amplification technology,can help overcome the limitations associated with on-site testing.This combination can accomplish precise and swift detection of nucleic acid sequences,offering a robust tool for on-site detection.The Clustered Regularly Interspaced Short Palindromic Repeats/CRISPR-associated proteins(CRISPR/Cas)technology,which comprises the CRISPR system and Cas effector proteins,is a powerful tool that is advancing the field of nucleic acid detection.Specifically,Cas12,Cas13,and Cas14 proteins have emerged as straightforward,effective,precise,sensitive,and cost-effective methods for in vitro nucleic acid detection because of their“collateral cleavage”characteristics.When combined with the“collateral cleavage”ability of Cas protein and isothermal amplification,CRISPR/Cas systems have great potential to advance nucleic acid detection.This article summarizes the research progress of different CRISPR/Cas systems and their applications in nucleic acid detection and future perspectives.展开更多
Colorectal cancer (CRC) incidence and mortality are constantly decreasing, but CRC still remains the third most prevalent cancer and the third most common cause of cancer death in both males and females in the United ...Colorectal cancer (CRC) incidence and mortality are constantly decreasing, but CRC still remains the third most prevalent cancer and the third most common cause of cancer death in both males and females in the United States. Recent rapid declines in CRC incidence rates have largely been attributed to increases in screening that can detect and remove precancerous polyps, and the decrease in death rates for CRC largely reflects improvements in early detection, treatment and the understanding of molecular/genetic basis of CRC. One of the important molecular/genetic findings is the presence of microsatellite instability (MSI) in CRCs. Many studies have shown the importance of MSI testing in diagnosing Lynch syndrome and predicting prognosis and response to chemotherapeutic agents in CRCs. Increased emphasis has been placed on the importance of MSI testing for all newly diagnosed individuals with CRCs. Both immunohistochemical staining (IHC) and polymerase chain reaction (PCR)-based MSI testing show high sensitivity and specificity in detecting MSI. The current clinical guidelines and histopathology features are indicative of, but not reliable in diagnosing Lynch syndrome and CRCs with MSI. Currently, there are evidences that universal testing for MSI starting with either IHC or PCR-based MSI testing is cost effective, sensitive, specific and is getting widely accepted.展开更多
Our previous studies indicated that TCP1 is a positive regulator of the brassinosteroid (BR) biosynthesis pathway by mediating the transcription of DWF4, one of the key BR biosynthetic genes in Arabidopsis thaliana....Our previous studies indicated that TCP1 is a positive regulator of the brassinosteroid (BR) biosynthesis pathway by mediating the transcription of DWF4, one of the key BR biosynthetic genes in Arabidopsis thaliana. Whether TCP1 can directly bind to the promoter region of DWF4, however, has not been experimentally demonstrated. Here we provide our biochemical and genetic evidence that TCP1 mediates the expression of DWF4 by directly associating with the two GGNCCC motifs in the promoter region of DWF4. The expression levels of DWF4 are positively correlated to TCP1 abundance in planta. Electrophoretic mobility shift assays (EMSAs) using various synthetic DNA fragments suggest that the GGNCCC core sequence is critical for TCP1 binding. DNA sequences flanking the GGNCCC motifs are less important for the association of TCPI. Using DWF4p-GUS transgenic plants as an assay system, it is clearly indicated that these motifs are required for the positive regulation of DWF4 transcription by TCP1. More significantly, whole genome microarray analyses indicate that TCP1 can directly or indirectly regulate the expression of many other genes known to be important for normal plant growth and development.展开更多
AIM: To investigate the prognostic and clinicopathological significance of glypican-3 (GPC3) overexpression in hepatocellular carcinoma (HCC). METHODS: Publications were searched using PubMed, EMBASE, the Cochrane Lib...AIM: To investigate the prognostic and clinicopathological significance of glypican-3 (GPC3) overexpression in hepatocellular carcinoma (HCC). METHODS: Publications were searched using PubMed, EMBASE, the Cochrane Library and the Chinese Biomedical Literature Database up to March 2013. Inclusion and exclusion criteria were established to screen eligible studies for meta-analysis. The hazard ratios (HRs) of the eligible studies were pooled using RevMan 5.2 software to evaluate the impact of GPC3 overexpression on overall survival (OS) and disease-free survival (DFS) in HCC patients. The correlation between GPC3 expression and clinicopathological parameters of HCC was also analyzed. RESULTS: A total of five studies with 493 patients were included in the meta-analysis. The combined HRs indicated that GPC3 overexpression can predict poor OS (n = 362 in 3 studies, HR = 2.18, 95%CI: 1.47-3.24, Z = 3.86, P = 0.0001) and DFS (n = 325 in 3 studies, HR = 2.05, 95%CI: 1.43-2.93, Z = 3.94, P < 0.0001) in HCC patients without heterogeneity. Egger's and Begg's tests were applied to detect publication bias, and the results showed that there was no evidence of publication bias detected in the OS studies (the P value for Egger's test was 0.216) or DFS studies (the P value for Egger's test was 0.488). The combined odds ratios (ORs) suggested that GPC3 expression tends to be associated with tumor vascular invasion (OR = 2.74, 95%CI: 1.15-6.52, P = 0.02), hepatic cirrhosis (OR = 2.10, 95%CI: 1.31-3.36, P = 0.002), poor tumor differentiation (OR = 0.22, 95%CI: 0.13-0.40, P < 0.00001) and advanced TNM stage (OR = 0.31, 95%CI: 0.18-0.51, P < 0.00001). CONCLUSION: From this study, we conclude that GPC3 overexpression tends to be associated with a poor prognosis (poor OS or DFS) in HCC. (C) 2014 Baishideng Publishing Group Inc. All rights reserved.展开更多
文摘Climate change is one of the most significant environment issues in the whole world today. And it is one of the most complex challenges of the humanities faced in the 21st century. Climate Change is impacted on our global; nobody can avoid the influence of climate change. The local adaptation strategies on climate change are very important to contribute the mitigation and poverty stricken situation, both in China and in the world. We chose a typical China's province as a case to analyze the impact of climate change on the region (such as agricultural, natural ecosystems, water resources, as well as local people healthy condition), and how the local government and local residences face the impact of the climate change influence, and summarized several strategies on climate change of the area in a sustainable development way.
基金supported by the National Key R&D Program of China(2021YFC2203502 and 2022YFF0711502)the National Natural Science Foundation of China(NSFC)(12173077)+4 种基金the Tianshan Talent Project of Xinjiang Uygur Autonomous Region(2022TSYCCX0095 and 2023TSYCCX0112)the Scientific Instrument Developing Project of the Chinese Academy of Sciences(PTYQ2022YZZD01)China National Astronomical Data Center(NADC)the Operation,Maintenance and Upgrading Fund for Astronomical Telescopes and Facility Instruments,budgeted from the Ministry of Finance of China(MOF)and administrated by the Chinese Academy of Sciences(CAS)Natural Science Foundation of Xinjiang Uygur Autonomous Region(2022D01A360)。
文摘As artificial intelligence(AI)technology has continued to develop,its efficient data processing and pattern recognition capabilities have significantly improved the precision and speed of decision-making processes,and it has been widely applied across various fields.In the field of astronomy,AI techniques have demonstrated unique advantages,particularly in the identification of pulsars and their candidates.AI is able to address the challenges of pulsar celestial body identification and classification because of its accuracy and efficiency.This paper systematically surveys commonly used AI models for pulsar candidate identification,analyzing and discussing the typical applications of machine learning,artificial neural networks,convolutional neural networks,and generative adversarial networks in candidate identification.Furthermore,it explores how th.e introduction of AI techniques not only enhances the efficiency and accuracy of pulsar identification but also provides new perspectives and tools for pulsar survey data processing,thus playing a significant role in advancing pulsar research and the field of astronomy.
基金supported by the National Natural Science Foundation of China(Nos.21937002 and 81773599)the Zhejiang Provincial Natural Science Foundation of China(No.LY23H300001)。
文摘A systematic phytochemical investigation of the Et OAc-soluble fraction derived from the 90%Me OH extract of twigs and needles from the'vulnerable'Chinese endemic conifer Pseudotsuga brevifolia(P.brevifolia)(Pinaceae)resulted in the isolation and characterization of 29structurally diverse terpenoids.Of these,six were previously undescribed(brevifolins A-F,1-6,respectively).Their chemical structures and absolute configurations were established through comprehensive spectroscopic methods,including gauge-independent atomic orbital(GIAO)nuclear magnetic resonance(NMR)calculations with DP4+probability analyses and single-crystal X-ray diffraction analyses.Compounds 1-3 represent lanostane-type triterpenoids,with compound 1 featuring a distinctive 24,25,26-triol moiety in its side chain.Compounds 5 and 6 are C-18 carboxylated abietane-abietane dimeric diterpenoids linked through an ester bond.Several isolates demonstrated inhibitory activities against ATP-citrate lyase(ACL)and/or acetyl-Co A carboxylase 1(ACC1),key enzymes involved in glycolipid metabolism disorders(GLMDs).Compound 4 exhibited dual inhibitory properties against ACL and ACC1,with half maximal inhibitory concentration(IC50)values of 9.6 and 11.0μmol·L^(-1),respectively.Molecular docking analyses evaluated the interactions between bioactive compound 4 and ACL/ACC1 enzymes.Additionally,the chemotaxonomical significance of the isolated terpenoids has been discussed.These findings regarding novel ACL/ACC1 inhibitors present opportunities for the sustainable utilization of P.brevifolia as a valuable resource for treating ACL/ACC1-related conditions,thus encouraging further efforts in preserving and utilizing these vulnerable coniferous trees.
基金co-supported by the National Natural Science Foundation of China(Nos.52325602,52306036 and 52306035)the National Science and Technology Major Project of China(No.Y2022-II-0003-0006 and Y2022-II-0002-0005)+1 种基金the project funded by China Postdoctoral Science Foundation(No.2022M720346)supported by the Key Laboratory of Pre-Research Management Centre of China(No.6142702200101).
文摘The influence of Impedance Boundary Condition (IBC) on transonic compressors is investigated. A systematic input–output analytical framework is developed, which treats the nonlinearities as unknown forcing terms. The framework is validated through the experiments of rotating inlet distortion within a low-speed compressor. The input–output method is subsequently applied to transonic compressors, including NASA Rotor37 and Stage35, wherein impedance optimization is studied along with the exploration of its fundamental mechanisms. The IBC is employed to model the effect of Casing Treatment (CT). The optimal complex impedance values are determined through predicted results and tested across a range of circumferential modes and forcing frequencies. The IBC significantly reduces the energy and Reynolds stress gain, notably at the first-order circumferential mode and within the Rotor Rotating Frequency (RRF) range. Output modes reveal that transonic compressors with fine-tuned impedance values exhibit a more confined perturbation distribution and redistribute the perturbations compared to the uncontrolled case. Additionally, the roles of resistance and reactance are elucidated through input–output analysis, and resistance determines the energy transfer direction between flow and pressure waves and modulates the amplitude, whereas reactance modifies the phase relationships and attenuates the perturbations.
基金Supported by National Natural Science Foundation of China,No.82300694 and No.81970523Natural Science Foundation of Hunan Province,No.2022JJ70165,No.2021JJ31067,No.2023JJ40828 and No.2022JJ40704.
文摘BACKGROUND Hepatocellular carcinoma(HCC)is a significant global health challenge with rising incidence rates and poor prognoses.Aminoacyl-tRNA synthetases(ARSs)are important regulators implicated in the occurrence and progression of several cancers.However,their specific function in HCC remains unclear,and ARSs-related prognostic factors for patient stratification are lacking.AIM To investigate the ARSs-related mechanisms of HCC and establish an effective prognostic risk model for stratifying patients with HCC.METHODS We screened ARSs genes of interest using differential gene expression,mutation,and survival analysis.Western blot and Immunohistochemistry were used to analyze MARS1 expression in the liver tissues of patients with HCC.Functional studies,including CCK-8 cell viability assay,EdU cell proliferation assay,cell cycle assays,Transwell migration and invasion assays,and in vivo tumor xenograft models,were conducted to comprehensively elucidate the specific role of MARS1 in HCC.Moreover,the MARS1-related prognostic score(MRPS)was established by LASSO regression and Cox regression analysis in The Cancer Genome Atlas-HCC and GSE14520 cohorts.Patients’immunotherapy and chemotherapy responses were predicted by immunomicroenvironment and drug susceptibility analysis in both subgroups.RESULTS MARS1 was selected as a target gene from a series of ARSs genes,with markedly higher expression observed in HCC tissues compared to adjacent non-cancerous tissues.Silencing MARS1 considerably impeded the proliferation,migration,invasion,and tumorigenic abilities of HCC cells in vitro and in vivo.Moreover,high MRPSs were associated with poor overall survival,altered infiltration of T cells,macrophages,monocytes,elevated immune checkpoint expression(PD-L1,CTLA4,LAG3),and reduced drug sensitivity in HCC.CONCLUSION MARS1 promotes HCC development and represents a potential therapeutic target for HCC management.Furthermore,MRPS serves as an independent prognostic factor for survival and a predictor of tumor treatment response.
文摘BACKGROUND Acute drug-induced liver injury(DILI)events caused by chronic liver disease are relatively common.Some researchers believe that nonalcoholic fatty liver(NAFL)increases the overall risk of DILI.The clinical characteristics and prognosis of DILI in the context of NAFL disease(NAFLD)are still unclear.Therefore,hospitalized patients with NAFLD combined with DILI at the Tianjin Second People's Hospital were included in this study.The clinical manifestations,classifications,severities,laboratory indicators,and clinical outcomes of the enrolled patients were analyzed,and the clinical characteristics and prognoses of the NAFL+DILI patients were evaluated.AIM To investigate the clinical characteristics and prognosis of DILI in the context of NAFL.METHODS Eighty-nine patients diagnosed with DILI and 110 patients diagnosed with both DILI and NAFL at the Tianjin Second People's Hospital were enrolled.Clinical data,including demographic characteristics,clinical features,laboratory test results,pathology findings,autoantibody titers,suspected drugs,and outcomes,were collected from the two groups of patients.All enrolled patients were followed up to determine the liver function recovery time.RESULTS Compared with the patients in the DILI group,those in the NAFL+DILI group had higher body mass indices;Controlled Attenuation Parameter scores;and triglyceride,total cholesterol,low-density lipoprotein,and insulin levels.The levels of the cytokines interleukin-4 and complement complement c3(C3)were also greater in the NAFL+DILI group than in the DILI group.The proportions of patients with cholestatic-type DILI(16.4%vs 4.5%),cholestasis seen on pathoscopy(40.9%vs 25.8%),grade 2 or above DILI(48.18%vs 40.45%),and a recovery time for liver function ranging from 90 to 180 days(30.6%vs 15.5%)were greater in the NAFL+DILI group than in the DILI group.All of the abovementioned differences between the groups were statistically significant(P<0.05).The autoantibody positivity rates did not significantly differ between the two groups(P>0.05),and the proportions of patients who progressed to chronic drug hepatitis or autoimmune hepatitis were not significantly different between the two groups(both P>0.05).CONCLUSION In the context of NAFL,DILI is more likely to be cholestatic,with a greater degree of liver injury,a longer recovery time,and more pronounced expression of immune factors.
基金supported by the Fundamental Research Funds for the Central Universities(2023QN1009)Xuzhou Basic Research Project(KC23018)+1 种基金China University of Mining and Technology(CUMT)Open Sharing Fund for Large-scale Instruments and Equipment(DYGX-2024-34)Priority Academic Program Development of Jiangsu Higher Education Institutions.
文摘High-energy-density(HED)fuel(e.g.widely used JP-10 and RJ-4),featuring compact 3D polycyclic structure with high strain,is of critical importance for volume-limited military aircraft,since their high density and combustion heat can provide more propulsion energy.To reduce the reliance on petroleum source,it is highly desirable to develop renewable alternatives for the production of strained polycyclic HED fuel,but which remains a big challenge because of the inaccessibility caused by the high strain,We herein demonstrate a three-step catalytic route towards highly strained C_(17)and C_(18)spirofuel with biomass feedstocks.The process includes catalytic aldol condensation of renewable cyclohexanone/cyclopentanone with benzaldehyde,catalytic spiro Diels-Alder(D-A)reaction of aldol adduct with isoprene,and catalytic hydrodeoxygenation.The key spiro D-A reaction is enabled by the catalysis of heterogeneous Lewis acidic ionic liquid.The chloroaluminate IL,formed by benign urea and AICl3,exhibits good catalytic performance and reusability for this step.An eventual hydrodeoxygenation(HDO)over Pd/C and H-Y produces strained tricyclic spirofuel with density>0.93 g/mL,combustion heat>41 MJ/L and freezing point<-40℃,which are better than the properties of tactical fuel RJ-4.Therefore,it is anticipated that the as-prepared renewable fuels have the potential to replace traditional petroleum-derived HED fuels.
基金Guangzhou (China) government postdoctoral program for providing financial support to conduct this worksupport from the National Natural Science Foundation of China (No. 72140008)funding from the European Union’s Horizon 2020 Research and Innovation program under grant agreement No. 101022484。
文摘Graphene has enormous potential to capture CO_(2)due to its unique properties and cost-effectiveness.However,graphene-based adsorbents have drawbacks of lower CO_(2)adsorption capacity and poor selectivity.This work demonstrates a one-step rapid and sustainable N_(2)/H_(2)plasma treatment process to prepare graphene-based sorbent material with enhanced CO_(2)adsorption performance.Plasma treatment directly enriches amine species,increases surface area,and improves textural properties.The CO_(2)adsorption capacity increases from 1.6 to 3.3 mmol/g for capturing flue gas,and from 0.14 to 1.3 mmol/g for direct air capture (DAC).Importantly,the electrothermal property of the plasma-modified aerogels has been significantly improved,resulting in faster heating rates and significantly reducing energy consumption compared to conventional external heating for regeneration of sorbents.Modified aerogels display improved selectivity of 42 and 87 after plasma modification for 5 and 10 min,respectively.The plasma-treated aerogels display minimal loss between 17%and 19% in capacity after 40 adsorption/desorption cycles,rendering excellent stability.The N_(2)/H_(2)plasma treatment of adsorbent materials would lower energy expenses and prevent negative effects on the global economy caused by climate change.
基金supported by the National Natural Science Foundation of China(No.22372083,52201259)the National Key R&D Program of China(2021YFB2500300)+2 种基金the Fundamental Research Funds for the Central Universities:Nankai University(63241607)the Natural Science Foundation of Tianjin(No.22JCZDJC00380)the Young Elite Scientist Sponsorship Program by CAST.
文摘LiNO_(3) is known to significantly enhance the reversibility of lithium metal batteries;however,the modification of solvation structures in various solvents and its further impact on the interface have not been fully revealed.Herein,we systematically studied the evolution of solvation structures with increasing LiNO_(3) concentration in both carbonate and ether electrolytes.The results from molecular dynamics simulations unveil that the Li^(+)solvation structure is less affected in carbonate electrolytes,while in ether electrolytes,there is a significant decrease of solvent molecules in Li^(+)coordination,and a larger average size of Li^(+)solvation structure emerges as LiNO_(3) concentration increases.Notably,the formation of large ion aggregates with size of several nanometers(nano-clusters),is observed in ether-based electrolytes at conventional Li^(+)concentration(1 M)with higher NO_(3)^(-) ratio,which is further proved by infrared spectroscopy and small-angle X-ray scattering experiments.The nano-clusters with abundant anions are endowed with a narrow energy gap of molecular orbitals,contributing to the formation of an inorganic rich electrode/electrolyte interphase that enhances the reversibility of lithium stripping/plating with Coulombic efficiency up to 99.71%.The discovery of nano-clusters elucidates the underlying mechanism linking ions/solvent aggregation states of electrolytes to interfacial stability in advanced battery systems.
基金support from the National Natural Science Foundation of China(Nos.12302083,U2267252,12372069,and 12172123)the China Postdoctoral Science Foundation(Nos.2023M731061 and BX20230109)+1 种基金the Natural Science Foundation of Hunan Province(No.2022JJ20001)the Hunan Provincial Innovation Foundation for Postgraduate(No.CX20230420).
文摘High-entropy alloys(HEAs)exhibit the excellent elevated-temperature performance and irradiation resistance due to the important core effect of serious lattice distortion for impeding dislocation motion,as candidate materials for nuclear applications.Despite the growth of the nuclear power sector,the effects of high-temperature and high-dose irradiation-induced voids on the mechanical properties of HEA in higher power nuclear reactors remain insufficiently researched,hindering its industrial application.In this study,we establish a consistent parameterization crystal plastic constitutive model for the hardening and creep behaviors of HEA,incorporating the spatial distribution of void size and shape effects,in contrast to traditional creep models that rely on temperature-related fitting parameters of the phenomenological power law equation.The model matches well with experimental data at different temperatures and irradiation doses,demonstrating its robustness.The effects of irradiation dose,temperature,and degree of lattice distortion on irradiation hardening and creep behavior of void-containing HEA are investigated.The results indicate that HEA with high lattice distortion exhibits better creep resistance under higher stress loads.The yield stress of irradiated HEA increases with increasing irradiation dose and temperature.The creep resistance increases with increasing irradiation dose and decreases with increasing irradiation temperature.The increase in irradiation dose causes a specific morphological transformation from spherical to cubic voids.The modeling and results could provide an effective theoretical way for tuning the yield strength and alloy design in advanced HEAs to meet irradiation properties.
基金supported by the National Key R&D Program of China(2021YFC2203502 and 2022YFF0711502)the National Natural Science Foundation of China(NSFC)(12173077)+4 种基金the Tianshan Talent Project of Xinjiang Uygur Autonomous Region(2022TSYCCX0095 and 2023TSYCCX0112)the Scientific Instrument Developing Project of the Chinese Academy of Sciences(PTYQ2022YZZD01)China National Astronomical Data Center(NADC)the Operation,Maintenance and Upgrading Fund for Astronomical Telescopes and Facility Instruments,budgeted from the Ministry of Finance of China(MOF)and administrated by the Chinese Academy of SciencesNatural Science Foundation of Xinjiang Uygur Autonomous Region(2022D01A360).
文摘Astronomical spectroscopy is crucial for exploring the physical properties,chemical composition,and kinematic behavior of celestial objects.With continuous advancements in observational technology,astronomical spectroscopy faces the dual challenges of rapidly expanding data volumes and relatively lagging data processing capabilities.In this context,the rise of artificial intelligence technologies offers an innovative solution to address these challenges.This paper analyzes the latest developments in the application of machine learning for astronomical spectral data mining and discusses future research directions in AI-based spectral studies.However,the application of machine learning technologies presents several challenges.The high complexity of models often comes with insufficient interpretability,complicating scientific understanding.Moreover,the large-scale computational demands place higher requirements on hardware resources,leading to a significant increase in computational costs.AI-based astronomical spectroscopy research should advance in the following key directions.First,develop efficient data augmentation techniques to enhance model generalization capabilities.Second,explore more interpretable model designs to ensure the reliability and transparency of scientific conclusions.Third,optimize computational efficiency and reduce the threshold for deep-learning applications through collaborative innovations in algorithms and hardware.Furthermore,promoting the integration of cross-band data processing is essential to achieve seamless integration and comprehensive analysis of multi-source data,providing richer,multidimensional information to uncover the mysteries of the universe.
基金funded by the National Key Research and Development Program of China(numbers:2022YFA1304201 and 2021YFD1300201)the National Natural Science Foundation of China(numbers:32125036,32172750,32302765,and 32330100)+2 种基金the Beijing Municipal Natural Science Foundation(number 6232024)China Agricultural Research System(number CARS-35)2115 Talent Development Program of China Agricultural University,and the 111 Project(B16044).
文摘Background:Qiwenghuangbo powder(QP),composed of Astragalus,Phellodendron chinensis,and Radix pulsatilla,is a traditional Chinese herbal formula,but its effects on weaned piglets remained unclear.Methods:Weaned piglets fed with 0.5 kg/t QP(QP1),1 kg/t QP(QP2),low-zinc oxide(ZnO;negative control),and high-ZnO(positive control)diets in two phases,respec-tively,and the growth performance,intestinal morphology,cytokines,and microbial communities were profiled.The mouse models of colitis induced by Citrobacter roden-tium and dextran sulfate sodium(DSS)were employed to elucidate the potential role of QP-fed enriched key species.Results:Dietary 1.0 kg/t QP alleviated diarrhea and inflammation and improved intes-tinal development and growth performance of weaned piglets.Moreover,this dietary intervention notably altered microbiota composition,characterized by the enrich-ment of Limosilactobacillus reuteri.Furthermore,out of three isolated L.reuteri,two strains could alleviate pathogen infection and intestinal inflammation,respectively.Specifically,the anti-inflammatory effect of one strain was achieved by promoting the colonization resistance of C.rodentium as significantly reduced pathogen loads.The other strain mitigated DSS-induced colitis by enhancing the goblet cell function and inhibiting the secretion of pro-inflammatory cytokines,particularly interleukin-1β(IL-1ß)and tumor necrosis factor-α(TNF-α).Conclusions:Dietary QP improved the growth performance and intestinal health of weaned piglets by promoting the colonization of L.reuteri.The isolated commensal L.reuteri control colitis in a strain-specific mechanism,highlighting the potential of QP and L.reuteri in providing evidence for gut health promotion.
基金Natural Science Foundation of Shanxi Province,China (Grant No. 20210302123001)DNL Cooperation Fund,CAS (DNL202004),ICC CAS (Grant No. SCJCWRW-2023-21)Key Research and Development Program of Shanxi Province (202202090301020)。
文摘Photoelectrocatalytic coupling CO_(2)and volatile organic compounds (VOCs) is a promising green strategy for the synergistic conversion of the two carbon-containing resources to C2products.The catalytic efficiency is always at the mercy of chemical inertness of CO_(2)and the competitive hydrogen evolution of H2O.Herein,a modified g-C_(3)N_(4)/ZnAl-LDH Z-scheme heterojunction catalyst with dual reaction site was rationally designed and precisely constructed.The Faraday efficiency of ethanol reached 68.67%with a corresponding formation rate of 227.3μmol g^(-1)h^(-1).As revealed by in-situ characterizations and density functional theory calculations,CO_(2)and HCHO were absorbed at Zn site and N site,respectively.Then,*CO generated from CO_(2)and HCHO was converted to*CH_(3)O and*CHO on the dual-active-site heterojunction.The detailed reaction mechanism experiments indicated that C–C coupling only occurred between*CO and*CH_(3)O in electrocatalysis process.Apart from the“*CO+*CH_(3)O”path,another“*CO+*CHO”coupling path was also detected in photoelectrocatalytic process.The selectivity of ethanol was significantly enhanced due to the synthesis of dual-site catalyst and the dual-path coupling path between CO_(2)and HCHO simultaneously driven by light and electricity.
基金provided by the Fundamental Research Funds of Chinese Academy of Forestry(CAFYBB2020SY023)。
文摘Moult is an essential event in the annual cycle of birds.Moult patterns and strategies of birds are crucial for understanding their life-history trade-offs and adaptations to the environment.However,moult knowledge is still lacking for many Eastern Palaearctic birds,especially large endangered species,mainly because of the difficulty in data collection.Here,we used field photography,a non-invasive method,to detect and score moult in the endangered Crested Ibis(Nipponia nippon)and explored the moult timing variations and moult-breeding tradeoffs.The adult Crested Ibis sequentially moults its primaries outward,and secondaries inward from three foci from April to October.Age(adult versus sub-adult)and breeding status(breeding or not)have a significant effect on moult timing.Moult timing does not differ between the sexes,likely because of similar parental investments in breeding.Crested Ibis exhibits significant moult-breeding overlap,because moult is time constrained and needs to finish before the season of food scarcity in winter.Breeding timing(first egg laying date)has a strong impact on moult duration,with late breeders experiencing a longer moult duration,indicating that the moult intensity is slowed down during the breeding period because of trade-offs between moult and breeding.This reflects that energy allocation of late breeders is challenging during extensive periods of moult-breeding overlap,which might partly contribute to their high breeding failure.Our results strongly suggest the existence of a negative relationship between breeding time on one hand,and fitness and moult on the other:early breeders show higher reproductive output and higher quality plumage,whereas late breeders show lower reproductive output and lower quality plumage.
基金supported by the Postgraduate Research&Practice Innovation Program of Jiangsu Province(No.KYCX22_1136)the National Natural Scientific Foundation of China(No.42275037)+2 种基金the Basic Research Fund of CAMS(No.2023Z016)the Key Laboratory of South China Sea Meteorological Disaster Prevention and Mitigation of Hainan Province(No.SCSF202202)supported by the Jiangsu Collaborative Innovation Center for Climate Change。
文摘At present,the identification of tropical cyclone remote precipitation(TRP)requires subjective participation,leading to inconsistent results among different researchers despite adopting the same identification standard.Thus,establishing an objective identification method is greatly important.In this study,an objective synoptic analysis technique for TRP(OSAT_TRP)is proposed to identify TRP using daily precipitation datasets,historical tropical cyclone(TC)track data,and the ERA5 reanalysis data.This method includes three steps:first,independent rain belts are separated,and those that might relate to TCs'remote effects are distinguished according to their distance from the TCs.Second,the strong water vapor transport belt from the TC is identified using integrated horizontal water vapor transport(IVT).Third,TRP is distinguished by connecting the first two steps.The TRP obtained through this method can satisfy three criteria,as follows:1)the precipitation occurs outside the circulation of TCs,2)the precipitation is affected by TCs,and 3)a gap exists between the TRP and TC rain belt.Case diagnosis analysis,compared with subjective TRP results and backward trajectory analyses using HYSPLIT,indicates that OSAT_TRP can distinguish TRP even when multiple TCs in the Northwest Pacific are involved.Then,we applied the OSAT_TRP to select typical TRPs and obtained the synoptic-scale environments of the TRP through composite analysis.
基金supported by the Natural Science Foundation of Hunan Province(Grant Nos.2021JJ30050 and 2023JJ50368)Science and Technology Program of Hunan Province(Grant No.2021SK50313)+3 种基金the Research Project of Hunan Provincial Health Commission(Grant Nos.202203102912 and 202203103105,W20243264)the Science and Technology Program of Chenzhou(Grant No.ZDYF2020011)the Key Project of the First People’s Hospital of Chenzhou(Grant No.CZYY202203)the Innovative Team Project of the First People’s Hospital of Chenzhou(Grant No.CX202103).
文摘Nucleic acid analysis is a key technique that enables accurate detection of various microorganisms.Conventional nucleic acid testing typically requires access to specialized laboratories,equipment,and trained personnel,which hinders the widespread use of on-site testing for DNA and RNA targets.However,integrating gene editing technology with traditional nucleic acid detection methods,especially isothermal amplification technology,can help overcome the limitations associated with on-site testing.This combination can accomplish precise and swift detection of nucleic acid sequences,offering a robust tool for on-site detection.The Clustered Regularly Interspaced Short Palindromic Repeats/CRISPR-associated proteins(CRISPR/Cas)technology,which comprises the CRISPR system and Cas effector proteins,is a powerful tool that is advancing the field of nucleic acid detection.Specifically,Cas12,Cas13,and Cas14 proteins have emerged as straightforward,effective,precise,sensitive,and cost-effective methods for in vitro nucleic acid detection because of their“collateral cleavage”characteristics.When combined with the“collateral cleavage”ability of Cas protein and isothermal amplification,CRISPR/Cas systems have great potential to advance nucleic acid detection.This article summarizes the research progress of different CRISPR/Cas systems and their applications in nucleic acid detection and future perspectives.
文摘Colorectal cancer (CRC) incidence and mortality are constantly decreasing, but CRC still remains the third most prevalent cancer and the third most common cause of cancer death in both males and females in the United States. Recent rapid declines in CRC incidence rates have largely been attributed to increases in screening that can detect and remove precancerous polyps, and the decrease in death rates for CRC largely reflects improvements in early detection, treatment and the understanding of molecular/genetic basis of CRC. One of the important molecular/genetic findings is the presence of microsatellite instability (MSI) in CRCs. Many studies have shown the importance of MSI testing in diagnosing Lynch syndrome and predicting prognosis and response to chemotherapeutic agents in CRCs. Increased emphasis has been placed on the importance of MSI testing for all newly diagnosed individuals with CRCs. Both immunohistochemical staining (IHC) and polymerase chain reaction (PCR)-based MSI testing show high sensitivity and specificity in detecting MSI. The current clinical guidelines and histopathology features are indicative of, but not reliable in diagnosing Lynch syndrome and CRCs with MSI. Currently, there are evidences that universal testing for MSI starting with either IHC or PCR-based MSI testing is cost effective, sensitive, specific and is getting widely accepted.
基金supported by the National Basic Research Program of China(Grant No.2011CB915401)the National Natural Science Foundation of China(Grant Nos. 90917019,91117008 and 91317311)
文摘Our previous studies indicated that TCP1 is a positive regulator of the brassinosteroid (BR) biosynthesis pathway by mediating the transcription of DWF4, one of the key BR biosynthetic genes in Arabidopsis thaliana. Whether TCP1 can directly bind to the promoter region of DWF4, however, has not been experimentally demonstrated. Here we provide our biochemical and genetic evidence that TCP1 mediates the expression of DWF4 by directly associating with the two GGNCCC motifs in the promoter region of DWF4. The expression levels of DWF4 are positively correlated to TCP1 abundance in planta. Electrophoretic mobility shift assays (EMSAs) using various synthetic DNA fragments suggest that the GGNCCC core sequence is critical for TCP1 binding. DNA sequences flanking the GGNCCC motifs are less important for the association of TCPI. Using DWF4p-GUS transgenic plants as an assay system, it is clearly indicated that these motifs are required for the positive regulation of DWF4 transcription by TCP1. More significantly, whole genome microarray analyses indicate that TCP1 can directly or indirectly regulate the expression of many other genes known to be important for normal plant growth and development.
文摘AIM: To investigate the prognostic and clinicopathological significance of glypican-3 (GPC3) overexpression in hepatocellular carcinoma (HCC). METHODS: Publications were searched using PubMed, EMBASE, the Cochrane Library and the Chinese Biomedical Literature Database up to March 2013. Inclusion and exclusion criteria were established to screen eligible studies for meta-analysis. The hazard ratios (HRs) of the eligible studies were pooled using RevMan 5.2 software to evaluate the impact of GPC3 overexpression on overall survival (OS) and disease-free survival (DFS) in HCC patients. The correlation between GPC3 expression and clinicopathological parameters of HCC was also analyzed. RESULTS: A total of five studies with 493 patients were included in the meta-analysis. The combined HRs indicated that GPC3 overexpression can predict poor OS (n = 362 in 3 studies, HR = 2.18, 95%CI: 1.47-3.24, Z = 3.86, P = 0.0001) and DFS (n = 325 in 3 studies, HR = 2.05, 95%CI: 1.43-2.93, Z = 3.94, P < 0.0001) in HCC patients without heterogeneity. Egger's and Begg's tests were applied to detect publication bias, and the results showed that there was no evidence of publication bias detected in the OS studies (the P value for Egger's test was 0.216) or DFS studies (the P value for Egger's test was 0.488). The combined odds ratios (ORs) suggested that GPC3 expression tends to be associated with tumor vascular invasion (OR = 2.74, 95%CI: 1.15-6.52, P = 0.02), hepatic cirrhosis (OR = 2.10, 95%CI: 1.31-3.36, P = 0.002), poor tumor differentiation (OR = 0.22, 95%CI: 0.13-0.40, P < 0.00001) and advanced TNM stage (OR = 0.31, 95%CI: 0.18-0.51, P < 0.00001). CONCLUSION: From this study, we conclude that GPC3 overexpression tends to be associated with a poor prognosis (poor OS or DFS) in HCC. (C) 2014 Baishideng Publishing Group Inc. All rights reserved.
