Recently developed ‘super’ rice cultivars with greater yield potentials often suffer from the problem of poor grain filling, especially in inferior spikelets. Here, we studied the activities of enzymes related to st...Recently developed ‘super’ rice cultivars with greater yield potentials often suffer from the problem of poor grain filling, especially in inferior spikelets. Here, we studied the activities of enzymes related to starch metabolism in rice stems and grains, and the microstructures related to carbohydrate accumulation and transportation to investigate the effects of different water regimes on grain filling. Two ‘super’ rice cultivars were grown under two irrigation regimes of well-watered(WW) and alternate wetting and moderate soil drying(AWMD). Compared with the WW treatment,the activities of ADP glucose pyrophosphorylase(AGPase), starch synthase(StSase) and starch branching enzyme(SBE), and the accumulation of non-structural carbohydrates(NSCs) in the stems before heading were significantly improved, and more starch granules were stored in the stems in the AWMD treatment. After heading, the activities of α-amylase, β-amylase, sucrose phosphate synthase(SPS) and sucrose synthase in the synthetic direction(SSs)were increased in the stems to promote the remobilization of NSCs for grain filling under AWMD. During grain filling, the enzymatic activities of sucrose synthase in the cleavage direction(SSc), AGPase, StSase and SBE in the inferior spikelets were increased, which promoted grain filling, especially for the inferior spikelets under AWMD.However, there were no significant differences in vascular microstructures. The grain yield and grain weight could be improved by 13.1 and 7.5%, respectively, by optimizing of the irrigation regime. We concluded that the low activities of key enzymes in carbon metabolism is the key limitation for the poor grain filling, as opposed to the vascular microstructures, and AWMD can increase the amount of NSC accumulation in the stems before heading, improve the utilization rate of NSCs after heading, and increase the grain filling, especially in the inferior spikelets, by altering the activities of key enzymes in carbon metabolism.展开更多
To study non-structural carbohydrate character-istics and nutrient utilization strategies of Pinus yunnanen-sis under continuous drought conditions,2-year-old seed-lings were planted in pots with appropriate water,lig...To study non-structural carbohydrate character-istics and nutrient utilization strategies of Pinus yunnanen-sis under continuous drought conditions,2-year-old seed-lings were planted in pots with appropriate water,light and moderate and severe drought treatments[(80±5),(65±5),(50±5),and(35±5)%of field water-holding capacity].Non-structural carbohydrates,carbon(C),nitrogen(N),and phosphorus(P)concentrations were measured in each plant component.The results show that:(1)With increasing drought,non-structural carbohydrates gradually increased in leaves,stems,and coarse roots,while gradually decreased in fine roots;(2)C concentrations of all were relatively stable under different stress levels.Phosphorous utilization of each component increased under light and moderate drought conditions,while N and P utilization efficiency of each plant component decreased under severe drought.Growth was mainly restricted by N,first decreasing and then increasing with increased drought;(3)There was a correlation between the levels of non-structural carbohydrates and C,N,and P in each component.Changes in N concentration affected the interconversion between soluble sugar and starch,which play a regulatory role in the fluctuation of the concentration of non-structural carbohydrates;and,(4)Plasticity analysis showed that P.yunnanensis seedlings responded to drought mainly by altering starch concentration,the ratio of soluble sugar to starch in leaves and stems,and further by alter-ing N and P utilization efficiencies.Overall,these results suggest that the physiological activities of all organs of P.yunnanensis seedlings are restricted under drought and that trade-offs exist between different physiological indicators and organs.Our findings are helpful in understanding non-structural carbohydrate and nutrient adaptation mechanisms under drought in P.yunnanensis seedlings.展开更多
Leaves are important‘source’organs that synthesize organic matter,providing carbon sources for plant growth.Here,we used Populus talassica×Populus euphratica,the dominant species in ecological and timber forest...Leaves are important‘source’organs that synthesize organic matter,providing carbon sources for plant growth.Here,we used Populus talassica×Populus euphratica,the dominant species in ecological and timber forests,to simulate carbon limitation through artificial 25%,50%,and 75%defoliation treatments and explore the effects on root,stem,and leaf morphology,biomass accumulation,and carbon allocation strategies.At the 60th d after treat-ment,under 25%defoliation treatment,the plant height,specific leaf weight,root surface area and volume,and concentrations of non-structural carbohydrates in stem and root were significantly increased by 9.13%,20.00%,16.60%,31.95%,5.12%,and 9.34%,respectively,relative to the control.There was no significant change in the growth indicators under 50%defoliation treatment,but the concentrations of non-structural carbohydrates in the leaf and stem significantly decreased,showing mostly a negative correlation between them.The opposite was observed in the root.Under 75%defoliation treatment,the plant height,ground diameter,leaf number,single leaf area,root,stem,and total biomass were significantly reduced by 14.15%,10.24%,14.86%,11.31%,11.56%,21.87%,and 16.82%,respectively,relative to the control.The concentrations of non-structural carbohydrates in various organs were significantly reduced,particularly in the consumption of the starch concentrations in the stem and root.These results indicated that carbon allocation strategies can be adjusted to increase the con-centration of non-structural carbohydrates in root and meet plant growth needs under 25%and 50%defoliation.However,75%defoliation significantly limited the distribution of non-structural carbohydrates to roots and stems,reduced carbon storage,and thus inhibited plant growth.Defoliation-induced carbon limitation altered the carbon allocation pattern of P.talassica×P.euphratica,and the relationship between carbon reserves in roots and tree growth recovery after defoliation was greater.This study provides a theoretical basis for the comprehen-sive management of P.talassica×P.euphratica plantations,as well as a reference for the study of plantation car-bon allocation strategies in the desert and semi-desert regions of Xinjiang under carbon-limitation conditions.展开更多
Rare earth-doped inorganic compounds contribute mostly to the family of persistent luminescent materials due to the versatile energy levels of rare earth ions.One of the key research aims is to match the trap level st...Rare earth-doped inorganic compounds contribute mostly to the family of persistent luminescent materials due to the versatile energy levels of rare earth ions.One of the key research aims is to match the trap level stemming from the doped rare earth ion or intrinsic defects to the electronic structure of the host,and therefore thermoluminescence measurement becomes a radical technology in studying trap depth,which is one of the significant parameters that determine the properties of persistent luminescence and photostimulated luminescence.However,the results of trap depth obtained by different thermoluminescence methods are quite different so that they are not comparable.Herein,we analyzed different thermoluminescence methods,selected and improved the traditional peak position method of T_(m)/500 to be E=(-0.94Inβ+30.09)kT_(m).Only the experimental heating rate(β)is needed additionally,but the accuracy is improved greatly in most cases.This convenient and accurate method will accelerate the discovery of novel rare earth-doped materials.展开更多
In this study,we developed a single-beam optical trap-based surface-enhanced Raman scattering(SERS)optofluidic molecular fingerprint spectroscopy detection system.This system utilizes a single-beam optical trap to con...In this study,we developed a single-beam optical trap-based surface-enhanced Raman scattering(SERS)optofluidic molecular fingerprint spectroscopy detection system.This system utilizes a single-beam optical trap to concentrate free silver nanoparticles(AgNPs)within an optofluidic chip,significantly enhancing SERS performance.We investigated the optical field distribution characteristics within the tapered fiber using COMSOL simulation software and established a MATLAB simulation model to validate the single-beam optical trap's effectiveness in capturing AgNPs,demonstrating the theoretical feasibility of our approach.To verify the particle capture efficacy of the system,we experimentally controlled the optical trap's on-off state to manage the capture and release of particles precisely.The experimental results indicated that the Raman signal intensity in the capture state was significantly higher than in the non-capture state,confirming that the single-beam optical trap effectively enhances the SERS detection capability of the optofluidic detection system.Furthermore,we employed Raman mapping techniques to investigate the impact of the capture area on the SERS effect,revealing that the spectral intensity of molecular fingerprints in the laser-trapping region is significantly improved.We successfully detected the Raman spectrum of crystal violet at a concentration of 10^(−9)mol/L and pesticide thiram at a concentration of 10^(−5)mol/L,further demonstrating the ability of the single-beam optical trap in enhancing the molecular fingerprint spectrum identification capability of the SERS optofluidic chips.The optical trapping SERS optofluidic detection system developed in this study,as a key component of an integrated optoelectronic sensing system,holds the potential for integration with portable high-power lasers and high-performance Raman spectrometers.This integration is expected to advance highly integrated technologies and significantly enhance the overall performance and portability of optoelectronic sensing systems.展开更多
The coherence time of an optically trapped neutral atom is a crucial parameter for quantum technologies.We found that optical dipole traps with higher-order spatial forms inherently offer lower decoherence rates compa...The coherence time of an optically trapped neutral atom is a crucial parameter for quantum technologies.We found that optical dipole traps with higher-order spatial forms inherently offer lower decoherence rates compared to those with lower-order spatial forms. We formulated the decoherence rate caused by the variance of the differential energy shift and photon jumping rate. Then, we constructed blue-detuned harmonic and quartic optical dipole traps, and experimentally investigated the coherence time of a trapped single cesium atom.Specifically, we demonstrated a significant improvement in the coherence time of a single atom by employing a quartic trap with the same characteristic trap potential and size as its harmonic counterpart—achieving an enhancement from 315 ms to 474 ms. The experimental results qualitatively verified our theory. Our approach provides a novel method to enhance the coherence time of optically trapped neutral atoms.展开更多
Beauty trap is a kind of traditional stratagem originating from ancient times.This stratagem is a type of strategic deception,making full use of human’s desires and weaknesses.No matter whether you are a genius or a ...Beauty trap is a kind of traditional stratagem originating from ancient times.This stratagem is a type of strategic deception,making full use of human’s desires and weaknesses.No matter whether you are a genius or a fool,you will have the opportunity to fall into a trap,especially if the trap is intended for you.Because of this characteristic,beauty trap was usually seen as a kind of effective non-military method,appearing in the war history of many different countries.With time going by,compared with its original form,this stratagem has greatly changed,developing many new forms.Some of them need to be adopted flexibly,combining with different kinds of psychological tactics.Except the field of military,this stratagem can also be seen in political struggles and commercial warfare.After coming to modern society,the beauty trap does not vanish.It seems that this stratagem will accompany the entire process of humanity,simply because the desires of humans will never disappear.展开更多
Natural products play a crucial role in new drug development,but their druggability is often limited by uncertain molecular targets and insufficient research on mechanisms of action.In this study,we developed a new RP...Natural products play a crucial role in new drug development,but their druggability is often limited by uncertain molecular targets and insufficient research on mechanisms of action.In this study,we developed a new RPL19-TRAP^(KI)-seq method,combining CRISPR/Cas9 and TRAP technologies,to investigate these mechanisms.We identified and validated seven ribosomal large subunit surface proteins suitable for TRAP,selecting RPL19 for its high enrichment.We successfully established a stable cell line expressing EGFP-RPL19 using CRISPR knock-in and verified its efficiency and specificity in enriching ribosomes and translating mRNA.Integrated with next-generation sequencing,this method allows precise detection of translating mRNA.We validated RPL19-TRAP^(KI)-seq by investigating rapamycin,an mTOR inhibitor,yielding results consistent with previous reports.This optimized TRAP technology provides an accurate representation of translating mRNA,closely reflecting protein expression levels.Furthermore,we investigated SBF-1,a 23-oxa-analog of natural saponin OSW-1 with significant anti-tumor activity but an unclear mechanism.Using RPL19-TRAP^(KI)-seq,we found that SBF-1 exerts its cytotoxic effects on tumor cells by disturbing cellular oxidative phosphorylation.In conclusion,our method has been proven to be a promising tool that can reveal the mechanisms of small molecules with greater accuracy,setting the stage for future exploration of small molecules and advancing the fields of pharmacology and therapeutic development.展开更多
We describe a three-dimensional(3D) magneto-optical trap(MOT) capable of simultaneously capturing ^(85)Rb and ^(133)Cs atoms. Unlike conventional setups, our system utilizes two separate laser systems that are combine...We describe a three-dimensional(3D) magneto-optical trap(MOT) capable of simultaneously capturing ^(85)Rb and ^(133)Cs atoms. Unlike conventional setups, our system utilizes two separate laser systems that are combined before entering the vacuum chamber, enabling the simultaneous trapping of two different atomic species. We trapped ^(85)Rb and ^(133)Cs atoms using relatively low total power: 8 mW cooling and 4 mW repump for ^(85)Rb, and 7.5 mW cooling and 1.5 mW repump for ^(133)Cs. The number of trapped atoms was 1.6 × 10^(8) for ^(85)Rb and 1.4 × 10^(8) for ^(133)Cs. The optical depths were 3.71 for ^(85)Rb and 3.45 for ^(133)Cs. The temperature of trapped atoms was ~200 μK for ^(85)Rb and ~200 μK for ^(133)Cs. Our 3D MOT setup allows full horizontal optical access to the trapped atomic ensembles without spatial interference from the trapping or repump laser beams. Our vacuum system is also quite simple, avoiding much of the complexity typically encountered in similar dual-species systems. However, the red detuning of the cooling laser used for atomic trapping in our system is relatively small, leaving room for further optimization. This system offers a versatile platform for exploring complex phenomena in ultracold atom physics, such as Rydberg molecule formation and interspecies interactions.展开更多
Recently,large-scale trapped ion systems have been realized in experiments for quantum simulation and quantum computation.They are the simplest systems for dynamical stability and parametric resonance.In this model,th...Recently,large-scale trapped ion systems have been realized in experiments for quantum simulation and quantum computation.They are the simplest systems for dynamical stability and parametric resonance.In this model,the Mathieu equation plays the most fundamental role for us to understand the stability and instability of a single ion.In this work,we investigate the dynamics of trapped ions with the Coulomb interaction based on the Hamiltonian equation.We show that the many-body interaction will not influence the phase diagram for instability.Then,the dynamics of this model in the large damping limit will also be analytically calculated using few trapped ions.Furthermore,we find that in the presence of modulation,synchronization dynamics can be observed,showing an exchange of velocities between distant ions on the left side and on the right side of the trap.These dynamics resemble that of the exchange of velocities in Newton's cradle for the collision of balls at the same time.These dynamics are independent of their initial conditions and the number of ions.As a unique feature of the interacting Mathieu equation,we hope this behavior,which leads to a quasi-periodic solution,can be measured in current experimental systems.Finally,we have also discussed the effect of anharmonic trapping potential,showing the desynchronization during the collision process.It is hoped that the dynamics in this many-body Mathieu equation with damping may find applications in quantum simulations.This model may also find interesting applications in dynamics systems as a pure mathematical problem,which may be beyond the results in the Floquet theorem.展开更多
Background:Liver metastases are a leading contributor to death among patients with colorectal cancer.Current clinical treatments,such as resection and systemic chemotherapy,are only applicable in a portion of cases.Mo...Background:Liver metastases are a leading contributor to death among patients with colorectal cancer.Current clinical treatments,such as resection and systemic chemotherapy,are only applicable in a portion of cases.More effective medical interventions,including those involving traditional Chinese medicine,could be beneficial for patients with newly diagnosed colorectal cancer to prevent the progression to liver metastasis.Xiaoyaosan(XYS)is a classical prescription in traditional Chinese medicine with a history of hundreds of years.Despite its well-known protective effects against breast cancer,the understanding of its application in colorectal cancer metastases remains limited.The anti-metastasis mechanism of XYS remains to be elucidated.In this research,we explored the impact of XYS against liver metastases of colorectal cancer and its potential mechanisms.Methods:Thirty-six SPF male C57BL/6 mice were randomly assigned to six groups:a control group,a model group,a DNase I group,and three XYS treatment groups receiving high,medium,and low doses,respectively.A mouse model for colorectal cancer liver metastasis was established through the splenic injection of MC38 cells.Twenty-one days after the injection of cancer cells,the number of metastatic foci and the weights of the liver were calculated,and HE staining was performed to evaluate the effect of XYS.Neutrophil extracellular traps(NETs)formation in the liver was detected by immunofluorescence staining,and NETs formation in the serum was detected by ELISA.The levels of CXCL1,CXCL2,G-CSF,and HMGB1 were determined using ELISA kits.The expression levels of the proteins p-p38,p38,p-ERK,and ERK were assessed using Western blot analysis.Results:XYS treatment reduced the number of metastatic foci,the weights of metastatic livers,and the infiltration area of tumor-like cells.XYS could inhibit NETs formation in the liver and serum of mice with metastasis.The concentrations of CXCL1,CXCL2,G-CSF,and HMGB1 were significantly decreased in all XYS-treated groups.Moreover,XYS down-regulated the protein expression levels of phosphorylated p38 and ERK.Conclusion:XYS could attenuate liver metastases of colorectal cancer in vivo.The inhibitory mechanism of XYS may involve the reduction of NETs formation through the regulation of tumor-derived factors and the downstream MAPKs(p38,ERK)signaling pathway.展开更多
Precise control and measurement of nanoparticles using low-power optical tweezers are pivotal for advancing single-particle analysis,nanoscale sensing,and energy transport research.In this work,we present the tipassis...Precise control and measurement of nanoparticles using low-power optical tweezers are pivotal for advancing single-particle analysis,nanoscale sensing,and energy transport research.In this work,we present the tipassisted nanoparticle capture system that simultaneously achieves localized temperature probing and nanoparticle trapping,significantly lowering the required laser power input.Unlike traditional metal-tip plasmonic techniques that predominantly rely on intense electric field gradients,our approach employs a silicon nanotip under resonant laser excitation,uniquely integrating optical forces,thermophoretic forces,and interatomic interactions for stable nanoparticle confinement.This synergistic collaboration mechanism enables approximately a 42%reduction in laser power density compared to conventional bowtie nanoaperture methods.This experimental method achieved direct and simultaneous Raman-based measurements of localized thermal dynamics,providing new insights into nanoscale thermodynamics during optical trapping.Additionally,the silicon nanotip demonstrates reduced thermal transport due to its confined nanoscale geometry,aligning closely with our theoretical predictions.Our integrated strategy of efficient nanoparticle manipulation coupled with precise thermal probing not only enhances overall energy efficiency but also broadens the scope of potential applications in cutting-edge nanoscience and nanotechnology.展开更多
Neutrophil extracellular traps(NETs)have been the subject of research in the field of innate immunity since they were first described two decades ago.NETs are fibrous network structures released by neutrophils under s...Neutrophil extracellular traps(NETs)have been the subject of research in the field of innate immunity since they were first described two decades ago.NETs are fibrous network structures released by neutrophils under specific stimuli,including DNA,histones,and a variety of granular proteins.NETs have been widely studied in the fields of infectious and immune diseases,and new break-throughs have been made in the understanding of disease pathogenesis and treatment.In recent years,studies have found that NETs play an important role in the occurrence and development of osteoarticular diseases.This article reviews the progress in the research of NETs in common osteoarticular diseases such as rheumatoid arthritis,ankylosing spondylitis,gouty arthritis,osteonecrosis of the femoral head,osteoarthritis,and joint fibrosis,including the formation mecha-nism of NETs and its role in inflammation,joint destruction,pain and other pa-thological processes.The problems existing in current research are discussed,along with future research directions,to provide a reference for the in-depth study of osteoarticular diseases and the development of new treatment strategies.展开更多
Neutrophil extracellular traps(NET)have emerged as critical players in the pathogenesis of atherosclerosis and other cardiovascular diseases(CVD).These web-like structures,composed of DNA,histones,and granule proteins...Neutrophil extracellular traps(NET)have emerged as critical players in the pathogenesis of atherosclerosis and other cardiovascular diseases(CVD).These web-like structures,composed of DNA,histones,and granule proteins released by neutrophils,contribute significantly to both inflammation and thrombosis.This manuscript offers a comprehensive review of the recent literature on the involvement of NET in atherosclerosis,highlighting their interactions with various pathophysiological processes and their potential as biomarkers for CVD.Notably,the impact of radiation on NET formation is explored,emphasising how oxidative stress and inflammatory responses drive NET release,contributing to plaque instability.The role of histones,particularly citrullinated histones,in endothelial dysfunction and plaque progression is discussed,highlighting their significance in the pathophysiology of atherosclerosis.Furthermore,the complex relationship between lipoproteins and NET formation is examined,with a focus on how elevated low-density lipoprotein(LDL)and decreased high-density lipoprotein(HDL)levels facilitate NET release,thus promoting vascular inflammation and plaque instability.The influence of cholesterol on NET formation is also explored,underscoring its contribution to plaque development and stability.The role of Peptidylarginine deiminase 4(PAD4)in the regulation of NETosis is reviewed,with attention given to how PAD4-driven citrullination of histones affects atherosclerosis progression.Moreover,the manuscript examines the potential of NET components—such as double-stranded DNA,myeloperoxidase–DNA complexes,and citrullinated histone H3—as biomarkers for assessing disease severity and predicting adverse cardiovascular events,including ST-elevation myocardial infarction(STEMI)and stroke.Elevated levels of these biomarkers correlate with worse clinical outcomes,suggesting their utility in guiding therapeutic interventions.In contrast to the existing body of work,this review highlights the novelty of integrating recent findings on NET interactions with lipid metabolism,histone modifications,and PAD4 activity in the context of atherosclerosis.Overall,NET plays an integral role in the inflammatory and thrombotic processes underpinning atherosclerosis,and their components hold promise as both diagnostic markers and therapeutic targets in cardiovascular disease management.展开更多
The ability of queens and males of most ant species to disperse by flight has fundamentally contributed to the group’s evolutionary and ecological success and is a determining factor to take into account for biogeogr...The ability of queens and males of most ant species to disperse by flight has fundamentally contributed to the group’s evolutionary and ecological success and is a determining factor to take into account for biogeographic studies(Wagner and Liebherr 1992;Peeters and Ito 2001;Helms 2018).展开更多
Accurate atomic mass data hold significant application value in various research fields,in which Penning trap mass spectrometry is considered the most precise experimental method.A cryogenic detection system is a key ...Accurate atomic mass data hold significant application value in various research fields,in which Penning trap mass spectrometry is considered the most precise experimental method.A cryogenic detection system is a key component for reading out the image charge of charged particles in Penning traps using the Fourier transform ion cyclotron resonance technique.In this paper,we present the development and characteristics of this detection system,which includes a superconducting resonator and cryogenic low-noise amplifiers.The resonator consists of delicately woven thin NbTi wires configured into a multilayer helical coil,offering a quality factor of 98004 at around 1 MHz.Low-noise amplifiers are developed based on GaAs field effect transistors,exhibiting amplification factors greater than 27 dB with a power consumption of approximately 6 mW in the frequency range of 0.1 to 10 MHz.The lowest input voltage noise is 0.8√Hz at 1 MHz.The fabrication process,operation,and measurements are elucidated in detail.展开更多
基金This project was finically supported by the R&D Foundation of Jiangsu Province,China(BE2022425)the National Key Research and Development Program of China(2022YFD2300304)the Priority Academic Program Development of Jiangsu Higher-Education Institutions,China(PAPD).
文摘Recently developed ‘super’ rice cultivars with greater yield potentials often suffer from the problem of poor grain filling, especially in inferior spikelets. Here, we studied the activities of enzymes related to starch metabolism in rice stems and grains, and the microstructures related to carbohydrate accumulation and transportation to investigate the effects of different water regimes on grain filling. Two ‘super’ rice cultivars were grown under two irrigation regimes of well-watered(WW) and alternate wetting and moderate soil drying(AWMD). Compared with the WW treatment,the activities of ADP glucose pyrophosphorylase(AGPase), starch synthase(StSase) and starch branching enzyme(SBE), and the accumulation of non-structural carbohydrates(NSCs) in the stems before heading were significantly improved, and more starch granules were stored in the stems in the AWMD treatment. After heading, the activities of α-amylase, β-amylase, sucrose phosphate synthase(SPS) and sucrose synthase in the synthetic direction(SSs)were increased in the stems to promote the remobilization of NSCs for grain filling under AWMD. During grain filling, the enzymatic activities of sucrose synthase in the cleavage direction(SSc), AGPase, StSase and SBE in the inferior spikelets were increased, which promoted grain filling, especially for the inferior spikelets under AWMD.However, there were no significant differences in vascular microstructures. The grain yield and grain weight could be improved by 13.1 and 7.5%, respectively, by optimizing of the irrigation regime. We concluded that the low activities of key enzymes in carbon metabolism is the key limitation for the poor grain filling, as opposed to the vascular microstructures, and AWMD can increase the amount of NSC accumulation in the stems before heading, improve the utilization rate of NSCs after heading, and increase the grain filling, especially in the inferior spikelets, by altering the activities of key enzymes in carbon metabolism.
基金This study was supported by the National Natural Science Foundation of China(31960306).
文摘To study non-structural carbohydrate character-istics and nutrient utilization strategies of Pinus yunnanen-sis under continuous drought conditions,2-year-old seed-lings were planted in pots with appropriate water,light and moderate and severe drought treatments[(80±5),(65±5),(50±5),and(35±5)%of field water-holding capacity].Non-structural carbohydrates,carbon(C),nitrogen(N),and phosphorus(P)concentrations were measured in each plant component.The results show that:(1)With increasing drought,non-structural carbohydrates gradually increased in leaves,stems,and coarse roots,while gradually decreased in fine roots;(2)C concentrations of all were relatively stable under different stress levels.Phosphorous utilization of each component increased under light and moderate drought conditions,while N and P utilization efficiency of each plant component decreased under severe drought.Growth was mainly restricted by N,first decreasing and then increasing with increased drought;(3)There was a correlation between the levels of non-structural carbohydrates and C,N,and P in each component.Changes in N concentration affected the interconversion between soluble sugar and starch,which play a regulatory role in the fluctuation of the concentration of non-structural carbohydrates;and,(4)Plasticity analysis showed that P.yunnanensis seedlings responded to drought mainly by altering starch concentration,the ratio of soluble sugar to starch in leaves and stems,and further by alter-ing N and P utilization efficiencies.Overall,these results suggest that the physiological activities of all organs of P.yunnanensis seedlings are restricted under drought and that trade-offs exist between different physiological indicators and organs.Our findings are helpful in understanding non-structural carbohydrate and nutrient adaptation mechanisms under drought in P.yunnanensis seedlings.
基金funded by the Talents ans its Youth Project of Xinjiang Production and Construction Corps(38000020924,380000358).
文摘Leaves are important‘source’organs that synthesize organic matter,providing carbon sources for plant growth.Here,we used Populus talassica×Populus euphratica,the dominant species in ecological and timber forests,to simulate carbon limitation through artificial 25%,50%,and 75%defoliation treatments and explore the effects on root,stem,and leaf morphology,biomass accumulation,and carbon allocation strategies.At the 60th d after treat-ment,under 25%defoliation treatment,the plant height,specific leaf weight,root surface area and volume,and concentrations of non-structural carbohydrates in stem and root were significantly increased by 9.13%,20.00%,16.60%,31.95%,5.12%,and 9.34%,respectively,relative to the control.There was no significant change in the growth indicators under 50%defoliation treatment,but the concentrations of non-structural carbohydrates in the leaf and stem significantly decreased,showing mostly a negative correlation between them.The opposite was observed in the root.Under 75%defoliation treatment,the plant height,ground diameter,leaf number,single leaf area,root,stem,and total biomass were significantly reduced by 14.15%,10.24%,14.86%,11.31%,11.56%,21.87%,and 16.82%,respectively,relative to the control.The concentrations of non-structural carbohydrates in various organs were significantly reduced,particularly in the consumption of the starch concentrations in the stem and root.These results indicated that carbon allocation strategies can be adjusted to increase the con-centration of non-structural carbohydrates in root and meet plant growth needs under 25%and 50%defoliation.However,75%defoliation significantly limited the distribution of non-structural carbohydrates to roots and stems,reduced carbon storage,and thus inhibited plant growth.Defoliation-induced carbon limitation altered the carbon allocation pattern of P.talassica×P.euphratica,and the relationship between carbon reserves in roots and tree growth recovery after defoliation was greater.This study provides a theoretical basis for the comprehen-sive management of P.talassica×P.euphratica plantations,as well as a reference for the study of plantation car-bon allocation strategies in the desert and semi-desert regions of Xinjiang under carbon-limitation conditions.
基金Project supported by the National Natural Science Foundation of China(52372134,12274023)the Fundamental Re search Funds for the Central Universities(FRF-EYIT-23-04)。
文摘Rare earth-doped inorganic compounds contribute mostly to the family of persistent luminescent materials due to the versatile energy levels of rare earth ions.One of the key research aims is to match the trap level stemming from the doped rare earth ion or intrinsic defects to the electronic structure of the host,and therefore thermoluminescence measurement becomes a radical technology in studying trap depth,which is one of the significant parameters that determine the properties of persistent luminescence and photostimulated luminescence.However,the results of trap depth obtained by different thermoluminescence methods are quite different so that they are not comparable.Herein,we analyzed different thermoluminescence methods,selected and improved the traditional peak position method of T_(m)/500 to be E=(-0.94Inβ+30.09)kT_(m).Only the experimental heating rate(β)is needed additionally,but the accuracy is improved greatly in most cases.This convenient and accurate method will accelerate the discovery of novel rare earth-doped materials.
基金financial supports from National Natural Science Foundation of China(62175023).
文摘In this study,we developed a single-beam optical trap-based surface-enhanced Raman scattering(SERS)optofluidic molecular fingerprint spectroscopy detection system.This system utilizes a single-beam optical trap to concentrate free silver nanoparticles(AgNPs)within an optofluidic chip,significantly enhancing SERS performance.We investigated the optical field distribution characteristics within the tapered fiber using COMSOL simulation software and established a MATLAB simulation model to validate the single-beam optical trap's effectiveness in capturing AgNPs,demonstrating the theoretical feasibility of our approach.To verify the particle capture efficacy of the system,we experimentally controlled the optical trap's on-off state to manage the capture and release of particles precisely.The experimental results indicated that the Raman signal intensity in the capture state was significantly higher than in the non-capture state,confirming that the single-beam optical trap effectively enhances the SERS detection capability of the optofluidic detection system.Furthermore,we employed Raman mapping techniques to investigate the impact of the capture area on the SERS effect,revealing that the spectral intensity of molecular fingerprints in the laser-trapping region is significantly improved.We successfully detected the Raman spectrum of crystal violet at a concentration of 10^(−9)mol/L and pesticide thiram at a concentration of 10^(−5)mol/L,further demonstrating the ability of the single-beam optical trap in enhancing the molecular fingerprint spectrum identification capability of the SERS optofluidic chips.The optical trapping SERS optofluidic detection system developed in this study,as a key component of an integrated optoelectronic sensing system,holds the potential for integration with portable high-power lasers and high-performance Raman spectrometers.This integration is expected to advance highly integrated technologies and significantly enhance the overall performance and portability of optoelectronic sensing systems.
基金supported by the National Key Research and Development Program of China (Grant No.2021YFA1402002)the Innovation Program for Quantum Science and Technology (Grant No.2023ZD0300400)the National Natural Science Foundation of China (Grant Nos.U21A6006,U21A20433,92465201,12474360,and 92265108)。
文摘The coherence time of an optically trapped neutral atom is a crucial parameter for quantum technologies.We found that optical dipole traps with higher-order spatial forms inherently offer lower decoherence rates compared to those with lower-order spatial forms. We formulated the decoherence rate caused by the variance of the differential energy shift and photon jumping rate. Then, we constructed blue-detuned harmonic and quartic optical dipole traps, and experimentally investigated the coherence time of a trapped single cesium atom.Specifically, we demonstrated a significant improvement in the coherence time of a single atom by employing a quartic trap with the same characteristic trap potential and size as its harmonic counterpart—achieving an enhancement from 315 ms to 474 ms. The experimental results qualitatively verified our theory. Our approach provides a novel method to enhance the coherence time of optically trapped neutral atoms.
文摘Beauty trap is a kind of traditional stratagem originating from ancient times.This stratagem is a type of strategic deception,making full use of human’s desires and weaknesses.No matter whether you are a genius or a fool,you will have the opportunity to fall into a trap,especially if the trap is intended for you.Because of this characteristic,beauty trap was usually seen as a kind of effective non-military method,appearing in the war history of many different countries.With time going by,compared with its original form,this stratagem has greatly changed,developing many new forms.Some of them need to be adopted flexibly,combining with different kinds of psychological tactics.Except the field of military,this stratagem can also be seen in political struggles and commercial warfare.After coming to modern society,the beauty trap does not vanish.It seems that this stratagem will accompany the entire process of humanity,simply because the desires of humans will never disappear.
基金supported by the National Key Research and Development Program of China(No.2022YFC2804800 to W.J.)the National Natural Science Foundation of China(No.22494704.,22137002 to Y.D.,92253305 to W.J.and 31971111 to C.L.)+6 种基金the Science and Technology Commission of Shanghai Municipality(Grant 20JC1410900 to Y.D.)the University Innovation Research Group in Chongqing(No.CXQT21016 to Y.D.)the Chongqing Talent Program Project(No.CQYC20200302119 to Y.D.)High-Level Innovation Platform Cultivation Plan of Chongqing(to Y.D.)Joint Fund of the Natural Science Innovation and Development Foundation of Chongqing(to Y.D.)Program for Professor of Special Appointment(Eastern Scholar)at Shanghai Institutions of Higher Learning(to W.J.)Chongqing Doctoral Express Entry Project(No.CSTB2022BSXM-JCX0044 to J.H.).
文摘Natural products play a crucial role in new drug development,but their druggability is often limited by uncertain molecular targets and insufficient research on mechanisms of action.In this study,we developed a new RPL19-TRAP^(KI)-seq method,combining CRISPR/Cas9 and TRAP technologies,to investigate these mechanisms.We identified and validated seven ribosomal large subunit surface proteins suitable for TRAP,selecting RPL19 for its high enrichment.We successfully established a stable cell line expressing EGFP-RPL19 using CRISPR knock-in and verified its efficiency and specificity in enriching ribosomes and translating mRNA.Integrated with next-generation sequencing,this method allows precise detection of translating mRNA.We validated RPL19-TRAP^(KI)-seq by investigating rapamycin,an mTOR inhibitor,yielding results consistent with previous reports.This optimized TRAP technology provides an accurate representation of translating mRNA,closely reflecting protein expression levels.Furthermore,we investigated SBF-1,a 23-oxa-analog of natural saponin OSW-1 with significant anti-tumor activity but an unclear mechanism.Using RPL19-TRAP^(KI)-seq,we found that SBF-1 exerts its cytotoxic effects on tumor cells by disturbing cellular oxidative phosphorylation.In conclusion,our method has been proven to be a promising tool that can reveal the mechanisms of small molecules with greater accuracy,setting the stage for future exploration of small molecules and advancing the fields of pharmacology and therapeutic development.
基金Project supported by the National Key R&D Program of China (Grant No. 2022YFA1404002)the National Natural Science Foundation of China (Grant Nos. U20A20218, 61525504, 61435011, and T2495253)+1 种基金the Anhui Initiative in Quantum Information Technologies (Grant No. AHY020200)the Major Science and Technology Projects in Anhui Province (Grant No. 202203a13010001)。
文摘We describe a three-dimensional(3D) magneto-optical trap(MOT) capable of simultaneously capturing ^(85)Rb and ^(133)Cs atoms. Unlike conventional setups, our system utilizes two separate laser systems that are combined before entering the vacuum chamber, enabling the simultaneous trapping of two different atomic species. We trapped ^(85)Rb and ^(133)Cs atoms using relatively low total power: 8 mW cooling and 4 mW repump for ^(85)Rb, and 7.5 mW cooling and 1.5 mW repump for ^(133)Cs. The number of trapped atoms was 1.6 × 10^(8) for ^(85)Rb and 1.4 × 10^(8) for ^(133)Cs. The optical depths were 3.71 for ^(85)Rb and 3.45 for ^(133)Cs. The temperature of trapped atoms was ~200 μK for ^(85)Rb and ~200 μK for ^(133)Cs. Our 3D MOT setup allows full horizontal optical access to the trapped atomic ensembles without spatial interference from the trapping or repump laser beams. Our vacuum system is also quite simple, avoiding much of the complexity typically encountered in similar dual-species systems. However, the red detuning of the cooling laser used for atomic trapping in our system is relatively small, leaving room for further optimization. This system offers a versatile platform for exploring complex phenomena in ultracold atom physics, such as Rydberg molecule formation and interspecies interactions.
基金supported by the Innovation Program for Quantum Science and Technology(Grant Nos.2021ZD0301200,2021ZD0303200,and 2021ZD0301500)the Alliance of International Science Organizations(ANSO)。
文摘Recently,large-scale trapped ion systems have been realized in experiments for quantum simulation and quantum computation.They are the simplest systems for dynamical stability and parametric resonance.In this model,the Mathieu equation plays the most fundamental role for us to understand the stability and instability of a single ion.In this work,we investigate the dynamics of trapped ions with the Coulomb interaction based on the Hamiltonian equation.We show that the many-body interaction will not influence the phase diagram for instability.Then,the dynamics of this model in the large damping limit will also be analytically calculated using few trapped ions.Furthermore,we find that in the presence of modulation,synchronization dynamics can be observed,showing an exchange of velocities between distant ions on the left side and on the right side of the trap.These dynamics resemble that of the exchange of velocities in Newton's cradle for the collision of balls at the same time.These dynamics are independent of their initial conditions and the number of ions.As a unique feature of the interacting Mathieu equation,we hope this behavior,which leads to a quasi-periodic solution,can be measured in current experimental systems.Finally,we have also discussed the effect of anharmonic trapping potential,showing the desynchronization during the collision process.It is hoped that the dynamics in this many-body Mathieu equation with damping may find applications in quantum simulations.This model may also find interesting applications in dynamics systems as a pure mathematical problem,which may be beyond the results in the Floquet theorem.
基金supported by Sichuan Science and Technology Program(grant number 2023NSFSC1809)Hospital of Chengdu University of Traditional Chinese Medicine(grant number 23ZYTS1004,21YY01).
文摘Background:Liver metastases are a leading contributor to death among patients with colorectal cancer.Current clinical treatments,such as resection and systemic chemotherapy,are only applicable in a portion of cases.More effective medical interventions,including those involving traditional Chinese medicine,could be beneficial for patients with newly diagnosed colorectal cancer to prevent the progression to liver metastasis.Xiaoyaosan(XYS)is a classical prescription in traditional Chinese medicine with a history of hundreds of years.Despite its well-known protective effects against breast cancer,the understanding of its application in colorectal cancer metastases remains limited.The anti-metastasis mechanism of XYS remains to be elucidated.In this research,we explored the impact of XYS against liver metastases of colorectal cancer and its potential mechanisms.Methods:Thirty-six SPF male C57BL/6 mice were randomly assigned to six groups:a control group,a model group,a DNase I group,and three XYS treatment groups receiving high,medium,and low doses,respectively.A mouse model for colorectal cancer liver metastasis was established through the splenic injection of MC38 cells.Twenty-one days after the injection of cancer cells,the number of metastatic foci and the weights of the liver were calculated,and HE staining was performed to evaluate the effect of XYS.Neutrophil extracellular traps(NETs)formation in the liver was detected by immunofluorescence staining,and NETs formation in the serum was detected by ELISA.The levels of CXCL1,CXCL2,G-CSF,and HMGB1 were determined using ELISA kits.The expression levels of the proteins p-p38,p38,p-ERK,and ERK were assessed using Western blot analysis.Results:XYS treatment reduced the number of metastatic foci,the weights of metastatic livers,and the infiltration area of tumor-like cells.XYS could inhibit NETs formation in the liver and serum of mice with metastasis.The concentrations of CXCL1,CXCL2,G-CSF,and HMGB1 were significantly decreased in all XYS-treated groups.Moreover,XYS down-regulated the protein expression levels of phosphorylated p38 and ERK.Conclusion:XYS could attenuate liver metastases of colorectal cancer in vivo.The inhibitory mechanism of XYS may involve the reduction of NETs formation through the regulation of tumor-derived factors and the downstream MAPKs(p38,ERK)signaling pathway.
基金supported by the National Natural Science Foundation of China(Grant No.52206107)the National Key R&D Program of China(Grant No.2023YFE0120200)。
文摘Precise control and measurement of nanoparticles using low-power optical tweezers are pivotal for advancing single-particle analysis,nanoscale sensing,and energy transport research.In this work,we present the tipassisted nanoparticle capture system that simultaneously achieves localized temperature probing and nanoparticle trapping,significantly lowering the required laser power input.Unlike traditional metal-tip plasmonic techniques that predominantly rely on intense electric field gradients,our approach employs a silicon nanotip under resonant laser excitation,uniquely integrating optical forces,thermophoretic forces,and interatomic interactions for stable nanoparticle confinement.This synergistic collaboration mechanism enables approximately a 42%reduction in laser power density compared to conventional bowtie nanoaperture methods.This experimental method achieved direct and simultaneous Raman-based measurements of localized thermal dynamics,providing new insights into nanoscale thermodynamics during optical trapping.Additionally,the silicon nanotip demonstrates reduced thermal transport due to its confined nanoscale geometry,aligning closely with our theoretical predictions.Our integrated strategy of efficient nanoparticle manipulation coupled with precise thermal probing not only enhances overall energy efficiency but also broadens the scope of potential applications in cutting-edge nanoscience and nanotechnology.
基金Supported by 2024 Suining Health Science and Technology Plan Project,No.24ZDJB03.
文摘Neutrophil extracellular traps(NETs)have been the subject of research in the field of innate immunity since they were first described two decades ago.NETs are fibrous network structures released by neutrophils under specific stimuli,including DNA,histones,and a variety of granular proteins.NETs have been widely studied in the fields of infectious and immune diseases,and new break-throughs have been made in the understanding of disease pathogenesis and treatment.In recent years,studies have found that NETs play an important role in the occurrence and development of osteoarticular diseases.This article reviews the progress in the research of NETs in common osteoarticular diseases such as rheumatoid arthritis,ankylosing spondylitis,gouty arthritis,osteonecrosis of the femoral head,osteoarthritis,and joint fibrosis,including the formation mecha-nism of NETs and its role in inflammation,joint destruction,pain and other pa-thological processes.The problems existing in current research are discussed,along with future research directions,to provide a reference for the in-depth study of osteoarticular diseases and the development of new treatment strategies.
基金supported by NIH grants to MI Bukrinsky(R01NS124477 and P30AI117970)by the“Creation of Experimental Laboratories in the Natural Sciences Program”and Basic Research Programat Higher School of Economics University.
文摘Neutrophil extracellular traps(NET)have emerged as critical players in the pathogenesis of atherosclerosis and other cardiovascular diseases(CVD).These web-like structures,composed of DNA,histones,and granule proteins released by neutrophils,contribute significantly to both inflammation and thrombosis.This manuscript offers a comprehensive review of the recent literature on the involvement of NET in atherosclerosis,highlighting their interactions with various pathophysiological processes and their potential as biomarkers for CVD.Notably,the impact of radiation on NET formation is explored,emphasising how oxidative stress and inflammatory responses drive NET release,contributing to plaque instability.The role of histones,particularly citrullinated histones,in endothelial dysfunction and plaque progression is discussed,highlighting their significance in the pathophysiology of atherosclerosis.Furthermore,the complex relationship between lipoproteins and NET formation is examined,with a focus on how elevated low-density lipoprotein(LDL)and decreased high-density lipoprotein(HDL)levels facilitate NET release,thus promoting vascular inflammation and plaque instability.The influence of cholesterol on NET formation is also explored,underscoring its contribution to plaque development and stability.The role of Peptidylarginine deiminase 4(PAD4)in the regulation of NETosis is reviewed,with attention given to how PAD4-driven citrullination of histones affects atherosclerosis progression.Moreover,the manuscript examines the potential of NET components—such as double-stranded DNA,myeloperoxidase–DNA complexes,and citrullinated histone H3—as biomarkers for assessing disease severity and predicting adverse cardiovascular events,including ST-elevation myocardial infarction(STEMI)and stroke.Elevated levels of these biomarkers correlate with worse clinical outcomes,suggesting their utility in guiding therapeutic interventions.In contrast to the existing body of work,this review highlights the novelty of integrating recent findings on NET interactions with lipid metabolism,histone modifications,and PAD4 activity in the context of atherosclerosis.Overall,NET plays an integral role in the inflammatory and thrombotic processes underpinning atherosclerosis,and their components hold promise as both diagnostic markers and therapeutic targets in cardiovascular disease management.
基金funded by the“Departments of Excellence”program of the Italian Ministry for University and Research(MIUR,2018-2022 and MUR,2023-2027).
文摘The ability of queens and males of most ant species to disperse by flight has fundamentally contributed to the group’s evolutionary and ecological success and is a determining factor to take into account for biogeographic studies(Wagner and Liebherr 1992;Peeters and Ito 2001;Helms 2018).
基金supported by the National Key R&D Program of China(No.2023YFA1606501)the National Natural Science Foundation of China(Nos.12204110 and 12474251)+2 种基金Shanghai Pujiang Program(No.22PJ1401100)Max-Planck Partner Group Projectthe Fudan University Yan Liyuan-EnSiKai Foundation(JX240003)。
文摘Accurate atomic mass data hold significant application value in various research fields,in which Penning trap mass spectrometry is considered the most precise experimental method.A cryogenic detection system is a key component for reading out the image charge of charged particles in Penning traps using the Fourier transform ion cyclotron resonance technique.In this paper,we present the development and characteristics of this detection system,which includes a superconducting resonator and cryogenic low-noise amplifiers.The resonator consists of delicately woven thin NbTi wires configured into a multilayer helical coil,offering a quality factor of 98004 at around 1 MHz.Low-noise amplifiers are developed based on GaAs field effect transistors,exhibiting amplification factors greater than 27 dB with a power consumption of approximately 6 mW in the frequency range of 0.1 to 10 MHz.The lowest input voltage noise is 0.8√Hz at 1 MHz.The fabrication process,operation,and measurements are elucidated in detail.
