Prenatal maternal psychological distress,particularly depression,has been increasingly recognized as a factor that influences fetal growth;however,its impact on early childhood development remains less well understood...Prenatal maternal psychological distress,particularly depression,has been increasingly recognized as a factor that influences fetal growth;however,its impact on early childhood development remains less well understood.The present study investigated the association between prenatal depression and children's growth trajectories,as well as the odds of overweight and obesity from 1 to 36 months,while also accounting for maternal anxiety and stress.We analyzed data from 4710 mother-child dyads in the Jiangsu Birth Cohort,assessing maternal psychological distress across trimesters and categorizing participants into groups with mild,moderate,and severe depressive symptomatology.Children's weight-for-length z-scores(WLZ)were used to assess overweight/obesity prevalence,and growth patterns were identified through trajectory models.The results from the generalized estimating equations analysis showed that greater depressive symptomatology during pregnancy was associated with a 28%to 41%increase in the odds of childhood overweight/obesity across all three trimesters,compared with mild depressive symptomatology.We identified five distinct WLZ growth trajectory patterns,and found that mothers with greater depressive symptomatology were 39%–47%more likely to have children who followed a very-high-stable growth trajectory,compared with mothers with mild depressive symptomatology.These findings highlight the significant impact of prenatal depression on adverse growth patterns and childhood overweight/obesity,underscoring the need for early intervention.展开更多
Auxin response factors(ARFs)are involved in auxin-mediated transcriptional regulation in plants.In this study,we performed functional characterization of SlARF6A in tomato.SlARF6A is located in the nucleus and exhibit...Auxin response factors(ARFs)are involved in auxin-mediated transcriptional regulation in plants.In this study,we performed functional characterization of SlARF6A in tomato.SlARF6A is located in the nucleus and exhibits transcriptional activator activity.Overexpression of SlARF6A increased chlorophyll contents in the fruits and leaves of tomato plants,whereas downregulation of SlARF6A decreased chlorophyll contents compared with those of wild-type(WT)plants.Analysis of chloroplasts using transmission electron microscopy indicated increased sizes of chloroplasts in SlARF6A-overexpressing plants and decreased numbers of chloroplasts in SlARF6A-downregulated plants.Overexpression of SlARF6A increased the photosynthesis rate and accumulation of starch and soluble sugars,whereas knockdown of SlARF6A resulted in opposite phenotypes in tomato leaves and fruits.RNA-sequence analysis showed that regulation of SlARF6A expression altered the expression of genes involved in chlorophyll metabolism,photosynthesis and sugar metabolism.SlARF6A directly bound to the promoters of SlGLK1,CAB,and RbcS genes and positively regulated the expression of these genes.Overexpression of SlARF6A also inhibited fruit ripening and ethylene production,whereas downregulation of SlARF6A increased fruit ripening and ethylene production.SlARF6A directly bound to the SAMS1 promoter and negatively regulated SAMS1 expression.Taken together,these results expand our understanding of ARFs with regard to photosynthesis,sugar accumulation and fruit development and provide a potential target for genetic engineering to improve fruit nutrition in horticulture crops.展开更多
Vascular tissue serves as the channel for nutrient transport and signal transduc-tion between different organs in plants. To study molecular identity and behavior of mobile substances transmitted between organs via ...Vascular tissue serves as the channel for nutrient transport and signal transduc-tion between different organs in plants. To study molecular identity and behavior of mobile substances transmitted between organs via vascular tissue, it is necessary to collect exudate from stem or other organs. Modifed stem-cutting method for exudate collection in soybean was used in this study by selecting the optimum sampling time and position, using reagents preventing RNA degradation, etc. Diurnal dynamics analysis of exudate emission was found to be the highest during 10:00-10:10 am. Totally 15 μL pure exudate was collected from the stem cut between cotyledonary and unifoliolate nodes at V1 stage (unifoliolate just expanded) of young soybean seedling. Improved TRIzol method was used to extract RNA and protein from stem exudate. A phloem specifc gene of Glycine max sieve element occlusion s, SEO, in exudate samples was successfully amplifed by RT-PCR, which comfrmed the success of RNA extraction. SDS-PAGE showed the majority of proteins in exudate were of low molec-ular weight. Method proposed in this study would facilitate collection of quality exudate and enhance further investigation of mobile substances in soybean.展开更多
Instrument separation is a critical complication during root canal therapy,impacting treatment success and long-term tooth preservation.The etiology of instrument separation is multifactorial,involving the intricate a...Instrument separation is a critical complication during root canal therapy,impacting treatment success and long-term tooth preservation.The etiology of instrument separation is multifactorial,involving the intricate anatomy of the root canal system,instrument-related factors,and instrumentation techniques.Instrument separation can hinder thorough cleaning,shaping,and obturation of the root canal,posing challenges to successful treatment outcomes.Although retrieval of separated instrument is often feasible,it carries risks including perforation,excessive removal of tooth structure and root fractures.Effective management of separated instruments requires a comprehensive understanding of the contributing factors,meticulous preoperative assessment,and precise evaluation of the retrieval difficulty.The application of appropriate retrieval techniques is essential to minimize complications and optimize clinical outcomes.The current manuscript provides a framework for understanding the causes,risk factors,and clinical management principles of instrument separation.By integrating effective strategies,endodontists can enhance decision-making,improve endodontic treatment success and ensure the preservation of natural dentition.展开更多
Objective To assess health equity in the Yangtze River region to improve understanding of the correlation between hand, foot, and mouth disease(HFMD) and socioeconomic factors.Methods From 2014–2016, data on HFMD inc...Objective To assess health equity in the Yangtze River region to improve understanding of the correlation between hand, foot, and mouth disease(HFMD) and socioeconomic factors.Methods From 2014–2016, data on HFMD incidence, population statistics, economic indicators, and meteorology from 26 cities along the Yangtze River were analyzed. A multi-city random-effects metaanalysis was performed to study the relationship between temperature and HFMD transmission, and health equity was assessed with respect to socio-economic impact.Results Over the study period, 919,458 HFMD cases were reported, with Shanghai(162,303) having the highest incidence and Tongling(5,513) having the lowest. Males were more commonly affected(male-to-female ratio, 1.49:1). The exposure-response relationship had an M-shaped curve, with two HFMD peaks occurring at 4 ℃ and 26 ℃. The relative risk had two peaks at 1.30 ℃(1.834, 95% CI:1.204–2.794) and 31.4 ℃(1.143, 95% CI: 0.901–1.451), forming an M shape, with the first peak higher than the second. The most significant impact of temperature on HFMD was observed between –2 ℃ and18.1 ℃. The concentration index(0.2463) indicated moderate concentration differences, whereas the Theil index(0.0418) showed low inequality in distribution.Conclusion The incidence of HFMD varied across cities, particularly with changes in temperature.Economically prosperous areas showed higher risks, indicating disparities. Targeted interventions in these areas are crucial for mitigating the risk of HFMD.展开更多
BACKGROUND Rosmarinic acid(RA)is a natural polyphenol carboxylic acid known for its role in chemoprevention.Given its widespread use as a food additive,we are interested in whether RA affects the development of colore...BACKGROUND Rosmarinic acid(RA)is a natural polyphenol carboxylic acid known for its role in chemoprevention.Given its widespread use as a food additive,we are interested in whether RA affects the development of colorectal cancer(CRC).AIM To examine the anti-tumor effects of RA on various CRC cell lines,and to further investigate the possible mechanisms.METHODS Cell Counting Kit-8 assay and optical microscopy imaging were used to evaluate the viability of CRC cell lines.Western blot,quantitative real-time polymerase chain reaction,and flow cytometry analyses were performed to assess cell viability and activation of nuclear factor-kappa B(NF-κB)signaling.Molecular modeling was used to assess the interaction between RA and inhibitory kappa B kinase beta.Luciferase assay was used to examine the activity of NF-κB-driven transcription.The combinations of RA with 5-fluorouracil or oxaliplatin were utilized to evaluate the potential synergistic action of RA with the chemotherapeutics.RESULTS RA exerted potent cytotoxic actions on all six CRC cell lines examined.RA was docked nicely into the binding pocket of inhibitory kappa B kinase beta by molecular modeling.The activity of NF-κB-driven luciferase and the phosphorylation of NF-κB p65 were decreased after exposure to the compound.Lipopolysaccharide-induced NF-κB activation was effectively inhibited by RA,too.Further,RA downregulated the expression of cell proliferationrelated cyclin D1 and MYC,which are target genes of NF-κB.Of note,the cytotoxic actions of 5-fluorouracil and oxaliplatin were markedly enhanced by RA in those CRC cells.CONCLUSION Our results indicate that RA inhibits NF-κB signaling and induces apoptosis in CRC cells.It enhances the cytotoxic actions of chemotherapeutics and might help to improve the chemotherapy of CRC.展开更多
Apical microsurgery is accurate and minimally invasive,produces few complications,and has a success rate of more than 90%.However,due to the lack of awareness and understanding of apical microsurgery by dental general...Apical microsurgery is accurate and minimally invasive,produces few complications,and has a success rate of more than 90%.However,due to the lack of awareness and understanding of apical microsurgery by dental general practitioners and even endodontists,many clinical problems remain to be overcome.The consensus has gathered well-known domestic experts to hold a series of special discussions and reached the consensus.This document specifies the indications,contraindications,preoperative preparations,operational procedures,complication prevention measures,and efficacy evaluation of apical microsurgery and is applicable to dentists who perform apical microsurgery after systematic training.展开更多
Dentistry is a profession with a high prevalence of work-related musculoskeletal disorders(WMSDs),with symptoms often appearing very early in one’s career[1].WMSDs are conditions affecting the muscles,bones,and nervo...Dentistry is a profession with a high prevalence of work-related musculoskeletal disorders(WMSDs),with symptoms often appearing very early in one’s career[1].WMSDs are conditions affecting the muscles,bones,and nervous system due to occupational factors.In 2002,the International Labor Organization included musculoskeletal diseases in the International List of Occupational Diseases.China’s recently updated Classification and Catalog of Occupational Diseases has introduced two new categories of occupational illnesses,including occupational musculoskeletal disorders.WMSDs significantly impact the health and work of dentists,reducing their quality of life and causing economic losses.These disorders are multifactorial in nature,influenced by personal,psychosocial,biomechanical,and environmental factors.Dentists frequently maintain static or awkward postures during procedures,which leads to musculoskeletal strain and discomfort;additionally,long working hours contribute to psychological stress,further increasing the risk of WMSDs[2].展开更多
Global coral reef ecosystems have been severely degraded due to the combined effects of climate change and human activities.Changes in the seawater carbonate system of coral reef ecosystems can reflect their status an...Global coral reef ecosystems have been severely degraded due to the combined effects of climate change and human activities.Changes in the seawater carbonate system of coral reef ecosystems can reflect their status and their responses to the impacts of climate change and human activities.Winter and summer surveys in 2019 found that the ecological community of the Luhuitou coral reef flat was dominated by macroalgae and corals,respectively,contrasting with the conditions 10 years ago.The Luhuitou fringing reefs were sources of atmospheric CO_(2) in both seasons.In winter,the daily variation range of dissolved inorganic carbon(DIC)in Luhuitou coral reefs was up to 450μmol/kg,while that of total alkalinity(TA)was only 68μmol/kg.This indicated that the organic production was significantly higher than the calcification process during this period.The TA/DIC was approximately 0.15,which was less than half of that in healthy coral reefs;hence,photosynthesis-respiration processes were the most important factors controlling daily changes in the seawater carbonate system.The net community production(NCP)of the Luhuitou coral reef ecosystem in winter was as high as 47.65 mmol C/(m^(2)·h).While the net community calcification(NCC)was approximately 3.35 and-4.15 mmol CaCO_(3)/(m^(2)·h)during the daytime and nighttime respectively.Therefore,the NCC for the entire day was-21.9 mmol CaCO_(3)/(m^(2)·d),indicating a net autotrophic dissolved state.In summer,the acidification was enhanced by thunderstorms and heavy rain with the highest seawater partial pressure of CO_(2)(p CO_(2))and lowest pH T.Over the past 10 years,the increase rate of seawater p CO_(2) in Luhuitou reef was approximately 13.3μatm/a***,six times that of the open ocean,while the decrease rate of pH was approximately 0.0083/a,being five times that of the global ocean.These findings underscore the importance of protecting and restoring Luhuitou fringing reef,as well as similar reefs worldwide.展开更多
The taxonomic composition and function of endophytic microbial communities in plants are strongly influenced by environmental changes. The impact of nitrogen (N) fertilization on the diversity of microbial communities...The taxonomic composition and function of endophytic microbial communities in plants are strongly influenced by environmental changes. The impact of nitrogen (N) fertilization on the diversity of microbial communities in the underground parts of plants that are tolerant of barren environments throughout their growth period remains largely unexplored. Here, by high-throughput sequencing technology, an experiment was performed at the Pailou Experimental Station of Nanjing Agricultural University, where the soil is a yellow-brown soil, to analyze fluctuations in the microbial communities of Jerusalem artichoke (Helianthus tuberosus L.) underground parts in two treatments, application of N, P, and K fertilizers (NPK) and application of only P and K fertilizers (PK), from March 2018 to January 2019. Total, nitrate, and ammonium N contents of soil and Jerusalem artichoke were significantly decreased in the PK treatment. The bacterial community, particularly Acinetobacter, dominated throughout the growth period, peaking in November and accounting for 88.9% and 87.3%, respectively, in the NPK and PK treatments. The absence of N fertilizer (i.e., NP treatment) had minimal effect on the bacterial community composition compared to the fungal community composition. The α-diversity of bacteria in tubers was not substantial, while that in roots was dramatically reduced in July and September in the NP treatment. Notably, the α-diversity of fungal species exhibited more pronounced seasonal variations than that of bacteria under both fertilizer conditions. The lack of N fertilizer lessened the complexity of bacterial network structure and reduced bacterial community similarity (β-diversity) in different months. Interestingly, the β-diversity and network structure of fungal community in the underground tissues of Jerusalem artichoke showed less sensitivity to N fertilizer compared to those of bacterial community. This study improves the understanding of the dynamic response of endophytic microorganisms to N fertilizer application in the underground parts of Jerusalem artichoke tolerant to barren environments.展开更多
The primary magnesium production is accompanied by a large amount of magnesium slag(MS)discharge.The low hydration reactivity of γ-Ca_(2)SiO_(4)(γ-C_(2)S)and MgO in MS results in the volume stability issue and low u...The primary magnesium production is accompanied by a large amount of magnesium slag(MS)discharge.The low hydration reactivity of γ-Ca_(2)SiO_(4)(γ-C_(2)S)and MgO in MS results in the volume stability issue and low utilization rate of MS.To eliminate the issue,this study proposes to pre-autoclave the MS slurry to boost the hydration of γ-C_(2)S and MgO and then utilize their hydration products to prepare cementitious materials by carbonation curing.MgO from MS and prepared γ-C_(2)S are firstly employed as study objects respectively,for they are the main contents of magnesium slag.The results indicate that pre-autoclaving treatment can strongly elevate the hydration degree of MgO from MS,this can substantially solve the volume stability issue of MS.Meanwhile,the pre-autoclaving of γ-C_(2)S induces the generation of crystallized and amorphous C-S-H products,and both products could promote the carbonation reaction when compared to γ-C_(2)S.The carbonation degree of pre-autoclaved MS firstly increases and then decreases with the rising pre-autoclaving temperature,and the optimal pre-autoclaving temperature for MS carbonation is 160℃,at this time,the powdered MS can be simply carbonated fully.The sample made of pre-autoclaved MS and then subjected to 4 h carbonation could achieve the compressive strength of 29 MPa.with good soundness.During volume stability testing,the volume expansion rate of a carbonated MS sample with pre-autoclaving was 0.07%,which is significantly lower than the normal requirement of 0.5%.This research offers a novel approach to utilizing magnesium slag in building materials and contributes to carbon reduction.展开更多
Zn-N_(2)batteries,which are comprised of nitrogen reduction reaction(NRR)and oxygen evolution reaction(OER),represent an emerging technology for efficient ammonia production and simultaneous power generation.Neverthel...Zn-N_(2)batteries,which are comprised of nitrogen reduction reaction(NRR)and oxygen evolution reaction(OER),represent an emerging technology for efficient ammonia production and simultaneous power generation.Nevertheless,the intrinsic limitations of NRR and OER currently preclude its advancement.In this paper,Co and B co-doped Lavoisier framework series materials(MIL)are synthesized.Rapid mass transfer is rendered feasible with B_(0.25)-MIL-88-Fe_(4)Co_(1) by the distinctive double cone microrods structure.The addition of soft acid metal node Co^(2+)and B with defective electronic structure modifies the electronic configuration of MIL-88-Fe.At the same time,doping causes defects in the metal-organic frameworks,expands effectively the pore size,and increases the specific surface area,thereby expediting the adsorption of N_(2)and the release of O_(2).The electrocatalysis results show that the dual-doping scheme increases the NH_(3)yield(127.27μg^(-1)h^(-1)mg_(cat)^(-1))and Faraday efficiency(25.81%)while reducing the overpotential of OER(330 mV),achieving a power density of 8.30 mW cm^(-2)for Zn-N_(2)batteries.This discovery implements another avenue for the exploration of Zn-N_(2)battery materials and holds broader significance for advancing the field of energy storage and conversion.展开更多
Background:The inability of damaged neurons to regenerate and of axons to estab-lish new functional connections leads to permanent functional deficits after spinal cord injury(SCI).Although astrocyte reprogramming hol...Background:The inability of damaged neurons to regenerate and of axons to estab-lish new functional connections leads to permanent functional deficits after spinal cord injury(SCI).Although astrocyte reprogramming holds promise for neurorepair in various disease models,it is not sufficient on its own to achieve significant functional recovery.Methods:A rat SCI model was established using a spinal cord impactor.Seven days postsurgery,adeno-associated virus were injected to overexpress the transcription factors NeuroD1 and Neurogenin-2(Ngn2)in the spinal cord.The rats were then trained to walk on a weight-supported treadmill for 4 weeks,starting 14 days after modeling.The effects of these interventions on motor and sensory functions,as well as spinal cord tissue repair,were subsequently evaluated.Results:The combination of NeuroD1 and Ngn2 overexpression with weight-supported exercise training significantly improved gait compared to either inter-vention alone.The group receiving the combined intervention exhibited enhanced sensitivity in sensory assessments.Immunofluorescence analysis revealed increased colocalization of astrocytes and microtubule-associated protein 2-positive neurons in the injury area.These effects were more pronounced than those observed with spinal cord tissue repair alone.Additionally,the combined intervention significantly reduced glial scarring and the size of the injury area.Conclusion:Exercise intervention enhances the reprogramming effects of astrocytes and restores motor function,yielding better results than either intervention alone.展开更多
In plants,numerous non-Mendelian inherited dominant effects,including over-,incomplete-,and codominance,are frequently observed,yet they remain insufficiently understood.A novel phenotype has been identified in specif...In plants,numerous non-Mendelian inherited dominant effects,including over-,incomplete-,and codominance,are frequently observed,yet they remain insufficiently understood.A novel phenotype has been identified in specific soybean transformants overexpressing a single 35S::GmFT2a copy:superearly flowering dominance is exclusively observed in hemizygotes,not in homozygotes.Homozygous individual exhibits si RNA-mediated DNA methylation,causing epigenetic transcriptional silencing,whereas no such effect occurs in hemizygotes.Intriguingly,two distinct rounds of DNA methylation establishment occur,each mediated by a different mechanism.The homozygotes that derived from the hemizygous mother plants carrying 35S::GmFT2a locus was associated with the initiation of CHHcontext DNA methylation at 35S promoters mediated by 21 and 22 nucleotide(nt)si RNAs.Subsequently,24 nt si RNAs contribute to additional CHG-and CG-context DNA methylation at 35S promoters during the homozygosity of genes in plants already homozygous in maternal lineage.Reducing DNA methylation levels can be achieved by generating a hemizygous genotype through a crossing experiment with a recessive genotype.This research has unveiled a phenomenon:hemizygote-dependent dominance resulting from transcriptional silencing in homozygote offsprings.It provides new insights into the molecular mechanism underlying dominant effects.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.82373581 to Yuan Lin).
文摘Prenatal maternal psychological distress,particularly depression,has been increasingly recognized as a factor that influences fetal growth;however,its impact on early childhood development remains less well understood.The present study investigated the association between prenatal depression and children's growth trajectories,as well as the odds of overweight and obesity from 1 to 36 months,while also accounting for maternal anxiety and stress.We analyzed data from 4710 mother-child dyads in the Jiangsu Birth Cohort,assessing maternal psychological distress across trimesters and categorizing participants into groups with mild,moderate,and severe depressive symptomatology.Children's weight-for-length z-scores(WLZ)were used to assess overweight/obesity prevalence,and growth patterns were identified through trajectory models.The results from the generalized estimating equations analysis showed that greater depressive symptomatology during pregnancy was associated with a 28%to 41%increase in the odds of childhood overweight/obesity across all three trimesters,compared with mild depressive symptomatology.We identified five distinct WLZ growth trajectory patterns,and found that mothers with greater depressive symptomatology were 39%–47%more likely to have children who followed a very-high-stable growth trajectory,compared with mothers with mild depressive symptomatology.These findings highlight the significant impact of prenatal depression on adverse growth patterns and childhood overweight/obesity,underscoring the need for early intervention.
基金supported by the National Key R&D Program of China(2016YFD0400100)the Project of Chongqing Science and Technology Commission(CSTC2015JCYJA80018)the National Natural Science Foundation of China(31272165).
文摘Auxin response factors(ARFs)are involved in auxin-mediated transcriptional regulation in plants.In this study,we performed functional characterization of SlARF6A in tomato.SlARF6A is located in the nucleus and exhibits transcriptional activator activity.Overexpression of SlARF6A increased chlorophyll contents in the fruits and leaves of tomato plants,whereas downregulation of SlARF6A decreased chlorophyll contents compared with those of wild-type(WT)plants.Analysis of chloroplasts using transmission electron microscopy indicated increased sizes of chloroplasts in SlARF6A-overexpressing plants and decreased numbers of chloroplasts in SlARF6A-downregulated plants.Overexpression of SlARF6A increased the photosynthesis rate and accumulation of starch and soluble sugars,whereas knockdown of SlARF6A resulted in opposite phenotypes in tomato leaves and fruits.RNA-sequence analysis showed that regulation of SlARF6A expression altered the expression of genes involved in chlorophyll metabolism,photosynthesis and sugar metabolism.SlARF6A directly bound to the promoters of SlGLK1,CAB,and RbcS genes and positively regulated the expression of these genes.Overexpression of SlARF6A also inhibited fruit ripening and ethylene production,whereas downregulation of SlARF6A increased fruit ripening and ethylene production.SlARF6A directly bound to the SAMS1 promoter and negatively regulated SAMS1 expression.Taken together,these results expand our understanding of ARFs with regard to photosynthesis,sugar accumulation and fruit development and provide a potential target for genetic engineering to improve fruit nutrition in horticulture crops.
基金funded by China Agriculture Research system(CARS-04)CAAS Agricultural Sciences and Technology Innovation Project
文摘Vascular tissue serves as the channel for nutrient transport and signal transduc-tion between different organs in plants. To study molecular identity and behavior of mobile substances transmitted between organs via vascular tissue, it is necessary to collect exudate from stem or other organs. Modifed stem-cutting method for exudate collection in soybean was used in this study by selecting the optimum sampling time and position, using reagents preventing RNA degradation, etc. Diurnal dynamics analysis of exudate emission was found to be the highest during 10:00-10:10 am. Totally 15 μL pure exudate was collected from the stem cut between cotyledonary and unifoliolate nodes at V1 stage (unifoliolate just expanded) of young soybean seedling. Improved TRIzol method was used to extract RNA and protein from stem exudate. A phloem specifc gene of Glycine max sieve element occlusion s, SEO, in exudate samples was successfully amplifed by RT-PCR, which comfrmed the success of RNA extraction. SDS-PAGE showed the majority of proteins in exudate were of low molec-ular weight. Method proposed in this study would facilitate collection of quality exudate and enhance further investigation of mobile substances in soybean.
文摘Instrument separation is a critical complication during root canal therapy,impacting treatment success and long-term tooth preservation.The etiology of instrument separation is multifactorial,involving the intricate anatomy of the root canal system,instrument-related factors,and instrumentation techniques.Instrument separation can hinder thorough cleaning,shaping,and obturation of the root canal,posing challenges to successful treatment outcomes.Although retrieval of separated instrument is often feasible,it carries risks including perforation,excessive removal of tooth structure and root fractures.Effective management of separated instruments requires a comprehensive understanding of the contributing factors,meticulous preoperative assessment,and precise evaluation of the retrieval difficulty.The application of appropriate retrieval techniques is essential to minimize complications and optimize clinical outcomes.The current manuscript provides a framework for understanding the causes,risk factors,and clinical management principles of instrument separation.By integrating effective strategies,endodontists can enhance decision-making,improve endodontic treatment success and ensure the preservation of natural dentition.
基金The funding of this study was of the 2021 Shandong Province Higher Education“Young Innovative Talent Introduction and Training Program”(Public Health Safety Risk Assessment and Response Innovation Team)the annual education and teaching reform and research project at the school level of Shandong Second Medical University(No.2023YBD006)+1 种基金the Public Health Standards Research and Development Project of the National Disease Control and Prevention Bureau(No.233007)the Public Health Standards Revision and Supervision Support Project of the National Disease Control and Prevention Bureau (No.242401).
文摘Objective To assess health equity in the Yangtze River region to improve understanding of the correlation between hand, foot, and mouth disease(HFMD) and socioeconomic factors.Methods From 2014–2016, data on HFMD incidence, population statistics, economic indicators, and meteorology from 26 cities along the Yangtze River were analyzed. A multi-city random-effects metaanalysis was performed to study the relationship between temperature and HFMD transmission, and health equity was assessed with respect to socio-economic impact.Results Over the study period, 919,458 HFMD cases were reported, with Shanghai(162,303) having the highest incidence and Tongling(5,513) having the lowest. Males were more commonly affected(male-to-female ratio, 1.49:1). The exposure-response relationship had an M-shaped curve, with two HFMD peaks occurring at 4 ℃ and 26 ℃. The relative risk had two peaks at 1.30 ℃(1.834, 95% CI:1.204–2.794) and 31.4 ℃(1.143, 95% CI: 0.901–1.451), forming an M shape, with the first peak higher than the second. The most significant impact of temperature on HFMD was observed between –2 ℃ and18.1 ℃. The concentration index(0.2463) indicated moderate concentration differences, whereas the Theil index(0.0418) showed low inequality in distribution.Conclusion The incidence of HFMD varied across cities, particularly with changes in temperature.Economically prosperous areas showed higher risks, indicating disparities. Targeted interventions in these areas are crucial for mitigating the risk of HFMD.
基金Supported by Natural Science Foundation of Heilongjiang Province of China Under Grant,No.PL2024H020High-Quality Innovation Platform of Science and Education Innovation Zone in Suzhou Industrial Park-Key Platform Project,No.YZCXPT2023104.
文摘BACKGROUND Rosmarinic acid(RA)is a natural polyphenol carboxylic acid known for its role in chemoprevention.Given its widespread use as a food additive,we are interested in whether RA affects the development of colorectal cancer(CRC).AIM To examine the anti-tumor effects of RA on various CRC cell lines,and to further investigate the possible mechanisms.METHODS Cell Counting Kit-8 assay and optical microscopy imaging were used to evaluate the viability of CRC cell lines.Western blot,quantitative real-time polymerase chain reaction,and flow cytometry analyses were performed to assess cell viability and activation of nuclear factor-kappa B(NF-κB)signaling.Molecular modeling was used to assess the interaction between RA and inhibitory kappa B kinase beta.Luciferase assay was used to examine the activity of NF-κB-driven transcription.The combinations of RA with 5-fluorouracil or oxaliplatin were utilized to evaluate the potential synergistic action of RA with the chemotherapeutics.RESULTS RA exerted potent cytotoxic actions on all six CRC cell lines examined.RA was docked nicely into the binding pocket of inhibitory kappa B kinase beta by molecular modeling.The activity of NF-κB-driven luciferase and the phosphorylation of NF-κB p65 were decreased after exposure to the compound.Lipopolysaccharide-induced NF-κB activation was effectively inhibited by RA,too.Further,RA downregulated the expression of cell proliferationrelated cyclin D1 and MYC,which are target genes of NF-κB.Of note,the cytotoxic actions of 5-fluorouracil and oxaliplatin were markedly enhanced by RA in those CRC cells.CONCLUSION Our results indicate that RA inhibits NF-κB signaling and induces apoptosis in CRC cells.It enhances the cytotoxic actions of chemotherapeutics and might help to improve the chemotherapy of CRC.
文摘Apical microsurgery is accurate and minimally invasive,produces few complications,and has a success rate of more than 90%.However,due to the lack of awareness and understanding of apical microsurgery by dental general practitioners and even endodontists,many clinical problems remain to be overcome.The consensus has gathered well-known domestic experts to hold a series of special discussions and reached the consensus.This document specifies the indications,contraindications,preoperative preparations,operational procedures,complication prevention measures,and efficacy evaluation of apical microsurgery and is applicable to dentists who perform apical microsurgery after systematic training.
基金supported by the 2021 Shandong Province Higher Education Institutions“Youth Innovation Talent Introduction and Cultivation Plan”(Public Health Safety Risk Assessment and Response Innovation Team)National Traditional Chinese Medicine Comprehensive Reform Demonstration Zone Science and Technology Co construction Project(No.GZYKJSSD-2024-106)Research Project of Shandong Educational Supervision Society(No.SDJYDDXH2023-2159).
文摘Dentistry is a profession with a high prevalence of work-related musculoskeletal disorders(WMSDs),with symptoms often appearing very early in one’s career[1].WMSDs are conditions affecting the muscles,bones,and nervous system due to occupational factors.In 2002,the International Labor Organization included musculoskeletal diseases in the International List of Occupational Diseases.China’s recently updated Classification and Catalog of Occupational Diseases has introduced two new categories of occupational illnesses,including occupational musculoskeletal disorders.WMSDs significantly impact the health and work of dentists,reducing their quality of life and causing economic losses.These disorders are multifactorial in nature,influenced by personal,psychosocial,biomechanical,and environmental factors.Dentists frequently maintain static or awkward postures during procedures,which leads to musculoskeletal strain and discomfort;additionally,long working hours contribute to psychological stress,further increasing the risk of WMSDs[2].
基金Supported by the National Key Research and Development Program of China(Nos.2021YFC3100500,2022YFC3103602,2021YFF0502800)the National Natural Science Foundation of China(No.U23A2035)+3 种基金the Science and Technology Planning Project of Guangdong Province,China(No.2023B1212060047)the State Key Laboratory of Tropical Oceanography,South China Sea Institute of Oceanology,Chinese Academy of Sciences(No.LTO1919)the Visiting Fellowship Program of the State Key Laboratory of Marine Environmental Science,Xiamen University(No.MELRS1914)the Hainan Province Key R&D Program(No.ZDYF2023SHFZ131)。
文摘Global coral reef ecosystems have been severely degraded due to the combined effects of climate change and human activities.Changes in the seawater carbonate system of coral reef ecosystems can reflect their status and their responses to the impacts of climate change and human activities.Winter and summer surveys in 2019 found that the ecological community of the Luhuitou coral reef flat was dominated by macroalgae and corals,respectively,contrasting with the conditions 10 years ago.The Luhuitou fringing reefs were sources of atmospheric CO_(2) in both seasons.In winter,the daily variation range of dissolved inorganic carbon(DIC)in Luhuitou coral reefs was up to 450μmol/kg,while that of total alkalinity(TA)was only 68μmol/kg.This indicated that the organic production was significantly higher than the calcification process during this period.The TA/DIC was approximately 0.15,which was less than half of that in healthy coral reefs;hence,photosynthesis-respiration processes were the most important factors controlling daily changes in the seawater carbonate system.The net community production(NCP)of the Luhuitou coral reef ecosystem in winter was as high as 47.65 mmol C/(m^(2)·h).While the net community calcification(NCC)was approximately 3.35 and-4.15 mmol CaCO_(3)/(m^(2)·h)during the daytime and nighttime respectively.Therefore,the NCC for the entire day was-21.9 mmol CaCO_(3)/(m^(2)·d),indicating a net autotrophic dissolved state.In summer,the acidification was enhanced by thunderstorms and heavy rain with the highest seawater partial pressure of CO_(2)(p CO_(2))and lowest pH T.Over the past 10 years,the increase rate of seawater p CO_(2) in Luhuitou reef was approximately 13.3μatm/a***,six times that of the open ocean,while the decrease rate of pH was approximately 0.0083/a,being five times that of the global ocean.These findings underscore the importance of protecting and restoring Luhuitou fringing reef,as well as similar reefs worldwide.
基金supported by the Foreign Experts Project of China(No.G2022145002 L)the National Natural Science Foundation of China(No.31571702)the Priority Academic Program Development of Jiangsu Higher Education Institutions,China(No.809001).
文摘The taxonomic composition and function of endophytic microbial communities in plants are strongly influenced by environmental changes. The impact of nitrogen (N) fertilization on the diversity of microbial communities in the underground parts of plants that are tolerant of barren environments throughout their growth period remains largely unexplored. Here, by high-throughput sequencing technology, an experiment was performed at the Pailou Experimental Station of Nanjing Agricultural University, where the soil is a yellow-brown soil, to analyze fluctuations in the microbial communities of Jerusalem artichoke (Helianthus tuberosus L.) underground parts in two treatments, application of N, P, and K fertilizers (NPK) and application of only P and K fertilizers (PK), from March 2018 to January 2019. Total, nitrate, and ammonium N contents of soil and Jerusalem artichoke were significantly decreased in the PK treatment. The bacterial community, particularly Acinetobacter, dominated throughout the growth period, peaking in November and accounting for 88.9% and 87.3%, respectively, in the NPK and PK treatments. The absence of N fertilizer (i.e., NP treatment) had minimal effect on the bacterial community composition compared to the fungal community composition. The α-diversity of bacteria in tubers was not substantial, while that in roots was dramatically reduced in July and September in the NP treatment. Notably, the α-diversity of fungal species exhibited more pronounced seasonal variations than that of bacteria under both fertilizer conditions. The lack of N fertilizer lessened the complexity of bacterial network structure and reduced bacterial community similarity (β-diversity) in different months. Interestingly, the β-diversity and network structure of fungal community in the underground tissues of Jerusalem artichoke showed less sensitivity to N fertilizer compared to those of bacterial community. This study improves the understanding of the dynamic response of endophytic microorganisms to N fertilizer application in the underground parts of Jerusalem artichoke tolerant to barren environments.
基金funded by the National Key Research and Development Program of China (Grant No 2021YFB3701102and 2023YFB3710900)Natural Science Foundation of Henan Province (242300420306)+2 种基金Scientific and Technological Project of Henan Province (242102321063)National Natural Science Foundation of China (No. 52108258)the Industrial Collaborative Innovation Project of Shanghai(No. XTCX-KJ-2022-2-11)
文摘The primary magnesium production is accompanied by a large amount of magnesium slag(MS)discharge.The low hydration reactivity of γ-Ca_(2)SiO_(4)(γ-C_(2)S)and MgO in MS results in the volume stability issue and low utilization rate of MS.To eliminate the issue,this study proposes to pre-autoclave the MS slurry to boost the hydration of γ-C_(2)S and MgO and then utilize their hydration products to prepare cementitious materials by carbonation curing.MgO from MS and prepared γ-C_(2)S are firstly employed as study objects respectively,for they are the main contents of magnesium slag.The results indicate that pre-autoclaving treatment can strongly elevate the hydration degree of MgO from MS,this can substantially solve the volume stability issue of MS.Meanwhile,the pre-autoclaving of γ-C_(2)S induces the generation of crystallized and amorphous C-S-H products,and both products could promote the carbonation reaction when compared to γ-C_(2)S.The carbonation degree of pre-autoclaved MS firstly increases and then decreases with the rising pre-autoclaving temperature,and the optimal pre-autoclaving temperature for MS carbonation is 160℃,at this time,the powdered MS can be simply carbonated fully.The sample made of pre-autoclaved MS and then subjected to 4 h carbonation could achieve the compressive strength of 29 MPa.with good soundness.During volume stability testing,the volume expansion rate of a carbonated MS sample with pre-autoclaving was 0.07%,which is significantly lower than the normal requirement of 0.5%.This research offers a novel approach to utilizing magnesium slag in building materials and contributes to carbon reduction.
基金supported by the Special Project for Local Science and Technology Development Guided by the Central Government of China(No.236Z1406G)。
文摘Zn-N_(2)batteries,which are comprised of nitrogen reduction reaction(NRR)and oxygen evolution reaction(OER),represent an emerging technology for efficient ammonia production and simultaneous power generation.Nevertheless,the intrinsic limitations of NRR and OER currently preclude its advancement.In this paper,Co and B co-doped Lavoisier framework series materials(MIL)are synthesized.Rapid mass transfer is rendered feasible with B_(0.25)-MIL-88-Fe_(4)Co_(1) by the distinctive double cone microrods structure.The addition of soft acid metal node Co^(2+)and B with defective electronic structure modifies the electronic configuration of MIL-88-Fe.At the same time,doping causes defects in the metal-organic frameworks,expands effectively the pore size,and increases the specific surface area,thereby expediting the adsorption of N_(2)and the release of O_(2).The electrocatalysis results show that the dual-doping scheme increases the NH_(3)yield(127.27μg^(-1)h^(-1)mg_(cat)^(-1))and Faraday efficiency(25.81%)while reducing the overpotential of OER(330 mV),achieving a power density of 8.30 mW cm^(-2)for Zn-N_(2)batteries.This discovery implements another avenue for the exploration of Zn-N_(2)battery materials and holds broader significance for advancing the field of energy storage and conversion.
文摘Background:The inability of damaged neurons to regenerate and of axons to estab-lish new functional connections leads to permanent functional deficits after spinal cord injury(SCI).Although astrocyte reprogramming holds promise for neurorepair in various disease models,it is not sufficient on its own to achieve significant functional recovery.Methods:A rat SCI model was established using a spinal cord impactor.Seven days postsurgery,adeno-associated virus were injected to overexpress the transcription factors NeuroD1 and Neurogenin-2(Ngn2)in the spinal cord.The rats were then trained to walk on a weight-supported treadmill for 4 weeks,starting 14 days after modeling.The effects of these interventions on motor and sensory functions,as well as spinal cord tissue repair,were subsequently evaluated.Results:The combination of NeuroD1 and Ngn2 overexpression with weight-supported exercise training significantly improved gait compared to either inter-vention alone.The group receiving the combined intervention exhibited enhanced sensitivity in sensory assessments.Immunofluorescence analysis revealed increased colocalization of astrocytes and microtubule-associated protein 2-positive neurons in the injury area.These effects were more pronounced than those observed with spinal cord tissue repair alone.Additionally,the combined intervention significantly reduced glial scarring and the size of the injury area.Conclusion:Exercise intervention enhances the reprogramming effects of astrocytes and restores motor function,yielding better results than either intervention alone.
基金supported by grants from the National Key Research and Development Program of China(2023YFD120300)the National Natural Science Foundation of China(32201869)the Earmarked Fund for China Agriculture Research System(CARS-04)。
文摘In plants,numerous non-Mendelian inherited dominant effects,including over-,incomplete-,and codominance,are frequently observed,yet they remain insufficiently understood.A novel phenotype has been identified in specific soybean transformants overexpressing a single 35S::GmFT2a copy:superearly flowering dominance is exclusively observed in hemizygotes,not in homozygotes.Homozygous individual exhibits si RNA-mediated DNA methylation,causing epigenetic transcriptional silencing,whereas no such effect occurs in hemizygotes.Intriguingly,two distinct rounds of DNA methylation establishment occur,each mediated by a different mechanism.The homozygotes that derived from the hemizygous mother plants carrying 35S::GmFT2a locus was associated with the initiation of CHHcontext DNA methylation at 35S promoters mediated by 21 and 22 nucleotide(nt)si RNAs.Subsequently,24 nt si RNAs contribute to additional CHG-and CG-context DNA methylation at 35S promoters during the homozygosity of genes in plants already homozygous in maternal lineage.Reducing DNA methylation levels can be achieved by generating a hemizygous genotype through a crossing experiment with a recessive genotype.This research has unveiled a phenomenon:hemizygote-dependent dominance resulting from transcriptional silencing in homozygote offsprings.It provides new insights into the molecular mechanism underlying dominant effects.
