To investigate the eco-economic thresholds of weeds and the critical period for their control,combining economic and ecological perspectives to achieve scientific weed management,four dominant weeds,Echinochloa crus-g...To investigate the eco-economic thresholds of weeds and the critical period for their control,combining economic and ecological perspectives to achieve scientific weed management,four dominant weeds,Echinochloa crus-galli(L.)P.Beauv,Chenopodium album L.,Digitaria sanguinalis(L.)Scop,and Commelina communis L.,were selected as experimental subjects,based on their common occurrence in spring maize planting areas in Northern China.A predictive model for maize yield loss caused by mixed weed populations was established.The study analyzed the eco-economic thresholds of weeds under different control measures and determined the optimal period for weed control by combining the critical control period.A logarithmic function model was developed to describe the relationship between mixed weed density and maize yield loss:y=5.9875ln(x)-6.5407(R^(2)=0.949,F=131.244,P=0.000).The optimal model for the critical period of competition between weeds and maize in maize fields was:y=-0.0027x^(2)+0.5624x-10.064(R2=0.968,F=30.513,P=0.032).When the weed density in maize fields reached 5.57 plants·m^(-2),manual weeding should be conducted promptly.When the weed density was 3.41 plants·m^(-2) or 3.48 plants·m^(-2),soil or foliar treatments should be applied,respectively.If the weed density reached 3.93 plants·m^(-2),a combination of soil and foliar treatment should be implemented.The critical period for manual weeding was 28.4 days after sowing,for soil treatment it was 19.9 days,for foliar treatment it was 21.8 days,and for the combined treatment of soil and foliar methods,it was 23.5 days after sowing.Retaining weeds for up to 15 days after maize sowing did not result in a yield loss and could even have a positive effect on maize yield.展开更多
Date palm(Phoenix dactylifera L.)seeds,often discarded as by-products during date fruit processing,represent approximately 6-20%of the fruit’s mass depending on cultivar and maturity stage.Although traditionally used...Date palm(Phoenix dactylifera L.)seeds,often discarded as by-products during date fruit processing,represent approximately 6-20%of the fruit’s mass depending on cultivar and maturity stage.Although traditionally used for producing activated charcoal and in environmental remediation,their pharmacological potential remains underexplored.This study aimed to evaluate the chemical composition,biological activity,and potential commercial value of seeds from four widely consumed Saharan cultivars(Assiane,Boufegouss,Aziza,and Majhoul)collected in the Figuig region.Soxhlet extraction was employed to obtain seed extracts,which were subsequently characterized by qualitative and quantitative phytochemical screening.The analyses revealed the presence of polyphenols,flavonoids,terpenoids,steroids,alkaloids,and other secondary metabolites.The Aziza and Boufegouss varieties were particularly rich in flavonoids(82.09-139.61 mg quercetin equivalents/100 g dry matter)and total polyphenols(69.81-1183.96 mg gallic acid equivalents/100 g dry matter).Mineral profiling confirmed the occurrence of essential trace elements,including Zn,Cu,Fe,and Co.To investigate their antidiabetic potential,in vitro assays ofα-glucosidase andα-amylase inhibition were performed.Acetone extracts demonstrated significant inhibitory activity against both enzymes,suggesting a promising role of P.dactylifera seed extracts as natural agents for the management of type 2 diabetes mellitus.展开更多
This study evaluates the long-term radiometric performance of the USGS new released Landsat Collection 1 archive, including the absolute calibration of each Landsat sensor as well as the relative cross-calibration amo...This study evaluates the long-term radiometric performance of the USGS new released Landsat Collection 1 archive, including the absolute calibration of each Landsat sensor as well as the relative cross-calibration among the four most popular Landsat sensors. A total of 920 Landsat Collection 1 scenes were evaluated against the corresponding Pre-Collection images over a Pseudo-Invariant Site, Railroad Valley Playa Nevada, United States (RVPN). The radiometric performance of the six Landsat solar reflective bands, in terms of both Digital Numbers (DNs) and at-sensor Top of Atmosphere (TOA) reflectance, on the sensor cross-calibration was examined. Results show that absolute radiometric calibration at DNs level was applied to the Landsat-4 and -5 TM (L4 TM and L5 TM) by –1.119% to 0.126%. For L4 TM and L5 TM, the cross-calibration decreased the radiometric measurement level by rescaling at-sensor radiance to DN values. The radiometric changes, –0.77% for L4 TM, 0.95% for L5 TM, –0.26% for L7 ETM+, and –0.01% for L8 OLI, were detected during the cross-calibration stage of converting DNs into TOA reflectance. This study has also indicated that the long-term radiometric performance for the Landsat Collection 1 archive is promising. Supports of these conclusions were demonstrated through the time-series analysis based on the Landsat Collection 1 image stack. Nevertheless, the radiometric changes across the four Landsat sensors raised concerns of the previous Landsat Pre-Collection based results. We suggest that Landsat users should pay attention to differences in results from Pre-Collection and Collection 1 time-series data sets.展开更多
The design of this paper is to present the first installment of a complete and final theory of rational human intelligence. The theory is mathematical in the strictest possible sense. The mathematics involved is stric...The design of this paper is to present the first installment of a complete and final theory of rational human intelligence. The theory is mathematical in the strictest possible sense. The mathematics involved is strictly digital—not quantitative in the manner that what is usually thought of as mathematics is quantitative. It is anticipated at this time that the exclusively digital nature of rational human intelligence exhibits four flavors of digitality, apparently no more, and that each flavor will require a lengthy study in its own right. (For more information,please refer to the PDF.)展开更多
To explore the material basis and mechanisms of the anti-inflammatory effects of Hibiscus mutabilis L..The active ingredients and potential targets of Hibiscus mutabilis L.were obtained through the literature review a...To explore the material basis and mechanisms of the anti-inflammatory effects of Hibiscus mutabilis L..The active ingredients and potential targets of Hibiscus mutabilis L.were obtained through the literature review and SwissADME platform.Genes related to the inflammation were collected using Genecards and OMIM databases,and the intersection genes were submitted on STRING and DAVID websites.Then,the protein interaction network(PPI),gene ontology(GO)and pathway(KEGG)were analyzed.Cytoscape 3.7.2 software was used to construct the“Hibiscus mutabilis L.-active ingredient-target-inflammation”network diagram,and AutoDockTools-1.5.6 software was used for the molecular docking verification.The antiinflammatory effect of Hibiscus mutabilis L.active ingredient was verified by the RAW264.7 inflammatory cell model.The results showed that 11 active components and 94 potential targets,1029 inflammatory targets and 24 intersection targets were obtained from Hibiscus mutabilis L..The key anti-inflammatory active ingredients of Hibiscus mutabilis L.are quercetin,apigenin and luteolin.Its action pathway is mainly related to NF-κB,cancer pathway and TNF signaling pathway.Cell experiments showed that total flavonoids of Hibiscus mutabilis L.could effectively inhibit the expression of tumor necrosis factor(TNF-α),interleukin 8(IL-8)and epidermal growth factor receptor(EGFR)in LPS-induced RAW 264.7 inflammatory cells.It also downregulates the phosphorylation of human nuclear factor ĸB inhibitory protein α(IĸBα)and NF-κB p65 subunit protein(p65).Overall,the anti-inflammatory effect of Hibiscus mutabilis L.is related to many active components,many signal pathways and targets,which provides a theoretical basis for its further development and application.展开更多
Background:This study aimed to comprehensively elucidate the hepatotoxic effects of Dioscorea bulbifera L.(DBL)in mice and to explore the underlying molecular mechanisms.Methods:Mice were administered different doses ...Background:This study aimed to comprehensively elucidate the hepatotoxic effects of Dioscorea bulbifera L.(DBL)in mice and to explore the underlying molecular mechanisms.Methods:Mice were administered different doses of DBL via intragastric gavage for 21 days.Organ indices of multiple organs were then measured,and histopathological changes were systematically evaluated.Particular attention was paid to biochemical markers and hepatic histopathological alterations associated with liver injury.Subsequently,the composition of the gut microbiota in colonic contents was analyzed using 16S rDNA sequencing,and the levels of short-chain fatty acids(SCFAs)were determined by gas chromatography(GC).Furthermore,protein expression levels of YinYang 1(YY1),Farnesoid X Receptor(FXR),Nuclear factor erythroid 2-related factor 2(Nrf2),and bile acids(BAs)-related proteins in the liver were assessed by Western blot analysis.Results:Our findings revealed that DBL induced varying degrees of multi-organ toxicity in mice,with the most pronounced hepatotoxicity observed.Liver injury was induced in a dose-dependent manner,accompanied by increased hepatic inflammation and oxidative stress,as well as enhanced hepatocyte apoptosis.Furthermore,DBL may modulate the YY1-FXR/Nrf2 signaling pathway,leading to upregulation of BAs-related proteins such as cholesterol 7α-hydroxylase(CYP7A1),while downregulating other BAs-related proteins,including sodium taurocholate cotransporting polypeptide(NTCP),bile salt export pump(BSEP),multidrug resistance protein 2(MRP2),and P-glycoprotein(P-gp).These changes promoted excessive BAs synthesis and impaired the excretion and reabsorption of BAs,ultimately disturbing BAs homeostasis.Additionally,DBL induces gut microbiota dysbiosis and reduces SCFAs production,leading to intestinal damage and disruption of intestinal barrier integrity.Conclusion:DBL-induced hepatotoxicity may be associated with altered expression of the YY1-FXR/Nrf2 signaling pathway and BAs–related proteins,accompanied by increased hepatic BAs accumulation and gut microbiota dysbiosis.展开更多
Punica granatum L.is a deciduous shrub belonging to the family Punicaceae and the genus Punica,recognized as a plant with both medicinal and edible value.Its peel,seeds,juice,flowers,and leaves have long been used in ...Punica granatum L.is a deciduous shrub belonging to the family Punicaceae and the genus Punica,recognized as a plant with both medicinal and edible value.Its peel,seeds,juice,flowers,and leaves have long been used in traditional Chinese,Mongolian,Tibetan,and Uyghur medicine,illustrating the characteristic phenomenon of“different applications of the same drug”.This article systematically reviews research progress from 2000 to 2025,focusing on chemical composition and pharmacological effects.Clinical practice and accumulated experience have led to distinct preferences across medical traditions:traditional Chinese medicine mainly uses dried peel to relieve diarrhea,stop bleeding,and expel parasites;traditional Mongolian medicine employs processed dried fruits to eliminate“Badgan”,warm the stomach,and aid digestion;Tibetan medicine often applies the seeds to strengthen the stomach and warm the middle energizer;Uyghur medicine uses the flowers to treat diarrhea and trauma.Modern studies show that chemical composition varies significantly among plant parts:the peel is rich in tannins and phenolic acids,seeds contain mostly fatty acids,and flowers are high in flavonoids.These differences lead to varied pharmacological activities,such as antioxidant,anti-inflammatory,and antibacterial effects.Furthermore,studies reveal synergistic effects among active components from different parts,with whole fruit or multi-part combinations showing better efficacy than single components.It should be noted that such synergies were identified through modern pharmacological studies–not derived directly from traditional theories.Together,these findings provide a scientific basis for the traditional“different applications of the same drug”and support further development of pomegranate resources based on multi-component synergy.展开更多
Cold deformation treatment of Cu-bearing stainless steel through a cold rolling process combined with electric pulse treatment(EPT)can significantly improve the microstructure and formability of cold-rolled Cu-bearing...Cold deformation treatment of Cu-bearing stainless steel through a cold rolling process combined with electric pulse treatment(EPT)can significantly improve the microstructure and formability of cold-rolled Cu-bearing stainless steel.The microstructure after EPT was characterized by scanning electron microscopy,transmission electron microscopy,and in-situ tensile testing.It is found that compared with conventional heat treatment,EPT process can significantly promote the nucleation rate and mobility at grain boundaries of the deformed samples,greatly accelerating the recovery and static recrystallization of Cu-bearing stainless steel samples at lower temperatures and contributing to the recovery of anisotropy and the re-molding of deformed samples.Microstructural characterization and theoretical analyses show that the rapid recrystallization during EPT process is caused not only by Joule heating effects but also by non-thermal effects that accelerate grain boundary migration and dislocation destruction and regeneration.In addition,EPT process significantly accelerated the nucleation and precipitation growth of Cu-rich phase.The coarsening of Cu-rich phase during EPT process is due to not only the high vacancy diffusion coefficient under the action of the electric pulse but also the increase in the vacancy diffusion flux induced by the electromigration in the process of the electric pulse.展开更多
In the words of the late Sir Colin Blakemore,neurologists have historically sought to infer brain functions in a manner akin to to king a hammer to a computeranalyzing localized anatomical lesions caused by trauma,tum...In the words of the late Sir Colin Blakemore,neurologists have historically sought to infer brain functions in a manner akin to to king a hammer to a computeranalyzing localized anatomical lesions caused by trauma,tumors,or strokes,noting deficits,and inferring what functions certain brain regions may be responsible for.This approach exemplifies a deletion heuristic,where the absence of a specific function reveals insights about the underlying structures or mechanisms responsible for it.By observing what is lost when a particular brain region is damaged,throughout the history of the field,neurologists have pieced together the intricate relationship between anatomy and function.展开更多
Incorporating ceramic particles into metal matrices is a proven strategy for boosting mechanical properties and wear resistance.The reinforcement potential of tungsten carbide(WC)particles in 316L stainless steel is r...Incorporating ceramic particles into metal matrices is a proven strategy for boosting mechanical properties and wear resistance.The reinforcement potential of tungsten carbide(WC)particles in 316L stainless steel is revealed,utilizing selective laser melting(SLM)to fabricate composites with 5 and 10 vol.%WC.The WC incorporation markedly alters the composite’s microstructure and mechanical attributes.Notably,5 vol.%WC-316L composite exhibits a refined submicron cellular structure,averaging 0.67μm in grain size.Elemental diffusion at WC-316L interface formed a 0.8μm gradient transition layer enriched with M_(2)C carbides(Fe,Cr,W),ensuring robust metallurgical bonding.Compared with unreinforced 316L,5%WC composite exhibits a 70%increase in tensile strength,reaching 1012.6 MPa,and a 25.3%rise in hardness,while maintaining acceptable ductility.10%WC composite achieves a 70.8%hardness enhancement,albeit with reduced elongation.Friction coefficient is reduced by up to 17.3%,and the wear mechanism shifts from adhesive to abrasive,significantly improving wear resistance.展开更多
Objectives:The current treatment options and therapeutic targets for triple-negative breast cancer(TNBC),an aggressive subtype of breast cancer(BrCA),are limited.This study aimed to identify novel biomarkers and trans...Objectives:The current treatment options and therapeutic targets for triple-negative breast cancer(TNBC),an aggressive subtype of breast cancer(BrCA),are limited.This study aimed to identify novel biomarkers and transcriptional regulatory networks(TRN)inherent in TNBC samples.Methods:We analyzed pan-cancer BrCA datasets from The Cancer Genome Atlas(TCGA)to compare triple-positive breast cancer(TPBC)with TNBC.TRN algorithms and virtual inference of protein-enriched regulon(VIPER)were used to identify master regulators and their target genes.Utilizing TNBC cells(MDA-MB-231 and MDA-MB-468),we validated the relationship of nuclear factor erythroid 2-like 3(NFE2L3)and basic helix-loop-helix family member E 40(BHLHE40)by performing a luciferase assay.The expression levels of these targets were measured after transfections with plasmid and siRNA via qRT-PCR and western blots.The effect of these genes on cell proliferation and migration was studied using phenotypic assays.Results:Using computational approaches,we identified NFE2L3 as a master regulator with BHLHE40 as its target gene.NFE2L3 protein binds to the promoter region of BHLHE40 and regulates its transcriptional activity.Additionally,silencing and overexpressing NFE2L3 and BHLHE40 in TNBC cell lines MDA-MB-231 and MDA-MB-468 showed that NFE2L3 directly regulates BHLHE40 at both transcriptional and translational levels.We found that BHLHE40 requires NFE2L3 for cell proliferation and migration in TNBC.Conclusion:These findings underscore the significance of NFE2L3 and BHLHE40 in TNBC,highlighting NFE2L3’s role in regulating the oncogenic activity of BHLHE40 in TNBC cells.展开更多
Oncology Research Editorial Office Published:19 January 2026 The published article titled“miR-126-5p Restoration Promotes Cell Apoptosis in Cervical Cancer by Targeting Bcl2l2”has been retracted from Oncology Resear...Oncology Research Editorial Office Published:19 January 2026 The published article titled“miR-126-5p Restoration Promotes Cell Apoptosis in Cervical Cancer by Targeting Bcl2l2”has been retracted from Oncology Research,Vol.25,No.4,2017,pp.463-470.DOI:10.3727/096504016X14685034103879 URL:https://www.techscience.com/or/v25n4/56826.展开更多
Radish(Raphanus sativus L.)is an important cruciferous root vegetable,with bolting regulated by multiple genes.However,the genetic mechanisms underlying bolting regulation remain unclear.Here,the genome of the cultiva...Radish(Raphanus sativus L.)is an important cruciferous root vegetable,with bolting regulated by multiple genes.However,the genetic mechanisms underlying bolting regulation remain unclear.Here,the genome of the cultivar C60213 is assembled into a high-quality,gap-free telomere-to-telomere structure,spanning nine chromosomes and totaling 472.71 Mb,using a combination of Oxford Nanopore,PacBio,and Hi-C sequencing technologies.It identifies 49,768 protein-coding genes,97.38%of which are functionally annotated.Repetitive sequences constitute 59.72%of the genome,primarily comprising long terminal repeats.A high-density genetic linkage map is constructed using an F2 population derived from a cross between early-and late-bolting radishes,identifying seven major quantitative trait loci associated with bolting and flowering.RNA-seq and quantitative real-time PCR analysis reveal that the RsMIPS3 gene is found to be associated with bolting,with its expression decreasing during this process.Notably,RsMIPS3 overexpression in Arabidopsis delays bolting,confirming its role in regulating bolting time.These findings advance radish genome research and provide a valuable target for breeding late-bolting varieties.展开更多
Fig(Ficus carica L.)with purple-red peel cultivars are popular among consumers and exhibit better storability.While DNA methylation influences fruit ripening and color development,its specific role in fig fruit remain...Fig(Ficus carica L.)with purple-red peel cultivars are popular among consumers and exhibit better storability.While DNA methylation influences fruit ripening and color development,its specific role in fig fruit remains unclear.This study explores the impact of DNA methylation on the fig peel coloration.Enzymatic colorimetric detection revealed that the level of‘Purple Peel’fig DNA methylation decreases with fig fruit ripening and coloring.Treatment of young fruit with the DNA-methylation inhibitor azacytidine induced peel coloration,suggesting that a decrease in DNA-methylation level promotes fig peel coloration.Seven members of DNA methyltransferases and three members of DNA demethylases were identified from a high-level fig genome,highlighting FcMET1 and FcDRM2 as stable proteins,ensuring functional expression.Reference to the Arabidopsis protein interaction network map predicted that FcMET1 is in a central position,suggesting a crucial regulatory role in multiple biological processes.Correlation analysis revealed a positive correlation between FcMET1 expression during peel development and the level of total DNA methylation.Weighted gene co-expression network analysis identified co-expression of FcMET1 with the color-related transcription factors MYB,bHLH and WD40,as well as with eight structural genes in the flavonoid-biosynthesis pathway.The expression of FcUFGT3 was negatively correlated with that of FcMET1.McrBC-PCR and Bisulfite Sequencing detection showed that a low methylation level of the FcUFGT3 promoter corresponds with its high expression in colored fig.This investigation of the mechanism of DNA methylation provides a theoretical basis for understanding the role of DNA-methylation modifications in fig ripening and coloring.展开更多
Ceratopteris thalictroides (L.) Brongn (C. thalictroides), a fern from the Pteridaceae family, isan edible species that remains largely underutilized, even though it possesses a diverserange of applications. This revi...Ceratopteris thalictroides (L.) Brongn (C. thalictroides), a fern from the Pteridaceae family, isan edible species that remains largely underutilized, even though it possesses a diverserange of applications. This review aims to provide a comprehensive overview of itsgeographical distribution, ethnomedicinal applications, phytochemical constituents,pharmacological activities, and ecological importance. Various phytochemical analysesidentified the presence of phenols, flavonoids, alkaloids, terpenoids, and fatty acids from C.thalictroides, responsible for its multiple pharmacological properties, including antioxidant,antimicrobial, anti-inflammatory, anti-diabetic, and anticancer activities. Additionally, itsunique antheridiogen activity makes it a valuable model organism for plant genetics andreproductive studies. This review systematically summarizes the phytopharmacologicalpotential and ecological significance of C. thalictroides. The plant holds promise as a sourceof novel therapeutics and as a sustainable bioresource for pharmaceutical andenvironmental applications.展开更多
Genetic improvement of meat production traits has always been the primary goal of pig breeding.Geographical isolation,natural and artificial selection led to significant differences in the phenotypes of meat productio...Genetic improvement of meat production traits has always been the primary goal of pig breeding.Geographical isolation,natural and artificial selection led to significant differences in the phenotypes of meat production traits between Chinese local pigs and Western commercial pigs.Comparative genomics and transcriptomics analysis provided powerful tools to identify genetic variants and genes associated with skeletal muscle growth.However,the number of available genetic variants and genes are still limited.In this study,a comprehensive comparison of transcriptomes showed that ribosomal protein S27-like(RPS27L)gene was highly expressed in skeletal muscle and up-regulated in Chinese local pigs when compared with Western commercial pigs.Functional analysis revealed that overexpression of RPS27L promoted myoblast proliferation and repressed differentiation in pig skeletal muscle cells.Conversely,the knockdown of RPS27L led to the inhibition of myoblast proliferation and the promotion of differentiation.Notably,a 13-bp insertion-deletion(InDel)mutation was identified within the RPS27L promoter,inserted in Chinese local breeds and predominantly deleted in Western commercial breeds.Luciferase reporter assay suggested this InDel modulated RPS27L expression by influencing transcription factor 3(TCF3)and myogenic differentiation antigen(MYOD)binding to the promoter.Furthermore,a positive correlation was observed between RPS27L expression and backfat thickness.Association studies demonstrated this InDel was significantly associated with the body weight of pigs at the age of 240 d.Together,our results suggested that RPS27L was a regulator of skeletal muscle development and growth,and was a candidate marker for improving meat production traits in pigs.This study not only provided a biomarker for animal breeding,but also was helpful for understanding skeletal muscle development and muscular disease in humans.展开更多
Anthocyanins play a crucial role in shaping the visual appeal and nutritional quality of fruits.Previous research on anthocyanin biosynthesis in sweet cherry(Prunus avium L.)has primarily relied on single-omics approa...Anthocyanins play a crucial role in shaping the visual appeal and nutritional quality of fruits.Previous research on anthocyanin biosynthesis in sweet cherry(Prunus avium L.)has primarily relied on single-omics approaches or focused on a limited range of metabolites,leaving the regulatory mechanisms and dynamic metabolism of anthocyanins during ripening inadequately characterized.This study integrated anthocyanin-targeted metabolomics and transcriptomics to identify key anthocyanins in sweet cherry and construct a transcriptional regulatory network for anthocyanin biosynthesis.A novel bHLH transcription factor,Prunus avium bHLH transcription factor 102(PavbHLH102),was identified,and its role in regulating cyanidin levels was validated through overexpression and silencing experiments.Both in vitro and in vivo assays demonstrated that PavbHLH102 activates key anthocyanin biosynthetic genes,including PavF3H,PavDFR,and PavUFGT,thereby enhancing fruit coloration.Notably,PavF3′H upregulation significantly increased cyanidin accumulation.This study provides new insights into anthocyanin regulation in sweet cherry and offers valuable resources for improving fruit quality.展开更多
Tea plant(Camellia sinensis(L.)O.Kuntze)is a cold-sensitive leaf-harvesting crop whose growth,yield,and processed tea quality are all inhibited by low temperatures.Therefore,identifying the regulatory genes involved i...Tea plant(Camellia sinensis(L.)O.Kuntze)is a cold-sensitive leaf-harvesting crop whose growth,yield,and processed tea quality are all inhibited by low temperatures.Therefore,identifying the regulatory genes involved in tea plant growth and freezing tolerance is crucial for genetic improvement.WRKY transcription factors regulate various plant processes,including growth and development,stress responses,and metabolite biosynthesis.However,the molecular network through which WRKY coordinates these pathways in tea plants remains unclear.In this study,we revealed that CsWRKY57L,a cold-inducible WRKY IIc subfamily member,positively regulated freezing tolerance by directly promoting flavonoid accumulation in tea plants.Transient suppression of CsWRKY57L weakened the freezing tolerance of tea plants by reducing flavonoid content and suppressing the C-repeat-binding factor(CBF)-cold-responsive(COR)gene pathway.In contrast,heterologous overexpression of CsWRKY57L in Arabidopsis had the opposite effect.Additionally,overexpression of CsWRKY57L inhibited reproductive development and accelerated senescence in Arabidopsis.Interaction analysis revealed that CsWRKY57L directly binds to the promoters of CsSWEET1a,CsSWEET15,and AtSWEET15,which encode sugar transporters essential for plant reproductive development,and inhibits their transcription.Overall,the study revealed a dual role of CsWRKY57L in promoting freezing tolerance via flavonoid biosynthesis and inhibiting reproductive development by regulating SWEETs expression.This study uncovers a novel mechanism whereby CsWRKY57L coordinately regulates both stress responses and growth in tea plants,providing a molecular basis for breeding low-temperature-tolerant varieties with restricted reproductive development.展开更多
Long-chain acyl-CoA synthetase(LACS),belonging to the AMP-bound superfamily,catalyzes the activation of long-chain fatty acids to their coenzyme A esters.Candidate Gene Association analysis showed that LACS8 was not o...Long-chain acyl-CoA synthetase(LACS),belonging to the AMP-bound superfamily,catalyzes the activation of long-chain fatty acids to their coenzyme A esters.Candidate Gene Association analysis showed that LACS8 was not only related to the content of fatty acid,but also,surprisingly,to the content of glucosinolates.Here,we cloned BnaLACS8A03 from rapeseed,and demonstrated its association with the glucosinolates content.We found that BnaLACS8A03 was widely expressed in all tissues and organs,and significantly highly expressed in leaf and flower,which are the sites of glucosinolate synthesis.Bioinformatics predicted that it was located in peroxisome,where theβ-oxidation of fatty acids mainly occurred,indicating that BnaLACS8A03 was involved in the metabolism of fatty acids.Phenotypic studies of RNA interference(RNAi)lines revealed that down-regulation of BnaLACS8A03 in rapeseed significantly reduced the glucosinolates content.In addition,the expression of glucosinolates biosynthesis-related genes and transport-related genes is altered in BnaLACS8A03-RNAi plants,suggesting that a possible crosstalk regulation mechanism exists in the regulation network of glucosinolate mechanism.Our results demonstrate that glucosinolates content can be manipulated by altering the expression of long chain acyl-Coenzyme A synthase gene BnaLACS8A03,which provide an available genetic resource for low glucosinolate breeding practice in rapeseed.展开更多
基金Supported by the National Key Research and Development Program of China(2023YFD1400502)。
文摘To investigate the eco-economic thresholds of weeds and the critical period for their control,combining economic and ecological perspectives to achieve scientific weed management,four dominant weeds,Echinochloa crus-galli(L.)P.Beauv,Chenopodium album L.,Digitaria sanguinalis(L.)Scop,and Commelina communis L.,were selected as experimental subjects,based on their common occurrence in spring maize planting areas in Northern China.A predictive model for maize yield loss caused by mixed weed populations was established.The study analyzed the eco-economic thresholds of weeds under different control measures and determined the optimal period for weed control by combining the critical control period.A logarithmic function model was developed to describe the relationship between mixed weed density and maize yield loss:y=5.9875ln(x)-6.5407(R^(2)=0.949,F=131.244,P=0.000).The optimal model for the critical period of competition between weeds and maize in maize fields was:y=-0.0027x^(2)+0.5624x-10.064(R2=0.968,F=30.513,P=0.032).When the weed density in maize fields reached 5.57 plants·m^(-2),manual weeding should be conducted promptly.When the weed density was 3.41 plants·m^(-2) or 3.48 plants·m^(-2),soil or foliar treatments should be applied,respectively.If the weed density reached 3.93 plants·m^(-2),a combination of soil and foliar treatment should be implemented.The critical period for manual weeding was 28.4 days after sowing,for soil treatment it was 19.9 days,for foliar treatment it was 21.8 days,and for the combined treatment of soil and foliar methods,it was 23.5 days after sowing.Retaining weeds for up to 15 days after maize sowing did not result in a yield loss and could even have a positive effect on maize yield.
文摘Date palm(Phoenix dactylifera L.)seeds,often discarded as by-products during date fruit processing,represent approximately 6-20%of the fruit’s mass depending on cultivar and maturity stage.Although traditionally used for producing activated charcoal and in environmental remediation,their pharmacological potential remains underexplored.This study aimed to evaluate the chemical composition,biological activity,and potential commercial value of seeds from four widely consumed Saharan cultivars(Assiane,Boufegouss,Aziza,and Majhoul)collected in the Figuig region.Soxhlet extraction was employed to obtain seed extracts,which were subsequently characterized by qualitative and quantitative phytochemical screening.The analyses revealed the presence of polyphenols,flavonoids,terpenoids,steroids,alkaloids,and other secondary metabolites.The Aziza and Boufegouss varieties were particularly rich in flavonoids(82.09-139.61 mg quercetin equivalents/100 g dry matter)and total polyphenols(69.81-1183.96 mg gallic acid equivalents/100 g dry matter).Mineral profiling confirmed the occurrence of essential trace elements,including Zn,Cu,Fe,and Co.To investigate their antidiabetic potential,in vitro assays ofα-glucosidase andα-amylase inhibition were performed.Acetone extracts demonstrated significant inhibitory activity against both enzymes,suggesting a promising role of P.dactylifera seed extracts as natural agents for the management of type 2 diabetes mellitus.
文摘This study evaluates the long-term radiometric performance of the USGS new released Landsat Collection 1 archive, including the absolute calibration of each Landsat sensor as well as the relative cross-calibration among the four most popular Landsat sensors. A total of 920 Landsat Collection 1 scenes were evaluated against the corresponding Pre-Collection images over a Pseudo-Invariant Site, Railroad Valley Playa Nevada, United States (RVPN). The radiometric performance of the six Landsat solar reflective bands, in terms of both Digital Numbers (DNs) and at-sensor Top of Atmosphere (TOA) reflectance, on the sensor cross-calibration was examined. Results show that absolute radiometric calibration at DNs level was applied to the Landsat-4 and -5 TM (L4 TM and L5 TM) by –1.119% to 0.126%. For L4 TM and L5 TM, the cross-calibration decreased the radiometric measurement level by rescaling at-sensor radiance to DN values. The radiometric changes, –0.77% for L4 TM, 0.95% for L5 TM, –0.26% for L7 ETM+, and –0.01% for L8 OLI, were detected during the cross-calibration stage of converting DNs into TOA reflectance. This study has also indicated that the long-term radiometric performance for the Landsat Collection 1 archive is promising. Supports of these conclusions were demonstrated through the time-series analysis based on the Landsat Collection 1 image stack. Nevertheless, the radiometric changes across the four Landsat sensors raised concerns of the previous Landsat Pre-Collection based results. We suggest that Landsat users should pay attention to differences in results from Pre-Collection and Collection 1 time-series data sets.
文摘The design of this paper is to present the first installment of a complete and final theory of rational human intelligence. The theory is mathematical in the strictest possible sense. The mathematics involved is strictly digital—not quantitative in the manner that what is usually thought of as mathematics is quantitative. It is anticipated at this time that the exclusively digital nature of rational human intelligence exhibits four flavors of digitality, apparently no more, and that each flavor will require a lengthy study in its own right. (For more information,please refer to the PDF.)
文摘To explore the material basis and mechanisms of the anti-inflammatory effects of Hibiscus mutabilis L..The active ingredients and potential targets of Hibiscus mutabilis L.were obtained through the literature review and SwissADME platform.Genes related to the inflammation were collected using Genecards and OMIM databases,and the intersection genes were submitted on STRING and DAVID websites.Then,the protein interaction network(PPI),gene ontology(GO)and pathway(KEGG)were analyzed.Cytoscape 3.7.2 software was used to construct the“Hibiscus mutabilis L.-active ingredient-target-inflammation”network diagram,and AutoDockTools-1.5.6 software was used for the molecular docking verification.The antiinflammatory effect of Hibiscus mutabilis L.active ingredient was verified by the RAW264.7 inflammatory cell model.The results showed that 11 active components and 94 potential targets,1029 inflammatory targets and 24 intersection targets were obtained from Hibiscus mutabilis L..The key anti-inflammatory active ingredients of Hibiscus mutabilis L.are quercetin,apigenin and luteolin.Its action pathway is mainly related to NF-κB,cancer pathway and TNF signaling pathway.Cell experiments showed that total flavonoids of Hibiscus mutabilis L.could effectively inhibit the expression of tumor necrosis factor(TNF-α),interleukin 8(IL-8)and epidermal growth factor receptor(EGFR)in LPS-induced RAW 264.7 inflammatory cells.It also downregulates the phosphorylation of human nuclear factor ĸB inhibitory protein α(IĸBα)and NF-κB p65 subunit protein(p65).Overall,the anti-inflammatory effect of Hibiscus mutabilis L.is related to many active components,many signal pathways and targets,which provides a theoretical basis for its further development and application.
基金supported by the National Natural Science Foundation of China(82204790)Shaanxi University of Chinese Medicine Science and Technology Program(2024-LJRC-04)+1 种基金Shaanxi Province Natural Science Foundation(2024JC-YBMS-759)Qinchuangyuan TCM Industry Innovation Project(L2024-QCY-ZYYJJQ-X29).
文摘Background:This study aimed to comprehensively elucidate the hepatotoxic effects of Dioscorea bulbifera L.(DBL)in mice and to explore the underlying molecular mechanisms.Methods:Mice were administered different doses of DBL via intragastric gavage for 21 days.Organ indices of multiple organs were then measured,and histopathological changes were systematically evaluated.Particular attention was paid to biochemical markers and hepatic histopathological alterations associated with liver injury.Subsequently,the composition of the gut microbiota in colonic contents was analyzed using 16S rDNA sequencing,and the levels of short-chain fatty acids(SCFAs)were determined by gas chromatography(GC).Furthermore,protein expression levels of YinYang 1(YY1),Farnesoid X Receptor(FXR),Nuclear factor erythroid 2-related factor 2(Nrf2),and bile acids(BAs)-related proteins in the liver were assessed by Western blot analysis.Results:Our findings revealed that DBL induced varying degrees of multi-organ toxicity in mice,with the most pronounced hepatotoxicity observed.Liver injury was induced in a dose-dependent manner,accompanied by increased hepatic inflammation and oxidative stress,as well as enhanced hepatocyte apoptosis.Furthermore,DBL may modulate the YY1-FXR/Nrf2 signaling pathway,leading to upregulation of BAs-related proteins such as cholesterol 7α-hydroxylase(CYP7A1),while downregulating other BAs-related proteins,including sodium taurocholate cotransporting polypeptide(NTCP),bile salt export pump(BSEP),multidrug resistance protein 2(MRP2),and P-glycoprotein(P-gp).These changes promoted excessive BAs synthesis and impaired the excretion and reabsorption of BAs,ultimately disturbing BAs homeostasis.Additionally,DBL induces gut microbiota dysbiosis and reduces SCFAs production,leading to intestinal damage and disruption of intestinal barrier integrity.Conclusion:DBL-induced hepatotoxicity may be associated with altered expression of the YY1-FXR/Nrf2 signaling pathway and BAs–related proteins,accompanied by increased hepatic BAs accumulation and gut microbiota dysbiosis.
基金funded by the Key Project of the First-class Discipline Scientific Research Special Plan of Inner Mongolia Autonomous Region(Grant No.YLXKZX-NYD-001)the University-Industry Collaborative Innovation Fund of the Ministry of Education of China(Grant No.2024MZ002).
文摘Punica granatum L.is a deciduous shrub belonging to the family Punicaceae and the genus Punica,recognized as a plant with both medicinal and edible value.Its peel,seeds,juice,flowers,and leaves have long been used in traditional Chinese,Mongolian,Tibetan,and Uyghur medicine,illustrating the characteristic phenomenon of“different applications of the same drug”.This article systematically reviews research progress from 2000 to 2025,focusing on chemical composition and pharmacological effects.Clinical practice and accumulated experience have led to distinct preferences across medical traditions:traditional Chinese medicine mainly uses dried peel to relieve diarrhea,stop bleeding,and expel parasites;traditional Mongolian medicine employs processed dried fruits to eliminate“Badgan”,warm the stomach,and aid digestion;Tibetan medicine often applies the seeds to strengthen the stomach and warm the middle energizer;Uyghur medicine uses the flowers to treat diarrhea and trauma.Modern studies show that chemical composition varies significantly among plant parts:the peel is rich in tannins and phenolic acids,seeds contain mostly fatty acids,and flowers are high in flavonoids.These differences lead to varied pharmacological activities,such as antioxidant,anti-inflammatory,and antibacterial effects.Furthermore,studies reveal synergistic effects among active components from different parts,with whole fruit or multi-part combinations showing better efficacy than single components.It should be noted that such synergies were identified through modern pharmacological studies–not derived directly from traditional theories.Together,these findings provide a scientific basis for the traditional“different applications of the same drug”and support further development of pomegranate resources based on multi-component synergy.
基金supported by the National Natural Science Foundation of China(Nos.52305401 and 52475391)National Key Research and Development Program of China(2024YFB3714301)+1 种基金the Fundamental Research Program of Shanxi Province(202303011211004,TZLH20230818001)Engineering Research Center of the Ministry of Education.
文摘Cold deformation treatment of Cu-bearing stainless steel through a cold rolling process combined with electric pulse treatment(EPT)can significantly improve the microstructure and formability of cold-rolled Cu-bearing stainless steel.The microstructure after EPT was characterized by scanning electron microscopy,transmission electron microscopy,and in-situ tensile testing.It is found that compared with conventional heat treatment,EPT process can significantly promote the nucleation rate and mobility at grain boundaries of the deformed samples,greatly accelerating the recovery and static recrystallization of Cu-bearing stainless steel samples at lower temperatures and contributing to the recovery of anisotropy and the re-molding of deformed samples.Microstructural characterization and theoretical analyses show that the rapid recrystallization during EPT process is caused not only by Joule heating effects but also by non-thermal effects that accelerate grain boundary migration and dislocation destruction and regeneration.In addition,EPT process significantly accelerated the nucleation and precipitation growth of Cu-rich phase.The coarsening of Cu-rich phase during EPT process is due to not only the high vacancy diffusion coefficient under the action of the electric pulse but also the increase in the vacancy diffusion flux induced by the electromigration in the process of the electric pulse.
文摘In the words of the late Sir Colin Blakemore,neurologists have historically sought to infer brain functions in a manner akin to to king a hammer to a computeranalyzing localized anatomical lesions caused by trauma,tumors,or strokes,noting deficits,and inferring what functions certain brain regions may be responsible for.This approach exemplifies a deletion heuristic,where the absence of a specific function reveals insights about the underlying structures or mechanisms responsible for it.By observing what is lost when a particular brain region is damaged,throughout the history of the field,neurologists have pieced together the intricate relationship between anatomy and function.
基金supported by Opening funding of National Key Laboratory of Aerospace Liquid Propulsion(HTKJ2024KL011004)Aeronautical Science Fund of China(ASFC-20240042070001)+2 种基金Opening funding of State Key Laboratory of Metal Forming Technology and Heavy Equipment(B2408100.W05)National Key R&D Program of China(2022YFB4601804)National Natural Science Foundation of China(52250287,52275375).
文摘Incorporating ceramic particles into metal matrices is a proven strategy for boosting mechanical properties and wear resistance.The reinforcement potential of tungsten carbide(WC)particles in 316L stainless steel is revealed,utilizing selective laser melting(SLM)to fabricate composites with 5 and 10 vol.%WC.The WC incorporation markedly alters the composite’s microstructure and mechanical attributes.Notably,5 vol.%WC-316L composite exhibits a refined submicron cellular structure,averaging 0.67μm in grain size.Elemental diffusion at WC-316L interface formed a 0.8μm gradient transition layer enriched with M_(2)C carbides(Fe,Cr,W),ensuring robust metallurgical bonding.Compared with unreinforced 316L,5%WC composite exhibits a 70%increase in tensile strength,reaching 1012.6 MPa,and a 25.3%rise in hardness,while maintaining acceptable ductility.10%WC composite achieves a 70.8%hardness enhancement,albeit with reduced elongation.Friction coefficient is reduced by up to 17.3%,and the wear mechanism shifts from adhesive to abrasive,significantly improving wear resistance.
文摘Objectives:The current treatment options and therapeutic targets for triple-negative breast cancer(TNBC),an aggressive subtype of breast cancer(BrCA),are limited.This study aimed to identify novel biomarkers and transcriptional regulatory networks(TRN)inherent in TNBC samples.Methods:We analyzed pan-cancer BrCA datasets from The Cancer Genome Atlas(TCGA)to compare triple-positive breast cancer(TPBC)with TNBC.TRN algorithms and virtual inference of protein-enriched regulon(VIPER)were used to identify master regulators and their target genes.Utilizing TNBC cells(MDA-MB-231 and MDA-MB-468),we validated the relationship of nuclear factor erythroid 2-like 3(NFE2L3)and basic helix-loop-helix family member E 40(BHLHE40)by performing a luciferase assay.The expression levels of these targets were measured after transfections with plasmid and siRNA via qRT-PCR and western blots.The effect of these genes on cell proliferation and migration was studied using phenotypic assays.Results:Using computational approaches,we identified NFE2L3 as a master regulator with BHLHE40 as its target gene.NFE2L3 protein binds to the promoter region of BHLHE40 and regulates its transcriptional activity.Additionally,silencing and overexpressing NFE2L3 and BHLHE40 in TNBC cell lines MDA-MB-231 and MDA-MB-468 showed that NFE2L3 directly regulates BHLHE40 at both transcriptional and translational levels.We found that BHLHE40 requires NFE2L3 for cell proliferation and migration in TNBC.Conclusion:These findings underscore the significance of NFE2L3 and BHLHE40 in TNBC,highlighting NFE2L3’s role in regulating the oncogenic activity of BHLHE40 in TNBC cells.
文摘Oncology Research Editorial Office Published:19 January 2026 The published article titled“miR-126-5p Restoration Promotes Cell Apoptosis in Cervical Cancer by Targeting Bcl2l2”has been retracted from Oncology Research,Vol.25,No.4,2017,pp.463-470.DOI:10.3727/096504016X14685034103879 URL:https://www.techscience.com/or/v25n4/56826.
基金supported by the Joint Funds of the National Natural Science Foundation of China(Grant No.U22A20494)the 1+9 Open Competition Project of Sichuan Academy of Agricultural Sciences(1+9KJGGo02)+4 种基金the National Key R&D Program of China(2024YFA130670O)the“5+1”Agricultural Frontier Technology Research Initiative of Sichuan Academy of Agricultural Sciences(5+1QYGG003)the Project of Sichuan Province Engineering Technology Research Center of Vegetables(2023PZSC0303)the 14th Five-Year Plan Vegetable Breeding Project of Sichuan Province(2021YFYZ0022)the Experts of Sichuan Vegetable Innovation Team(SCCXTD-2025-05).
文摘Radish(Raphanus sativus L.)is an important cruciferous root vegetable,with bolting regulated by multiple genes.However,the genetic mechanisms underlying bolting regulation remain unclear.Here,the genome of the cultivar C60213 is assembled into a high-quality,gap-free telomere-to-telomere structure,spanning nine chromosomes and totaling 472.71 Mb,using a combination of Oxford Nanopore,PacBio,and Hi-C sequencing technologies.It identifies 49,768 protein-coding genes,97.38%of which are functionally annotated.Repetitive sequences constitute 59.72%of the genome,primarily comprising long terminal repeats.A high-density genetic linkage map is constructed using an F2 population derived from a cross between early-and late-bolting radishes,identifying seven major quantitative trait loci associated with bolting and flowering.RNA-seq and quantitative real-time PCR analysis reveal that the RsMIPS3 gene is found to be associated with bolting,with its expression decreasing during this process.Notably,RsMIPS3 overexpression in Arabidopsis delays bolting,confirming its role in regulating bolting time.These findings advance radish genome research and provide a valuable target for breeding late-bolting varieties.
基金supported by 111 Project(Grant No.B17043)China Postdoctoral Science Foundation(Grant No.2022M723425).
文摘Fig(Ficus carica L.)with purple-red peel cultivars are popular among consumers and exhibit better storability.While DNA methylation influences fruit ripening and color development,its specific role in fig fruit remains unclear.This study explores the impact of DNA methylation on the fig peel coloration.Enzymatic colorimetric detection revealed that the level of‘Purple Peel’fig DNA methylation decreases with fig fruit ripening and coloring.Treatment of young fruit with the DNA-methylation inhibitor azacytidine induced peel coloration,suggesting that a decrease in DNA-methylation level promotes fig peel coloration.Seven members of DNA methyltransferases and three members of DNA demethylases were identified from a high-level fig genome,highlighting FcMET1 and FcDRM2 as stable proteins,ensuring functional expression.Reference to the Arabidopsis protein interaction network map predicted that FcMET1 is in a central position,suggesting a crucial regulatory role in multiple biological processes.Correlation analysis revealed a positive correlation between FcMET1 expression during peel development and the level of total DNA methylation.Weighted gene co-expression network analysis identified co-expression of FcMET1 with the color-related transcription factors MYB,bHLH and WD40,as well as with eight structural genes in the flavonoid-biosynthesis pathway.The expression of FcUFGT3 was negatively correlated with that of FcMET1.McrBC-PCR and Bisulfite Sequencing detection showed that a low methylation level of the FcUFGT3 promoter corresponds with its high expression in colored fig.This investigation of the mechanism of DNA methylation provides a theoretical basis for understanding the role of DNA-methylation modifications in fig ripening and coloring.
基金support and library facilities in accomplishing this part of the study.
文摘Ceratopteris thalictroides (L.) Brongn (C. thalictroides), a fern from the Pteridaceae family, isan edible species that remains largely underutilized, even though it possesses a diverserange of applications. This review aims to provide a comprehensive overview of itsgeographical distribution, ethnomedicinal applications, phytochemical constituents,pharmacological activities, and ecological importance. Various phytochemical analysesidentified the presence of phenols, flavonoids, alkaloids, terpenoids, and fatty acids from C.thalictroides, responsible for its multiple pharmacological properties, including antioxidant,antimicrobial, anti-inflammatory, anti-diabetic, and anticancer activities. Additionally, itsunique antheridiogen activity makes it a valuable model organism for plant genetics andreproductive studies. This review systematically summarizes the phytopharmacologicalpotential and ecological significance of C. thalictroides. The plant holds promise as a sourceof novel therapeutics and as a sustainable bioresource for pharmaceutical andenvironmental applications.
基金supported by the Sustainable Development Special Project from Shenzhen,China(KCXFZ20201221173213037)the National Natural Science Foundation of China(32172697 and U23A20229)+1 种基金the Guangdong Provincial Natural Science Foundation(2021A1515011336)the Agricultural Science and Technology Innovation Program,China(CAASZDRW202406)。
文摘Genetic improvement of meat production traits has always been the primary goal of pig breeding.Geographical isolation,natural and artificial selection led to significant differences in the phenotypes of meat production traits between Chinese local pigs and Western commercial pigs.Comparative genomics and transcriptomics analysis provided powerful tools to identify genetic variants and genes associated with skeletal muscle growth.However,the number of available genetic variants and genes are still limited.In this study,a comprehensive comparison of transcriptomes showed that ribosomal protein S27-like(RPS27L)gene was highly expressed in skeletal muscle and up-regulated in Chinese local pigs when compared with Western commercial pigs.Functional analysis revealed that overexpression of RPS27L promoted myoblast proliferation and repressed differentiation in pig skeletal muscle cells.Conversely,the knockdown of RPS27L led to the inhibition of myoblast proliferation and the promotion of differentiation.Notably,a 13-bp insertion-deletion(InDel)mutation was identified within the RPS27L promoter,inserted in Chinese local breeds and predominantly deleted in Western commercial breeds.Luciferase reporter assay suggested this InDel modulated RPS27L expression by influencing transcription factor 3(TCF3)and myogenic differentiation antigen(MYOD)binding to the promoter.Furthermore,a positive correlation was observed between RPS27L expression and backfat thickness.Association studies demonstrated this InDel was significantly associated with the body weight of pigs at the age of 240 d.Together,our results suggested that RPS27L was a regulator of skeletal muscle development and growth,and was a candidate marker for improving meat production traits in pigs.This study not only provided a biomarker for animal breeding,but also was helpful for understanding skeletal muscle development and muscular disease in humans.
基金funding from the Natural Science Foundation of Sichuan Province,China(Grant Nos.2025ZNSFSC1100,2024NSFSC0324)the National Key Research and Development Project(Grant No.2017YFC0505104)+2 种基金the Sichuan Agricultural University Dual Support Plan Special Project(Grant No.2024ZYTS020)the Postdoctoral Fellowship Program(Grade B)of China Postdoctoral Science Foundation(Grant No.GZB20250863)the China Postdoctoral Science Foundation(Grant No.2025M773740).
文摘Anthocyanins play a crucial role in shaping the visual appeal and nutritional quality of fruits.Previous research on anthocyanin biosynthesis in sweet cherry(Prunus avium L.)has primarily relied on single-omics approaches or focused on a limited range of metabolites,leaving the regulatory mechanisms and dynamic metabolism of anthocyanins during ripening inadequately characterized.This study integrated anthocyanin-targeted metabolomics and transcriptomics to identify key anthocyanins in sweet cherry and construct a transcriptional regulatory network for anthocyanin biosynthesis.A novel bHLH transcription factor,Prunus avium bHLH transcription factor 102(PavbHLH102),was identified,and its role in regulating cyanidin levels was validated through overexpression and silencing experiments.Both in vitro and in vivo assays demonstrated that PavbHLH102 activates key anthocyanin biosynthetic genes,including PavF3H,PavDFR,and PavUFGT,thereby enhancing fruit coloration.Notably,PavF3′H upregulation significantly increased cyanidin accumulation.This study provides new insights into anthocyanin regulation in sweet cherry and offers valuable resources for improving fruit quality.
基金supported by the National Natural Science Foundation of China(Grant Nos.32072630,32372774,and U22A20499)the earmarked fund for CARS(Grant No.CARS-19-01A).
文摘Tea plant(Camellia sinensis(L.)O.Kuntze)is a cold-sensitive leaf-harvesting crop whose growth,yield,and processed tea quality are all inhibited by low temperatures.Therefore,identifying the regulatory genes involved in tea plant growth and freezing tolerance is crucial for genetic improvement.WRKY transcription factors regulate various plant processes,including growth and development,stress responses,and metabolite biosynthesis.However,the molecular network through which WRKY coordinates these pathways in tea plants remains unclear.In this study,we revealed that CsWRKY57L,a cold-inducible WRKY IIc subfamily member,positively regulated freezing tolerance by directly promoting flavonoid accumulation in tea plants.Transient suppression of CsWRKY57L weakened the freezing tolerance of tea plants by reducing flavonoid content and suppressing the C-repeat-binding factor(CBF)-cold-responsive(COR)gene pathway.In contrast,heterologous overexpression of CsWRKY57L in Arabidopsis had the opposite effect.Additionally,overexpression of CsWRKY57L inhibited reproductive development and accelerated senescence in Arabidopsis.Interaction analysis revealed that CsWRKY57L directly binds to the promoters of CsSWEET1a,CsSWEET15,and AtSWEET15,which encode sugar transporters essential for plant reproductive development,and inhibits their transcription.Overall,the study revealed a dual role of CsWRKY57L in promoting freezing tolerance via flavonoid biosynthesis and inhibiting reproductive development by regulating SWEETs expression.This study uncovers a novel mechanism whereby CsWRKY57L coordinately regulates both stress responses and growth in tea plants,providing a molecular basis for breeding low-temperature-tolerant varieties with restricted reproductive development.
基金supported by the National Key R&D Program of China(2016YFD0101900 and 2016YFD0100305)the National Natural Science Foundation of China(Grant No.32001582)the General Project of Natural Science Research in Colleges and Universities of Jiangsu Province(Grant No.20KJB210002)。
文摘Long-chain acyl-CoA synthetase(LACS),belonging to the AMP-bound superfamily,catalyzes the activation of long-chain fatty acids to their coenzyme A esters.Candidate Gene Association analysis showed that LACS8 was not only related to the content of fatty acid,but also,surprisingly,to the content of glucosinolates.Here,we cloned BnaLACS8A03 from rapeseed,and demonstrated its association with the glucosinolates content.We found that BnaLACS8A03 was widely expressed in all tissues and organs,and significantly highly expressed in leaf and flower,which are the sites of glucosinolate synthesis.Bioinformatics predicted that it was located in peroxisome,where theβ-oxidation of fatty acids mainly occurred,indicating that BnaLACS8A03 was involved in the metabolism of fatty acids.Phenotypic studies of RNA interference(RNAi)lines revealed that down-regulation of BnaLACS8A03 in rapeseed significantly reduced the glucosinolates content.In addition,the expression of glucosinolates biosynthesis-related genes and transport-related genes is altered in BnaLACS8A03-RNAi plants,suggesting that a possible crosstalk regulation mechanism exists in the regulation network of glucosinolate mechanism.Our results demonstrate that glucosinolates content can be manipulated by altering the expression of long chain acyl-Coenzyme A synthase gene BnaLACS8A03,which provide an available genetic resource for low glucosinolate breeding practice in rapeseed.
