AIM:To identify key genes and inflammatory signaling pathways involved in the anti-inflammatory effects of Hedysarum polybotrys polysaccharide(HPS)in a rat model of endotoxin-induced uveitis(EIU).METHODS:EIU was induc...AIM:To identify key genes and inflammatory signaling pathways involved in the anti-inflammatory effects of Hedysarum polybotrys polysaccharide(HPS)in a rat model of endotoxin-induced uveitis(EIU).METHODS:EIU was induced in Wistar rats through subcutaneous injection of lipopolysaccharide(LPS,200μg)and the rats were then randomly assigned to EIU group(n=5)and the HPS intervention group(n=5).HPS(400 mg/kg,intraperitoneally)or its carrier was administered 24h and 1h prior to EIU induction.Eyes were examined and enucleated 24h post-induction,and total RNA was extracted from the iris-ciliary body.Gene expression microarrays were used to identify differentially expressed genes(DEGs),followed by bioinformatics analyses,including gene ontology(GO)and pathway analysis.Key findings were not experimentally validated at the mRNA or protein level.RESULTS:A total of 322 DEGs were identified,comprising 254 mRNA and 68 lncRNA genes.GO analysis revealed significant functional categories,including response to LPS.Pathway analysis identified key signaling pathways involved in uveitis,such as cytokine-cytokine receptor interactions.Notably,16 mRNA and 7 lncRNA DEGs emerged as central nodes in the gene correlation network.CONCLUSION:HPS exerts its anti-inflammatory effects through coordinated signaling pathways,offering insights into potential therapeutic targets for managing uveitis.展开更多
Researchers from the Institute of Genetics and Developmental Biology(IGDB)of the Chinese Academy of Sciences,with collaborators,identified two sorghum genes(SbSLT1 and SbSLT2)that block Striga-a parasitic plant,also k...Researchers from the Institute of Genetics and Developmental Biology(IGDB)of the Chinese Academy of Sciences,with collaborators,identified two sorghum genes(SbSLT1 and SbSLT2)that block Striga-a parasitic plant,also known as“witchweed,”that causes$1.5 billion annual losses in Africa by draining crop nutrients.Published in Cell(February 12,2025),the study shows that these genes regulate strigolactones(SLs).展开更多
Objective To predict the autophagy-related pathogenesis and key diagnostic genes of diabetic kidney disease(DKD)through bioinformatics analysis,and to identify related Chinese medicines.Methods Data from sequencing mi...Objective To predict the autophagy-related pathogenesis and key diagnostic genes of diabetic kidney disease(DKD)through bioinformatics analysis,and to identify related Chinese medicines.Methods Data from sequencing microarrays GSE30528,GSE30529,and GSE1009 in the Gene Expression Omnibus(GEO)were employed.Differentially expressed genes(DEGs)with adjusted P<0.05 from GSE30528 and GSE30529 were identified.Combining these DEGs with the human autophagy gene database,Gene Ontology(GO),Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses,and protein-protein interaction(PPI)network analysis were conducted on the obtained DKD autophagy-related genes.Subsequently,the least absolute shrinkage and selection operator(LASSO)regression and support vector machinerecursive feature elimination(SVM-RFE)algorithms were adopted to select autophagy-related genes.The diagnostic capability of these genes was assessed through analysis with the external validation set from microarray GSE1009,and relevant Chinese medicines were inversely predicted using the SymMap database.Results A total of 2014 DEGs were selected from GSE30528 and GSE30529,leading to the identification of 37 DKD autophagy-related genes.GO analysis indicated 681 biological mechanisms,including autophagy regulation and plasma membrane microdomain activity.KEGG enrichment analysis identified 112 related signaling pathways.PPI network analysis showed a marked enrichment of autophagy-related genes in DKD.Through LASSO regression and SVM-RFE,four core diagnostic genes for autophagy in DKD were identified:protein phosphatase 1 regulatory subunit 15A(PPP1R15A),hypoxia inducible factor 1 alpha subunit(HIF1α),deleted in liver cancer 1(DLC1),and ceroid lipofuscinosis neuronal 3(CLN3).The external validation set demonstrated high diagnostic efficiency for these genes.Finally,146 kinds of potential Chinese medicines were predicted using the SymMap database,with heatclearing and detoxifying medicine and blood-activating and stasis-eliminating medicine accounting for the largest proportion(25/146 and 13/146,respectively).Conclusion This study analyzed and validated bioinformatics sequencing databases to elucidate the potential molecular mechanisms of DKD autophagy and predicted key diagnostic genes,potential therapeutic targets,and related Chinese medicines,laying a solid foundation for clinical research and application.展开更多
Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment proc...Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment processes used in wastewater treatment plants have a limited efficiencies of antibiotics resistant bacteria(ARB)disinfection and ARGs degradation and even promote the proliferation of ARGs.Problematically,ARB and ARGs in effluent pose potential risks if they are not further treated.Photocatalytic oxidation is considered a promising disinfection technology,where the photocatalytic process generates many free radicals that enhance the interaction between light and deoxyribonucleic acid(DNA)for ARB elimination and subsequent degradation of ARGs.This reviewaims to illustrate the progress of photocatalytic oxidation technology for removing antibiotics resistant(AR)from wastewater in recent years.We discuss the sources and transfer of ARGs in wastewater.The overall removal efficiencies of ultraviolet radiation(UV)/chlorination,UV/ozone,UV/H_(2)O_(2),and UV/sulfate-radical based system for ARB and ARGs,as well as the experimental parameters and removal mechanisms,are systematically discussed.The contribution of photocatalytic materials based on TiO_(2) and g-C_(3)N_(4) to the inactivation of ARB and degradation of ARGs is highlighted,producingmany free radicals to attack ARB and ARGs while effectively limiting the horizontal gene transfer(HGT)in wastewater.Finally,based on the reviewed studies,future research directions are proposed to realize specific photocatalytic oxidation technology applications and overcome current challenges.展开更多
Reductive soil disinfestation(RSD)is commonly employed for soil remediation in greenhouse cultivation.However,its influence on antibiotic resistance genes(ARGs)in soil remains uncertain.This study investigated the dyn...Reductive soil disinfestation(RSD)is commonly employed for soil remediation in greenhouse cultivation.However,its influence on antibiotic resistance genes(ARGs)in soil remains uncertain.This study investigated the dynamic changes in soil communities,potential bacterial pathogens,and ARG profiles under various organicmaterial treatments during RSD,including distillers’grains,potato peel,peanut vine,and peanut vine combined with charcoal.Results revealed that applying diverse organic materials in RSD significantly altered bacterial community composition and diminished the relative abundance of potential bacterial pathogens(P<0.05).The relative abundance of high-risk ARGs decreased by 10.7%-30.6%after RSD treatments,the main decreased ARG subtypeswere AAC(3)_Via,dfrA1,ErmB,lnuB,aadA.Actinobacteria was the primary host of ARGs and was suppressed by RSD.Soil physicochemical properties,such as total nitrogen,soil pH,total carbon,were crucial factors affecting ARG profiles.Our findings demonstrated that RSD treatment inhibited pathogenic bacteria and could be an option for reducing high-risk ARG proliferation in soil.展开更多
Inflammatory bowel disease(IBD)is an incurable disease of the digestive system;however,the therapeutic methods for IBD remain limited.The pathogenesis of IBD was systematically discussed and compared in this paper,pri...Inflammatory bowel disease(IBD)is an incurable disease of the digestive system;however,the therapeutic methods for IBD remain limited.The pathogenesis of IBD was systematically discussed and compared in this paper,primarily comprising Crohn’s disease and ulcerative colitis.This paper focused on six common aspects:(1)Dysregulated immune responses;(2)Gene function changes;(3)Intestinal microbes disorder and imbalance;(4)Microbial infections;(5)Associations between IBD and other inflammatory diseases;and(6)Other factors.In addition,the pathogenesis differences between these two forms of IBD were unraveled and clearly distinguished.These unique aspects of pathogenesis provide crucial insights for the precise treatment of both Crohn’s disease and ulcerative colitis.This paper illustrates the root causes and beneficial factors of resistance to IBD,which provides novel insights on early prevention,development of new therapeutic agents,and treatment options of this disease.展开更多
The effects of disinfectants and plasmid-based antibiotic resistance genes(ARGs)on the growth of microorganisms and the plasmid-mediated transfer of ARGs in the water and biofilm of the drinkingwater distribution syst...The effects of disinfectants and plasmid-based antibiotic resistance genes(ARGs)on the growth of microorganisms and the plasmid-mediated transfer of ARGs in the water and biofilm of the drinkingwater distribution system under simulated conditionswere explored.The heterotrophic plate count of the water in reactors with 0.1 mg/L NaClO and NH_(2)Cl was higher than in the control groups.Therewas no similar phenomenon in biofilm.In thewater of reactors containing NaClO,the aphA and bla geneswere lower than in the antibiotic resistant bacteria group,while both genes were higher in the water of reactors with NH_(2)Cl than in the control group.Chloramine may promote the transfer of ARGs in the water phase.Both genes in the biofilm of the reactors containing chlorine were lower than the control group.Correlation analysis between ARGs and water quality parameters revealed that the copy numbers of the aphA gene were significantly positively correlated with the copy numbers of the bla gene in water and significantly negatively correlated in biofilm(p<0.05).The results of the sequencing assay showed that bacteria in the biofilm,in the presence of disinfectant,were primarily Gram-negative.1.0 mg/L chlorine decreased the diversity of the community in the biofilm.The relative abundance of some bacteria that may undergo transfer increased in the biofilm of the reactor containing 0.1 mg/L chlorine.展开更多
Expression of rol genes from Ri plasmid of Agrobacterium rhizogenes not only leads to the excessive formation of adventitious roots, but also exhibits various genetically modified characteristics that have bro...Expression of rol genes from Ri plasmid of Agrobacterium rhizogenes not only leads to the excessive formation of adventitious roots, but also exhibits various genetically modified characteristics that have broad prospects for the application of plant genetic improvement. Since the 1980s of the last century, much progress has been made in the studies of A. rhizogenes, in particular the agropine type Ri plasmid rol genes and their applications for plant genetic improvement, which involves the structure and function of Ri plasmid, the characters of rol genes, the influence of rol genes expression on plants growth and development, and the applications of rol genes for genetic improvement of forest tree. In this paper, the advances in this field are reviewed and the existing problems about the application of rol genes for genetic improvement of forest tree are also discussed.展开更多
Helicobacter pylori infection represents a widespread chronic condition with varying prevalence influenced by race, ethnicity, and geography. The severity of H. pylori-associated diseases is determined by an array of ...Helicobacter pylori infection represents a widespread chronic condition with varying prevalence influenced by race, ethnicity, and geography. The severity of H. pylori-associated diseases is determined by an array of virulence factors. Although extensive studies have been conducted globally, data on the distribution of Helicobacter pylori virulence genes in Libya remain limited, constraining insights into the pathogenicity of local strains and hindering the development of targeted interventions. This study aimed to evaluate the prevalence of H. pylori infection, characterize essential virulence genes [vacA variants (s1/s2, m1/m2), cagA, and iceA1], and examine their association with gastroduodenal diseases among Libyan patients. Gastric biopsies from 144 participants were analyzed using polymerase chain reaction (PCR) assays, and risk factor data were collected via questionnaires. H. pylori was detected in 63.2% of samples by PCR. The vacA gene was present in 84.6% of cases, cagA in 58.2%, and iceA1 in 29.7%. Among vacA variants, s1 allele was most common (53.2%), followed by m1 (42.9%), m2 (37.7%), and s2 (13%) alleles. Significant associations were identified between specific virulence genes and the development of gastroduodenal diseases, highlighting their role in pathogenicity. This investigation is one of Libya’s first comprehensive assessments of H. pylori virulence factors, addressing a critical epidemiological gap. The high prevalence of virulence genes suggests their potential as disease biomarkers. These findings contribute to a deeper understanding of H. pylori pathogenicity within the Libyan population and establish a basis for future clinical interventions and public health strategies to manage and prevent H. pylori-associated diseases in Libya and comparable regions.展开更多
Agrobacterium tumefaciens-mediated transformation has been widely adopted for plant genetic engineering and the study of gene function(Krenek et al.,2015).This method is prevalent in the genetic transformation of herb...Agrobacterium tumefaciens-mediated transformation has been widely adopted for plant genetic engineering and the study of gene function(Krenek et al.,2015).This method is prevalent in the genetic transformation of herbaceous plants,with notable applications in species such as Arabidopsis(Yin et al.,2024),soybean(Zhang et al.,2024),rice(Zhang et al.,2020),and Chinese cabbage(Li et al.,2021).However,its application in fruit trees is limited.This is primarily due to their long growth cycles and lack of rapid,efficient,and stable transgenic systems,which severely hinders foundational research involving plant genetic transformation(Mei et al.,2024).Furthermore,for subtropical fruit trees,the presence of recalcitrant seeds adds an extra layer of difficulty to genetic transformation(Umarani et al.,2015),as most methods rely on seed germination as a basis for transformation.展开更多
Asian rice comprises two major subspecies:Xian(X)and Geng(G),and the diverged resistance genes(R)have provided a foundation for breeding improved cultivars to control rice blast disease.After conducting two-phase alle...Asian rice comprises two major subspecies:Xian(X)and Geng(G),and the diverged resistance genes(R)have provided a foundation for breeding improved cultivars to control rice blast disease.After conducting two-phase allele mining using six updated FNP marker systems,the functional haplotypes at Pit,Pib,and Pi63 strictly diverged into the X-populations and were defined as X-R loci,while those at Pi54,Pi37,and Pi36 into the G-populations as G-R loci.The genic diversity at the three X-R loci(16 alleles)was twofold higher than that at the three G-R loci(8 alleles),and the allelic diversity in the Southern region(21 alleles)was nearly double that in the Northeastern region(11 alleles).Both observations reflect a significant difference in genetic diversity between X-and G-populations,and indicate that the effective R-genes mainly originated from X-subspecies.Based on the allelic structures characterized by a set of 10 parameters,8 and 16 alleles were respectively recognized as favorable and promising ones for the regional breeding programs.The genotypic structures of the two regional populations were almost different,indicating that the diverged alleles have been further assembled into two series of regional genotypes through long-term breeding programs,despite the presence of one-third of region-common alleles.The genotypic diversity in the Southern region(55 genotypes)was nearly twice as high as that in the Northeastern region(28),which perfectly reflects the aforementioned differences in both genic and allelic diversities.After analyzing the genotypic structures using a set of 13 parameters,4 and 23 genotypes,respectively,can be recommended as the favorable and promising ones for the regional breeding programs.The case study serves as a concrete sample of how to identify the favorable and promising alleles and genotypes,and beneficial parents based their comprehensive population structures for gene-designed breeding.展开更多
Background:Tetralogy of Fallot(TOF),the predominant cyanotic congenital heart defect,arisesfrom multifactorial gene-envirorment interactions disrup ting cardiac developmental networks.This studyinvestiga ted TOF-speci...Background:Tetralogy of Fallot(TOF),the predominant cyanotic congenital heart defect,arisesfrom multifactorial gene-envirorment interactions disrup ting cardiac developmental networks.This studyinvestiga ted TOF-specific transcriptional alterations and identified high-confidence candidate genes.Methods:Based on GSE36761 transcriptome data,a weighted gene co-exp ression network analysis(WGCNA)andprotein-protein interaction(PPI)network were conducted to identify TOF-related sub-netrwork and Hub genes.The potentialbiological functions among these genes were revealed by enrichment analysis.Genetic,epigeneticand transcriptional alteration in the Fub genes were analyzed with leveraged public resources:a methylationdataset(CSE62629)and two single-cell datasets(EGAS00001003996 and GSE126128),Results:Eight Hub geneswere identified using the WGCNA network and PPl network,and functional errichment analysis revealedthatGJA1,RUNX2,FTK7,PRICKLE1,and SPRP1 were involved in the morphogenesis of an epithelium,anddysregulation of the signaling were also found in the other two TOF datasets,Furthermore,the study foundthat the promoters of GJA1,RUNX2,FTK7,and PRICKLE1 genes were hypermethylated and that GJA1 andSFRP1 are highly expressed in mouse second heart field cells and neural crest cells,and the la tter is expressedin human embry onic outflow tract cells.Since RUNX2 was not expressed in human and mouse embryonichearts,GJA1,FTK7,PRICKLE1,and SPRP1 were ultimately identified as TOF candidate genes.Conclusion:Based on the WGCNA network and various bioinformatics analysis approaches,we screened 4 TOF candidatepathogenic genes,and found that the signaling pathways related to the morphogenesis of an epithelium maybe involved in the pathogenesis of TOF.展开更多
Litchi chinensis Sonn.is an important economic fruit tree in tropical and subtropical regions.Regrettably,the efficiency of plant regeneration via somatic embryogenesis in litchi is typically low due to the poor conve...Litchi chinensis Sonn.is an important economic fruit tree in tropical and subtropical regions.Regrettably,the efficiency of plant regeneration via somatic embryogenesis in litchi is typically low due to the poor conversion of embryos to plants.The purpose of this study was to establish a regeneration system via somatic embryogenesis from immature embryos explants in‘Heiye'cultivar of litchi.Our results demonstrated that MS medium supplemented with 2.0 mg L^(-1)2,4-D was optimal for callus induction.For somatic embryo(SE)induction,MS medium containing0.5 g L^(-1) activated charcoal(AC)was the most effective,while the use of zeatin(ZT)and thidiazuron(TDZ)resulted in abnormal somatic embryos.The rooting and regeneration rate of 2.15%and 17.5%,respectively,were achieved using MS medium supplemented with 0.5 g L^(-1) AC.Furthermore,transcriptome analysis was performed on embryogenic callus(EC),globular embryo(GE),and heart embryo(HE)to explore the molecular mechanisms of early somatic embryogenesis.2,587 common differentially expressed genes(DEGs)between EC_vs_GE and EC_vs_HE were identified,and the expression patterns of these common DEGs were separated into twelve major clusters.GO annotation and KEGG pathway analysis revealed that these common DEGs were implicated in plant hormone signal transduction,auxin-activated signaling pathway,and other biological processes.Additionally,differentially expressed transcription factors were identified,and the function of LcBBM2 which is specifically highly expressed during early somatic embryogenesis was verified.Overexpression of LcBBM2 in tomato promotes callus and shoot formation.Therefore,this study can provide a theoretical basis and technical support for genetic breeding improvement of litchi.展开更多
Hydrangea macrophylla is a popular ornamental shrub with a lot of economic and aesthetic value.It is known for its different flower shapes(lacecap and mophead)and the way its flowers change color depending on the pH o...Hydrangea macrophylla is a popular ornamental shrub with a lot of economic and aesthetic value.It is known for its different flower shapes(lacecap and mophead)and the way its flowers change color depending on the pH of the soil.Even though it is important for gardening,we still don’t know much about the molecular processes that lead to flower growth.The purpose of this study was to find and study SNP-related genes and transcription factors that are connected to the growth of H.macrophylla flowers.Genome-wide SNP analysis identified 11 SNPs associated with MYB transcription factors and 10 SNPs linked to a MADS-box SEP1 gene,highlighting their potential role in inflorescence-type regulation.These SNPs provide genomic resources for functional validation and markerassisted breeding in Hydrangea macrophylla.We found the MYB and MADS-box gene families,which are important for pigmentation and flower organ identity,through an analysis of the transcriptome and gene expression.The MYB family has 731R-MYBs,105 R2R3-MYBs,and 43R-MYBs.TheMADS-box family had 42 Type I(M-type)members and 36 Type II(MIKC-type)members.Motif and phylogenetic analysis showed that certain domains were preserved.For example,R2R3-MYBs and MIKC-type MADS genes are grouped with Arabidopsis orthologs,which suggests that their functions are also preserved.There was a clear link between the greatest expression ofMADS-box genes and the distinct phases of floral bud differentiation.Some MYB genes,on the other hand,showed alternative expression patterns that may help petals or sepals develop.qRT-PCR validation of representative MYB and MADS-box genes corroborated the transcriptome-based expression profiles,supporting their role in flower development and inflorescence-type regulation.展开更多
This paper reviews the latest advances and applications of gene editing technologies in the study of aging-related genes.In recent years,gene editing has achieved significant progress in the biomedical field,with cont...This paper reviews the latest advances and applications of gene editing technologies in the study of aging-related genes.In recent years,gene editing has achieved significant progress in the biomedical field,with continual improvements in accuracy and efficiency.Gene editing technologies demonstrate unique advantages in aging research,providing powerful tools for elucidating aging mechanisms and developing anti-aging interventions.This paper offers a detailed overview of major gene editing technologies(such as the CRISPR/Cas system,TALENs,and ZFNs)as well as emerging editing techniques(including base editing,prime editing,and epigenetic editing),describing their principles and applications.It also discusses research progress in areas such as constructing aging gene models,disease models,in vivo editing,and in vitro editing.Furthermore,it analyzes current technological challenges and proposes corresponding optimization strategies.Finally,it considers future directions for the development of gene editing technologies in aging research,including technological innovation and integrated multi-technology applications.Through these advances and innovations,gene editing is expected to play an increasingly important role in the anti-aging field,offering new strategies and methods to promote human health and longevity.展开更多
Peanut(Arachis hypogaea L.)bacterial wilt(BW)is a devastating soil-borne disease caused by Ralstonia solanacearum(RS)that poses a significant threat to peanut yield and quality.Nucleotide-binding leucine-rich repeat(N...Peanut(Arachis hypogaea L.)bacterial wilt(BW)is a devastating soil-borne disease caused by Ralstonia solanacearum(RS)that poses a significant threat to peanut yield and quality.Nucleotide-binding leucine-rich repeat(NBS-LRR)proteins are a class of plant-specific immune receptors that recognize pathogen-secreted effector molecules and activate immune responses to resist pathogen infections.However,the precise functions of AhCN genes(where CN is a class of nucleotide-binding site,leucine-rich repeat receptor(NLR)genes that lack LRR structural domains)in peanut plants are not fully understood.In this study,a total of 150 AhCN genes were identified and classified into nine subfamilies based on a systematic phylogenetic analysis.The AhCN genes showed highly conserved structural features,and the promoter cis-elements indicated involvement in plant hormone signaling and defense responses.After inoculation with RS,the highly resistant peanut variety‘H108’significantly outperformed the susceptible variety‘H107’based on physiological indicators such as plant height,main stem diameter,and fresh weight,likely due to the inhibition of bacterial proliferation and diffusion in the stem vascular bundle.AhCN34 was found to be significantly upregulated in‘H108’compared to‘H107’during plant infection and in response to treatments with each of three plant hormones.Importantly,AhCN34 overexpression in peanut leaves enhanced their resistance to BW.These findings demonstrate the great potential of AhCN34 for applications in peanut resistance breeding.Our identification and characterization of the AhCN genes provide insights into the mechanisms underlying BW resistance in peanut and can inform future research into genetic methods of improving BW resistance in peanut.展开更多
The objective of this study is to quantitatively reveal the main genetic carrier of antibiotic resistance genes(ARGs)for blocking their environmental dissemination.The distribution of ARGs in chromosomes,plasmids,and ...The objective of this study is to quantitatively reveal the main genetic carrier of antibiotic resistance genes(ARGs)for blocking their environmental dissemination.The distribution of ARGs in chromosomes,plasmids,and phages for understanding their respective contributions to the development of antimicrobial resistance in aerobic biofilm consortium under increasing stresses of oxytetracycline,streptomycin,and tigecyclinewere revealed based on metagenomics analysis.Results showed that the plasmids harbored 49.2%-83.9%of resistomes,which was higher(p<0.001)than chromosomes(2.0%-35.6%),and no ARGs were detected in phage contigs under the strict alignment standard of over 80%identity used in this study.Plasmids and chromosomes tended to encode different types of ARGs,whose abundances all increased with the hike of antibiotic concentrations,and the variety of ARGs encoded by plasmids(14 types and 64 subtypes)was higher than that(11 types and 27 subtypes)of chromosomes.The dosing of the three antibiotics facilitated the transposition and recombination of ARGs on plasmids,mediated by transposable and integrable transfer elements,which increased the co-occurrence of associated and unassociated ARGs.The results quantitatively proved that plasmids dominate the proliferation of ARGs in aerobic biofilm driven by antibiotic selection,which should be a key target for blocking ARG dissemination.展开更多
Hypertrophic cardiomyopathy(HCM)is an autosomal dominant inherited cardiomyopathy characterized by left ventricular hypertrophy.It is one of the chief causes of sudden cardiac death in younger people and athletes.Mole...Hypertrophic cardiomyopathy(HCM)is an autosomal dominant inherited cardiomyopathy characterized by left ventricular hypertrophy.It is one of the chief causes of sudden cardiac death in younger people and athletes.Molecular-genetic studies have confirmed that the vast majority of HCM is caused by mutations in genes encoding sarcomere proteins.HCM has a relatively wide phenotypic heterogeneity,varying from asymptomatic to sudden cardiac death,because of the many different mutations and pathogenic genes underlying it.Many studies have explored the clinical symptoms and prognosis of HCM,emphasizing the importance of genotype in evaluating patient prognosis and guiding the clinical management of HCM.To elaborate the main pathogenic genes and phenotypic prognosis in HCM to promote a better understanding of this genetic disease.Retrospective analysis of literature to evaluate the association between underlying gene mutations and clinical phenotypes in HCM patients.As sequencing technology advances,the pathogenic gene mutation spectrum and phenotypic characteristics of HCM are gradually becoming clearer.HCM is a widespread inherited disease with a highly variable clinical phenotype.The precise mechanisms linking known pathogenic gene mutations and the clinical course of this heterogeneous condition remain elusive.展开更多
The use of a stable reference gene is fundamental for achieving reliable quantitative qRT-PCR (qPCR) results. Developing and evaluating the stability of reference genes is necessary for studying the molecular mechanis...The use of a stable reference gene is fundamental for achieving reliable quantitative qRT-PCR (qPCR) results. Developing and evaluating the stability of reference genes is necessary for studying the molecular mechanisms of M. transitoria in response to drought stress. In this study, 18 candidate reference genes were selected from transcriptome sequencing data of M. transitoria according to their FPKM values under different drought stress degrees. Cluster-23533.34641 was identified as the most stable reference gene for M. transitoria under drought stress based on qPCR results and combined analysis of Genorm, NormFinder, BestKeeper, and Delta Ct algorithms. The reference genes identified in this research offer improved accuracy for quantifying target gene expression in both M. transitoria and Malus species under drought stress. This study could provide insights into the drought stress-related functional gene or factor in M. transitoria, even in Malus species.展开更多
Sesame is a multi-purpose high-value oilseed crop,which can beused in the food,feed,and cosmetics applica-tions.The low yield of sesame is due to the lack of high-yielding and locally adapted varieties,which have the ...Sesame is a multi-purpose high-value oilseed crop,which can beused in the food,feed,and cosmetics applica-tions.The low yield of sesame is due to the lack of high-yielding and locally adapted varieties,which have the susceptibility to capsule shattering and biotic and abiotic stresses.The breeding gains in sesame are low and stagnant compared to other oilseed crops such as canola,groundnut and sunflower.Breeding for enhanced yieldrelated,oil quantity and quality,biotic and abiotic stresses tolerant varieties is vital to the adaptation of the climate change.Several genes and quantitative trait loci(QTLs)related to yield-related,oil quantity and quality,biotic and abiotic stresses tolerant have been identified through modern plant breeding tools in sesame.The depth understanding of the genetic basis,molecular mechanisms and regulatory genes involved in yield-related,oil quantity and quality,biotic and abiotic stresses tolerant in sesame is important for the improvement of sesame breeding programs.This article reviews and documents these achievements will provide fundamental data and references for practical applications of sesam research.展开更多
基金Supported by the National Natural Science Fundation of China(No.82101107No.81471575).
文摘AIM:To identify key genes and inflammatory signaling pathways involved in the anti-inflammatory effects of Hedysarum polybotrys polysaccharide(HPS)in a rat model of endotoxin-induced uveitis(EIU).METHODS:EIU was induced in Wistar rats through subcutaneous injection of lipopolysaccharide(LPS,200μg)and the rats were then randomly assigned to EIU group(n=5)and the HPS intervention group(n=5).HPS(400 mg/kg,intraperitoneally)or its carrier was administered 24h and 1h prior to EIU induction.Eyes were examined and enucleated 24h post-induction,and total RNA was extracted from the iris-ciliary body.Gene expression microarrays were used to identify differentially expressed genes(DEGs),followed by bioinformatics analyses,including gene ontology(GO)and pathway analysis.Key findings were not experimentally validated at the mRNA or protein level.RESULTS:A total of 322 DEGs were identified,comprising 254 mRNA and 68 lncRNA genes.GO analysis revealed significant functional categories,including response to LPS.Pathway analysis identified key signaling pathways involved in uveitis,such as cytokine-cytokine receptor interactions.Notably,16 mRNA and 7 lncRNA DEGs emerged as central nodes in the gene correlation network.CONCLUSION:HPS exerts its anti-inflammatory effects through coordinated signaling pathways,offering insights into potential therapeutic targets for managing uveitis.
文摘Researchers from the Institute of Genetics and Developmental Biology(IGDB)of the Chinese Academy of Sciences,with collaborators,identified two sorghum genes(SbSLT1 and SbSLT2)that block Striga-a parasitic plant,also known as“witchweed,”that causes$1.5 billion annual losses in Africa by draining crop nutrients.Published in Cell(February 12,2025),the study shows that these genes regulate strigolactones(SLs).
基金National Natural Science Foundation of China(82170747),and Shanghai Key Laboratory of Traditional Chinese Clinical Medicine(20DZ2272200).
文摘Objective To predict the autophagy-related pathogenesis and key diagnostic genes of diabetic kidney disease(DKD)through bioinformatics analysis,and to identify related Chinese medicines.Methods Data from sequencing microarrays GSE30528,GSE30529,and GSE1009 in the Gene Expression Omnibus(GEO)were employed.Differentially expressed genes(DEGs)with adjusted P<0.05 from GSE30528 and GSE30529 were identified.Combining these DEGs with the human autophagy gene database,Gene Ontology(GO),Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses,and protein-protein interaction(PPI)network analysis were conducted on the obtained DKD autophagy-related genes.Subsequently,the least absolute shrinkage and selection operator(LASSO)regression and support vector machinerecursive feature elimination(SVM-RFE)algorithms were adopted to select autophagy-related genes.The diagnostic capability of these genes was assessed through analysis with the external validation set from microarray GSE1009,and relevant Chinese medicines were inversely predicted using the SymMap database.Results A total of 2014 DEGs were selected from GSE30528 and GSE30529,leading to the identification of 37 DKD autophagy-related genes.GO analysis indicated 681 biological mechanisms,including autophagy regulation and plasma membrane microdomain activity.KEGG enrichment analysis identified 112 related signaling pathways.PPI network analysis showed a marked enrichment of autophagy-related genes in DKD.Through LASSO regression and SVM-RFE,four core diagnostic genes for autophagy in DKD were identified:protein phosphatase 1 regulatory subunit 15A(PPP1R15A),hypoxia inducible factor 1 alpha subunit(HIF1α),deleted in liver cancer 1(DLC1),and ceroid lipofuscinosis neuronal 3(CLN3).The external validation set demonstrated high diagnostic efficiency for these genes.Finally,146 kinds of potential Chinese medicines were predicted using the SymMap database,with heatclearing and detoxifying medicine and blood-activating and stasis-eliminating medicine accounting for the largest proportion(25/146 and 13/146,respectively).Conclusion This study analyzed and validated bioinformatics sequencing databases to elucidate the potential molecular mechanisms of DKD autophagy and predicted key diagnostic genes,potential therapeutic targets,and related Chinese medicines,laying a solid foundation for clinical research and application.
基金supported by the National Natural Science Foundation of China (Nos.52100182 and 52300204)the the Science and Technology Innovation Program of Hunan Province (No.2023RC3122).
文摘Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment processes used in wastewater treatment plants have a limited efficiencies of antibiotics resistant bacteria(ARB)disinfection and ARGs degradation and even promote the proliferation of ARGs.Problematically,ARB and ARGs in effluent pose potential risks if they are not further treated.Photocatalytic oxidation is considered a promising disinfection technology,where the photocatalytic process generates many free radicals that enhance the interaction between light and deoxyribonucleic acid(DNA)for ARB elimination and subsequent degradation of ARGs.This reviewaims to illustrate the progress of photocatalytic oxidation technology for removing antibiotics resistant(AR)from wastewater in recent years.We discuss the sources and transfer of ARGs in wastewater.The overall removal efficiencies of ultraviolet radiation(UV)/chlorination,UV/ozone,UV/H_(2)O_(2),and UV/sulfate-radical based system for ARB and ARGs,as well as the experimental parameters and removal mechanisms,are systematically discussed.The contribution of photocatalytic materials based on TiO_(2) and g-C_(3)N_(4) to the inactivation of ARB and degradation of ARGs is highlighted,producingmany free radicals to attack ARB and ARGs while effectively limiting the horizontal gene transfer(HGT)in wastewater.Finally,based on the reviewed studies,future research directions are proposed to realize specific photocatalytic oxidation technology applications and overcome current challenges.
基金supported by the Key Research and Development Program of Shandong Province,China(No 2021CXGC010803)Pan’an County Chinese Medicine Industry Project(No.PZYF202103).
文摘Reductive soil disinfestation(RSD)is commonly employed for soil remediation in greenhouse cultivation.However,its influence on antibiotic resistance genes(ARGs)in soil remains uncertain.This study investigated the dynamic changes in soil communities,potential bacterial pathogens,and ARG profiles under various organicmaterial treatments during RSD,including distillers’grains,potato peel,peanut vine,and peanut vine combined with charcoal.Results revealed that applying diverse organic materials in RSD significantly altered bacterial community composition and diminished the relative abundance of potential bacterial pathogens(P<0.05).The relative abundance of high-risk ARGs decreased by 10.7%-30.6%after RSD treatments,the main decreased ARG subtypeswere AAC(3)_Via,dfrA1,ErmB,lnuB,aadA.Actinobacteria was the primary host of ARGs and was suppressed by RSD.Soil physicochemical properties,such as total nitrogen,soil pH,total carbon,were crucial factors affecting ARG profiles.Our findings demonstrated that RSD treatment inhibited pathogenic bacteria and could be an option for reducing high-risk ARG proliferation in soil.
基金Supported by Tianjin Municipal Science and Technology Commission Grant,No.24ZXRKSY00010Program for Innovative Research Team in Peking Union Medical College,CAMS Initiative for Innovative Medicine,No.2023-I2M-2-008.
文摘Inflammatory bowel disease(IBD)is an incurable disease of the digestive system;however,the therapeutic methods for IBD remain limited.The pathogenesis of IBD was systematically discussed and compared in this paper,primarily comprising Crohn’s disease and ulcerative colitis.This paper focused on six common aspects:(1)Dysregulated immune responses;(2)Gene function changes;(3)Intestinal microbes disorder and imbalance;(4)Microbial infections;(5)Associations between IBD and other inflammatory diseases;and(6)Other factors.In addition,the pathogenesis differences between these two forms of IBD were unraveled and clearly distinguished.These unique aspects of pathogenesis provide crucial insights for the precise treatment of both Crohn’s disease and ulcerative colitis.This paper illustrates the root causes and beneficial factors of resistance to IBD,which provides novel insights on early prevention,development of new therapeutic agents,and treatment options of this disease.
基金supported by the Natural Science Foundation of China(No.52070145,51778453).
文摘The effects of disinfectants and plasmid-based antibiotic resistance genes(ARGs)on the growth of microorganisms and the plasmid-mediated transfer of ARGs in the water and biofilm of the drinkingwater distribution system under simulated conditionswere explored.The heterotrophic plate count of the water in reactors with 0.1 mg/L NaClO and NH_(2)Cl was higher than in the control groups.Therewas no similar phenomenon in biofilm.In thewater of reactors containing NaClO,the aphA and bla geneswere lower than in the antibiotic resistant bacteria group,while both genes were higher in the water of reactors with NH_(2)Cl than in the control group.Chloramine may promote the transfer of ARGs in the water phase.Both genes in the biofilm of the reactors containing chlorine were lower than the control group.Correlation analysis between ARGs and water quality parameters revealed that the copy numbers of the aphA gene were significantly positively correlated with the copy numbers of the bla gene in water and significantly negatively correlated in biofilm(p<0.05).The results of the sequencing assay showed that bacteria in the biofilm,in the presence of disinfectant,were primarily Gram-negative.1.0 mg/L chlorine decreased the diversity of the community in the biofilm.The relative abundance of some bacteria that may undergo transfer increased in the biofilm of the reactor containing 0.1 mg/L chlorine.
文摘Expression of rol genes from Ri plasmid of Agrobacterium rhizogenes not only leads to the excessive formation of adventitious roots, but also exhibits various genetically modified characteristics that have broad prospects for the application of plant genetic improvement. Since the 1980s of the last century, much progress has been made in the studies of A. rhizogenes, in particular the agropine type Ri plasmid rol genes and their applications for plant genetic improvement, which involves the structure and function of Ri plasmid, the characters of rol genes, the influence of rol genes expression on plants growth and development, and the applications of rol genes for genetic improvement of forest tree. In this paper, the advances in this field are reviewed and the existing problems about the application of rol genes for genetic improvement of forest tree are also discussed.
文摘Helicobacter pylori infection represents a widespread chronic condition with varying prevalence influenced by race, ethnicity, and geography. The severity of H. pylori-associated diseases is determined by an array of virulence factors. Although extensive studies have been conducted globally, data on the distribution of Helicobacter pylori virulence genes in Libya remain limited, constraining insights into the pathogenicity of local strains and hindering the development of targeted interventions. This study aimed to evaluate the prevalence of H. pylori infection, characterize essential virulence genes [vacA variants (s1/s2, m1/m2), cagA, and iceA1], and examine their association with gastroduodenal diseases among Libyan patients. Gastric biopsies from 144 participants were analyzed using polymerase chain reaction (PCR) assays, and risk factor data were collected via questionnaires. H. pylori was detected in 63.2% of samples by PCR. The vacA gene was present in 84.6% of cases, cagA in 58.2%, and iceA1 in 29.7%. Among vacA variants, s1 allele was most common (53.2%), followed by m1 (42.9%), m2 (37.7%), and s2 (13%) alleles. Significant associations were identified between specific virulence genes and the development of gastroduodenal diseases, highlighting their role in pathogenicity. This investigation is one of Libya’s first comprehensive assessments of H. pylori virulence factors, addressing a critical epidemiological gap. The high prevalence of virulence genes suggests their potential as disease biomarkers. These findings contribute to a deeper understanding of H. pylori pathogenicity within the Libyan population and establish a basis for future clinical interventions and public health strategies to manage and prevent H. pylori-associated diseases in Libya and comparable regions.
基金funded by the Key-Area Research and Development Program of Guangdong Province(Grant No.2022B0202070002)the Guangxi Science and Technology Major Program(Grant No.GuikeAA23023007-2)+1 种基金the Guangdong Province Modern Agricultural Industry Technology System Innovation Team Construction Project(2024CXTD19)Guangdong Basic and Applied Basic Research Foundation(Grant No.2023A1515010303)。
文摘Agrobacterium tumefaciens-mediated transformation has been widely adopted for plant genetic engineering and the study of gene function(Krenek et al.,2015).This method is prevalent in the genetic transformation of herbaceous plants,with notable applications in species such as Arabidopsis(Yin et al.,2024),soybean(Zhang et al.,2024),rice(Zhang et al.,2020),and Chinese cabbage(Li et al.,2021).However,its application in fruit trees is limited.This is primarily due to their long growth cycles and lack of rapid,efficient,and stable transgenic systems,which severely hinders foundational research involving plant genetic transformation(Mei et al.,2024).Furthermore,for subtropical fruit trees,the presence of recalcitrant seeds adds an extra layer of difficulty to genetic transformation(Umarani et al.,2015),as most methods rely on seed germination as a basis for transformation.
基金funded by grants from the National Key R&D Project(2023YFD1400201-02,2023YFD1400203-02)the National Natural Science Foundation of China(31870137)+1 种基金the National Transgenic Research Project(2015ZX08001-002)the Key R&D Project of Guangdong Province(2022B0202060005).
文摘Asian rice comprises two major subspecies:Xian(X)and Geng(G),and the diverged resistance genes(R)have provided a foundation for breeding improved cultivars to control rice blast disease.After conducting two-phase allele mining using six updated FNP marker systems,the functional haplotypes at Pit,Pib,and Pi63 strictly diverged into the X-populations and were defined as X-R loci,while those at Pi54,Pi37,and Pi36 into the G-populations as G-R loci.The genic diversity at the three X-R loci(16 alleles)was twofold higher than that at the three G-R loci(8 alleles),and the allelic diversity in the Southern region(21 alleles)was nearly double that in the Northeastern region(11 alleles).Both observations reflect a significant difference in genetic diversity between X-and G-populations,and indicate that the effective R-genes mainly originated from X-subspecies.Based on the allelic structures characterized by a set of 10 parameters,8 and 16 alleles were respectively recognized as favorable and promising ones for the regional breeding programs.The genotypic structures of the two regional populations were almost different,indicating that the diverged alleles have been further assembled into two series of regional genotypes through long-term breeding programs,despite the presence of one-third of region-common alleles.The genotypic diversity in the Southern region(55 genotypes)was nearly twice as high as that in the Northeastern region(28),which perfectly reflects the aforementioned differences in both genic and allelic diversities.After analyzing the genotypic structures using a set of 13 parameters,4 and 23 genotypes,respectively,can be recommended as the favorable and promising ones for the regional breeding programs.The case study serves as a concrete sample of how to identify the favorable and promising alleles and genotypes,and beneficial parents based their comprehensive population structures for gene-designed breeding.
基金supported by the National Natural Science Found ation of China(No.8230045i for Zhen Wang,82302230 for jiawei Shi,82202194 for Jing Wang and 82171961 for Haiyan Cao).
文摘Background:Tetralogy of Fallot(TOF),the predominant cyanotic congenital heart defect,arisesfrom multifactorial gene-envirorment interactions disrup ting cardiac developmental networks.This studyinvestiga ted TOF-specific transcriptional alterations and identified high-confidence candidate genes.Methods:Based on GSE36761 transcriptome data,a weighted gene co-exp ression network analysis(WGCNA)andprotein-protein interaction(PPI)network were conducted to identify TOF-related sub-netrwork and Hub genes.The potentialbiological functions among these genes were revealed by enrichment analysis.Genetic,epigeneticand transcriptional alteration in the Fub genes were analyzed with leveraged public resources:a methylationdataset(CSE62629)and two single-cell datasets(EGAS00001003996 and GSE126128),Results:Eight Hub geneswere identified using the WGCNA network and PPl network,and functional errichment analysis revealedthatGJA1,RUNX2,FTK7,PRICKLE1,and SPRP1 were involved in the morphogenesis of an epithelium,anddysregulation of the signaling were also found in the other two TOF datasets,Furthermore,the study foundthat the promoters of GJA1,RUNX2,FTK7,and PRICKLE1 genes were hypermethylated and that GJA1 andSFRP1 are highly expressed in mouse second heart field cells and neural crest cells,and the la tter is expressedin human embry onic outflow tract cells.Since RUNX2 was not expressed in human and mouse embryonichearts,GJA1,FTK7,PRICKLE1,and SPRP1 were ultimately identified as TOF candidate genes.Conclusion:Based on the WGCNA network and various bioinformatics analysis approaches,we screened 4 TOF candidatepathogenic genes,and found that the signaling pathways related to the morphogenesis of an epithelium maybe involved in the pathogenesis of TOF.
基金supported by the National Natural Science Fund of China(Grant Nos.31872066 and 32272663)the Science and Technology Planning Project of Guangzhou(Grant No.2023B01J2002)+1 种基金the Key Research and Development Program of Hainan(Grant No.ZDYF2023XDNY052)the Seed Industry Engineering Project of Ministry of Agriculture and Rural Affairs of Guangdong(Grant Nos.2022-NPY-00-004 and 2022-NBH-00-001)。
文摘Litchi chinensis Sonn.is an important economic fruit tree in tropical and subtropical regions.Regrettably,the efficiency of plant regeneration via somatic embryogenesis in litchi is typically low due to the poor conversion of embryos to plants.The purpose of this study was to establish a regeneration system via somatic embryogenesis from immature embryos explants in‘Heiye'cultivar of litchi.Our results demonstrated that MS medium supplemented with 2.0 mg L^(-1)2,4-D was optimal for callus induction.For somatic embryo(SE)induction,MS medium containing0.5 g L^(-1) activated charcoal(AC)was the most effective,while the use of zeatin(ZT)and thidiazuron(TDZ)resulted in abnormal somatic embryos.The rooting and regeneration rate of 2.15%and 17.5%,respectively,were achieved using MS medium supplemented with 0.5 g L^(-1) AC.Furthermore,transcriptome analysis was performed on embryogenic callus(EC),globular embryo(GE),and heart embryo(HE)to explore the molecular mechanisms of early somatic embryogenesis.2,587 common differentially expressed genes(DEGs)between EC_vs_GE and EC_vs_HE were identified,and the expression patterns of these common DEGs were separated into twelve major clusters.GO annotation and KEGG pathway analysis revealed that these common DEGs were implicated in plant hormone signal transduction,auxin-activated signaling pathway,and other biological processes.Additionally,differentially expressed transcription factors were identified,and the function of LcBBM2 which is specifically highly expressed during early somatic embryogenesis was verified.Overexpression of LcBBM2 in tomato promotes callus and shoot formation.Therefore,this study can provide a theoretical basis and technical support for genetic breeding improvement of litchi.
基金funded by Science and Technology Research Project of Shanghai Greening and City Appearance Administration in 2023(G232406).
文摘Hydrangea macrophylla is a popular ornamental shrub with a lot of economic and aesthetic value.It is known for its different flower shapes(lacecap and mophead)and the way its flowers change color depending on the pH of the soil.Even though it is important for gardening,we still don’t know much about the molecular processes that lead to flower growth.The purpose of this study was to find and study SNP-related genes and transcription factors that are connected to the growth of H.macrophylla flowers.Genome-wide SNP analysis identified 11 SNPs associated with MYB transcription factors and 10 SNPs linked to a MADS-box SEP1 gene,highlighting their potential role in inflorescence-type regulation.These SNPs provide genomic resources for functional validation and markerassisted breeding in Hydrangea macrophylla.We found the MYB and MADS-box gene families,which are important for pigmentation and flower organ identity,through an analysis of the transcriptome and gene expression.The MYB family has 731R-MYBs,105 R2R3-MYBs,and 43R-MYBs.TheMADS-box family had 42 Type I(M-type)members and 36 Type II(MIKC-type)members.Motif and phylogenetic analysis showed that certain domains were preserved.For example,R2R3-MYBs and MIKC-type MADS genes are grouped with Arabidopsis orthologs,which suggests that their functions are also preserved.There was a clear link between the greatest expression ofMADS-box genes and the distinct phases of floral bud differentiation.Some MYB genes,on the other hand,showed alternative expression patterns that may help petals or sepals develop.qRT-PCR validation of representative MYB and MADS-box genes corroborated the transcriptome-based expression profiles,supporting their role in flower development and inflorescence-type regulation.
文摘This paper reviews the latest advances and applications of gene editing technologies in the study of aging-related genes.In recent years,gene editing has achieved significant progress in the biomedical field,with continual improvements in accuracy and efficiency.Gene editing technologies demonstrate unique advantages in aging research,providing powerful tools for elucidating aging mechanisms and developing anti-aging interventions.This paper offers a detailed overview of major gene editing technologies(such as the CRISPR/Cas system,TALENs,and ZFNs)as well as emerging editing techniques(including base editing,prime editing,and epigenetic editing),describing their principles and applications.It also discusses research progress in areas such as constructing aging gene models,disease models,in vivo editing,and in vitro editing.Furthermore,it analyzes current technological challenges and proposes corresponding optimization strategies.Finally,it considers future directions for the development of gene editing technologies in aging research,including technological innovation and integrated multi-technology applications.Through these advances and innovations,gene editing is expected to play an increasingly important role in the anti-aging field,offering new strategies and methods to promote human health and longevity.
基金supported by the grants from the National Natural Science Foundation of China(NSFC)-Henan United Fund(U22A20475 and U1704232)the Key Scientific and Technological Project of Henan Province,China(221111110500,161100111000,and HARS-22-05-G1)+2 种基金the Innovation Scientists and Technicians Troop Construction Projects of Henan Province,China(2018JR0001)the Henan Agricultural University High Level Talent Special Support Fund,China(30501418)the Key Scientific Research Project in Colleges and Universities of Henan Province,China(21A210018).
文摘Peanut(Arachis hypogaea L.)bacterial wilt(BW)is a devastating soil-borne disease caused by Ralstonia solanacearum(RS)that poses a significant threat to peanut yield and quality.Nucleotide-binding leucine-rich repeat(NBS-LRR)proteins are a class of plant-specific immune receptors that recognize pathogen-secreted effector molecules and activate immune responses to resist pathogen infections.However,the precise functions of AhCN genes(where CN is a class of nucleotide-binding site,leucine-rich repeat receptor(NLR)genes that lack LRR structural domains)in peanut plants are not fully understood.In this study,a total of 150 AhCN genes were identified and classified into nine subfamilies based on a systematic phylogenetic analysis.The AhCN genes showed highly conserved structural features,and the promoter cis-elements indicated involvement in plant hormone signaling and defense responses.After inoculation with RS,the highly resistant peanut variety‘H108’significantly outperformed the susceptible variety‘H107’based on physiological indicators such as plant height,main stem diameter,and fresh weight,likely due to the inhibition of bacterial proliferation and diffusion in the stem vascular bundle.AhCN34 was found to be significantly upregulated in‘H108’compared to‘H107’during plant infection and in response to treatments with each of three plant hormones.Importantly,AhCN34 overexpression in peanut leaves enhanced their resistance to BW.These findings demonstrate the great potential of AhCN34 for applications in peanut resistance breeding.Our identification and characterization of the AhCN genes provide insights into the mechanisms underlying BW resistance in peanut and can inform future research into genetic methods of improving BW resistance in peanut.
基金supported by the National Natural Science Foundation of China(Nos.52091545 and 51978645).
文摘The objective of this study is to quantitatively reveal the main genetic carrier of antibiotic resistance genes(ARGs)for blocking their environmental dissemination.The distribution of ARGs in chromosomes,plasmids,and phages for understanding their respective contributions to the development of antimicrobial resistance in aerobic biofilm consortium under increasing stresses of oxytetracycline,streptomycin,and tigecyclinewere revealed based on metagenomics analysis.Results showed that the plasmids harbored 49.2%-83.9%of resistomes,which was higher(p<0.001)than chromosomes(2.0%-35.6%),and no ARGs were detected in phage contigs under the strict alignment standard of over 80%identity used in this study.Plasmids and chromosomes tended to encode different types of ARGs,whose abundances all increased with the hike of antibiotic concentrations,and the variety of ARGs encoded by plasmids(14 types and 64 subtypes)was higher than that(11 types and 27 subtypes)of chromosomes.The dosing of the three antibiotics facilitated the transposition and recombination of ARGs on plasmids,mediated by transposable and integrable transfer elements,which increased the co-occurrence of associated and unassociated ARGs.The results quantitatively proved that plasmids dominate the proliferation of ARGs in aerobic biofilm driven by antibiotic selection,which should be a key target for blocking ARG dissemination.
基金Supported by National Natural Science Foundation of China,No.81770379 and 81470521.
文摘Hypertrophic cardiomyopathy(HCM)is an autosomal dominant inherited cardiomyopathy characterized by left ventricular hypertrophy.It is one of the chief causes of sudden cardiac death in younger people and athletes.Molecular-genetic studies have confirmed that the vast majority of HCM is caused by mutations in genes encoding sarcomere proteins.HCM has a relatively wide phenotypic heterogeneity,varying from asymptomatic to sudden cardiac death,because of the many different mutations and pathogenic genes underlying it.Many studies have explored the clinical symptoms and prognosis of HCM,emphasizing the importance of genotype in evaluating patient prognosis and guiding the clinical management of HCM.To elaborate the main pathogenic genes and phenotypic prognosis in HCM to promote a better understanding of this genetic disease.Retrospective analysis of literature to evaluate the association between underlying gene mutations and clinical phenotypes in HCM patients.As sequencing technology advances,the pathogenic gene mutation spectrum and phenotypic characteristics of HCM are gradually becoming clearer.HCM is a widespread inherited disease with a highly variable clinical phenotype.The precise mechanisms linking known pathogenic gene mutations and the clinical course of this heterogeneous condition remain elusive.
基金supported by the Natural Science Foundation of Qinghai Province(2022-ZJ-902).
文摘The use of a stable reference gene is fundamental for achieving reliable quantitative qRT-PCR (qPCR) results. Developing and evaluating the stability of reference genes is necessary for studying the molecular mechanisms of M. transitoria in response to drought stress. In this study, 18 candidate reference genes were selected from transcriptome sequencing data of M. transitoria according to their FPKM values under different drought stress degrees. Cluster-23533.34641 was identified as the most stable reference gene for M. transitoria under drought stress based on qPCR results and combined analysis of Genorm, NormFinder, BestKeeper, and Delta Ct algorithms. The reference genes identified in this research offer improved accuracy for quantifying target gene expression in both M. transitoria and Malus species under drought stress. This study could provide insights into the drought stress-related functional gene or factor in M. transitoria, even in Malus species.
基金supported by the National Key Research and Devel-opment Program of China(2024YFD1600100)the Talented Young Scientist Program(TYSP)+5 种基金the Agricultural Science and Technology Innovation Program of the Chinese Academy of Agricultural Sciences(CAAS-ASTIP-2024-OCRI)China Agriculture Research System(CARS-14)Hubei International Science and Technology Cooperation Project(2022EHB034,2024EHA055)Science and Technology Innovation Project of Hubei province(2024-620-000-001-031)Fundamental Research Funds for Central Non-profit Scientific Institution(1610172023003)the National Center for Crops Germplasm Re-sources(NCCGR-2024-016).
文摘Sesame is a multi-purpose high-value oilseed crop,which can beused in the food,feed,and cosmetics applica-tions.The low yield of sesame is due to the lack of high-yielding and locally adapted varieties,which have the susceptibility to capsule shattering and biotic and abiotic stresses.The breeding gains in sesame are low and stagnant compared to other oilseed crops such as canola,groundnut and sunflower.Breeding for enhanced yieldrelated,oil quantity and quality,biotic and abiotic stresses tolerant varieties is vital to the adaptation of the climate change.Several genes and quantitative trait loci(QTLs)related to yield-related,oil quantity and quality,biotic and abiotic stresses tolerant have been identified through modern plant breeding tools in sesame.The depth understanding of the genetic basis,molecular mechanisms and regulatory genes involved in yield-related,oil quantity and quality,biotic and abiotic stresses tolerant in sesame is important for the improvement of sesame breeding programs.This article reviews and documents these achievements will provide fundamental data and references for practical applications of sesam research.
