The nascent polypeptide-associated complex(NAC)plays crucial roles in various biological functions in eukaryotes and has been extensively studied in animals and plants;however,its role in the biocontrol mechanisms of ...The nascent polypeptide-associated complex(NAC)plays crucial roles in various biological functions in eukaryotes and has been extensively studied in animals and plants;however,its role in the biocontrol mechanisms of microorganisms requires further investigation.This study examined the function of TbNACα,a NAC subunit,in the biocontrol activity of Trichoderma breve T069 against Sclerotium rolfsii.Following deletion of the TbNACα gene from T.breve T069,the ΔTbNACα mutant exhibited significantly reduced mycelial growth,spore production,and spore germination.While volatile substances from ΔTbNACα showed no significant effect on S.rolfsii,non-volatile substances demonstrated significant inhibition of S.rolfsii growth.Transcriptome sequencing analysis revealed 3,398 differentially expressed genes in the ΔTbNACα mutant compared to wild-type T069,primarily regulating genes associated with secondary metabolite biosynthetic enzymes,hydrolases,and membrane transport proteins.Untargeted metabolomics identified 50 upregulated metabolites(27 in positive ion mode and 23 in negative ion mode)in crude extracts from ΔTbNACα mutant metabolite broth.Among these metabolic substances,ethyl caffeate demonstrated the strongest activity against S.rolfsii,with an EC_(50) of 107.15μg mL^(-1).Quantitative real-time PCR(qPCR)analysis indicated significant upregulation of genes involved in the ethyl caffeate synthesis pathway in ΔTbNACα strains.This research establishes the negative regulation of ethyl caffeate synthesis and elucidates the antagonistic inhibition mechanism of TbNACα in T.breve T069.展开更多
Uveitis is a sophisticated syndrome showing a high relevance with reactive oxygen species(ROS).Herein,an ROS-responsive PEGylated polypeptide based macromolecular prodrug of herbaceous antioxidant ethyl caffeate(EC)is...Uveitis is a sophisticated syndrome showing a high relevance with reactive oxygen species(ROS).Herein,an ROS-responsive PEGylated polypeptide based macromolecular prodrug of herbaceous antioxidant ethyl caffeate(EC)is designed via phenylboronic esters with improved solubility for the alleviation of uveitis.The antioxidative 4-hydroxybenzyl alcohol(HBA)and EC can be released from the macromolecular EC prodrug under the stimulation of ROS,which can effectively protect cells against oxidative stress-induced injury in an ROS-depletion way.The antioxidative and protective effects of the macromolecular EC prodrug in vivo are further verified in a uveitis mouse model.Overall,this work not only provides a handy method to synthesize a phenylboronic ester-bearing EC prodrug which is highly sensitive to pathological ROS,but also depicts a promising future to apply macromolecular antioxidative prodrugs in the treatment of uveitis as well as other ROS-related diseases.展开更多
A new cafferic ester, (+)-2-(1-hydroxyl-4-oxocyclohexyl) ethyl caffeate, was isolated from the 80% ethanol extract of the whole plants of Incarvillea mairei var. granditlora (Wehrhahn) Grierson. The structure o...A new cafferic ester, (+)-2-(1-hydroxyl-4-oxocyclohexyl) ethyl caffeate, was isolated from the 80% ethanol extract of the whole plants of Incarvillea mairei var. granditlora (Wehrhahn) Grierson. The structure of the compound was established by spectroscopic methods.展开更多
基金supported by the National Natural Science Foundation of China(32060589).
文摘The nascent polypeptide-associated complex(NAC)plays crucial roles in various biological functions in eukaryotes and has been extensively studied in animals and plants;however,its role in the biocontrol mechanisms of microorganisms requires further investigation.This study examined the function of TbNACα,a NAC subunit,in the biocontrol activity of Trichoderma breve T069 against Sclerotium rolfsii.Following deletion of the TbNACα gene from T.breve T069,the ΔTbNACα mutant exhibited significantly reduced mycelial growth,spore production,and spore germination.While volatile substances from ΔTbNACα showed no significant effect on S.rolfsii,non-volatile substances demonstrated significant inhibition of S.rolfsii growth.Transcriptome sequencing analysis revealed 3,398 differentially expressed genes in the ΔTbNACα mutant compared to wild-type T069,primarily regulating genes associated with secondary metabolite biosynthetic enzymes,hydrolases,and membrane transport proteins.Untargeted metabolomics identified 50 upregulated metabolites(27 in positive ion mode and 23 in negative ion mode)in crude extracts from ΔTbNACα mutant metabolite broth.Among these metabolic substances,ethyl caffeate demonstrated the strongest activity against S.rolfsii,with an EC_(50) of 107.15μg mL^(-1).Quantitative real-time PCR(qPCR)analysis indicated significant upregulation of genes involved in the ethyl caffeate synthesis pathway in ΔTbNACα strains.This research establishes the negative regulation of ethyl caffeate synthesis and elucidates the antagonistic inhibition mechanism of TbNACα in T.breve T069.
基金financially supported by National Key Research and Development Project (No. 2020YFE0204400)
文摘Uveitis is a sophisticated syndrome showing a high relevance with reactive oxygen species(ROS).Herein,an ROS-responsive PEGylated polypeptide based macromolecular prodrug of herbaceous antioxidant ethyl caffeate(EC)is designed via phenylboronic esters with improved solubility for the alleviation of uveitis.The antioxidative 4-hydroxybenzyl alcohol(HBA)and EC can be released from the macromolecular EC prodrug under the stimulation of ROS,which can effectively protect cells against oxidative stress-induced injury in an ROS-depletion way.The antioxidative and protective effects of the macromolecular EC prodrug in vivo are further verified in a uveitis mouse model.Overall,this work not only provides a handy method to synthesize a phenylboronic ester-bearing EC prodrug which is highly sensitive to pathological ROS,but also depicts a promising future to apply macromolecular antioxidative prodrugs in the treatment of uveitis as well as other ROS-related diseases.
基金program for Changjiang Scholars and Innovative Research Team in University (PCSIRT),NCET Foundation,NSFC (No.30725045)National 863 Program (No.2006AA02Z338)+1 种基金Shanghai Leading Academic Discipline Project (No.B906)the Scientific Foundation of Shanghai China (No.07DZ19728,06DZ19717,06DZ19005).
文摘A new cafferic ester, (+)-2-(1-hydroxyl-4-oxocyclohexyl) ethyl caffeate, was isolated from the 80% ethanol extract of the whole plants of Incarvillea mairei var. granditlora (Wehrhahn) Grierson. The structure of the compound was established by spectroscopic methods.
