Hypocrea/Trichoderma is a genus of soil-borne or wood-decaying fungi containing members important to mankind as producers of industrial enzymes and biocontrol agents against plant pathogens, but also as opportunistic ...Hypocrea/Trichoderma is a genus of soil-borne or wood-decaying fungi containing members important to mankind as producers of industrial enzymes and biocontrol agents against plant pathogens, but also as opportunistic pathogens of immuno- compromised humans and animals, while others can cause damage to cultivated mushroom. With the recent advent of a reliable, BarCode-aided identification system for all known taxa of Trichoderma and Hypocrea, it became now possible to study some of the biological fundamentals of the diversity in this fungal genus in more detail. In this article, we will therefore review recent progress in (1) the understanding of the geographic distribution of individual taxa; (2) mechanisms of speciation leading to development of mushroom diseases and facultative human mycoses; and (3) the possible correlation of specific traits of secondary metabolism and molecular phylogeny.展开更多
With increased imports of foreign microbes either as commercial biocontrol produ cts or for the purposes of research, there is potentially an increased threat to indigenous beneficial microflora. In the present study,...With increased imports of foreign microbes either as commercial biocontrol produ cts or for the purposes of research, there is potentially an increased threat to indigenous beneficial microflora. In the present study, indigenous species of t he fungal genus Hypocrea/Trichoderma are being used as a model system to d etermine the impact of foreign microbes on the native microflora of New Zealand. In order to protect such microflora, one has to first be aware of what is curre ntly present and what sites, if any, are most vulnerable. A preliminary survey f or the presence and diversity of species of Hypocrea/Trichoderma is curren tly underway in New Zealand and samples are being assessed from forest soils, ag ricultural soils, orchards, garden soils, sclerotia of various plant pathogens a nd pasture land. To date 238 isolates have been identified using both morphologi cal characters and DNA sequence data from the ITS regions of the ribosomal gene cluster (ITS1 & ITS2) and, in some instances, sequence of the elongation facto r gene (EF1-α) . Isolates were found to represent 16 known species plus three s pec ies as yet undescribed. In forest soils T. harzianum /T. inhamatum (31%) and T. viride (29%) followed by T. fertile (13%), were clearly th e most abundant species and the remaining five species found in forests (T. a troviride, T. koningii, T. aureoviride, H. cf. flavovirens anamorph and one u nknown) each accounting for <8% of the total. Dominance by the species T. h arzianum/inhamatum is consistent with studies done in South-East Asia, a mid -E uropean primeval floodplain-forest and Moscow. In contrast, when isolations wer e conducted with a bias for biocontrol capabilities it was found that the species T. atroviride (29%), T. koningii (17 %), T. harzianum (1 5%) and T. viride (12%) dominated respectively. This survey is currently on go ing in New Zealand. Future studies will monitor indigenous species and strains f ollowing inoculation of specific microbes to assess the impact of the introduced microbe on the natural ecosystem.展开更多
Trichoderma strains possessing biological control functions have been used in agriculture against phytopathogens.Currently,only very few species of the genus were applied to or involved in plant disease control.Discov...Trichoderma strains possessing biological control functions have been used in agriculture against phytopathogens.Currently,only very few species of the genus were applied to or involved in plant disease control.Discovery of additional useful resources is desperately needed.In this study,biocontrol effect of Trichoderma vermifimicola strain TC467 was evaluated by dual confrontation culture,cellophane and two-compartment culture,pot experiments,and resistance to chemical fungicides.The results demonstrated that TC467 produced substances essential to phytopathogen control(including siderophore,xylanase and chitinase)and plant growth promoters(producing indole-3-acetic acid and gibberellin).The strain displayed a high inhibition rate against Botrytis cinerea reaching 85.26%;and its non-volatile and volatile secondary metabolites showed the inhibition rates to Sclerotinia sclerotiorum and B.cinerea as high as 84.67%and 47.62%,respectively.In pot experiments,comparing with untreated plants TC467 significantly enhanced the height and fresh weight of lettuce(Lactuca sativa var.ramosa)by 46.69%and 15.33%,respectively.Its fermentation broth effectively minimized the lettuce disease caused by B.cinerea with inhibition rate of 87.76%.In addition,the strain showed higher tolerance to hymexazol water-dispersible granule than that to other tested fungicides;at the concentration of 0.42 mg/L the growth rate of TC467 can even approach 98.19%.T.vermifimicola strain TC467 has the potential for practical application in biocontrol especially plant diseases caused by B.cinerea,which extends our knowledge of nature beneficial resources.展开更多
The discharge of effluents containing uranium(U)ions into aquatic ecosystems poses significant risks to both human health and marine organisms.This study investigated the biosorption of U(VI)ions from aqueous solution...The discharge of effluents containing uranium(U)ions into aquatic ecosystems poses significant risks to both human health and marine organisms.This study investigated the biosorption of U(VI)ions from aqueous solutions using corncob-sodium alginate(SA)-immobilized Trichoderma aureoviride hyphal pellets.Experimental parameters,including initial solution pH,initial concentration,temperature,and contact time,were systematically examined to understand their influence on the bioadsorption process.Results showed that the corncob-SA-immobilized T.aureoviride hyphal pellets exhibited maximum uranium biosorption capacity at an initial pH of 6.23 and a contact time of 12 h.The equilibrium data aligned with the Langmuir isotherm model,with a maximum biosorption capacity of 105.60 mg/g at 301 K.Moreover,biosorption kinetics followed the pseudo-second-order kinetic model.In terms of thermodynamic parameters,the changes in Gibbs-free energy(△G°)were determined to be-4.29 kJ/mol at 301 K,the changes in enthalpy(△H°)were 46.88 kJ/mol,and the changes in entropy(△S°)was 164.98 J/(mol·K).Notably,the adsorbed U(VI)could be efficiently desorbed using Na_(2)CO_(3),with a maximum readsorption efficiency of 53.6%.Scanning electron microscopic(SEM)analysis revealed U(VI)ion binding onto the hyphal pellet surface.This study underscores the efficacy of corncob-SA-immobilized T.aureoviride hyphal pellets as a cost-effective and environmentally favorable biosorbent material for removing U(VI)from aquatic ecosystems.展开更多
Background:Momordica charantia L.var.abbreviata Ser.(MCA),locally known as“ampalayang ligaw”,is a wild variety of Momordica charantia L.,and a valuable medicinal plant possessing hypoglycemic activity.However,it onl...Background:Momordica charantia L.var.abbreviata Ser.(MCA),locally known as“ampalayang ligaw”,is a wild variety of Momordica charantia L.,and a valuable medicinal plant possessing hypoglycemic activity.However,it only grows in open fields and is not widely cultivated due to slow growth and low productivity.Methods:To enhance its overall plant health,a consortium of three Trichoderma spp.was inoculated into MCA.The effects on growth,floral biology,productivity,and total triterpenes were assessed to determine the efficacy of Trichoderma spp.as a sustainable and environment-friendly plant growth promoter.A consortium of three Trichoderma spp.(T.ghanense,T.pseudokoningii,and T.harzianum)mixed in equal proportions were applied as seed coat and soil drench according to previous recommendations.Results:Results show that Trichoderma-treated MCA exhibited significantly(P<0.05)greater leaf area and growth rate compared to the untreated control.Trichoderma likewise affected the floral biology of MCA with bigger flower sizes(P<0.01),earlier male flower emergence,and increased number of female flowers(P<0.05).Regarding productivity,Trichoderma significantly increased the fruit set,dry weight and length of fruits(P<0.01),number of fruits per plant,and seed germination percentage(P<0.05).An increase in shoot length was significantly correlated to a greater number of fruits hence with higher productivity.Trichoderma also significantly enhanced(22%increase)the total triterpenes in MCA leaves,probably owing to hormonal modulation of gene expression changes as previous studies have shown.The increased triterpene content suggests an enhanced pharmacological potential of Trichoderma-treated MCA for diabetes management,warranting further bioactivity studies.Conclusion:Therefore,these results reveal the efficacy of Trichoderma on MCA productivity enhancement,demonstrating the potential of Trichoderma-treated MCA to become more amenable to commercial cultivation.展开更多
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
Several Trichoderma species serve as biocontrol agents in agriculture through their phytopathogen growth inhibition capabilities.However,the antagonistic mechanism of certain strains primarily operates through direct ...Several Trichoderma species serve as biocontrol agents in agriculture through their phytopathogen growth inhibition capabilities.However,the antagonistic mechanism of certain strains primarily operates through direct action.This study aims to explore an effective strain with comprehensive capabilities and elucidate its practical viability and action mechanism.Trichoderma gamsii strain TC959,exhibiting robust antagonistic and plant growth-promoting properties,was identified.The strain directly inhibits plant pathogen through the production of secondary metabolites,siderophores,and chitinase/xylanase,while promotes plant growth via indole-3-acetic acid/gibberellin release.Additionally,the strain activates induced systemic resistance by enhancing the chlorophyll a/b ratio and jasmonic acid content in pepper seedlings through root colonization,leading to elevated defense-related gene expression,antioxidant enzyme activity,and indole-3-acetic acid/gibberellin production.These mechanisms collectively enhance disease resistance and promote plant growth.Moreover,TC959 demonstrates superior resistance to oxidation and chemical fungicides,facilitating strain viability maintenance and ensuring healthy pepper seedling development.The study concludes that strain TC959 exhibits significant biocontrol potential and comprehensive functions against pepper damping-off disease,warranting further practical applications.展开更多
Safe strain identification and species recognition is an important issue for Trichoderma and Hypocrea, because members of the genus are economically important producers of industrial enzymes and antibiotics, have appl...Safe strain identification and species recognition is an important issue for Trichoderma and Hypocrea, because members of the genus are economically important producers of industrial enzymes and antibiotics, have application as biocontrol agents against plant pathogens, whereas some have become known as opportunistic pathogens of immunocompromised mammals and humans. However, classical approaches based on the use of morphological and phenetic characters have been difficult to apply, due to the plasticity of characters and the discordance of morphological and molecular evolution. The application of the genealogical concordance and phylogenetic species concept (GCPSC) has made is an attractive alternative to morphological species recognition, but has not been stringently applied to Hypocrea/Trichoderma. In this review, I shall explain the tools needed and strategy of this concept, and I will present examples where it has been recently used by us and others to confirm existing taxa and to detect new species in various clades and sections of Trichoderma. In addition, the present state of a global survey of biodiversity of Trichoderma and Hypocrea will be presented, and reviewed in relation to biogeography and the mode of speciation of this genus.展开更多
Biocontrol by Trichoderma has been studied mainly with selected isolates of T. harzianum, T. atroviride and T. asperellum, which are members of sections Pachybasium and Trichoderma. In contrast, species from section L...Biocontrol by Trichoderma has been studied mainly with selected isolates of T. harzianum, T. atroviride and T. asperellum, which are members of sections Pachybasium and Trichoderma. In contrast, species from section Longibrachiatum have only rarely been studied. On the other hand, one taxon from this section-Hypocrea jecorina (anamorph: Trichoderma reesei)-has been widely used for the production of cellulolytic and hemicellulolytic enzymes and recombinant proteins. As far as Trichoderma is concerned, molecular genetic methods and tools are most advanced in H. jecorina, and its genome has recently been fully sequenced, thus making this taxon a model organism for the genus. Here we will demonstrate that H. jecorina is able to antagonize plant pathogenic fungi in plate confrontation tests, and can protect tomato and cucumber plants against Pythium ultimum blight. Using this as a model case, we made use of available H. jecorina mutants to investigate (a) whether carbon catabolite repression via the Cre1-regulator protein has an impact on biocontrol, and (b) whether cellulase gene expression is necessary for biocontrol of P. ultimum. In the first case, plate confrontation tests and in planta experiments yielded opposite results, i.e. while a Cre1 mutant was more active in antagonization of fungi on plates, the survival rates of P. ultimum-inoculated cucumber plants was lower than with the H. jecorina wild-type strain. Mutants of H. jecorina, unable to form cellulases, were still able to antagonize fungi on plates and provided similar protection of tomatos against P. ultimum as the wild type, indicating that the pronounced biocontrol ability of H. jecorina against fungi with cellulose-containing cell-walls is not due to its high cellulolytic activity. A strain disrupted in the light-modulator gene envoy (Schmoll et al., ms submitted) exhibited in planta biocontrol activity strongly exceeding that of the wild-type strain, thereby providing a first link between Trichoderma biocontrol and light. In view of the numerous other metabolic and regulatory mutants of H. jecorina available, we suggest that this fungus should increasingly be used in basic studies on the biochemistry and genetics of biocontrol.展开更多
Apple replant disease(ARD) is primarily caused by biotic factors that seriously inhibits the development of apple industry. Therefore, the use of biological control measures to inhibit the main pathogens(such as Fusar...Apple replant disease(ARD) is primarily caused by biotic factors that seriously inhibits the development of apple industry. Therefore, the use of biological control measures to inhibit the main pathogens(such as Fusarium spp.) that cause ARD is of great significance to the sustainable development of the apple industry. Trichoderma virens 6PS-2, which exhibited antagonism toward a variety of pathogens, was screened from the rhizosphere soils of healthy apple trees(Malus robusta) in different replanted orchards in the Yantai and Zibo Cities, Shandong Province, China. Its fermentation extract inhibited the growth of pathogenic Fusarium proliferatum f. sp. Malus domestica MR5, which was proportional to the concentration. These substances also increased the hairy root volume and growth of Arabidopsis thaliana lateral roots. The phenotype of Malus hupehensis seedlings and microbial community structure in rhizosphere soils in greenhouse experiment using Highthroughput sequencing were analyzed, and the field experiment with grafted apple trees were used for further verification. Compared with the application of potato dextrose broth(PDB) medium, application of 6PS-2 spore suspension directly to replanted soils could improve the growth of M. hupehensis seedlings as well as the elongation of grafted apple trees. Concomitant decreases in the gene copy number of Fusarium and increases in the culturable bacteria/fungi were also observed in the greenhouse and field experiments. The abundance of Trichoderma,Bacillus, and Streptomyces increased significantly, but that of Fusarium, Pseudarthrobacter, and Humicola decreased. The content of esters, phenols,furans, and amino acids in root exudates of M. hupehensis seedlings increased, which significantly inhibited the multiplication of Fusarium, but was positively correlated with Bacillus and Trichoderma. In summary, T. virens 6PS-2 not only directly inhibits the activity of pathogenic Fusarium but also secrets secondary metabolites with antifungal and growth-promoting potential. In addition, 6PS-2 spore suspension can also promote the growth of plants to a certain extent, and change the soil microbial community structure of rhizosphere soils. It is believed that T. virens 6PS-2 has the potential for the alleviation of apple replant disease(ARD) in China.展开更多
Marine-derived fungi of the genus Trichoderma have been surveyed for pharmaceuticals and agrochemicals since 1993,with various new secondary metabolites being characterized from the strains of marine animal,plant,sedi...Marine-derived fungi of the genus Trichoderma have been surveyed for pharmaceuticals and agrochemicals since 1993,with various new secondary metabolites being characterized from the strains of marine animal,plant,sediment,and water origin.Chemical structures and biological activities of these metabolites are comprehensively reviewed herein up to the end of 2022(covering 30 years).More than 70 strains that belong to at least 18 known Trichoderma species have been chemically investigated during this period.As a result,445 new metabolites,including terpenes,steroids,polyketides,peptides,alkaloids,and others,have been identified,with over a half possessing antimicroalgal,zooplankton-toxic,antibacterial,antifungal,cytotoxic,anti-inflammatory,and other activities.The research is highlighted by the molecular diversity and antimicroalgal potency of terpenes and steroids.In addition,metabolic relevance along with co-culture induction in the production of new compounds is also concluded.Trichoderma strains of marine origin can transform and degrade heterogeneous molecules,but these functions need further exploration.展开更多
Citrinsorbicillin A(1),a novel homotrimeric sorbicillinoid,along with two new monomers citrinsor-bicillins B(2)and C(3),were isolated from the Coptis chinensis endophyte Trichoderma citrinoviride HT-9 by liquid chroma...Citrinsorbicillin A(1),a novel homotrimeric sorbicillinoid,along with two new monomers citrinsor-bicillins B(2)and C(3),were isolated from the Coptis chinensis endophyte Trichoderma citrinoviride HT-9 by liquid chromatograph mass spectrometer(LC-MS)-guided strategy.1 was the first trimeric-example from terrestrial fungi,which possessed a unique carbon skeleton with two bicyclo[2.2.2]octanedione ring connected through an enolated carbon forming by[4+2]cycloaddition.Their structures were elucidated by spectroscopic analysis and X-ray diffraction.1 exhibited moderate cytotoxicity against human colon cancer HT29 cells,and it induced significant cell cycle arrest by reducing the protein expression of cyclin D1.展开更多
Two novel koninginin derivatives,koningipyridines A and B(1 and 2),along with four known compounds(3-6)were isolated from the EtOAc extract of the endophytic fungus Trichoderma koningiopsis SC-5.Among them,koningipyri...Two novel koninginin derivatives,koningipyridines A and B(1 and 2),along with four known compounds(3-6)were isolated from the EtOAc extract of the endophytic fungus Trichoderma koningiopsis SC-5.Among them,koningipyridine A featured an unprecedented pentacyclic ketal skeleton with the formation of a fascinating 6/6/5/6/5 fused ring system and shared a characteristic pyridine core,which represents the first example of nitrogen-containing koninginin-type natural product.Moreover,koningipyridine B was the first member in the koninginin family sharing a unique 6/6/5 dihydropyridine skeleton,and it was suggested to be the critical biosynthetic precursor of koningipyridine A.The structures of 1 and 2 were elucidated by the interpretation of 1D and 2D NMR spectroscopy,HRESIMS data,as well as theoretical calculations of 13C NMR and electronic circular dichroism(ECD).Moreover,all isolates were screened for antimicrobial activities against Staphylococcus aureus,MRSA,and Escherichia coli as well as the cytotoxic effects against three cancer cell lines(A549,Hela,and HepG2).展开更多
基金Project (Nos.FWF P-12748-MOB,FWF P-16601-CPK,and FWFP-17895-ISD) supported by the Austrian Science Fund Grants
文摘Hypocrea/Trichoderma is a genus of soil-borne or wood-decaying fungi containing members important to mankind as producers of industrial enzymes and biocontrol agents against plant pathogens, but also as opportunistic pathogens of immuno- compromised humans and animals, while others can cause damage to cultivated mushroom. With the recent advent of a reliable, BarCode-aided identification system for all known taxa of Trichoderma and Hypocrea, it became now possible to study some of the biological fundamentals of the diversity in this fungal genus in more detail. In this article, we will therefore review recent progress in (1) the understanding of the geographic distribution of individual taxa; (2) mechanisms of speciation leading to development of mushroom diseases and facultative human mycoses; and (3) the possible correlation of specific traits of secondary metabolism and molecular phylogeny.
文摘With increased imports of foreign microbes either as commercial biocontrol produ cts or for the purposes of research, there is potentially an increased threat to indigenous beneficial microflora. In the present study, indigenous species of t he fungal genus Hypocrea/Trichoderma are being used as a model system to d etermine the impact of foreign microbes on the native microflora of New Zealand. In order to protect such microflora, one has to first be aware of what is curre ntly present and what sites, if any, are most vulnerable. A preliminary survey f or the presence and diversity of species of Hypocrea/Trichoderma is curren tly underway in New Zealand and samples are being assessed from forest soils, ag ricultural soils, orchards, garden soils, sclerotia of various plant pathogens a nd pasture land. To date 238 isolates have been identified using both morphologi cal characters and DNA sequence data from the ITS regions of the ribosomal gene cluster (ITS1 & ITS2) and, in some instances, sequence of the elongation facto r gene (EF1-α) . Isolates were found to represent 16 known species plus three s pec ies as yet undescribed. In forest soils T. harzianum /T. inhamatum (31%) and T. viride (29%) followed by T. fertile (13%), were clearly th e most abundant species and the remaining five species found in forests (T. a troviride, T. koningii, T. aureoviride, H. cf. flavovirens anamorph and one u nknown) each accounting for <8% of the total. Dominance by the species T. h arzianum/inhamatum is consistent with studies done in South-East Asia, a mid -E uropean primeval floodplain-forest and Moscow. In contrast, when isolations wer e conducted with a bias for biocontrol capabilities it was found that the species T. atroviride (29%), T. koningii (17 %), T. harzianum (1 5%) and T. viride (12%) dominated respectively. This survey is currently on go ing in New Zealand. Future studies will monitor indigenous species and strains f ollowing inoculation of specific microbes to assess the impact of the introduced microbe on the natural ecosystem.
文摘Trichoderma strains possessing biological control functions have been used in agriculture against phytopathogens.Currently,only very few species of the genus were applied to or involved in plant disease control.Discovery of additional useful resources is desperately needed.In this study,biocontrol effect of Trichoderma vermifimicola strain TC467 was evaluated by dual confrontation culture,cellophane and two-compartment culture,pot experiments,and resistance to chemical fungicides.The results demonstrated that TC467 produced substances essential to phytopathogen control(including siderophore,xylanase and chitinase)and plant growth promoters(producing indole-3-acetic acid and gibberellin).The strain displayed a high inhibition rate against Botrytis cinerea reaching 85.26%;and its non-volatile and volatile secondary metabolites showed the inhibition rates to Sclerotinia sclerotiorum and B.cinerea as high as 84.67%and 47.62%,respectively.In pot experiments,comparing with untreated plants TC467 significantly enhanced the height and fresh weight of lettuce(Lactuca sativa var.ramosa)by 46.69%and 15.33%,respectively.Its fermentation broth effectively minimized the lettuce disease caused by B.cinerea with inhibition rate of 87.76%.In addition,the strain showed higher tolerance to hymexazol water-dispersible granule than that to other tested fungicides;at the concentration of 0.42 mg/L the growth rate of TC467 can even approach 98.19%.T.vermifimicola strain TC467 has the potential for practical application in biocontrol especially plant diseases caused by B.cinerea,which extends our knowledge of nature beneficial resources.
基金supported by the National Natural Science Foundation of China(Grant No.21968001).
文摘The discharge of effluents containing uranium(U)ions into aquatic ecosystems poses significant risks to both human health and marine organisms.This study investigated the biosorption of U(VI)ions from aqueous solutions using corncob-sodium alginate(SA)-immobilized Trichoderma aureoviride hyphal pellets.Experimental parameters,including initial solution pH,initial concentration,temperature,and contact time,were systematically examined to understand their influence on the bioadsorption process.Results showed that the corncob-SA-immobilized T.aureoviride hyphal pellets exhibited maximum uranium biosorption capacity at an initial pH of 6.23 and a contact time of 12 h.The equilibrium data aligned with the Langmuir isotherm model,with a maximum biosorption capacity of 105.60 mg/g at 301 K.Moreover,biosorption kinetics followed the pseudo-second-order kinetic model.In terms of thermodynamic parameters,the changes in Gibbs-free energy(△G°)were determined to be-4.29 kJ/mol at 301 K,the changes in enthalpy(△H°)were 46.88 kJ/mol,and the changes in entropy(△S°)was 164.98 J/(mol·K).Notably,the adsorbed U(VI)could be efficiently desorbed using Na_(2)CO_(3),with a maximum readsorption efficiency of 53.6%.Scanning electron microscopic(SEM)analysis revealed U(VI)ion binding onto the hyphal pellet surface.This study underscores the efficacy of corncob-SA-immobilized T.aureoviride hyphal pellets as a cost-effective and environmentally favorable biosorbent material for removing U(VI)from aquatic ecosystems.
文摘Background:Momordica charantia L.var.abbreviata Ser.(MCA),locally known as“ampalayang ligaw”,is a wild variety of Momordica charantia L.,and a valuable medicinal plant possessing hypoglycemic activity.However,it only grows in open fields and is not widely cultivated due to slow growth and low productivity.Methods:To enhance its overall plant health,a consortium of three Trichoderma spp.was inoculated into MCA.The effects on growth,floral biology,productivity,and total triterpenes were assessed to determine the efficacy of Trichoderma spp.as a sustainable and environment-friendly plant growth promoter.A consortium of three Trichoderma spp.(T.ghanense,T.pseudokoningii,and T.harzianum)mixed in equal proportions were applied as seed coat and soil drench according to previous recommendations.Results:Results show that Trichoderma-treated MCA exhibited significantly(P<0.05)greater leaf area and growth rate compared to the untreated control.Trichoderma likewise affected the floral biology of MCA with bigger flower sizes(P<0.01),earlier male flower emergence,and increased number of female flowers(P<0.05).Regarding productivity,Trichoderma significantly increased the fruit set,dry weight and length of fruits(P<0.01),number of fruits per plant,and seed germination percentage(P<0.05).An increase in shoot length was significantly correlated to a greater number of fruits hence with higher productivity.Trichoderma also significantly enhanced(22%increase)the total triterpenes in MCA leaves,probably owing to hormonal modulation of gene expression changes as previous studies have shown.The increased triterpene content suggests an enhanced pharmacological potential of Trichoderma-treated MCA for diabetes management,warranting further bioactivity studies.Conclusion:Therefore,these results reveal the efficacy of Trichoderma on MCA productivity enhancement,demonstrating the potential of Trichoderma-treated MCA to become more amenable to commercial cultivation.
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supported by the National Key Research and Development Program of China(2022YFC2303000).
文摘Several Trichoderma species serve as biocontrol agents in agriculture through their phytopathogen growth inhibition capabilities.However,the antagonistic mechanism of certain strains primarily operates through direct action.This study aims to explore an effective strain with comprehensive capabilities and elucidate its practical viability and action mechanism.Trichoderma gamsii strain TC959,exhibiting robust antagonistic and plant growth-promoting properties,was identified.The strain directly inhibits plant pathogen through the production of secondary metabolites,siderophores,and chitinase/xylanase,while promotes plant growth via indole-3-acetic acid/gibberellin release.Additionally,the strain activates induced systemic resistance by enhancing the chlorophyll a/b ratio and jasmonic acid content in pepper seedlings through root colonization,leading to elevated defense-related gene expression,antioxidant enzyme activity,and indole-3-acetic acid/gibberellin production.These mechanisms collectively enhance disease resistance and promote plant growth.Moreover,TC959 demonstrates superior resistance to oxidation and chemical fungicides,facilitating strain viability maintenance and ensuring healthy pepper seedling development.The study concludes that strain TC959 exhibits significant biocontrol potential and comprehensive functions against pepper damping-off disease,warranting further practical applications.
文摘Safe strain identification and species recognition is an important issue for Trichoderma and Hypocrea, because members of the genus are economically important producers of industrial enzymes and antibiotics, have application as biocontrol agents against plant pathogens, whereas some have become known as opportunistic pathogens of immunocompromised mammals and humans. However, classical approaches based on the use of morphological and phenetic characters have been difficult to apply, due to the plasticity of characters and the discordance of morphological and molecular evolution. The application of the genealogical concordance and phylogenetic species concept (GCPSC) has made is an attractive alternative to morphological species recognition, but has not been stringently applied to Hypocrea/Trichoderma. In this review, I shall explain the tools needed and strategy of this concept, and I will present examples where it has been recently used by us and others to confirm existing taxa and to detect new species in various clades and sections of Trichoderma. In addition, the present state of a global survey of biodiversity of Trichoderma and Hypocrea will be presented, and reviewed in relation to biogeography and the mode of speciation of this genus.
文摘Biocontrol by Trichoderma has been studied mainly with selected isolates of T. harzianum, T. atroviride and T. asperellum, which are members of sections Pachybasium and Trichoderma. In contrast, species from section Longibrachiatum have only rarely been studied. On the other hand, one taxon from this section-Hypocrea jecorina (anamorph: Trichoderma reesei)-has been widely used for the production of cellulolytic and hemicellulolytic enzymes and recombinant proteins. As far as Trichoderma is concerned, molecular genetic methods and tools are most advanced in H. jecorina, and its genome has recently been fully sequenced, thus making this taxon a model organism for the genus. Here we will demonstrate that H. jecorina is able to antagonize plant pathogenic fungi in plate confrontation tests, and can protect tomato and cucumber plants against Pythium ultimum blight. Using this as a model case, we made use of available H. jecorina mutants to investigate (a) whether carbon catabolite repression via the Cre1-regulator protein has an impact on biocontrol, and (b) whether cellulase gene expression is necessary for biocontrol of P. ultimum. In the first case, plate confrontation tests and in planta experiments yielded opposite results, i.e. while a Cre1 mutant was more active in antagonization of fungi on plates, the survival rates of P. ultimum-inoculated cucumber plants was lower than with the H. jecorina wild-type strain. Mutants of H. jecorina, unable to form cellulases, were still able to antagonize fungi on plates and provided similar protection of tomatos against P. ultimum as the wild type, indicating that the pronounced biocontrol ability of H. jecorina against fungi with cellulose-containing cell-walls is not due to its high cellulolytic activity. A strain disrupted in the light-modulator gene envoy (Schmoll et al., ms submitted) exhibited in planta biocontrol activity strongly exceeding that of the wild-type strain, thereby providing a first link between Trichoderma biocontrol and light. In view of the numerous other metabolic and regulatory mutants of H. jecorina available, we suggest that this fungus should increasingly be used in basic studies on the biochemistry and genetics of biocontrol.
基金supported by China Agriculture Research System of MOF and MARA (Grant No.CARS-27)Shandong Agricultural Major Applied Technology Innovation Project (Grant No.SD2019ZZ008)+5 种基金Qingchuang Science and Technology Support Project of Shandong Colleges and Universities (Grant No.2019KJF020)Natural Science Foundation of Shandong Province (Grant No.ZR2020MC131)the National Key Research and Development Program of China (Grant No.2020YFD1000201)Taishan Scholars Funded Project (Grant No.ts20190923)the National Natural Science Foundation of China (Grant No.32072510)the Fruit Innovation Team in Shandong Province,China (Grant No.SDAIT-06-07)。
文摘Apple replant disease(ARD) is primarily caused by biotic factors that seriously inhibits the development of apple industry. Therefore, the use of biological control measures to inhibit the main pathogens(such as Fusarium spp.) that cause ARD is of great significance to the sustainable development of the apple industry. Trichoderma virens 6PS-2, which exhibited antagonism toward a variety of pathogens, was screened from the rhizosphere soils of healthy apple trees(Malus robusta) in different replanted orchards in the Yantai and Zibo Cities, Shandong Province, China. Its fermentation extract inhibited the growth of pathogenic Fusarium proliferatum f. sp. Malus domestica MR5, which was proportional to the concentration. These substances also increased the hairy root volume and growth of Arabidopsis thaliana lateral roots. The phenotype of Malus hupehensis seedlings and microbial community structure in rhizosphere soils in greenhouse experiment using Highthroughput sequencing were analyzed, and the field experiment with grafted apple trees were used for further verification. Compared with the application of potato dextrose broth(PDB) medium, application of 6PS-2 spore suspension directly to replanted soils could improve the growth of M. hupehensis seedlings as well as the elongation of grafted apple trees. Concomitant decreases in the gene copy number of Fusarium and increases in the culturable bacteria/fungi were also observed in the greenhouse and field experiments. The abundance of Trichoderma,Bacillus, and Streptomyces increased significantly, but that of Fusarium, Pseudarthrobacter, and Humicola decreased. The content of esters, phenols,furans, and amino acids in root exudates of M. hupehensis seedlings increased, which significantly inhibited the multiplication of Fusarium, but was positively correlated with Bacillus and Trichoderma. In summary, T. virens 6PS-2 not only directly inhibits the activity of pathogenic Fusarium but also secrets secondary metabolites with antifungal and growth-promoting potential. In addition, 6PS-2 spore suspension can also promote the growth of plants to a certain extent, and change the soil microbial community structure of rhizosphere soils. It is believed that T. virens 6PS-2 has the potential for the alleviation of apple replant disease(ARD) in China.
基金supported by the National Natural Science Foundation of China(42076096 and 31670355)the Taishan Scholar Project Special Funding(tsqn201909164)the Youth Innovation Promotion Association of the CAS(2023222).
文摘Marine-derived fungi of the genus Trichoderma have been surveyed for pharmaceuticals and agrochemicals since 1993,with various new secondary metabolites being characterized from the strains of marine animal,plant,sediment,and water origin.Chemical structures and biological activities of these metabolites are comprehensively reviewed herein up to the end of 2022(covering 30 years).More than 70 strains that belong to at least 18 known Trichoderma species have been chemically investigated during this period.As a result,445 new metabolites,including terpenes,steroids,polyketides,peptides,alkaloids,and others,have been identified,with over a half possessing antimicroalgal,zooplankton-toxic,antibacterial,antifungal,cytotoxic,anti-inflammatory,and other activities.The research is highlighted by the molecular diversity and antimicroalgal potency of terpenes and steroids.In addition,metabolic relevance along with co-culture induction in the production of new compounds is also concluded.Trichoderma strains of marine origin can transform and degrade heterogeneous molecules,but these functions need further exploration.
基金supported by the National Natural Science Foundation of China(No.82003629)the Natural Science Foundation of Chongqing(No.cstc2021jcyj-msxmX0975)the Open Project of State Key Laboratory of Natural Medicines(No.SKLNMKF202304).
文摘Citrinsorbicillin A(1),a novel homotrimeric sorbicillinoid,along with two new monomers citrinsor-bicillins B(2)and C(3),were isolated from the Coptis chinensis endophyte Trichoderma citrinoviride HT-9 by liquid chromatograph mass spectrometer(LC-MS)-guided strategy.1 was the first trimeric-example from terrestrial fungi,which possessed a unique carbon skeleton with two bicyclo[2.2.2]octanedione ring connected through an enolated carbon forming by[4+2]cycloaddition.Their structures were elucidated by spectroscopic analysis and X-ray diffraction.1 exhibited moderate cytotoxicity against human colon cancer HT29 cells,and it induced significant cell cycle arrest by reducing the protein expression of cyclin D1.
基金Financial support for this research was provided by the National Natural Science Foundation of China(Nos.82173711 and 82003929)Youth Innovation Promotion Association of CAS(2020342)+2 种基金Natural Science Foundation of Hunan Province(Nos.2021JJ30917 and 2021JJ40993)Key Research and Development Project of Hainan Province(No.ZDYF2022SHFZ048)the Central South University postgraduate independent exploration and innovation project(No.2022zzts0899).
文摘Two novel koninginin derivatives,koningipyridines A and B(1 and 2),along with four known compounds(3-6)were isolated from the EtOAc extract of the endophytic fungus Trichoderma koningiopsis SC-5.Among them,koningipyridine A featured an unprecedented pentacyclic ketal skeleton with the formation of a fascinating 6/6/5/6/5 fused ring system and shared a characteristic pyridine core,which represents the first example of nitrogen-containing koninginin-type natural product.Moreover,koningipyridine B was the first member in the koninginin family sharing a unique 6/6/5 dihydropyridine skeleton,and it was suggested to be the critical biosynthetic precursor of koningipyridine A.The structures of 1 and 2 were elucidated by the interpretation of 1D and 2D NMR spectroscopy,HRESIMS data,as well as theoretical calculations of 13C NMR and electronic circular dichroism(ECD).Moreover,all isolates were screened for antimicrobial activities against Staphylococcus aureus,MRSA,and Escherichia coli as well as the cytotoxic effects against three cancer cell lines(A549,Hela,and HepG2).
