The effect of hot air(HA, 45°C, 3.5 h) treatment on reducing gray mold caused by Botrytis cinerea in strawberry fruit and the possible mechanisms were investigated. The results showed that HA treatment significan...The effect of hot air(HA, 45°C, 3.5 h) treatment on reducing gray mold caused by Botrytis cinerea in strawberry fruit and the possible mechanisms were investigated. The results showed that HA treatment significantly reduced lesion diameter and enhanced activities of chitinase(CHI), β-1,3-glucanase and phenylalanine ammonia-lyase(PAL) in strawberry fruit. Total phenolic contents were also increased by HA treatment. The activities of antioxidant enzymes including superoxide dismutase(SOD), catalase(CAT) and ascorbate peroxidase(APX) were higher in HA treated strawberry fruit than those in control. Expression of three defense related genes such as CAT, CCR-1 allele and PLA6 was greatly induced in HA treated strawberry fruit with or without inoculation by B. cinerea. In addition, the in vitro experiment showed that HA treatment inhibited spore germination and tube growth of B. cinerea. These results suggested that HA treatment directly activated disease resistance against B. cinerea in strawberry fruit without priming response and directly inhibiting growth of B. cinerea.展开更多
The disease caused by pathogenic fungi is the main cause of postharvest loss of fresh fruits.The formulation of disease control strategies greatly depends on the understanding of pathogenic mechanism of fungal pathoge...The disease caused by pathogenic fungi is the main cause of postharvest loss of fresh fruits.The formulation of disease control strategies greatly depends on the understanding of pathogenic mechanism of fungal pathogens and control strategy.In recent years,based on the application of various combinatorial research methods,some pathogenic genes of important postharvest fungal pathogens in fruit have been revealed,and their functions and molecular regulatory networks of virulence have been explored.These progresses not only provide a new perspective for understanding the molecular basis and regulation mechanism of pathogenicity of postharvest pathogenic fungi,but also are beneficial to giving theoretical guidance for the creation of new technologies of postharvest disease control.Here,we synthesized these recent advances and illustrated conceptual frameworks,and identified several issues on the focus of future studies.展开更多
t Species of Colletotrichum are associated with anthracnose of a wide range of host plants including cultivated and wild tropical fruits.The genetic and ecological diversity of species associated with wild fruits are ...t Species of Colletotrichum are associated with anthracnose of a wide range of host plants including cultivated and wild tropical fruits.The genetic and ecological diversity of species associated with wild fruits are poorly explored,as compared to those associated with pre and postharvest diseases of cultivated fruits.In the present study,isolates of Colletotrichum were obtained from commercially available cultivated fruits,wild fruits(from native trees in natural habitats)and a few herbaceous hosts collected in northern Thailand.These isolates were initially characterized based on analysis of complete sequences of nuclear ribosomal internal transcribed spacer(ITS),into the genetically defined species complexes of Colletotrichum gloeosporioides,C.acutatum,C.boninense and C.truncatum.The isolates were primarily identified in the C.gloeosporioides species complex,based on a strongly supported clade within the ITS gene tree and were further characterized using multi-gene phylogenetic analyses and morphology.Phylogenetic analyses of ITS,partial sequences of actin(ACT),calmodulin(CAL),glyceraldehyde-3-phosphate dehydrogenase(GAPDH),glutamine synthetase(GS)andβtubulin(TUB2)genetic markers were performed individually and in combination.Colletotrichum gloeosporioides sensu stricto was identified from lime(Citrus aurantifolia)and rose apple(Syzygium samarangense).Colletotrichum fructicola was isolated from dragon fruit(Hylocerous undatus)and jujube(Ziziphus sp.).Colletotrichum endophytica was found only from an unknown wild fruit.We observed a considerable genetic and host diversity of species occurring on tropical fruits within the clade previously known as Colletotrichum siamense sensu lato.The clade consists of isolates identified as pre and postharvest pathogens on a wide range of fruits,including coffee(Coffea arabica),custard apple(Annona reticulata),Cerbera sp.,figs(Ficus racemosa)mango(Mangifera indica),neem(Azadirachta indica)and papaya(Carica papaya)and was the dominant group of species among most wild fruits studied.With the exception of one isolate from banana,which grouped in the C.siamense clade,all the other isolates were identified as Colletotrichum musae.A new species,Colletotrichum syzygicola,associated with Syzygium samarangense in Thailand,is introduced with descriptions and illustrations.This study highlights the need to re-assess the evolutionary relationships of Colletotrichum species occurring on cultivated and wild fruits with emphasis on their ecology and cryptic diversification including sampling at regional and global scales.展开更多
Sugars are fundamental metabolites synthesized in leaves and further delivered to fruit in fruit crops.They not only provide"sweetness"as fruit quality traits,but also function as signaling molecules to modu...Sugars are fundamental metabolites synthesized in leaves and further delivered to fruit in fruit crops.They not only provide"sweetness"as fruit quality traits,but also function as signaling molecules to modulate the responses of fruit to environmental stimuli.Therefore,the understanding to the molec-ular basis for sugar metabolism and transport is crucial for improving fruit quality and dissecting responses to abiotic/biotic factors.Here,we provide a review for mol ecular components involved in sugar metabolism and transport,crostalk with hormone signaling and the roles of sugars in responses to abiotic and biotic stresses.Moreover,we also envisage the strategies for optimizing sugar metabolism during fruit quality maintenance.展开更多
基金supported by the Special Fund for Agro-scientific Research in the Public Interest of China(201303073)the Fundamental Research Funds for the Central Universities,China(KYZ201420)
文摘The effect of hot air(HA, 45°C, 3.5 h) treatment on reducing gray mold caused by Botrytis cinerea in strawberry fruit and the possible mechanisms were investigated. The results showed that HA treatment significantly reduced lesion diameter and enhanced activities of chitinase(CHI), β-1,3-glucanase and phenylalanine ammonia-lyase(PAL) in strawberry fruit. Total phenolic contents were also increased by HA treatment. The activities of antioxidant enzymes including superoxide dismutase(SOD), catalase(CAT) and ascorbate peroxidase(APX) were higher in HA treated strawberry fruit than those in control. Expression of three defense related genes such as CAT, CCR-1 allele and PLA6 was greatly induced in HA treated strawberry fruit with or without inoculation by B. cinerea. In addition, the in vitro experiment showed that HA treatment inhibited spore germination and tube growth of B. cinerea. These results suggested that HA treatment directly activated disease resistance against B. cinerea in strawberry fruit without priming response and directly inhibiting growth of B. cinerea.
基金This research was funded by the National Natural Science Foundation of China(grant numbers 31930086,31530057,31671910,31722043).
文摘The disease caused by pathogenic fungi is the main cause of postharvest loss of fresh fruits.The formulation of disease control strategies greatly depends on the understanding of pathogenic mechanism of fungal pathogens and control strategy.In recent years,based on the application of various combinatorial research methods,some pathogenic genes of important postharvest fungal pathogens in fruit have been revealed,and their functions and molecular regulatory networks of virulence have been explored.These progresses not only provide a new perspective for understanding the molecular basis and regulation mechanism of pathogenicity of postharvest pathogenic fungi,but also are beneficial to giving theoretical guidance for the creation of new technologies of postharvest disease control.Here,we synthesized these recent advances and illustrated conceptual frameworks,and identified several issues on the focus of future studies.
基金Dhanushka Udayanga thanks the State Key Lab of Systematic Mycology,the Chinese Academy of Sciences,Beijing for a visiting postgraduate scholarship(2010-2011)supported by the Chinese Academy of Sciences,Beijing(NFSC Y2JJ011002)+1 种基金Kevin D.Hyde thanks the National Research Council of Thailand for the award of grant No.54201020003a grant from the National Plan of Science and Technology,King Abdulaziz City of Science and Technology,Riyadh,Saudi Arabia,project No.10-Bio-965-02 to study Colletotrichum.
文摘t Species of Colletotrichum are associated with anthracnose of a wide range of host plants including cultivated and wild tropical fruits.The genetic and ecological diversity of species associated with wild fruits are poorly explored,as compared to those associated with pre and postharvest diseases of cultivated fruits.In the present study,isolates of Colletotrichum were obtained from commercially available cultivated fruits,wild fruits(from native trees in natural habitats)and a few herbaceous hosts collected in northern Thailand.These isolates were initially characterized based on analysis of complete sequences of nuclear ribosomal internal transcribed spacer(ITS),into the genetically defined species complexes of Colletotrichum gloeosporioides,C.acutatum,C.boninense and C.truncatum.The isolates were primarily identified in the C.gloeosporioides species complex,based on a strongly supported clade within the ITS gene tree and were further characterized using multi-gene phylogenetic analyses and morphology.Phylogenetic analyses of ITS,partial sequences of actin(ACT),calmodulin(CAL),glyceraldehyde-3-phosphate dehydrogenase(GAPDH),glutamine synthetase(GS)andβtubulin(TUB2)genetic markers were performed individually and in combination.Colletotrichum gloeosporioides sensu stricto was identified from lime(Citrus aurantifolia)and rose apple(Syzygium samarangense).Colletotrichum fructicola was isolated from dragon fruit(Hylocerous undatus)and jujube(Ziziphus sp.).Colletotrichum endophytica was found only from an unknown wild fruit.We observed a considerable genetic and host diversity of species occurring on tropical fruits within the clade previously known as Colletotrichum siamense sensu lato.The clade consists of isolates identified as pre and postharvest pathogens on a wide range of fruits,including coffee(Coffea arabica),custard apple(Annona reticulata),Cerbera sp.,figs(Ficus racemosa)mango(Mangifera indica),neem(Azadirachta indica)and papaya(Carica papaya)and was the dominant group of species among most wild fruits studied.With the exception of one isolate from banana,which grouped in the C.siamense clade,all the other isolates were identified as Colletotrichum musae.A new species,Colletotrichum syzygicola,associated with Syzygium samarangense in Thailand,is introduced with descriptions and illustrations.This study highlights the need to re-assess the evolutionary relationships of Colletotrichum species occurring on cultivated and wild fruits with emphasis on their ecology and cryptic diversification including sampling at regional and global scales.
基金National Natural Science Foundation of China(31930086,32072637).
文摘Sugars are fundamental metabolites synthesized in leaves and further delivered to fruit in fruit crops.They not only provide"sweetness"as fruit quality traits,but also function as signaling molecules to modulate the responses of fruit to environmental stimuli.Therefore,the understanding to the molec-ular basis for sugar metabolism and transport is crucial for improving fruit quality and dissecting responses to abiotic/biotic factors.Here,we provide a review for mol ecular components involved in sugar metabolism and transport,crostalk with hormone signaling and the roles of sugars in responses to abiotic and biotic stresses.Moreover,we also envisage the strategies for optimizing sugar metabolism during fruit quality maintenance.