BACKGROUND Cladosporium and Corynespora cassiicola(C.cassiicola)infections rarely occur in humans.Mutations in human caspase recruitment domain protein 9(CARD9)are reported to be associated with fungal diseases.Pulmon...BACKGROUND Cladosporium and Corynespora cassiicola(C.cassiicola)infections rarely occur in humans.Mutations in human caspase recruitment domain protein 9(CARD9)are reported to be associated with fungal diseases.Pulmonary Cladosporium infection coexisting with subcutaneous C.cassiicola infection in a patient with a CARD9 mutation has not been reported in the literature.CASE SUMMARY A 68-year-old male patient was hospitalized for hypertrophic erythema and deep ulcers on the left upper extremity.He was diagnosed with pneumonia caused by Cladosporium,as identified through bronchoalveolar lavage fluid analysis,and deep dermatophytosis caused by C.cassiicola,as identified through morphological characteristics of the wound secretion culture.He underwent antifungal therapy(voriconazole)and recovered successfully.He carried two mutations in CARD9(chr9:139266425 and chr9:139262240)and was therefore susceptible to fungal infections.CONCLUSION This case study is the first to report the coexistence of pulmonary Cladosporium infection and subcutaneous C.cassiicola infection in a patient with CARD9 mutation.Our findings will be helpful in enriching the phenotypic spectrum of fungal infections underlying CARD9 deficiency.展开更多
Corynespora cassiicola is the causal agent of Corynespora Leaf Fall(CLF)disease.CLF is one of the most important fungal diseases of rubber trees in Asia and Africa but disease outbreaks have not been reported in South...Corynespora cassiicola is the causal agent of Corynespora Leaf Fall(CLF)disease.CLF is one of the most important fungal diseases of rubber trees in Asia and Africa but disease outbreaks have not been reported in South America.Cassiicolin,a small cysteine-rich glycoprotein secreted by the pathogenic C.cassiicola isolate CCP,was previously identified as a potential disease effector in rubber tree.Recently,the cassiicolin-encoding gene(Cas1)was characterized and shown to be expressed in the early phase of infection.In this study,we investigated whether previously undetected strains of C.cassiicola are present in South American rubber plantations by examining the fungal endophyte population found in asymptomatic rubber tree leaves.Four isolates were identified as C.cassiicola.Genes encoding new forms of the cassiicolin precursor protein(Cas3 and Cas4)were identified from these isolates.Three of four isolates were able to induce symptoms on the cultivar they were isolated from in a detached leaf assay,with different kinetics and intensities.One isolate had the same pathogenicity profile as the pathogenic isolate CCP;the other two isolates developed symptoms late during the course of infection,suggesting saprotrophic capabilities.However,no Cas3 or Cas4 transcripts could be detected upon inoculation with the endophytic isolates,whereas the reference gene Cas1 was expressed upon inoculation with the CCP isolate.This work demonstrated that C.cassiicola is present in South America in an endophytic form and that it may evolve from an endophytic to a saprophytic or even potentially pathogenic life style.展开更多
Corynespora cassiicola is a common plant pathogen responsible for leaf-spotting diseases in the tropical and subtropical areas.C.cassiicola seldom causes human infections.Here we describe a case of subcutaneous phaeoh...Corynespora cassiicola is a common plant pathogen responsible for leaf-spotting diseases in the tropical and subtropical areas.C.cassiicola seldom causes human infections.Here we describe a case of subcutaneous phaeohyphomycosis caused by C.cassiicola in a 76-year-old Chinese man,who presented to our hospital with a purulent discharge and painful sensation on his right leg.Skin biopsy revealed an abscess,and culture confirmed C.cassiicola to be the causative agent.The result was further identified by sequence analysis of the internal transcribed spacer region.The patient was successfully treated with systemic voriconazole and wound debridement:the lesion disappeared after 20 days.展开更多
In recent years, Corynespora leaf blight is on the increase in cotton and has become an important disease in the State of Mato Grosso, Brazil. It attacks several plant species including soybean. It is not yet known wh...In recent years, Corynespora leaf blight is on the increase in cotton and has become an important disease in the State of Mato Grosso, Brazil. It attacks several plant species including soybean. It is not yet known whether the same strain of this pathogen attacks both the crops. The objectives of the present investigation were to verify the genotypic and phenotypic variation between the isolates attacking cotton and soybean and to verify the sources of resistance in cotton. Differential response of 23 cotton genotypes was studied under glasshouse conditions using mixture of two randomly selected isolates of C. cassiicola of cotton in equal proportion. Genotypic variation among three cotton and two soybean isolates was studied using ERIC/REP-PCR and rDNA molecular techniques. With one exception, all the cotton genotypes tested so far were susceptible to C. cassiicola isolates of both cotton and soybean. Similarly, results of both molecular techniques indicated that the C. cassiicola isolates attacking cotton and soybean belong to the same strain of the pathogen in Brazil. Since Corynespora blight is a newly immerging disease of cotton and soybean in Brazil, integration of crop rotation and the sanitary practices are suggested to manage the disease.展开更多
文摘BACKGROUND Cladosporium and Corynespora cassiicola(C.cassiicola)infections rarely occur in humans.Mutations in human caspase recruitment domain protein 9(CARD9)are reported to be associated with fungal diseases.Pulmonary Cladosporium infection coexisting with subcutaneous C.cassiicola infection in a patient with a CARD9 mutation has not been reported in the literature.CASE SUMMARY A 68-year-old male patient was hospitalized for hypertrophic erythema and deep ulcers on the left upper extremity.He was diagnosed with pneumonia caused by Cladosporium,as identified through bronchoalveolar lavage fluid analysis,and deep dermatophytosis caused by C.cassiicola,as identified through morphological characteristics of the wound secretion culture.He underwent antifungal therapy(voriconazole)and recovered successfully.He carried two mutations in CARD9(chr9:139266425 and chr9:139262240)and was therefore susceptible to fungal infections.CONCLUSION This case study is the first to report the coexistence of pulmonary Cladosporium infection and subcutaneous C.cassiicola infection in a patient with CARD9 mutation.Our findings will be helpful in enriching the phenotypic spectrum of fungal infections underlying CARD9 deficiency.
文摘Corynespora cassiicola is the causal agent of Corynespora Leaf Fall(CLF)disease.CLF is one of the most important fungal diseases of rubber trees in Asia and Africa but disease outbreaks have not been reported in South America.Cassiicolin,a small cysteine-rich glycoprotein secreted by the pathogenic C.cassiicola isolate CCP,was previously identified as a potential disease effector in rubber tree.Recently,the cassiicolin-encoding gene(Cas1)was characterized and shown to be expressed in the early phase of infection.In this study,we investigated whether previously undetected strains of C.cassiicola are present in South American rubber plantations by examining the fungal endophyte population found in asymptomatic rubber tree leaves.Four isolates were identified as C.cassiicola.Genes encoding new forms of the cassiicolin precursor protein(Cas3 and Cas4)were identified from these isolates.Three of four isolates were able to induce symptoms on the cultivar they were isolated from in a detached leaf assay,with different kinetics and intensities.One isolate had the same pathogenicity profile as the pathogenic isolate CCP;the other two isolates developed symptoms late during the course of infection,suggesting saprotrophic capabilities.However,no Cas3 or Cas4 transcripts could be detected upon inoculation with the endophytic isolates,whereas the reference gene Cas1 was expressed upon inoculation with the CCP isolate.This work demonstrated that C.cassiicola is present in South America in an endophytic form and that it may evolve from an endophytic to a saprophytic or even potentially pathogenic life style.
基金supported by the Youth Project of National Natural Science Foundation of China(82002113).
文摘Corynespora cassiicola is a common plant pathogen responsible for leaf-spotting diseases in the tropical and subtropical areas.C.cassiicola seldom causes human infections.Here we describe a case of subcutaneous phaeohyphomycosis caused by C.cassiicola in a 76-year-old Chinese man,who presented to our hospital with a purulent discharge and painful sensation on his right leg.Skin biopsy revealed an abscess,and culture confirmed C.cassiicola to be the causative agent.The result was further identified by sequence analysis of the internal transcribed spacer region.The patient was successfully treated with systemic voriconazole and wound debridement:the lesion disappeared after 20 days.
文摘In recent years, Corynespora leaf blight is on the increase in cotton and has become an important disease in the State of Mato Grosso, Brazil. It attacks several plant species including soybean. It is not yet known whether the same strain of this pathogen attacks both the crops. The objectives of the present investigation were to verify the genotypic and phenotypic variation between the isolates attacking cotton and soybean and to verify the sources of resistance in cotton. Differential response of 23 cotton genotypes was studied under glasshouse conditions using mixture of two randomly selected isolates of C. cassiicola of cotton in equal proportion. Genotypic variation among three cotton and two soybean isolates was studied using ERIC/REP-PCR and rDNA molecular techniques. With one exception, all the cotton genotypes tested so far were susceptible to C. cassiicola isolates of both cotton and soybean. Similarly, results of both molecular techniques indicated that the C. cassiicola isolates attacking cotton and soybean belong to the same strain of the pathogen in Brazil. Since Corynespora blight is a newly immerging disease of cotton and soybean in Brazil, integration of crop rotation and the sanitary practices are suggested to manage the disease.
文摘对海南三亚发生的甜瓜棒孢叶斑病的危害症状进行了系统的描述,采用致病性试验、形态学观察及分子生物学的方法对引起该病的病原菌进行了鉴定,同时采用菌落生长法和玻片法测定了病原菌的生物学特性.结果表明:甜瓜棒孢叶斑病的病原菌为多主棒孢霉[Corynespora cassiicola(Berk.&Curst.)Wei];病原菌菌丝生长的最适宜培养基为大豆培养基,最适温度为24~28℃,致死温度和时间为55℃、15 min,最适pH为8~10,光照有利于菌丝生长,最适碳源为乳糖,最适氮源为NaN03;分生孢子萌发的最适温度为24℃,致死温度和时间为50℃、20 min.
