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1.
Braz. j. microbiol ; Braz. j. microbiol;39(4): 792-798, Dec. 2008. ilus, tab
Article in English | LILACS | ID: lil-504324

ABSTRACT

Conidia production is a problem in the study of Alternaria alternata from citrus. Thus, this study aimed to compare existing methodologies for conidial production of A. alternata isolated from Ponkan tangerine (2 isolates), Cravo lemon (1 isolate), Pêra orange (2 isolates) and Murcott tangor (1 isolate). The methodologies used were conidia production with 12 and 24 hours under white fluorescent light, evaluation with 24 and 48 hours after applying fungal mycelium stress technique, cold stress followed by injury of mycelium and evaluation with 24 hours, using healthy vegetable tissue and the use of black fluorescent near ultraviolet (NUV) lamp. Satisfactory result was obtained with A. alternata isolate from Murcott tangor, with the production of 2.8 x 10(5) conidia mL-1, when fungal mycelium was stressed (Petri dish with 66.66 percent of fungi growth) and subsequently 24 h of growth. The use of white light (24 h) and black fluorescent NUV lamp also induced expressive conidia production by one isolate of Ponkan tangerine, which produced 17.2 x 10(5) and 10.1 x 10(5) conidia mL-1 and another of Murcott tangor, which produced 13.9 x 10(5) and 10.1 x 10(5) conidia mL-1, respectively. The remaining methodologies analyzed in this study were not able to induce conidia production in satisfactory quantity. The use of both mycelium stress technique and white light (24 h) and black fluorescent NUV lamp allowed the production of enough quantities of conidia to be used in vitro (detection of fungitoxic substances)and in vivo (pathogenicity test)assays, respectively.


A produção de conídios consiste em problema no estudo de Alternaria alternata do citros. Assim, este estudo objetivou comparar metodologias existentes para a produção de conídios de A. alternata por dois isolados de tangerina Ponkan, um de limão Cravo, dois de laranja Pêra e um de tangor Murcott. As metodologias empregadas foram a produção de conídios com 12 e 24 horas sob luz branca, avaliação com 24 e 48 horas após estressamento do micélio do fungo, choque térmico com imediato estressamento do micélio e avaliação com 24 horas, produção de conídios pelo emprego de tecido vegetal sadio e o emprego de luz negra ultravioleta. Produção satisfatória de conídios foi obtida com o isolado de A. alternata de tangor Murcott, a qual foi de 2,8 x 10(5) conídios mL-1, mediante emprego da técnica de estressamento da colônia e cultivo do fungo por 24 horas. Os empregos de luz branca (24 h) e negra ultravioleta promoveram expressiva produção de conídios por um isolado de tangerina Ponkan, a qual foi de 17,2 x 10(5) e 10,1 x 10(5) conidios mL-1 e por outro de tangor Murcott, a qual foi de 13,9 x 10(5) e 10,1 x 10(5) conídios mL-1, respectivamente. As outras metodologias analisadas neste estudo não foram capazes de induzir a produção de conídios em quantidade satisfatória. Com o emprego das técnicas de estressamento do micélio e a utilização de luz branca (24 h) e negra ultravioleta, tornou-se possível obter quantidades de conídios suficientes para serem utilizadas em testes in vitro (detecção de substâncias fungitóxicas)e in vivo (testes de patogenicidade), respectivamente.


Subject(s)
Alternaria/isolation & purification , Citrus , Spores, Fungal/isolation & purification , In Vitro Techniques , Methodology as a Subject , Mycelium/isolation & purification , Ultraviolet Rays , Methods , Polymerase Chain Reaction , Methods
2.
Braz J Microbiol ; 39(4): 792-8, 2008 Oct.
Article in English | MEDLINE | ID: mdl-24031309

ABSTRACT

Conidia production is a problem in the study of Alternaria alternata from citrus. Thus, this study aimed to compare existing methodologies for conidial production of A. alternata isolated from Ponkan tangerine (2 isolates), Cravo lemon (1 isolate), Pêra orange (2 isolates) and Murcott tangor (1 isolate). The methodologies used were conidia production with 12 and 24 hours under white fluorescent light, evaluation with 24 and 48 hours after applying fungal mycelium stress technique, cold stress followed by injury of mycelium and evaluation with 24 hours, using healthy vegetable tissue and the use of black fluorescent near ultraviolet (NUV) lamp. Satisfactory result was obtained with A. alternata isolate from Murcott tangor, with the production of 2.8 × 10(5) conidia mL(-1), when fungal mycelium was stressed (Petri dish with 66.66% of fungi growth) and subsequently 24 h of growth. The use of white light (24 h) and black fluorescent NUV lamp also induced expressive conidia production by one isolate of Ponkan tangerine, which produced 17.2 × 10(5) and 10.1 × 10(5)conidia mL(-1) and another of Murcott tangor, which produced 13.9 × 10(5) and 10.1 × 10(5) conidia mL(-1), respectively. The remaining methodologies analyzed in this study were not able to induce conidia production in satisfactory quantity. The use of both mycelium stress technique and white light (24 h) and black fluorescent NUV lamp allowed the production of enough quantities of conidia to be used in vitro (detection of fungitoxic substances) and in vivo (pathogenicity test) assays, respectively.

3.
Article in English | VETINDEX | ID: vti-444330

ABSTRACT

Conidia production is a problem in the study of Alternaria alternata from citrus. Thus, this study aimed to compare existing methodologies for conidial production of A. alternata isolated from Ponkan tangerine (2 isolates), Cravo lemon (1 isolate), Pêra orange (2 isolates) and Murcott tangor (1 isolate). The methodologies used were conidia production with 12 and 24 hours under white fluorescent light, evaluation with 24 and 48 hours after applying fungal mycelium stress technique, cold stress followed by injury of mycelium and evaluation with 24 hours, using healthy vegetable tissue and the use of black fluorescent near ultraviolet (NUV) lamp. Satisfactory result was obtained with A. alternata isolate from Murcott tangor, with the production of 2.8 x 10(5) conidia mL-1, when fungal mycelium was stressed (Petri dish with 66.66% of fungi growth) and subsequently 24 h of growth. The use of white light (24 h) and black fluorescent NUV lamp also induced expressive conidia production by one isolate of Ponkan tangerine, which produced 17.2 x 10(5) and 10.1 x 10(5) conidia mL-1 and another of Murcott tangor, which produced 13.9 x 10(5) and 10.1 x 10(5) conidia mL-1, respectively. The remaining methodologies analyzed in this study were not able to induce conidia production in satisfactory quantity. The use of both mycelium stress technique and white light (24 h) and black fluorescent NUV lamp allowed the production of enough quantities of conidia to be used in vitro (detection of fungitoxic substances)and in vivo (pathogenicity test)assays, respectively.


A produção de conídios consiste em problema no estudo de Alternaria alternata do citros. Assim, este estudo objetivou comparar metodologias existentes para a produção de conídios de A. alternata por dois isolados de tangerina Ponkan, um de limão Cravo, dois de laranja Pêra e um de tangor Murcott. As metodologias empregadas foram a produção de conídios com 12 e 24 horas sob luz branca, avaliação com 24 e 48 horas após estressamento do micélio do fungo, choque térmico com imediato estressamento do micélio e avaliação com 24 horas, produção de conídios pelo emprego de tecido vegetal sadio e o emprego de luz negra ultravioleta. Produção satisfatória de conídios foi obtida com o isolado de A. alternata de tangor Murcott, a qual foi de 2,8 x 10(5) conídios mL-1, mediante emprego da técnica de estressamento da colônia e cultivo do fungo por 24 horas. Os empregos de luz branca (24 h) e negra ultravioleta promoveram expressiva produção de conídios por um isolado de tangerina Ponkan, a qual foi de 17,2 x 10(5) e 10,1 x 10(5) conidios mL-1 e por outro de tangor Murcott, a qual foi de 13,9 x 10(5) e 10,1 x 10(5) conídios mL-1, respectivamente. As outras metodologias analisadas neste estudo não foram capazes de induzir a produção de conídios em quantidade satisfatória. Com o emprego das técnicas de estressamento do micélio e a utilização de luz branca (24 h) e negra ultravioleta, tornou-se possível obter quantidades de conídios suficientes para serem utilizadas em testes in vitro (detecção de substâncias fungitóxicas)e in vivo (testes de patogenicidade), respectivamente.

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