The genetic study of sterigmatocystin production in Aspergillus nidulans. / Estudo genético da produção de esterigmatocistina em Apergillus nidulans.

AUTOR(ES)

Nanci Otilia Chacon Reche Dezotti

DATA DE PUBLICAÇÃO

1999

RESUMO

Sterigmatocystin (ST) is a polyketide produced by different species of Aspergillus as well as by other fungus genera such as Bipolaris and Chaetomium. This toxin is characterized as a bifuranoxanthone, whose molecular formula is C18H12O6 and which is frequently found as a contaminant in several food products such as oil-seed grains and cereals. It has carcinogenic, toxigenic, mutagenic and teratogenic properties; however, it is less toxic than aflatoxin. The fungus Emericella nidulans (Eidam) Vuillemin, whose anamorph is Aspergillus nidulans (Eidam) Winter, was used as a genetic model to investigate the genes involved in the sterigmatocystin biosynthetic pathway. Strains from Utrecht stocks (originally from Glasgow) were analyzed in order to detect ST production and, among them, only the UT196 strain [yA2 (I); metA17 (II); piroA4 (IV)] showed the production of 4 ppm of ST (stc+), whereas the UT448 and UT184 strains showed to be nonproducers of such toxin (stc). Although the UT196 strain is very well characterized genetically, this has been the first report on its production of ST. The allelic segregation rates and all the recombination frequencies between linked and non-linked genetic markers were determined by both the meiotic crossing UT448 (stc) x UT196 (stc+) and mitotic crossing UT448//UT184. 175 meiotic segregants and 140 mitotic segregants were analyzed as to ST production, auxotrophy markers and resistance to acriflavine. These crossed strains presented various markers in heterozygous configuration, which allowed to map a structural gene of ST (stcZ+) located on the left arm of chromosome I, 4% distant from the riboflavin gene (riboA1). As a byproduct of this work, a red pigment of 0.90 Rf was detected in all meiotic and mitotic segregants, whether they were ST producers or not, which indicated that was probably a polyketide produced by the fungus ascopores. The low expression of ST production in 13 meiotic segregants and the high expression of such toxin in the UT448//UT196 and UT448//UT184 diploids (40 ppm) allowed to conclude that a regulating factor existed in the w-met region of chromosome II, which is responsible for the expression of the structural gene stcZ+. The analyses of those genes through the parasexual cycle suggested a typical epigenetic behavior which involved them. Based on the data obtained, hypotheses to explain the expression control of these genes as well as their inter-relationships were here presented.

ASSUNTO(S)

aspergillus nidulans epigenética metabolismo secundário esterigmatocistina esterigmatocistina secondary metabolism aflatoxinas epigenetics biosynthetic pathway via biossintética aspergillus nidulans aflatoxins

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