Salvador Guzmán-González scite author profile

Pseudocercospora (previously known as Mycosphaerella) fijiensis causes black Sigatoka disease in banana (Musa spp.) and is considered to be the most devastating pathogen of this crop worldwide. To improve knowledge of its evolutionary patterns, this study determined the genetic variability of populations from two regions of Mexico: Central Pacific (Colima and Michoacan) and Southern (Chiapas, Tabasco and Oaxaca), using 10 simple sequence repeat (SSR) loci and the MAT‐specific PCR assay. Both mating types were present in all regions under study, with frequencies of 63% MAT1‐1 and 37% MAT1‐2. The SSR markers showed an average of three alleles per locus, resulting in 34 alleles in total. The genetic diversity (HT) was 0.3308, but at the local level (HS) ranged from 0.0976 (Colima) to 0.2228 (Oaxaca). However, the genotypic diversity was usually high (H′ > 2.4, S > 0.89). Cluster analysis grouped the isolates into five clusters with high statistical support (au > 80%), suggesting a geographic organization of the genetic variability of P. fijiensis; AMOVA, the minimum spanning tree and the population structure analysis supported this result, and all data indicated that the major genetic differences were between the different populations under analysis. Thus, the high level of genetic variability in P. fijiensis is attributed partly to a high rate of sexual reproduction, and also to a strong evolutionary capacity coupled with isolation due to limited genetic flow between distant populations. Both possibilities could be playing a relevant role in population differentiation of the pathogen.

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Oxidative stress response of Mycosphaerella fijiensis, the causal agent of black leaf streak disease in banana plants, to hydrogen peroxide and paraquat

Beltrán-García

Manzo-Sánchez

Guzmán-González

et al. 2009

Can. J. Microbiol.

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Mycosphaerella fijiensis causes black leaf streak disease in banana and plantain. This fungus is usually attacked by reactive oxygen species secreted by the plant or during exposure to fungicide, however, little is known about the antioxidant response of the fungus. In this study, mycelia were observed to totally decompose 30 mmol/L of hydrogen peroxide (H2O2) within 120 min, liberating oxygen bubbles, and also to survive in concentrations as high as 100 mmol/L H2O2. The oxidative stress responses to H2O2, paraquat, and hydroquinone were characterized in terms of the activities of catalase and superoxide dismutase (SOD). Two active catalase bands were seen in native PAGE induced by H2O2. Band I had monofunctional activity and band II had bifunctional catalase-peroxidase activity. Two isozymes of SOD, distinguishable by their cyanide sensitivity, were found; CuZnSOD was the main one. The combination of H2O2 and 3-aminotriazole reduced the accumulation of biomass up to 40% compared with exposure to H2O2 alone, suggesting that catalase is important for the rapid decomposition of H2O2 and has a direct bearing on cell viability. The results also suggest that the superoxide anion formed through the redox of paraquat and hydroquinone has a greater effect than H2O2 on the cellular viability of M. fijiensis.

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Genetic Diversity in Bananas and Plantains (Musa spp.)

Manzo-Sánchez¹,

Buenrostro-Nava²,

Guzmán-González³

et al. 2015

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