Increase in the mortality of the entomopathogenic fungus Metarhizium anisopliae due to the application of an electric field during conidiation

Revista Mexicana de Ingeniería Química Pub Date : 2020-09-01 DOI:10.24275/rmiq/bio1601

Divanery Rodriguez-Gomez, L. Garate-Velez, A. L. Morales-Piña, M. Gutiérrez-Rojas, N. Velasco-Alvarez

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引用次数: 2

Abstract

The e ﬀ ects of an electric ﬁeld on conidia production by Metarhizium anisopliae in solid state culture were determined. A 450-mL electrochemical cell (EC) with titanium ruthenium-oxide coated electrodes and packed with a mixture of rice: corn stubble, was inoculated with 1 × 10 6 conidia (g of initial dry support) − 1 and incubated for 8 days (30 ºC). Four days after starting the culture, a current density of 0.09 mA cm − 2 was applied for 24 h. The moisture kept constant (75%), with and without electric ﬁeld. With electric ﬁeld, conidiation (4.9 × 10 8 ± 3 . 7 × 10 7 conidia (g of initial dry support) − 1 ) did not show statistically signiﬁcant di ﬀ erences, but their viability and germination (67 and 45%, respectively) were lower than in the non-perturbated conidia. Total mortality of Tenebrio molitor larvae provoked by conidia produced in presence of the electric ﬁeld was 40% higher compared with the control. The study showed that the application of electric ﬁeld improving the conidial infectivity. This new approach is susceptible to be optimized to other fungi for biological control with the purpose of improving ﬁeld performance and further investigations on the modiﬁcation of cellular mechanisms by the electric ﬁeld stimuli.

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昆虫病原真菌绿僵菌因在条件作用过程中施加电场而死亡率增加

研究了电场对绿僵菌固态培养分生孢子产量的影响。采用氧化钌钛电极包覆的电化学电池(EC) 450ml，填充水稻:玉米茬混合物，接种1 × 10 6个分生孢子(g初始干支架)−1，培养8天(30℃)。开始培养4天后，施加0.09 mA cm−2的电流密度24 h。在有电场和没有电场的情况下，水分保持恒定(75%)。加电场，条件为(4.9 × 10 8±3)。7 × 10 7个分生孢子(g =初始干托)−1)差异无统计学意义，但其活力和萌发率(分别为67%和45%)低于未扰动分生孢子。电场作用下产生的分生孢子对黄粉虫幼虫的总死亡率比对照高40%。研究表明，电场的应用提高了分生孢子的感染性。这种新方法很容易被优化到其他真菌的生物防治中，以提高电场性能和进一步研究电场刺激对细胞机制的改变。

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Revista Mexicana de Ingeniería Química

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