Jennifer Lorena García Riaño , Gloria Patricia Barrera , Leonardo Castellanos Hernández , Laura Fernanda Villamizar
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The final yield was 2.0 × 10<sup>3</sup> MS/mL and MS size varied between 356.9 and 1348.4 μm. Ultrastructure analysis revealed that mature MS contained only a few live cells embedded in an extracellular matrix. Mature MS were more tolerance to UV-B radiation, heat and storage trials than conidia from Solid State Fermentation. MS-derived conidia were as virulent as conidia against <em>Diatraea saccharalis</em> larvae. These results showed that MS are promising propagules for the development of more persistent and efficient biopesticides for harsh environmental conditions. Our findings provide a baseline for production and a better understanding of microsclerotia development in <em>M. robertsii</em> strains.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-01-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1878614624000060/pdfft?md5=3c704ee18af2216e1cc404b4731af25a&pid=1-s2.0-S1878614624000060-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Microsclerotia from Metarhizium robertsii: Production, ultrastructural analysis, robustness, and insecticidal activity\",\"authors\":\"Jennifer Lorena García Riaño , Gloria Patricia Barrera , Leonardo Castellanos Hernández , Laura Fernanda Villamizar\",\"doi\":\"10.1016/j.funbio.2024.01.006\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Microsclerotia (MS) are considered one of the most promising propagules for use as active ingredients in biopesticides due to their tolerance to abiotic factors and ability to produce infective conidia for the control of pests. 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These results showed that MS are promising propagules for the development of more persistent and efficient biopesticides for harsh environmental conditions. 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引用次数: 0
摘要
小硬孢菌(MS)因其对非生物因素的耐受性和产生感染性分生孢子以控制害虫和植物病原体的能力,被认为是最有希望用作生物农药活性成分的繁殖体之一。因此,本研究的主要目的是确定诱导 Metarhizium robertsii Mt004 形成小硬孢菌所需的条件,并研究其发育过程、对非生物因素的耐受性以及 MS 衍生分生孢子的杀虫活性。M.robertsii在2天后开始形成菌丝聚集体,8天后结构更加紧凑,20天后MS成熟并着色。最终产量为 2.0 × 103 MS/mL,MS 大小在 356.9 和 1348.4 μm 之间。超微结构分析表明,在 MS 成熟过程中,内部细胞会溶解,成熟的 MS 只含有少量嵌入细胞外基质的活细胞。通过固态发酵(SSF)在水稻上产生的分生孢子在紫外线-B 光照射 1 小时后完全死亡,而 84.7% 的 MS 在 4 小时后仍然存活。与分生孢子相比,在 50 °C 下暴露 3 小时后,质粒对热的耐受力是分生孢子的 2.5 倍。储存试验表明,分生孢子的活力在 2 个月后迅速下降,而 MS 在 8 ℃ 和 18 ℃ 下储存 4 个月后仍有活力。MS 衍生的分生孢子与在稻谷上产生的分生孢子对糖核虫幼虫的毒力相同。成熟的 MS 比 SSF 的分生孢子更耐热和紫外线辐射。需要对发酵过程进行优化,以提高产量,同时缩短发酵时间并保持小菌丝的健壮性。总之,这些结果使我们得出结论:MS 是一种很有前途的繁殖体,可用于开发在恶劣环境条件下更持久、更高效的生物农药。我们的研究结果为生产提供了一个基准,并使人们更好地了解了罗伯茨小孢子菌株的小孢子发育情况。
Microsclerotia from Metarhizium robertsii: Production, ultrastructural analysis, robustness, and insecticidal activity
Microsclerotia (MS) are considered one of the most promising propagules for use as active ingredients in biopesticides due to their tolerance to abiotic factors and ability to produce infective conidia for the control of pests. Therefore, the objective of this research was to establish the conditions required to induce the formation of microsclerotia in Metarhizium robertsii Mt004 and to study its development process, tolerance to abiotic factors and insecticidal activity of MS-derived conidia. M. robertsii started to form hyphal aggregates after 2 days and looked more compact after 8 days. MS were mature and pigmented after 20 days. The final yield was 2.0 × 103 MS/mL and MS size varied between 356.9 and 1348.4 μm. Ultrastructure analysis revealed that mature MS contained only a few live cells embedded in an extracellular matrix. Mature MS were more tolerance to UV-B radiation, heat and storage trials than conidia from Solid State Fermentation. MS-derived conidia were as virulent as conidia against Diatraea saccharalis larvae. These results showed that MS are promising propagules for the development of more persistent and efficient biopesticides for harsh environmental conditions. Our findings provide a baseline for production and a better understanding of microsclerotia development in M. robertsii strains.
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