Micaela Boenel scite author profile

Micaela Boenel

2Publications

13Citation Statements Received

55Citation Statements Given

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Consejo Nacional de Investigaciones Científicas y Técnicas, National University of Comahue

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Exploring the response of Actinobacteria to the presence of phosphorus salts sources: Metabolic and co‐metabolic processes

et al. 2019

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liquid media containing Ca 3 PO 4 ; AlPO 4 or FePO 4 as the sole phosphate source, and discusses the possible mechanisms involved in this process. P solubilization by different strains was accompanied by a significant drop in pH from 7.0 to 2.15-5.0 after 14 days. The efficiency of different strains depended on the P-source. Streptomyces spp. MM140 and MM141 were the most efficient in solubilizing Ca 3 PO 4 , MM136, and MM141 were the most efficient in solubilizing AlPO 4 , while all strains were equally efficient in solubilizing FePO 4 . Gluconic, oxalic, citric, malic, succinic, formic, and acetic acid were detected in the medium with Ca 3 PO 4 , while all except acetic acid were detected in the media with FePO 4 or AlPO 4 . Although we did not use an organic source of phosphorus in the media, all strains produced acid and alkaline phosphatase. It is concluded from this study that actinobacteria produced multiple organic acids followed by a decrease in the pH to solubilize phosphate salts.As well as producing phosphatase, these microorganisms were found to have different ways of making P available, suggesting an ecological advantage as they form part of soil microbiomes important for plants. K E Y W O R D Sactinobacteria, phosphate solubilization, organic acids, Streptomyces

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Actinobacterias Degradadoras De Polipropileno

Boenel

Vobis

Solans

2021

RICA

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La acumulación de polímeros sintéticos es un gran problema de contaminación ambiental, ya que no existen métodos eficientes para su eliminación segura; sin embargo, hay evidencias sobre su degradación por actinobacterias. En este trabajo se evaluó la capacidad de degradación de actinobacterias aisladas de suelo del vertedero de Bariloche, sobre tres biopolímeros y un polímero sintético. Por un lado, se estudió la degradación de polímeros naturales (almidón, hemicelulosa, celulosa) en medio sólido, y por otro el otro se evaluó la degradación de láminas de polipropileno inoculadas con los aislamientos y cultivadas en medio líquido durante seis semanas a 37 ºC. Luego se midió la pérdida de peso en las láminas y se estudió la colonización de la superficie del polipropileno mediante microscopia óptica y electrónica. Los datos fueron analizados con un ANOVA de dos vías y la prueba de Tukey. De los 35 aislamientos totales, el 88 % correspondió al género Streptomyces y el 3 % a los demás géneros (Actinomadura, Pseudonocardia, Saccharomonospora y Thermoactinomyces). El 63 % de los aislamientos tuvo la capacidad de degradar almidón, el 86 % hemicelulosa, el 34 % celulosa microcristalina (exoglucanasas) y el 88 % carboximetilcelulosa (endoglucanasas). Se observó colonización de la superficie de polipropileno en todos los tratamientos. Dos de las cepas estudiadas (Streptomyces sp. MP32 y Actinomadura sp. MP5) redujeron el peso de las láminas de polipropileno (p ≤ 0.05). Estos resultados preliminares muestran la capacidad de las actinobacterias para colonizar la superficie del polipropileno, con potencial uso en suelos o ambientes contaminados por plásticos.

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Micaela Boenel

Exploring the response of Actinobacteria to the presence of phosphorus salts sources: Metabolic and co‐metabolic processes

Actinobacterias Degradadoras De Polipropileno

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