Jorge Anaya-Gil scite author profile

Due to the negative consequences carried by the usage of synthetic insecticides, a global interest into finding substitutes for these chemical compounds through natural products has arisen. When yielded to external attacks, plants generally produce metabolites to defend themselves. The physicochemical characteristics of this kind of compounds have allowed their usage as potential bioinsecticides. The Hymenaea courbaril L. (algarrobo) has proven to be a plant rich in metabolites with outstanding biological activity, in such a way that some of its extracts have been tested as insecticides. The goal of this study was to know the phytochemical composition of Hymenaea courbaril L.’s resin and perform evaluations in vivo of its toxic and genotoxic effects in the biological model Drosophila melanogaster . For this, two resin extracts were prepared and both a phytochemical analysis were carried out on them, having found in the ethanolic total extract the presence of terpenes, flavonoids and coumarins, while in the partial ethanolic extract only presence of terpenes and flavonoids was found. Drosophila larvae were submitted to different concentrations of the extracts and both the survival and the sexual ratio were evaluated, finding that larvae are more sensitive to the partial ethanolic extract. Subsequently, the induction of somatic mutation and mitotic recombination (SMART) was evaluated in the flies’ eyes. The most significant affectations at a genotoxic level were found when larvae were tested with the partial extract, indicating that possibly the coumarins absence makes this insect more susceptible to damages at a genetic material level.

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Artificial modification of the chemical composition of orange oil (Citrus sinensis L.) and its effect on larvicidal activity

Anaya-Gil

Cabarcas-Caro

Leyva-Ricardo³

et al. 2021

Saudi Journal of Biological Sciences

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The use of synthetic pesticide carries along several disadvantages talking about the preservation of the natural homeostasis of the planet, causing the searching of biopesticide, which one presents advantages as well as biodegradability in minimum possible time, the low toxicity in comparison to synthetic pesticides and their variety of structure, which allows slowing down the appearance of resistance. The aim of this work was to evaluate the effect on the larvicidal action when artificially varying the chemical composition of orange oil ( Citrus sinensis L.). As results, we found that the analysis of gas chromatography coupled to mass spectrometry showed the presence of terpenoid and sesquiterpenoid compounds in the different samples. The use of electric pulses on samples modified their chemical composition, so that the percentage of limonene went from 72% in the sample that was not subjected to electric treatment to lower percentages, even in sample three the percentage of limonene was <50%. Only three compounds (limonene, linalool and caryophyllene) were found to be common in all samples. Subsequently, the larvicidal action on Drosophila melanogaster larvae was evaluated. Six concentrations of each oil sample were tested (0, 100, 500, 1000, 5000 and 10000 ppm). We found that there was no linear relationship between concentration and lethality. Additionally, in the sample without electrical treatment most of the concentrations tested had lethality higher than 50%, while in sample 7 the results of the lethality were lower than 30%, so that biological tests showed that in samples where the concentration of limonene was lower, the lethality in the larvae decreased.

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Estudio teórico de compuestos derivados de cefalosporinas con potencial actividad inhibitoria frente a proteína de unión a penicilina (PBP) y resistencia a enzimas betalactamasa de espectro extendido (BLEE) producidas por Escherichia coli

Urbina-Daza

Anaya-Ortega

Ahumedo-Monterrosa

et al. 2019

Rev. Colomb. Cienc. Quím. Farm.

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Se han utilizado herramientas computacionales para proponer moléculas derivadas de cefalosporinas con potencial actividad antibacteriana, frente a cepas de Escherichia Coli, con mayor afinidad como inhibidores de enzimas de unión a penicilinas y que a su vez disminuyan o no tengan afinidad por betalactamasas de espectro extendido. Se diseñaron 20 moléculas con base en la estructura molecular de la cefalosporina, las estructuras fueron optimizadas utilizando la teoría del funcional de la densidad, se calcularon descriptores moleculares de reactividad, de forma paralela se sometieron a acoplamiento molecular con las enzimas antes mencionadas. Las moléculas presentaron valores de energía de unión negativos, doce moléculas mostraron una orientación e interacciones favorables en el sitio activo de la enzima de unión a penicilinas y trece moléculas presentaron menor afinidad que el ligando nativo (cefotaxima) por la betalactamasa. Tres moléculas pueden considerarse como potenciales inhibidores de enzimas de unión a penicilinas resistentes y betalactamasas.

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Jorge Anaya-Gil

Theoretical study to evaluate polyfuran electrical conductivity and methylamine, methoxy substituent effects

Quantitative Structure–Retention Relationships of Polychlorinated Biphenyls (PCBs) Gas Chromatographic Retention Times: A Quantum Similarity Approach

In vivo evaluation of the toxic activity and genotoxicity of the Hymenaea courbaril L.’s resin in Drosophila melanogaster

Artificial modification of the chemical composition of orange oil (Citrus sinensis L.) and its effect on larvicidal activity

Estudio teórico de compuestos derivados de cefalosporinas con potencial actividad inhibitoria frente a proteína de unión a penicilina (PBP) y resistencia a enzimas betalactamasa de espectro extendido (BLEE) producidas por Escherichia coli

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