RESUMEN
The objective of this work was to optimize the application of an enzymatic blend produced by Aspergillus niger ATCC 1004 on the Pimenta dioica fruits for essential oil extraction. The enzyme blend was obtained from the fermentation of cocoa bean shells, an agro-industrial residue. The effects of the enzymatic pre-treatment on the extraction yield, the chemical composition of the oil through gas chromatography, and the fruit structure through scanning electron microscopy (SEM) were assessed. A Doehlert design was used to optimize the process conditions, resulting in an extraction with 117 mL of enzyme during 77 min, which increased the extraction yield by 387.5%. The chemical composition was not altered, which proves that the enzyme blend preserves the quality of the essential oil extracted. The content of eugenol (70%), the major compound in the P. dioica essential oil, had a great increase in its concentration (560%). The enzyme activity analyses showed the presence of endoglucanase (0.4 U/mL), exoglucanase (0.25 U/mL), ß-glucosidase (0.19 U/mL), and invertase (135.08 U/mL). The microscopy analyses revealed changes in the morphology of fruit surface due to the enzymatic action. These results demonstrate the great potential of using enzyme blends produced by filamentous fungi from agro-industrial residues for the essential oils extraction of interest for the pharmaceutical and food industries.
RESUMEN
The antimicrobial activity of Vismia macrophylla extract is reported in the literature; however, little is known about the presence of phenolic compounds and their antimicrobial activity in this species. This study aimed to isolate phenolic compounds with antimicrobial action from the leaves of V. macrophylla. The ethanolic extract (VmL-Et) was submitted to sephadex column separation, and some fractions were submitted to derivatization with BSTFA and analysed by GC-MS. This study indicated the presence of the catechin, osajaxanthone, quercetin, quercitrin, and glucodistylin. Of these, osajaxanthone, quercetin, quercitrin, and glucodistylin were isolated and identified by spectroscopic techniques. VmL-Et, quercetin, quercitrin, glucodistylin, and maslinic acid, were tested against the Acinetobacter baumannii, Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus and Enterococcus faecalis. The results showed broad spectrum action of the extract Vm-Et, glucodistylin and quercitrin. The species V. macrophylla occurring in the Brazilian biome showed potential for obtaining phenolic compounds that can help combat microbial resistance.