Red Jambo Flower (Syzygium malaccense L.) as a Potential Bioactive Compound to Obtain Edible Extract: Optimization of Extraction, Toxicity, Antioxidant, and Antimicrobial Potential

This paper aimed to demonstrate the production of edible extracts from red jambo flowers, cultivated in northeastern Brazil, and investigate their bioactive properties. For this purpose, a multivariate optimization of the extraction process was performed, by solid-liquid extraction, where it was obs...

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Published in:Food analytical methods 2024-07, Vol.17 (7), p.1024-1037
Main Authors: Sousa, Rafael Carneiro de, Rosas, Alexandra Lizandra Gomes, Gonçalves, Glória Caroline Paz, Ramires, Tassiana, Silva, Wladimir Padilha da, Silveira, Tayse da F.F., Barros, Lillian, Paim, Bruna Trindade, Sousa, Thamyres César de Albuquerque, Meinhart, Adriana Dillenburg
Format: Article
Language:English
Subjects:
2,2-diphenyl-1-picrylhydrazyl
Acetone
Analytical Chemistry
Anthocyanins
Antimicrobial
antioxidant activity
Antioxidants
Bioactive compounds
Biocompatibility
Biological activity
Body mass
body weight
Brazil
Carotenoids
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Chromatography
E coli
Ellagic acid
Escherichia coli
Ethanol
Ferulic acid
Flavonoids
Flower
flower extracts
Flowers
Food industry
Food Science
Galleria mellonella
Gentamicin
Hesperidin
Kaempferol
Microbiology
Optimization
Quercetin
Salmonella Typhimurium
Staphylococcus aureus
system optimization
Syzygium malaccense
temperature
Toxicity
ultrasonics
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Summary:This paper aimed to demonstrate the production of edible extracts from red jambo flowers, cultivated in northeastern Brazil, and investigate their bioactive properties. For this purpose, a multivariate optimization of the extraction process was performed, by solid-liquid extraction, where it was observed that the presence of ethanol, acetone, and polysorbate in the extracting solution had the most significant influence on the extraction process, as opposed to temperature, time, volume of extracting solution, and the use of ultrasound. After the mixture system optimization, the best extraction condition was achieved when the extracting solution was composed of 25% ethanol, 25% acetone, and 50% polysorbate 0.25% in water, resulting in an extract containing 27.11 mg of anthocyanins, 457.69 mg of total carotenoids, and 198.09 mg of, total flavonoids, per 100 g of dried flower. The reducing capacity was 466.8 mg GAE per 100 g of dried flower, and the antioxidant activity was 17.25% against the DPPH (2,2-diphenyl-1-picrylhydrazyl) radical. Through chromatographic analysis, it was possible to identify 10 compounds with bioactive properties (ferulic acid dihexoside, pedunculagin, methyl-dihydroquercetin dihexoside, dimethyl-dihydromyricetin diglucoside, kaempferol-3-O-hexosyl-rutinoside-7-O-rhamnoside, quercetin-O-hexoside-O-hexoside, ellagic acid, quercetin-O-hexoside, hesperetin-O-rutinoside, and diosmetin-O-rhamnoside), with a high prevalence of flavonoids. The extract showed no toxicity in an in vivo model of Galleria mellonella when administered at up to 1.6 g kg(-1) of body mass. The extract exhibited inhibition of Staphylococcus aureus (23 mm), Salmonella Typhimurium (12 mm), and Escherichia coli (12 mm), with inhibition zones close to that of gentamicin for the latter two. This study highlights the promising potential of red jambo flower extract as a valuable source of bioactive compounds with significant antioxidant, antimicrobial, and non-toxic properties. The optimized extraction process yielded extracts rich in bioactive compounds, demonstrating its suitability for various applications in the food industry. Further research is warranted to explore the full range of applications and potential health benefits of this natural extract. The authors acknowledge the Fundação de Amparo à Pesquisa e ao Desenvolvimento Científico e Tecnológico do Maranhão (FAPEMA) (Notice no. 011/2021, process no. BM-02192/21) and the Coordenação de Aperfeiçoamento de Pessoal de
ISSN:1936-9751
1936-976X
DOI:10.1007/s12161-024-02629-2