Document detail
ID

doi:10.1186/s12866-023-03033-2...

Author
Abu Safe, Feriala A. Badr, Ahmed N. Shehata, Mohamed G. El-Sayyad, Gharieb S.
Langue
en
Editor

BioMed Central

Category

Mycology

Year

2023

listing date

10/11/2023

Keywords
antibacterial anti-aflatoxigenic nanoemulsions ... ... food preservation food agents compounds using anti-aflatoxigenic nanoemulsion extracts potential antimicrobial nanoemulsions saffron
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Abstract

Background Although the mechanism of action of nanoemulsion is still unclear, the modern use of nanoemulsions made from natural extracts as antimicrobial and anti-aflatoxigenic agents represents a potential food preservation and a safety target.

Methods Two natural nanoemulsion extracts of Crocus sativus (the saffron flower) and Achillea millefolium (the yarrow flower) were produced in the current study using a low-energy method that included carboxymethylcellulose and Arabic gum.

The synthesized nanoemulsion was fully identified by different analytical methods.

Detection of the volatile content was completed using GC-MS analysis.

The antioxidant potential, and phenolic compounds content were analyzed in the extractions.

The synthesized nanoemulsions were screened for their antimicrobial potential in addition to their anti-aflatoxigenic activity.

Results The droplet size of Saffron flowers was finer (121.64 ± 2.18 nm) than yarrow flowers (151.21 ± 1.12 nm).

The Zeta potential measurements of the yarrow flower (-16.31 ± 2.54 mV) and the saffron flower (-18.55 ± 2.31 mV) both showed high stability, along with low PDI values (0.34–0.41).

The nanoemulsion of yarrow flower revealed 51 compounds using gas chromatography-mass spectrometry (GCMS), with hexanal (16.25%), β -Pinene (7.41%), β -Myrcene (5.24%), D-Limonene (5.58%) and Caryophyllene (4.38%) being the most prevalent.

Additionally, 31 compounds were detected in the saffron nanoemulsion, with D-limonene (4.89%), isophorone (12.29%), 4-oxy isophorone (8.19%), and safranal (44.84%) being the most abundant.

Compared to the nanoemulsion of the yarrow flower, the saffron nanoemulsion had good antibacterial and antifungal activity.

Saffron nanoemulsion inhibited total fungal growth by 69.64–71.90% in a simulated liquid medium and demonstrated the most significant decrease in aflatoxin production.

Infected strawberry fruits coated with nanoemulsion extracts exhibited high antimicrobial activity in the form of saffron flower and yarrow flower extract nanoemulsions, which inhibited and/or controlled the growth of Aspergillus fungi.

Due to this inhibition, the lag phase was noticeably prolonged, the cell load decreased, and the stability time increased.

Conclusion This study will contribute to expanding the theoretical research and utilization of nanoemulsions as green protective agents in agricultural and food industries for a promising protection from the invasion of some pathogenic bacteria and fungi.

Abu Safe, Feriala A.,Badr, Ahmed N.,Shehata, Mohamed G.,El-Sayyad, Gharieb S., 2023, Antimicrobial and anti-aflatoxigenic activities of nanoemulsions based on Achillea millefolium and Crocus sativus flower extracts as green promising agents for food preservatives, BioMed Central

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