Abstract:Penicillium italicum, the cause of citrus blue mold, is a pathogenic fungus that seriously affects the postharvest quality of citrus fruit and causes serious economic loss. In this study, a eugenol nanoemulsion containing limonin, an antimicrobial component from citrus seeds, was prepared using a high-pressure microfluidizer and the antifungal activity of the nanoemulsions against P. italicum was evaluated based on the conidial germination rate, mycelial growth, and scanning electron microscopy analysis. The r… Show more
“…The diameter of the zones of inhibition of EuNE-30 against Saccharomyces cerevisiae and Rhizopus stolonifera were 35.56 mm and 37.59 mm, respectively, while EuNE-5 induced zones of inhibition against the same fungi were 28.95 mm and 29.71 mm, respectively. A similar fungal inhibition pattern was observed by Basumatary, Kalita, et al, 2022 , Basumatary, Mukherjee, et al, 2022 with isolated fungi ( Basumatary, Mukherjee, et al, 2022 ) and Li, Zhao, Li, & Zhou, 2021 against Penicillium Italicum when exposed to eugenol nanoemulsions ( Li et al, 2021 ). Fig.…”
“…The diameter of the zones of inhibition of EuNE-30 against Saccharomyces cerevisiae and Rhizopus stolonifera were 35.56 mm and 37.59 mm, respectively, while EuNE-5 induced zones of inhibition against the same fungi were 28.95 mm and 29.71 mm, respectively. A similar fungal inhibition pattern was observed by Basumatary, Kalita, et al, 2022 , Basumatary, Mukherjee, et al, 2022 with isolated fungi ( Basumatary, Mukherjee, et al, 2022 ) and Li, Zhao, Li, & Zhou, 2021 against Penicillium Italicum when exposed to eugenol nanoemulsions ( Li et al, 2021 ). Fig.…”
“…The mean particle size of the Pickering emulsion added to Eu was 296.0 ± 11.2 nm, the PDI value was 0.457 ± 0.039, and the absolute value of zeta potential was 20.1 ± 0.9 mV. In a study, Li et al prepared an Eu nanoemulsion containing limonin (an antimicrobial component from citrus seeds), which showed that the mean particle size of Eu nanoemulsions was 213.7 nm, and presented a larger particle size of 245.7 nm with the addition of limonin [25]. In another study, a sub-micron injectable emulsion of Eu was developed with an average particle size of 176.1 ± 10.3 nm and a potential of −40.2 ± 1.8 mV, which showed excellent stability and safety compared to Eu solutions [26].…”
The purpose of this study was to develop a composite film composed of eugenol Pickering emulsion and pullulan–gelatin, and to evaluate its preservation effect on chilled beef. The prepared composite film was comprehensively evaluated in terms of the stability of emulsion, the physical properties of the film, and an analysis of freshness preservation for chilled beef. The emulsion size (296.0 ± 10.2 nm), polydispersity index (0.457 ± 0.039), and potential (20.1 ± 0.9 mV) proved the success of emulsion. At the same time, the films displayed good mechanical and barrier properties. The index of beef preservation also indicated that eugenol was a better active ingredient than clove essence oil, which led to the rise of potential of hydrogen, chroma and water content, and effectively inhibited microbial propagation, protein degradation and lipid oxidation. These results suggest that the prepared composites can be used as promising materials for chilled beef preservation.
“…Concerning antifungal and protection properties of nanoformulations of phytochemicals, eugenol (4-allyl-2-methoxyphenol) and limonin were formulated into a nanoemulsion and showed high inhibition against blue mold caused by P. italicum in citrus fruits [6]. Cinnamaldehyde, eugenol and carvacrol nanoemulsions strongly inhibited P. digitatum and were applied to the postharvest preservation of citrus fruit [21].…”
Section: In Vivo Efficacy Of Turmeric Nanoparticles Against Anthracno...mentioning
Colletotrichum species cause anthracnose in various tropical crops in both cultivation and postharvest periods. The current synthetic fungicides to treat anthracnose sometime show toxic effects for farmers, residues on foods, and environmental impacts. In this work, turmeric extract containing curcuminoids was used as an active ingredient and formulated into a nanoemulsion to control anthracnose in red pepper and tomato fruits. The nanoparticles containing turmeric extract (25 %) were successfully prepared by encapsulation using Tween-80 and PEG 400 as emulsifiers. Out of the three main curcuminoids in the turmeric extract, BDMC was determined as the most abundant constituent via HPLC analysis. Turmeric nanoparticles showed an average particle size of 203 nm, polydispersity index (PI) of 0.322, and zeta potential of -92.7 mV. In the in vitro antifungal bioassay, this nanoformulation significantly inhibited the mycelial growth of Colletotrichum gloeosporioides and Colletotrichum orbiculare in a dose-dependent manner. Red pepper anthracnose was also consistently suppressed by turmeric nanoparticles but the tomato anthracnose was resistant to this formulation at 10 mg/mL in vivo. The study results proved the effectiveness of turmeric nanoparticles to control red pepper anthracnose in postharvest preservation and suggested developing the innovative nanoformulation as a green fungicide.
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