Extraction and characterisation of cuticular waxes from Physalis peruviana calyx

Summary Waxes play an important role in maintaining fruit quality and shelf‐life extension because they are naturally effective in blocking the migration of moisture. In this work, cuticular waxes from Physalis peruviana calyx (PPC) were extracted and characterised as potentially hydrophobic materia...

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Bibliographic Details
Published inInternational journal of food science & technology Vol. 59; no. 3; pp. 1829 - 1839
Main Authors Castellanos, Isabel Cristina, Rojas‐Pérez, Lilia C.
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.03.2024
Subjects
Antifungal activity
ATR‐IR spectroscopy
Biodegradation
Contact angle
Cuticular wax
Epicuticular wax
Ethanol
Functional groups
Fungicides
Hexanes
Homogeneity
hydrophobic
Hydrophobicity
Industrial applications
Infrared spectroscopy
Life extension
Light microscopy
Lipids
Optical microscopy
Petroleum ether
Physalis peruviana
Physalis peruviana calyx
Solvents
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Summary:Summary Waxes play an important role in maintaining fruit quality and shelf‐life extension because they are naturally effective in blocking the migration of moisture. In this work, cuticular waxes from Physalis peruviana calyx (PPC) were extracted and characterised as potentially hydrophobic materials. Extraction was carried out using the Soxhlet technique with two non‐polar solvents, hexane and petroleum ether, and one polar solvent, ethanol. The extraction yield, lipid characterisation, and hydrophobic potential of cuticular waxes from PPC were analysed and compared using thin‐layer chromatography (TLC), attenuated total reflectance‐infrared spectroscopy (ATR‐IR), GC–MS chromatogram (FAMES), and wetting contact angle. Extraction using hexane was the most efficient method (yield of 9.61 ± 0.37%) for obtaining cuticular waxes with better hydrophobic properties, characterised by a contact angle of θC = 107.37 ± 1.0° and a hysteresis contact angle of 11° due mainly to the presence of functional groups desirable and characteristic of vegetable waxes. Greater texture homogeneity visualised using optical microscopy and the presence of capric acid (70.97%) as a major component of low‐molecular‐weight fatty acids were observed in this extract. Due to their biodegradable, potentially antifungal, and hydrophobic properties, cuticular waxes from PPC have the potential to replace synthetic waxes in industrial applications. Comparison between wetting contact angle and ATR‐IR spectrum of the cuticular waxes from Physalis peruvian calyx extracted with different solvents.
ISSN:0950-5423
1365-2621
DOI:10.1111/ijfs.16935