QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage

The purpose of this research was to assess and utilize the bioactive compounds of garlic nanoparticles (Ga-NPs) as a natural antioxidant in sunflower oil (SFO) stored at 65 ± 1 °C for 24 days. The garlic nanoparticles (Ga-NPs) from the Balady cultivar were prepared, characterized, and added to SFO a...

Descripción completa

Detalles Bibliográficos
Autores principales: Abdelli, Nouara, Mekawi, Enas, Ebrahim Abdel-Alim, Mohammed, Salim, Nesreen Saad, El-Nagar, Mahran, Al-Dalain, Sati Y., Adlan Abdalla, Ridab, Nagarajan, Ganesan, Fadhal, Emad, Ibrahim, Rashid I. H., Afkar, Eman, Morsy, Mohamed K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9778114/
https://www.ncbi.nlm.nih.gov/pubmed/36553704
http://dx.doi.org/10.3390/foods11243962
_version_ 1784856277546958848
author Abdelli, Nouara
Mekawi, Enas
Ebrahim Abdel-Alim, Mohammed
Salim, Nesreen Saad
El-Nagar, Mahran
Al-Dalain, Sati Y.
Adlan Abdalla, Ridab
Nagarajan, Ganesan
Fadhal, Emad
Ibrahim, Rashid I. H.
Afkar, Eman
Morsy, Mohamed K.
author_facet Abdelli, Nouara
Mekawi, Enas
Ebrahim Abdel-Alim, Mohammed
Salim, Nesreen Saad
El-Nagar, Mahran
Al-Dalain, Sati Y.
Adlan Abdalla, Ridab
Nagarajan, Ganesan
Fadhal, Emad
Ibrahim, Rashid I. H.
Afkar, Eman
Morsy, Mohamed K.
author_sort Abdelli, Nouara
collection PubMed
description The purpose of this research was to assess and utilize the bioactive compounds of garlic nanoparticles (Ga-NPs) as a natural antioxidant in sunflower oil (SFO) stored at 65 ± 1 °C for 24 days. The garlic nanoparticles (Ga-NPs) from the Balady cultivar were prepared, characterized, and added to SFO at three concentrations: 200, 600, and 1000 ppm (w/v), and they were compared with 600 ppm garlic lyophilized powder extract (Ga-LPE), 200 ppm BHT, 200 ppm α-tocopherol, and SFO without Ga-NPs (control). The QTRAP LC/MS/MS profile of Ga-NPs revealed the presence of four organosulfur compounds. Ga-NPs exhibited the highest capacity for phenolic, flavonoid, and antioxidant compounds. In Ga-NP SFO samples, the values of peroxide, p-anisidine, totox, conjugated dienes, and conjugated trienes were significantly lower than the control. The antioxidant indices of SFO samples containing Ga-NPs were higher than the control. The Ga-NPs enhanced the sensory acceptability of SFO treatments up to day 24 of storage. The shelf life of SFO treated with Ga-NPs was substantially increased (presuming a Q(10) amount). The results show that Ga-NPs are a powerful antioxidant that improves SFO stability and extends the shelf life (~384 days at 25 °C).
format Online
Article
Text
id pubmed-9778114
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-97781142022-12-23 QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage Abdelli, Nouara Mekawi, Enas Ebrahim Abdel-Alim, Mohammed Salim, Nesreen Saad El-Nagar, Mahran Al-Dalain, Sati Y. Adlan Abdalla, Ridab Nagarajan, Ganesan Fadhal, Emad Ibrahim, Rashid I. H. Afkar, Eman Morsy, Mohamed K. Foods Article The purpose of this research was to assess and utilize the bioactive compounds of garlic nanoparticles (Ga-NPs) as a natural antioxidant in sunflower oil (SFO) stored at 65 ± 1 °C for 24 days. The garlic nanoparticles (Ga-NPs) from the Balady cultivar were prepared, characterized, and added to SFO at three concentrations: 200, 600, and 1000 ppm (w/v), and they were compared with 600 ppm garlic lyophilized powder extract (Ga-LPE), 200 ppm BHT, 200 ppm α-tocopherol, and SFO without Ga-NPs (control). The QTRAP LC/MS/MS profile of Ga-NPs revealed the presence of four organosulfur compounds. Ga-NPs exhibited the highest capacity for phenolic, flavonoid, and antioxidant compounds. In Ga-NP SFO samples, the values of peroxide, p-anisidine, totox, conjugated dienes, and conjugated trienes were significantly lower than the control. The antioxidant indices of SFO samples containing Ga-NPs were higher than the control. The Ga-NPs enhanced the sensory acceptability of SFO treatments up to day 24 of storage. The shelf life of SFO treated with Ga-NPs was substantially increased (presuming a Q(10) amount). The results show that Ga-NPs are a powerful antioxidant that improves SFO stability and extends the shelf life (~384 days at 25 °C). MDPI 2022-12-07 /pmc/articles/PMC9778114/ /pubmed/36553704 http://dx.doi.org/10.3390/foods11243962 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Abdelli, Nouara
Mekawi, Enas
Ebrahim Abdel-Alim, Mohammed
Salim, Nesreen Saad
El-Nagar, Mahran
Al-Dalain, Sati Y.
Adlan Abdalla, Ridab
Nagarajan, Ganesan
Fadhal, Emad
Ibrahim, Rashid I. H.
Afkar, Eman
Morsy, Mohamed K.
QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage
title QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage
title_full QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage
title_fullStr QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage
title_full_unstemmed QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage
title_short QTRAP LC/MS/MS of Garlic Nanoparticles and Improving Sunflower Oil Stabilization during Accelerated Shelf Life Storage
title_sort qtrap lc/ms/ms of garlic nanoparticles and improving sunflower oil stabilization during accelerated shelf life storage
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9778114/
https://www.ncbi.nlm.nih.gov/pubmed/36553704
http://dx.doi.org/10.3390/foods11243962
work_keys_str_mv AT abdellinouara qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT mekawienas qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT ebrahimabdelalimmohammed qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT salimnesreensaad qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT elnagarmahran qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT aldalainsatiy qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT adlanabdallaridab qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT nagarajanganesan qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT fadhalemad qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT ibrahimrashidih qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT afkareman qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage
AT morsymohamedk qtraplcmsmsofgarlicnanoparticlesandimprovingsunfloweroilstabilizationduringacceleratedshelflifestorage

Ejemplares similares