Your search keyword '"Temitope T. Abiola"' showing total 14 results

1. Direct structural observation of ultrafast photoisomerization dynamics in sinapate esters

Author

Temitope T. Abiola, Josene M. Toldo, Mariana T. do Casal, Amandine L. Flourat, Benjamin Rioux, Jack M. Woolley, Daniel Murdock, Florent Allais, Mario Barbatti, and Vasilios G. Stavros

Subjects

Chemistry, QD1-999

Abstract

Photoinduced isomerization reactions can be used to efficiently dissipate absorbed energy in photosystems such as molecular motors, but the ultrafast processes are challenging to characterize. Here, the authors track the formation of the E and Z isomers of ethyl sinapate in real time via transient vibrational absorption spectroscopy and find that photoinduced internal conversion occurs at multiple points along the potential energy surface.

Published

2022

2. Sustainable synthesis, in silico evaluation of potential toxicity and environmental fate, antioxidant and UV-filtering/photostability activity of phenolic-based thiobarbituric derivatives

Author

Benjamin Rioux, Matthieu M. Mention, Jimmy Alarcan, Temitope T. Abiola, Cédric Peyrot, Fanny Brunissen, Albert Braeuning, Vasilios G. Stavros, and Florent Allais

Subjects

biomass, phenolics, barbiturics, uv filters, in silico toxicity assessment, Science, Chemistry, QD1-999

Abstract

The recent ban of some organic UV-filters – such as oxybenzone or octinoxate – considered toxic for coral reef, has heightened the need for eco-friendly alternatives, especially those synthesized using green approaches that reduce the carbon footprint. In this context, several thiobarbituric acid derivatives were synthetized from bio-based p-hydroxybenzaldehydes (e.g. vanillin, syringaldehyde) through a high-yielding sustainable Knoevenagel condensation, and their UV-filtering activity, stability and antiradical properties were investigated. The results showed promising UVA and blue light coverage over time, as well as competitive EC50 values in comparison to commercial antioxidants (i.e. BHA and BHT). In order to evaluate the potential of these molecules as substitutes to current petroleum-based UV-filters, the potential toxicity and fate in environment of these new compounds were evaluated in silico. This screening did not show a critical potential for toxicity, making them promising candidates for further in vitro and in vivo assessment.

Published

2022

3. Experimental and Computational Analysis of Para-Hydroxy Methylcinnamate following Photoexcitation

Author

Jack Dalton, Gareth W. Richings, Jack M. Woolley, Temitope T. Abiola, Scott Habershon, and Vasilios G. Stavros

Subjects

ultrafast spectroscopy, DFT, gas-phase, VMI, photochemistry, photophysics, Organic chemistry, QD241-441

Abstract

Para-hydroxy methylcinnamate is part of the cinnamate family of molecules. Experimental and computational studies have suggested conflicting non-radiative decay routes after photoexcitation to its S1(ππ*) state. One non-radiative decay route involves intersystem crossing mediated by an optically dark singlet state, whilst the other involves direct intersystem crossing to a triplet state. Furthermore, irrespective of the decay mechanism, the lifetime of the initially populated S1(ππ*) state is yet to be accurately measured. In this study, we use time-resolved ion-yield and photoelectron spectroscopies to precisely determine the S1(ππ*) lifetime for the s-cis conformer of para-hydroxy methylcinnamate, combined with time-dependent density functional theory to determine the major non-radiative decay route. We find the S1(ππ*) state lifetime of s-cis para-hydroxy methylcinnamate to be ∼2.5 picoseconds, and the major non-radiative decay route to follow the [1ππ*→1nπ*→3ππ*→S0] pathway. These results also concur with previous photodynamical studies on structurally similar molecules, such as para-coumaric acid and methylcinnamate.

Published

2021

4. Unravelling the Photoprotection Properties of Garden Cress Sprout Extract

Author

Temitope T. Abiola, Nazia Auckloo, Jack M. Woolley, Christophe Corre, Stéphane Poigny, and Vasilios G. Stavros

Subjects

sunscreen, UV filter, photoprotection, nature-inspired, photodynamics, photophysics, Organic chemistry, QD241-441

Abstract

Plants, as with humans, require photoprotection against the potentially damaging effects of overexposure to ultraviolet (UV) radiation. Previously, sinapoyl malate (SM) was identified as the photoprotective agent in thale cress. Here, we seek to identify the photoprotective agent in a similar plant, garden cress, which is currently used in the skincare product Detoxophane nc. To achieve this, we explore the photodynamics of both the garden cress sprout extract and Detoxophane nc with femtosecond transient electronic absorption spectroscopy. With the assistance of liquid chromatography-mass spectrometry, we determine that the main UV-absorbing compound in garden cress sprout extract is SM. Importantly, our studies reveal that the photoprotection properties of the SM in the garden cress sprout extract present in Detoxophane nc are not compromised by the formulation environment. The result suggests that Detoxophane nc containing the garden cress sprout extract may offer additional photoprotection to the end user in the form of a UV filter booster.

Published

2021

5. Unravelling the Photoprotective Mechanisms of Nature-Inspired Ultraviolet Filters Using Ultrafast Spectroscopy

Author

Temitope T. Abiola, Abigail L. Whittock, and Vasilios G. Stavros

Subjects

ultrafast spectroscopy, sunscreens, nature-inspired, photoprotection, photochemistry, photophysics, Organic chemistry, QD241-441

Abstract

There are several drawbacks with the current commercially available ultraviolet (UV) filters used in sunscreen formulations, namely deleterious human and ecotoxic effects. As a result of the drawbacks, a current research interest is in identifying and designing new UV filters. One approach that has been explored in recent years is to use nature as inspiration, which is the focus of this review. Both plants and microorganisms have adapted to synthesize their own photoprotective molecules to guard their DNA from potentially harmful UV radiation. The relaxation mechanism of a molecule after it has been photoexcited can be unravelled by several techniques, the ones of most interest for this review being ultrafast spectroscopy and computational methods. Within the literature, both techniques have been implemented on plant-, and microbial-inspired UV filters to better understand their photoprotective roles in nature. This review aims to explore these findings for both families of nature-inspired UV filters in the hope of guiding the future design of sunscreens.

Published

2020

6. N-Heteroacenes as an Organic Gain Medium for Room-Temperature Masers

Author

Max Attwood, Xiaotian Xu, Michael Newns, Zhu Meng, Rebecca A. Ingle, Hao Wu, Xi Chen, Weidong Xu, Wern Ng, Temitope T. Abiola, Vasilios G. Stavros, and Mark Oxborrow

Subjects

General Chemical Engineering, Materials Chemistry, General Chemistry

Published

2023

7. Towards developing novel and sustainable molecular light-to-heat converters

Author

Jimmy Alarcan, Mariana T. do Casal, Matthew A. P. Turner, Michael N. R. Ashfold, Florent Allais, Daniel J. L. Coxon, Matthieu M. Mention, Mario Barbatti, Wybren Jan Buma, Temitope T. Abiola, Benjamin Rioux, Josene M. Toldo, Jack Matthew Woolley, Albert Braeuning, Vasilios G. Stavros, Cédric Peyrot, University of Warwick [Coventry], Agro-Biotechnologies Industrielles (ABI), AgroParisTech, Institut de Chimie Radicalaire (ICR), Aix Marseille Université (AMU)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), German Federal Institute for Risk Assessment [Berlin] (BfR), University of Amsterdam [Amsterdam] (UvA), Radboud university [Nijmegen], University of Bristol [Bristol], Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), Radboud University [Nijmegen], and ANR-17-CE07-0046,SINAPUV,(Bio)synthèse et étude des propriétés physico-chimiques et biologiques d'analogues du malate de sinapoyl: de nouvelles molécules anti-UV non-toxiques et biosourcées pour l'industrie cosmétique(2017)

Subjects

Materials science, Chemistry, Multidisciplinary, EFFICIENT, 02 engineering and technology, 010402 general chemistry, medicine.disease_cause, 7. Clean energy, 01 natural sciences, DENSITY-FUNCTIONAL THEORY, CONDENSATION, medicine, NANOPARTICLES, ABSORPTION, FROST DAMAGE, [CHIM]Chemical Sciences, QD, FELIX Condensed Matter Physics, ACID-DERIVATIVES, Science & Technology, [CHIM.ORGA]Chemical Sciences/Organic chemistry, QK, General Chemistry, CONICAL INTERSECTIONS, 021001 nanoscience & nanotechnology, Internal conversion (chemistry), Engineering physics, 0104 chemical sciences, EXCITED-STATE DYNAMICS, Photoexcitation, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, Chemistry, 13. Climate action, Picosecond, Excited state, Femtosecond, Physical Sciences, Transient (oscillation), 0210 nano-technology, Ground state, Ultraviolet, GENERATION

Abstract

Light-to-heat conversion materials generate great interest due to their widespread applications, notable exemplars being solar energy harvesting and photoprotection. Another more recently identified potential application for such materials is in molecular heaters for agriculture, whose function is to protect crops from extreme cold weather and extend both the growing season and the geographic areas capable of supporting growth, all of which could help reduce food security challenges. To address this demand, a new series of phenolic-based barbituric absorbers of ultraviolet (UV) radiation has been designed and synthesised in a sustainable manner. The photophysics of these molecules has been studied in solution using femtosecond transient electronic and vibrational absorption spectroscopies, allied with computational simulations and their potential toxicity assessed by in silico studies. Following photoexcitation to the lowest singlet excited state, these barbituric absorbers repopulate the electronic ground state with high fidelity on an ultrafast time scale (within a few picoseconds). The energy relaxation pathway includes a twisted intramolecular charge-transfer state as the system evolves out of the Franck–Condon region, internal conversion to the ground electronic state, and subsequent vibrational cooling. These barbituric absorbers display promising light-to-heat conversion capabilities, are predicted to be non-toxic, and demand further study within neighbouring application-based fields., The synthesis and photophysical properties of phenolic barbiturics are reported. These molecules convert absorbed ultraviolet light to heat with high fidelity and may be suitable for inclusion in foliar sprays to boost crop protection and production.

Published

2021

8. A perspective on femtosecond pump–probe spectroscopy in the development of future sunscreens

Author

Abigail L. Whittock, Temitope T. Abiola, and Vasilios G. Stavros

Subjects

Ultraviolet Rays, Spectrum Analysis, Humans, Physical and Theoretical Chemistry, Sunscreening Agents, QC, RS

Abstract

Given the negative impacts of overexposure to ultraviolet radiation (UVR) on humans, sunscreens have become a widely used product. Certain ingredients within sunscreens are responsible for photoprotection and these are known, collectively herein, as ultraviolet (UV) filters. Generally speaking, organic UV filters work by absorbing the potentially harmful UVR and dissipating this energy as harmless heat. This process happens on picosecond time scales and so femtosecond pump-probe spectroscopy (FPPS) is an ideal technique for tracking this energy conversion in real time. Coupling FPPS with complementary techniques, including steady-state spectroscopy and computational methods, can provide a detailed mechanistic picture of how UV filters provide photoprotection. As such, FPPS is crucial in aiding the future design of UV filters. This Perspective sheds light on the advancements made over the past two years on both approved and nature-inspired UV filters. Moreover, we suggest where FPPS can be further utilized within sunscreen applications for future considerations.

Published

2022

9. New Generation UV-A Filters: Understanding Their Photodynamics on a Human Skin Mimic

Author

Daniel J. L. Coxon, Vasilios G. Stavros, Mariana T. do Casal, Benjamin Rioux, Natércia d. N. Rodrigues, Matthieu M. Mention, Patrick Balaguer, Cédric Peyrot, Josene M. Toldo, Michael D. Horbury, Casey Ho, Florent Allais, Temitope T. Abiola, Mario Barbatti, BARBATTI, Mario, Institut de Chimie Radicalaire (ICR), Aix Marseille Université (AMU)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Department of Chemistry [University of Warwick], University of Warwick [Coventry], University of Leeds, Agro-Biotechnologies Industrielles (ABI), AgroParisTech, Centre Européen de Biotechnologies et Bioéconomie (CEBB), Institut du Cancer de Montpellier (ICM), Institut de Recherche en Cancérologie de Montpellier (IRCM - U1194 Inserm - UM), CRLCC Val d'Aurelle - Paul Lamarque-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM), European Project: 828753,BoostCrop, Institut Universitaire de France (IUF), and Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)

Subjects

Models, Molecular, Technology, ULTRAVIOLET, Molecular Conformation, UV filter, Physics, Atomic, Molecular & Chemical, Photochemistry, AVOBENZONE, 01 natural sciences, Chemical calculations, PLANT SUNSCREEN, Biomimetic Materials, PHOTOISOMERIZATION, [CHIM] Chemical Sciences, ABSORPTION, UV-A filters, General Materials Science, QD, QC, ComputingMilieux_MISCELLANEOUS, Skin, [PHYS]Physics [physics], DAMAGE, SPECTROSCOPY, 010304 chemical physics, Chemistry, Physical, Physics, Internal conversion (chemistry), Photoexcitation, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, Chemistry, Photostability, Femtosecond, Physical Sciences, Science & Technology - Other Topics, Ground state, Materials science, Ultraviolet Rays, Materials Science, Radiation-Protective Agents, Materials Science, Multidisciplinary, 010402 general chemistry, 0103 physical sciences, Humans, [CHIM]Chemical Sciences, Physical and Theoretical Chemistry, Nanoscience & Nanotechnology, Science & Technology, PHOTOPROTECTION, Conical intersection, 0104 chemical sciences, [CHIM.THEO] Chemical Sciences/Theoretical and/or physical chemistry, Intramolecular force, Ultrashort pulse, RC

Abstract

The sparsity of efficient commercial ultraviolet-A (UV-A) filters is a major challenge toward developing effective broadband sunscreens with minimal human- and eco-toxicity. To combat this, we have designed a new class of Meldrum-based phenolic UV-A filters. We explore the ultrafast photodynamics of coumaryl Meldrum, CMe, and sinapyl Meldrum (SMe), both in an industry-standard emollient and on a synthetic skin mimic, using femtosecond transient electronic and vibrational absorption spectroscopies and computational simulations. Upon photoexcitation to the lowest excited singlet state (S1), these Meldrum-based phenolics undergo fast and efficient nonradiative decay to repopulate the electronic ground state (S0). We propose an initial ultrafast twisted intramolecular charge-transfer mechanism as these systems evolve out of the Franck-Condon region toward an S1/S0 conical intersection, followed by internal conversion to S0 and subsequent vibrational cooling. Importantly, we correlate these findings to their long-term photostability upon irradiation with a solar simulator and conclude that these molecules surpass the basic requirements of an industry-standard UV filter. ispartof: JOURNAL OF PHYSICAL CHEMISTRY LETTERS vol:12 issue:1 pages:337-344 ispartof: location:United States status: published

Published

2021

10. Unravelling the Photoprotective Mechanisms of Nature-Inspired Ultraviolet Filters Using Ultrafast Spectroscopy

Author

Abigail L. Whittock, Temitope T. Abiola, and Vasilios G. Stavros

Subjects

Ultraviolet Rays, Computer science, Pharmaceutical Science, Nanotechnology, Review, medicine.disease_cause, nature-inspired, Analytical Chemistry, RS, lcsh:QD241-441, ultrafast spectroscopy, Structure-Activity Relationship, lcsh:Organic chemistry, Drug Discovery, medicine, sunscreens, Humans, Photosynthesis, Physical and Theoretical Chemistry, Nature inspired, Spectroscopy, Plant Physiological Phenomena, QC, photophysics, photochemistry, Spectrum Analysis, Organic Chemistry, Models, Theoretical, Plants, Photochemical Processes, photoprotection, Chemistry (miscellaneous), Photoprotection, Molecular Medicine, Sunscreening Agents, Ultrashort pulse, Ultraviolet

Abstract

There are several drawbacks with the current commercially available ultraviolet (UV) filters used in sunscreen formulations, namely deleterious human and ecotoxic effects. As a result of the drawbacks, a current research interest is in identifying and designing new UV filters. One approach that has been explored in recent years is to use nature as inspiration, which is the focus of this review. Both plants and microorganisms have adapted to synthesize their own photoprotective molecules to guard their DNA from potentially harmful UV radiation. The relaxation mechanism of a molecule after it has been photoexcited can be unravelled by several techniques, the ones of most interest for this review being ultrafast spectroscopy and computational methods. Within the literature, both techniques have been implemented on plant-, and microbial-inspired UV filters to better understand their photoprotective roles in nature. This review aims to explore these findings for both families of nature-inspired UV filters in the hope of guiding the future design of sunscreens.

Published

2020

11. Isolation, characterization and optimization of oleaginous Providencia vermicola as a feedstock for biodiesel production using Response Surface Methodology.

Author

Abiola T and Olukanni OD

Subjects

Biomass, Lipids biosynthesis, Soil Microbiology, RNA, Ribosomal, 16S genetics, Hydrogen-Ion Concentration, Spectroscopy, Fourier Transform Infrared, Temperature, Biofuels microbiology, Providencia metabolism, Providencia isolation & purification

Abstract

Oleaginous organisms accrue more than twenty percent of their biomass as lipids and hence are promising feedstocks for biodiesel production. In this study, lipid accumulating bacteria were isolated from diesel-contaminated soils and screened with Sudan black B stain. The most oleaginous was done using 16s rRNA gene sequencing. Lipid production was initially optimized based on media, nitrogen source, pH and temperature. Response surface methodology (RSM) was then employed for the enhancement of lipid weight and content. Obtained lipid was converted to biodiesel using direct transesterification, and both lipid and biodiesel were characterized using FTIR. A total of thirteen bacteria were isolated and the most prominent lipid producer was identified as Providencia vermicola with lab number BA6. Preliminary optimization studies revealed optimum lipid production when nutrient broth and acetic acid served as carbon source; KNO 3 as nitrogen source, pH 7.0 and 30 °C. Optimization using RSM resulted in a 5.1% and 74.1% increase in the biomass and lipid content of BA6 respectively. FTIR analyses confirmed the presence of functional groups characteristic of lipids and biodiesel. P. vermicola is a novel oleaginous organism that represents a promising feedstock for biodiesel production.HIGHLIGHTSThe bacterium designated as BA6 identified as Providencia vermicola has the highest lipid contents of the oleaginous bacteria isolated.It accumulates lipids up to 47.73 % of its biomassThe percentage lipids accumulation increased to about 74 % when RSM was used. Providencia vermicola is being reported as an oleaginous organism for the first time.

Published

2024

12. Immune boosting and ameliorative properties of aqueous extract of Vernonia amygdalina Delile against MSG-induced genotoxicity: An in silico and in vivo approach.

Author

Abiola T, John EO, Sossou IT, and Charles Callistus B

Abstract

Vernonia amygdalina (VA) is popularly consumed as food and as medicine due to its nutritional and bioactive constituents. This study assessed the anti -genotoxic effect of aqueous leaf extract of VA against monosodium (MSG) -induced genotoxicity. Crude extraction and phytochemical analysis were done using standard methods. In silico studies was done using compounds in the extract against Bcl-2, NF-kB 50, DNA polymerase lambda, DNA ligase, superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPX). Twelve rats were divided into three groups with four rats in each group. Group I was fed on food and water, group II received MSG (4 g/kg) per body weight (pbw) intraperitoneally, group III received MSG (4 g/kg) pbw intraperitoneally followed by oral dose of VA leaf extract (250 mg/kg) per body weight. The number of the micronucleated red blood cells and white blood cells were determined from blood smears microscopically. Results showed that aqueous extract of VA contained in mg/100 g alkaloids (7.04 ± 0.16), saponins (3.91 ± 0.13), flavonoid (1.64 ± 0.16), phenol (3.40 ± 0.12) and tannins (0.07 ± 0.32). In silico studies revealed high binding interaction (ΔG > -8.6) of vernoniosides D and E with all the tested proteins. There was a reduction in the number of micronucleated cells, neutrophils and eosinophils of the treated group compared to the MSG group, while there was an increase in the lymphocyte count. The anti -genotoxic effects of VA leaf extract might be attributed to the synergistic interaction of the various bioactive components in the extract. VA could be a potential plant for the prevention of cancer and other diseases that attenuate the immune system., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors.)

Published

2023

13. Resourcefulness of propylprodigiosin isolated from Brevundimonas olei strain RUN-D1.

Author

Olukanni OD, Abiola T, Dada JB, Dare PA, Ayoade F, and Olukanni AT

Abstract

A novel red-pigmented bacterium was isolated from a water sample collected at Osun River, Ede. Morphological and 16 S rRNA gene sequencing revealed that the bacterium is a strain of Brevundimonas olei, while its red pigment was identified using UV-visible, FTIR and GCMS as a derivative of propylprodigiosin. The maximum absorbance of 534 nm, the FTIR's 1344 cm - 1 peak of prodigiosin's methoxyl C-O interaction, and the molecular ions from GCMS confirmed the pigment's identity. The pigments production was temperature-sensitive (25 °C), lost at > 28 °C, and in the presence of urea and humus. In addition, the pigment turned pink in the presence of hydrocarbons, while its red colour was retained with KCN and Fe 2 SO 4, and enhanced by methylparaben. Furthermore, the pigment is stable in high temperature, salt, and acidic conditions, but changed to yellow in alkaline solution. The pigment, identified as propylprodigiosin (m/z 297), demonstrated broad-spectrum antibacterial activities against clinically important strains of Staphylococcus aureus (ATCC25923), Pseudomonas aeruginosa (ATCC9077), Bacillus cereus (ATCC10876), Salmonella typhi (ATCC13311), and Escherichia coli (DSM10974). The ethanol extract has the highest zones of inhibition of 29 ± 3.0, 26 ± 1.2, 22 ± 3.0, 22 ± 1.5, and 20 ± 2.0 mm, respectively. Furthermore, the acetone pigments interacted with cellulose and glucose such that increasing glucose concentrations showed linearity at 425 nm. Finally, the fastness of the pigments to fabrics was excellent, with percentage fadedness of 0 and - 43% light and washing tests, respectively, in the presence of Fe 2 SO 4 as the mordant. The antibacterial nature of prodigiosin solutions and their good textile fastness to fabrics could be essential in manufacturing antiseptic materials such as bandages, hospital clothing and agricultural applications such as tubers preservation.Key points., (© 2023. The Author(s).)

Published

2023

14. Chemical Composition, In Silico and In Vitro Antimutagenic Activities of Ethanolic and Aqueous Extracts of Tigernut ( Cyperus esculentus ).

Author

Olukanni OD, Abiola T, Olukanni AT, and Ojo AV

Abstract

Tigernut, also known as Cyperus esculentus , is said to be high in nutritional and medicinal value. The purpose of this study was to determine the C. esculentus 's antimutagenic activity. The ethanolic and aqueous extracts of the nut were analyzed for chemical constituents, antioxidants, ultraviolet-visible, and gas chromatography-mass spectrometry using standard procedures. The extracts contained a total of 17 major compounds that were docked against human RecQ-like protein 5 (RECQL5) helicase protein. The antimutagenic property of the ethanolic extract in vitro was assessed using the Allium cepa chromosome assay. Onion bulbs were pre-treated with 200 mg/kg of ethanolic extract of C. esculentus for 24 h and then, grown in NaN 3 (250 μg/L) for 24 h; onion bulbs were also first exposed to NaN 3 (250 μg/L) for 24 h before treatment with 100 mg/kg and 200 mg/kg of the ethanolic extract respectively. Standard methods were used to determine the mitotic index and chromosomal aberrations. Results revealed that C. esculentus ethanolic extract contained flavonoids (22.47 mg/g), tannins (0.08 mg/g), alkaloids (19.71 mg/g), glycosides, phenol, and tannin and showed high scavenging activity against 2,2-diphenyl-1-picrylhydrazyland H 2 O 2 . Docking with RECQL5 showed good binding energies (∆G>-7) of five compounds in C. esculentus ethanolic extract. The A. cepa assay results revealed a significant ( P <0.05) reduction in chromosomal aberrations and a higher mitotic index in groups treated with the C. esculentus ethanolic extract. The antimutagenic activity of C. esculentus ethanolic extract was attributed to its high levels of phytosterols and phenolic compounds., Competing Interests: AUTHOR DISCLOSURE STATEMENT The authors declare no conflict of interest., (Copyright © 2022 by The Korean Society of Food Science and Nutrition. All rights Reserved.)

Published

2022