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Preparation and characterization of sodium caseinate-apricot tree gum/gum Arabic nanocomplex for encapsulation of conjugated linoleic acid (CLA)

Nanocomplexes (NCs) were formed through electrostatic complexation theory using Na-caseinate (NaCa), gum Arabic (GA), and Prunus armeniaca L. gum exudates (PAGE), aimed to encapsulate Conjugated linoleic acid (CLA). Encapsulation was optimized using NaCa (0.1 %–0.5 %), GA/PAGE (0.1 %–0.9 %) and CLA...

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Published in:	International journal of biological macromolecules 2024-03, Vol.261 (Pt 2), p.129773-129773, Article 129773
Main Authors:	Gohari, Alireza Saeed, Nateghi, Leila, Rashidi, Ladan, Berenji, Shila
Format:	Article
Language:	English
Subjects:	Conjugated linoleic acid (CLA) dietary supplements electron microscopy encapsulation food industry Fourier transform infrared spectroscopy gum arabic Gum Arabic (GA) modulus of elasticity Nanocomplex (NC) oxidative stability particle size Prunus armeniaca Prunus armeniaca L. gum exudates sodium Sodium caseinate viscosity
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container_issue	Pt 2
container_start_page	129773
container_title	International journal of biological macromolecules
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creator	Gohari, Alireza Saeed Nateghi, Leila Rashidi, Ladan Berenji, Shila
description	Nanocomplexes (NCs) were formed through electrostatic complexation theory using Na-caseinate (NaCa), gum Arabic (GA), and Prunus armeniaca L. gum exudates (PAGE), aimed to encapsulate Conjugated linoleic acid (CLA). Encapsulation was optimized using NaCa (0.1 %–0.5 %), GA/PAGE (0.1 %–0.9 %) and CLA (1 %–5 %), and central composite design (CCD) was employed for numerical optimization. The optimum conditions for NC containing GA (NCGA) were 0.336 %, 0.437 %, and 3.10 % and for NC containing PAGE (NCPAGE) were 0.403 %, 0.730 %, and 4.177 %, of NaCa, GA/PAGE, and CLA, respectively. EE and particle size were 92.46 % and 52.89 nm for NCGA while 88.23 % and 54.76 nm for NCPAGE, respectively. Fourier transform infrared spectroscopy (FTIR) indicated that CLA was physically entrapped. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) confirmed the electrostatic complex formation. The elastic modulus was predominant for NCGA and NCPAGE dispersions while the complex viscosity of NCPAGE suspension was slightly higher than that of NCGA. The CLA in NCGA-CLA and NCPAGE-CLA exhibited higher oxidative stability than free CLA during 30 days of storage without a significant difference between the results of CLA oxidative stability tests obtained for NCs. Consequently, NCPAGE and NCGA could be applied for the entrapment and protection of nutraceuticals in the food industry. [Display omitted]
doi_str_mv	10.1016/j.ijbiomac.2024.129773
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Encapsulation was optimized using NaCa (0.1 %–0.5 %), GA/PAGE (0.1 %–0.9 %) and CLA (1 %–5 %), and central composite design (CCD) was employed for numerical optimization. The optimum conditions for NC containing GA (NCGA) were 0.336 %, 0.437 %, and 3.10 % and for NC containing PAGE (NCPAGE) were 0.403 %, 0.730 %, and 4.177 %, of NaCa, GA/PAGE, and CLA, respectively. EE and particle size were 92.46 % and 52.89 nm for NCGA while 88.23 % and 54.76 nm for NCPAGE, respectively. Fourier transform infrared spectroscopy (FTIR) indicated that CLA was physically entrapped. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) confirmed the electrostatic complex formation. The elastic modulus was predominant for NCGA and NCPAGE dispersions while the complex viscosity of NCPAGE suspension was slightly higher than that of NCGA. The CLA in NCGA-CLA and NCPAGE-CLA exhibited higher oxidative stability than free CLA during 30 days of storage without a significant difference between the results of CLA oxidative stability tests obtained for NCs. Consequently, NCPAGE and NCGA could be applied for the entrapment and protection of nutraceuticals in the food industry. 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Encapsulation was optimized using NaCa (0.1 %–0.5 %), GA/PAGE (0.1 %–0.9 %) and CLA (1 %–5 %), and central composite design (CCD) was employed for numerical optimization. The optimum conditions for NC containing GA (NCGA) were 0.336 %, 0.437 %, and 3.10 % and for NC containing PAGE (NCPAGE) were 0.403 %, 0.730 %, and 4.177 %, of NaCa, GA/PAGE, and CLA, respectively. EE and particle size were 92.46 % and 52.89 nm for NCGA while 88.23 % and 54.76 nm for NCPAGE, respectively. Fourier transform infrared spectroscopy (FTIR) indicated that CLA was physically entrapped. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) confirmed the electrostatic complex formation. The elastic modulus was predominant for NCGA and NCPAGE dispersions while the complex viscosity of NCPAGE suspension was slightly higher than that of NCGA. The CLA in NCGA-CLA and NCPAGE-CLA exhibited higher oxidative stability than free CLA during 30 days of storage without a significant difference between the results of CLA oxidative stability tests obtained for NCs. Consequently, NCPAGE and NCGA could be applied for the entrapment and protection of nutraceuticals in the food industry. 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Encapsulation was optimized using NaCa (0.1 %–0.5 %), GA/PAGE (0.1 %–0.9 %) and CLA (1 %–5 %), and central composite design (CCD) was employed for numerical optimization. The optimum conditions for NC containing GA (NCGA) were 0.336 %, 0.437 %, and 3.10 % and for NC containing PAGE (NCPAGE) were 0.403 %, 0.730 %, and 4.177 %, of NaCa, GA/PAGE, and CLA, respectively. EE and particle size were 92.46 % and 52.89 nm for NCGA while 88.23 % and 54.76 nm for NCPAGE, respectively. Fourier transform infrared spectroscopy (FTIR) indicated that CLA was physically entrapped. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) confirmed the electrostatic complex formation. The elastic modulus was predominant for NCGA and NCPAGE dispersions while the complex viscosity of NCPAGE suspension was slightly higher than that of NCGA. The CLA in NCGA-CLA and NCPAGE-CLA exhibited higher oxidative stability than free CLA during 30 days of storage without a significant difference between the results of CLA oxidative stability tests obtained for NCs. Consequently, NCPAGE and NCGA could be applied for the entrapment and protection of nutraceuticals in the food industry. [Display omitted]</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>38296128</pmid><doi>10.1016/j.ijbiomac.2024.129773</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0001-8937-8728</orcidid><orcidid>https://orcid.org/0000-0002-2205-7759</orcidid></addata></record>
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subjects	Conjugated linoleic acid (CLA) dietary supplements electron microscopy encapsulation food industry Fourier transform infrared spectroscopy gum arabic Gum Arabic (GA) modulus of elasticity Nanocomplex (NC) oxidative stability particle size Prunus armeniaca Prunus armeniaca L. gum exudates sodium Sodium caseinate viscosity
title	Preparation and characterization of sodium caseinate-apricot tree gum/gum Arabic nanocomplex for encapsulation of conjugated linoleic acid (CLA)
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