Formation and Characterization of β-Lactoglobulin and Gum Arabic Complexes: the Role of pH

Wang, Ziyuan; Liu, Jie; Gao, Jian; Cao, Mengna; Ren, Gerui; Xie, Hunjun; Yao, Mingfei

doi:10.3390/molecules25173871

Cited by 3 publications

(4 citation statements)

References 40 publications

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“…In recent years, GA has been combined to a variety of proteins, such as milk, egg, wheat, rice, and soybean proteins (Li et al., 2019; Niu et al., 2017; Wei & Huang, 2019). The latest research showed that the electrostatic interactions were the main driven force for the formation of the β‐Lg‐GA nanoparticles (Wang et al., 2020). Schmitt et al (2000) studied the effect of protein aggregates on the complex coacervation between β‐Lg and GA at pH 4.2, which showed that the pH can affect β‐Lg aggregation and thus the formation of β‐Lg‐GA nanoparticles.…”

Section: Introductionmentioning

confidence: 99%

Complexation of β‐lactoglobulin with gum arabic: Effect of heat treatment and enhanced encapsulation efficiency

Cao

Gao

et al. 2021

Food Science & Nutrition

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Heat treatment is widely used in food industry. Proteins and polysaccharides as important natural polymers in food, under heat treatment, the interactions between them could mediate the conformation and functional properties of proteins. Thermally induced β‐lactoglobulin‐gum arabic complexes (β‐Lg‐GA) were fabricated, and the effect of heat treatment on physicochemical properties of the complexes was systematically investigated. The average particle size of β‐Lg‐GA complexes decreased with temperature increased, at 85°C, a smaller size of 273 nm was obtained. A saturated adsorption of GA was found when mass ratio of β‐Lg/GA was <1:2. At pH = 4.2–7.0, electrostatic attraction between β‐Lg and GA was low and a fairly constant turbidity was observed, the formed composite particles had good stability to the pH value. Through UV, fluorescence, and FTIR spectroscopy, it was found that formation of the nanoparticles relied on thermal denaturation and aggregation of protein, the electrostatic, hydrophobic, and hydrogen bonding interactions between β‐Lg and GA were also important. Scanning electron microscope further indicated β‐Lg and GA had good compatibility, and the complexes had a spherical core–shell structure at molecular level. In addition, these prepared natural nanoparticles by heat treatment show significantly higher encapsulation efficiency for (‐)‐epigallocatechin‐3‐gallate (EGCG) than that of unheated, thus could be used as a promising carrier for biologically active substances.

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Section: Introductionmentioning

confidence: 99%

Complexation of β‐lactoglobulin with gum arabic: Effect of heat treatment and enhanced encapsulation efficiency

Cao

Gao

et al. 2021

Food Science & Nutrition

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“…The above typical peaks indicated the presence of a large fraction of protein [ 32 ]. GA is a heteropolysaccharide that consists of galactose and glycoproteins [ 33 ]. The FTIR spectrum of GA showed a broad peak at 3389 cm −1 , which was attributed to the amino groups (Amide A).…”

Section: Resultsmentioning

confidence: 99%

“…The FTIR spectrum of GA showed a broad peak at 3389 cm −1 , which was attributed to the amino groups (Amide A). The peaks at 1606 cm −1 and 1420 cm −1 corresponded to the asymmetrical and symmetrical stretching vibrations of –COOH groups with the negative charge [ 33 ].…”

Section: Resultsmentioning

confidence: 99%

Microencapsulation of Carvacrol by Complex Coacervation of Walnut Meal Protein Isolate and Gum Arabic: Preparation, Characterization and Bio-Functional Activity

Sun

Cheng

Zhang

et al. 2022

Foods

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As a natural phenolic compound, carvacrol has attracted much attention due to its excellent antibacterial and antioxidant activities. However, its application is limited due to its instability, such as easy volatilization, easy oxidation, etc. Protein-polysaccharide interactions provide strategies for improving their stability issues. In this study, the plant-based carvacrol microcapsules via complex coacervation between walnut meal protein isolate (WMPI) and gum Arabic (GA) has been fabricated and characterized. The formation conditions of WMPI-GA coacervates were determined by some parameters, such as pH, zeta-potential, and turbidity. The optimum preparation conditions were achieved at pH 4.0 with a WMPI-to-GA ratio of 6:1 (w/w). The mean particle size, loading capacity (LC), and encapsulation efficiency (EE) of the microcapsules were 43.21 μm, 26.37%, and 89.87%, respectively. Fourier transform infrared spectroscopy (FT-IR) and fluorescence microscopy further confirmed the successful microencapsulation of carvacrol. The microencapsulation of carvacrol improved the thermal stability of the free carvacrol. The swelling capacity results indicated that it could resist gastric acid, and facilitate its intestinal absorption. Meanwhile, the carvacrol molecules trapped within the microcapsules could be continuously released in a concentration-dependent manner. Furthermore, the microcapsules presented good antioxidant activity and antibacterial activity against the Gram-negative (E. coli) and the Gram-positive (S. aureus) bacteria. These results indicated that the obtained carvacrol microcapsules have a potential application value as a food preservative in the food industry.

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“…Near the isoelectric point (pI = 5.1), it, however, starts to aggregates and form a different structure depending on the ionic strength and pH of the solution [ 7 ]. There is a possibility to impress the aggregation, thereby generating functional properties of Blg when it enters complexation with other biopolymers such as acacia gum [ 8 ], pectin [ 9 ], and κ-carrageenan [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

Rheological Characteristics of Soluble Cress Seed Mucilage and β-Lactoglobulin Complexes with Salts Addition: Rheological Evidence of Structural Rearrangement

Taheri

Kashaninejad

Tamaddon

et al. 2023

Gels

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Functional, physicochemical, and rheological properties of protein–polysaccharide complexes are remarkably under the influence of the quality of solvent or cosolute in a food system. Here, a comprehensive description of the rheological properties and microstructural peculiarities of cress seed mucilage (CSM)-β-lactoglobulin (Blg) complexes are discussed in the presence of CaCl2 (2–10 mM), (CSM–Blg–Ca), and NaCl (10–100 mM) (CSM–Blg–Na). Our results on steady-flow and oscillatory measurements indicated that shear thinning properties can be fitted well by the Herschel–Bulkley model and by the formation of highly interconnected gel structures in the complexes, respectively. Analyzing the rheological and structural features simultaneously led to an understanding that formations of extra junctions and the rearrangement of the particles in the CSM–Blg–Ca could enhance elasticity and viscosity, as compared with the effect of CSM–Blg complex without salts. NaCl reduced the viscosity and dynamic rheological properties and intrinsic viscosity through the salt screening effect and dissociation of structure. Moreover, the compatibility and homogeneity of complexes were approved by dynamic rheometry based on the Cole–Cole plot supported by intrinsic viscosity and molecular parameters such as stiffness. The results outlined the importance of rheological properties as criteria for investigations that determine the strength of interaction while facilitating the fabrication of new structures in salt-containing foods that incorporate protein–polysaccharide complexes.

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Formation and Characterization of β-Lactoglobulin and Gum Arabic Complexes: the Role of pH

Cited by 3 publications

References 40 publications

Complexation of β‐lactoglobulin with gum arabic: Effect of heat treatment and enhanced encapsulation efficiency

Complexation of β‐lactoglobulin with gum arabic: Effect of heat treatment and enhanced encapsulation efficiency

Microencapsulation of Carvacrol by Complex Coacervation of Walnut Meal Protein Isolate and Gum Arabic: Preparation, Characterization and Bio-Functional Activity

Rheological Characteristics of Soluble Cress Seed Mucilage and β-Lactoglobulin Complexes with Salts Addition: Rheological Evidence of Structural Rearrangement

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