Changes on the Structural and Physicochemical Properties of Conjugates Prepared by the Maillard Reaction of Black Bean Protein Isolates and Glucose with Ultrasound Pretreatment

Jin, Hua; Feng, Hui; Wang, Yuxin; Wang, Jubing; Liu, Yanlong; Han, Dong; Xu, Jing

doi:10.3390/polym11050848

Cited by 48 publications

(36 citation statements)

References 46 publications

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“…As provided in Table 1, compared with BBPI, the ordered structure (α-helix structure + β-sheet structure) content of BBPI-G decreased significantly, while the disordered structure (β-turn structure + random coil structure) content increased significantly. The results showed that the secondary structure of BBPI changed significantly after Maillard reaction and turned to a more disordered direction [14]. This may be due to the fact that the interaction between BBPI and polysaccharide molecules affected the hydrogen bonding and van der Waals forces between molecules, which broke up the stability of the protein secondary structure [29].…”

Section: Resultsmentioning

confidence: 99%

“…As shown in Figure 3, after the Maillard reaction, the EAI and ESI of BBPI increased from 42.53 m 2 /g and 18.98 min to 52.82 m 2 /g and 22.44 min, respectively. This may be because glucose was a hydrophilic sugar with a polyhydroxy structure and the –OH group of glucose in BBPI-G promoted the adsorption between proteins and water molecules through its hydrogen bonding ability [14]. At the same time, based on the infrared data above, we could obtain that the covalent grafting of the sugar chain led the protein structure to be more disordered, which optimized the emulsification performance [4].…”

Section: Resultsmentioning

confidence: 99%

“…The Maillard reaction products were named as BBPI-G. In our previous study [14], the graft degree (DG) of glycosylated black bean protein under this condition was 18.83%. The BBPI-G was characterized by SDS-PAGE and fluorescence spectroscopy.…”

Section: Methodsmentioning

confidence: 99%

“…The infrared spectrum with a wave number range of 4000–400 cm −1 was determined with a resolution of 4 cm −1 and a scanning frequency of 64 times. The curve fitting process of the FTIR spectra was computed by Peakfit Version 4.12 (SeaSolve software company, San Jose, CA, USA) [14].…”

Section: Methodsmentioning

confidence: 99%

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The Effect of (−)-Epigallocatechin-3-Gallate Non-Covalent Interaction with the Glycosylated Protein on the Emulsion Property

Feng¹,

Jin²,

Gao³

et al. 2019

Polymers

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The effect of (−)-epigallocatechin-3-gallate (EGCG) on protein structure and emulsion properties of glycosylated black bean protein isolate (BBPI-G) were studied and compared to native black bean protein isolate (BBPI). The binding affinity of BBPI and BBPI-G with EGCG belonged to non-covalent interaction, which was determined by fluorescence quenching. EGCG attachment caused more disordered protein conformation, leading to a higher emulsification property. Among the different EGCG concentrations (0.10, 0.25, 0.50 mg/mL), the result revealed that the highest level of the emulsification property was obtained with 0.25 mg/mL EGCG. Therefore, the BBPI-EGCG and BBPI-G-EGCG prepared by 0.25 mg/mL EGCG were selected to fabricate oil-in-water (O/W) emulsions. After the addition of EGCG, the mean particle size of emulsions decreased with the increasing absolute value of zeta-potential, and more compact interfacial film was formed due to the higher percentage of interfacial protein adsorption (AP%). Meanwhile, EGCG also significantly reduced the lipid oxidation of emulsions.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

The Effect of (−)-Epigallocatechin-3-Gallate Non-Covalent Interaction with the Glycosylated Protein on the Emulsion Property

Feng¹,

Jin²,

Gao³

et al. 2019

Polymers

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show abstract

“…Different researchers affirm that glycation via Maillard reaction could cause structural changes in protein molecules, which could generate a wide range of compounds or Maillard reaction products (MRP), which would lead to the formation of conjugates and that these could contribute to the generation or increase of antioxidant capacity [59].…”

Section: Antioxidant Capacitymentioning

confidence: 99%

Glycation of Animal Proteins Via Maillard Reaction and Their Bioactivity

Mondaca-Navarro¹,

Ramírez²,

Lerma³

et al. 2020

Food Processing

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Nowadays there has been an increase in the need to incorporate foods in our diets that have optimal and palatable organoleptic characteristics as well as complex interaction in human biological processes that provide beneficial properties to human health. Animal foods and their by-products are an important source of macro-and micronutrients and also a great protein source; nevertheless the consumption of these products has been decreasing since they have been associated with the generation of chronic degenerative diseases; therefore the food industry has sought to innovate toward the generation of healthier foods. This chapter presents an overview of the glycation of proteins of animal origin via the Maillard reaction emphasizing on their posttranslational modifications and their possible uses in food, based on their bioactivity.

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Effect of ultrasound pretreatment on the functional and antioxidant properties of fermented and germinated Lupin protein isolates grafted with glucose

İşçimen

Hayta

2021

J Sci Food Agric

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BACKGROUND This study examined the functional and antioxidant properties of Maillard reaction (MR) products of lupin protein isolate (LPI), fermented (FLPI), and germinated (GLPI) with glucose (G), treated with ultrasound (US) at different power levels (20–40–60–80%) for 15 min. The MR was conducted in a water bath for 180 min at 90 °C. RESULTS The Trolox‐equivalent antioxidant capacity (TEAC) values were found to be 46.79%, 56.43%, and 35.56% for the control (C), 58.99%, 80.17%, and 69.73% for conjugates of LPI‐G, FLPI‐G, and GLPI‐G treated at 80% US, respectively. The maximum 2,2‐diphenyl‐1‐picrylhydrazyl (DPPH) scavenging activity of LPI‐G, FLPI‐G, and GLPI‐G was found to be 39.68%, 59.54%, and 48.41%, respectively after 80% US. The FLPI‐G sample showed the highest antioxidant activity compared with the samples treated at the same power level for DPPH and TEAC. The Fe‐chelating activity of GLPI‐G showed significant differences when compared with FLPI‐G. The solubility of LPI‐G, FLPI‐G, and GLPI‐G increased with increasing US power. The highest solubility was 74.29% for 80% US‐treated GLPI‐G. The emulsifying activity index (EAI) increased at 20% US and decreased with further increase in the US power. The EAI and emulsifying stability index (ESI) were negatively affected by the MR and US processes. CONCLUSION The findings of current study proved that conjugation of LPI with G with the MR and with US pretreatment is an effective method for improving the bio‐ and techno‐functional properties of LPI. It is therefore likely that the properties of plant proteins modified by biochemical and physical treatments may widen their applications in the food industry. © 2021 Society of Chemical Industry.

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Changes on the Structural and Physicochemical Properties of Conjugates Prepared by the Maillard Reaction of Black Bean Protein Isolates and Glucose with Ultrasound Pretreatment

Cited by 48 publications

References 46 publications

The Effect of (−)-Epigallocatechin-3-Gallate Non-Covalent Interaction with the Glycosylated Protein on the Emulsion Property

The Effect of (−)-Epigallocatechin-3-Gallate Non-Covalent Interaction with the Glycosylated Protein on the Emulsion Property

Glycation of Animal Proteins Via Maillard Reaction and Their Bioactivity

Effect of ultrasound pretreatment on the functional and antioxidant properties of fermented and germinated Lupin protein isolates grafted with glucose

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