Modifying the physicochemical properties of pea protein by pH-shifting and ultrasound combined treatments

Jiang, Shanshan; Ding, Junzhou; Andrade, Juan E.; Rababah, Taha; Almajwal, Ali; Abulmeaty, Mahmoud M. A.; Feng, Hao

doi:10.1016/j.ultsonch.2017.03.046

Cited by 355 publications

(201 citation statements)

References 33 publications

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“…The unsonicated soy proteins and ultrasonicated proteins at higher and lower PD had generally similar protein subunit electrophoretic patterns, suggesting that sonication did not change the protein profiles for soy protein regardless of sonication conditions. Similar results were observed by Wang et al [41] and Karki et al [10] who also reported no modification in soy protein profiles. Kidney bean protein consists of phaseolin and chickpea protein consists of legumin and vicilin as a major protein subunit; these can be seen in the gel as major bands (Fig.…”

Section: J O U R N a L P R E -P R O O Fsupporting

confidence: 90%

“…There was significant (p < 0.05) increase of free SH in chickpea protein from 6.76 ± 0.39 μmol g -1 to 20.40 ± 4.94 μmol g -1 at higher PD sonication. This finding suggests that HPS could break the disulfide bonds (i.e., can cause the reduction of S-S linkage to form free -SH groups), which exposes the sulfhydryl group to the surface of proteins [16,41]. The buried sulfhydryl group of proteins when exposed to high pressure and sheer force of cavitation phenomenon might lead to an increase in the free sulfhydryl group.…”

Section: Free Sulfhydryl Content Of Final Protein Productsmentioning

confidence: 97%

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Effect of high-power sonication pretreatment on extraction and some physicochemical properties of proteins from chickpea, kidney bean, and soybean

Byanju

Rahman

Hojilla-Evangelista

et al. 2020

International Journal of Biological Macromolecules

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Section: J O U R N a L P R E -P R O O Fsupporting

confidence: 90%

Section: Free Sulfhydryl Content Of Final Protein Productsmentioning

confidence: 97%

Effect of high-power sonication pretreatment on extraction and some physicochemical properties of proteins from chickpea, kidney bean, and soybean

Byanju

Rahman

Hojilla-Evangelista

et al. 2020

International Journal of Biological Macromolecules

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“…For a true solution, protein particle size is likely to be ≤1 nm. Therefore, reducing protein size generally improves its solubility (Jiang et al, ; Kong, Zhou, & Qian, ; Zheng et al, ). Acid/alkali or enzymatic hydrolysis has been used to decrease protein molecular weight/size, thereby increasing protein solubility (Wouters, Rombouts, Fierens, Brijs, & Delcour, ).…”

Section: Factors That Influence Protein Solubilitymentioning

confidence: 99%

Protein Solubilization

Sathe

Zaffran

Gupta

et al. 2018

J Americ Oil Chem Soc

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To address the anticipated global need for increased protein supply for human nutrition, particularly for developing and underdeveloped regions, concerted efforts are required. Although animal proteins satisfy nutrition needs, they may not be acceptable to all consumers either due to their cost or dietary restrictions followed by the consumer. Soybean has served as a nonanimal protein source; however, alternative protein sources will need to be cultivated and explored in the future to satisfy anticipated increased global needs. To effectively utilize a food protein source, separation of proteins from the nonprotein components present in that source is often needed or desired. Such separation requires understanding of protein properties and interactions of the protein with its environment. In chemical separation processes, protein solubility is a critical property as it often governs protein preparation and utilization and is the focus of this review. Emphasis is on nontraditional protein sources. J Am Oil Chem Soc (2018) 95: 883-901 884 J Am Oil Chem Soc J Am Oil Chem Soc (2018) 95: 883-901 1:100 c 2-98 Thompson, 1977 885 J Am Oil Chem Soc J Am Oil Chem Soc (2018) 95: 883-901 J Am Oil Chem Soc J Am Oil Chem Soc (2018) 95: 883-901

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“…The wall materials used affect the stability of emulsion and further affect the process efficiency and properties of the resulting microcapsule powders . Usually, no single wall material can lead to all the required properties especially high encapsulation efficiency of the active material, so composite wall materials are often utilized in the process . Studies have shown that a combination of carbohydrates as matrix materials can effectively improve the encapsulation efficiency .…”

Section: Introductionmentioning

confidence: 99%

Improving oxidative stability and release behavior of docosahexaenoic acid algae oil by microencapsulation

Song

Liu

et al. 2020

J Sci Food Agric

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BACKGROUND Spray‐dried docosahexaenoic acid algae oil (DHA AO) microcapsules were prepared using whey protein isolate and glucose syrup (WPI + GS), or sodium starch octenylsuccinate and glucose syrup (SSOS + GS), or whey protein isolate and lactose (WPI + L). The effect of the formulations on encapsulation properties, oxidative protection and in vitro oil release pattern of the resulting microencapsulates was investigated. RESULTS A high encapsulation efficiency of over 98% of DHA AO was obtained for microcapsules with all three wall materials. Among the wall materials, SSOS + GS exhibited a better micro‐particulation ability reflected by more uniform size and smoother surface of the formed microcapsules and no agglomerates. DHA AO microcapsules with all the wall materials showed good protection of the oil from oxidation during storage with an increasing order of WPI + GS, SSOS + GS and WPI + L. Moreover, microencapsulation significantly increased the release of DHA AO in the intestinal phase of the in vitro digestion process with an increasing order of SSOS + GS, WPI + GS and WPI + L, indicating the increased stability of the oil in the highly acidic gastric environment and the enhanced lipid digestibility in the small intestine. CONCLUSIONS The results suggest that it is possible to transform a highly oxidizable liquid functional food ingredient such as DHA AO into a stable and easy‐to‐handle solid powder through spray drying with properly selected wall materials. © 2020 Society of Chemical Industry

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Modifying the physicochemical properties of pea protein by pH-shifting and ultrasound combined treatments

Cited by 355 publications

References 33 publications

Effect of high-power sonication pretreatment on extraction and some physicochemical properties of proteins from chickpea, kidney bean, and soybean

Effect of high-power sonication pretreatment on extraction and some physicochemical properties of proteins from chickpea, kidney bean, and soybean

Protein Solubilization

Improving oxidative stability and release behavior of docosahexaenoic acid algae oil by microencapsulation

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