Functional Performance of Plant Proteins

Kai, Kai; Greis, Maija; Lu, Jiakai; Nolden, Alissa A.; McClements, David Julian; Kinchla, Amanda J.

doi:10.3390/foods11040594

Cited by 119 publications

(89 citation statements)

References 97 publications

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“…Hydrocolloids have moisture values between 62.96% and 75.32%, lipid content of 0.63 and 11.15%, protein content of 0.33 and 20.93%, carbohydrates of 2.06 and 23.52%, and ash values less than 1.61%. Similar results were obtained by Cao et al [ 48 ], Renard et al [ 49 ], and Ma et al [ 50 ], who extracted and characterized hydrocolloids from vegetable raw materials, such as camelina gum isolation, acacia gums ( Senegal andseyal ); and Chickpea flour as a functional ingredient in foods. Furthermore, the protein content is higher than flaxseed gum [ 51 ] compared to hydrocolloids extracted from the mango seed.…”

Section: Resultssupporting

confidence: 84%

Novel Hydrocolloids Obtained from Mango (Mangifera indica) var. Hilaza: Chemical, Physicochemical, Techno-Functional, and Structural Characteristics

Marsiglia-Fuentes

Quintana

García‐Zapateiro

2022

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Background: Hydrocolloids are ingredients used to improve the technological properties of products; currently, there is a growing demand from the food industry and consumers to use natural ingredients and reduce the environmental impact. Methods: This work evaluated the effect of pH on hydrocolloid extraction from the pulp, seed, and peel of mango (Mangifera indica) var. hilaza and their chemical, physicochemical, techno-functional, and structural properties. Results: The main component of the hydrocolloid was the carbohydrates for pulp (22.59%) and peel (24.05%), and the protein for seed (21.48%) was corroborated by NIR spectra and associated with the technological and functional properties. The solubility increases with the temperature presenting values higher than 75% at 80 °C; the swelling index was higher than 30%, while the water holding capacity was higher in samples with higher carbohydrate content (110–121%). Moreover, a higher content of total phenolic compounds (21.61 ± 0.39–51.77 ± 2.48 mg GAE/g) and antioxidant activity (≥193.82 μMol Trolox/g) was obtained. The pH of extraction changes the color parameters and microstructural properties. Conclusions: Novel ingredients from mango pulp, seed, and peel at different pH levels have technological and functional properties that are potential use in the food industry as an alternative to the development of microstructural products.

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Section: Resultssupporting

confidence: 84%

Novel Hydrocolloids Obtained from Mango (Mangifera indica) var. Hilaza: Chemical, Physicochemical, Techno-Functional, and Structural Characteristics

Marsiglia-Fuentes

Quintana

García‐Zapateiro

2022

Gels

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“…Tris-HCl buffer (pH 9.0 and 8.5) yielded the highest protein recovery, while buffers at higher pHs showed lower yields. This result has been observed in other plant proteins such as pea, chickpea, and other legumes ( Ma et al, 2022 ). Extraction yields also depended on the kind of buffer.…”

Section: Resultssupporting

confidence: 72%

“…Fifteen buffers covering from pH 5.5 to pH 13.0 were employed. This range was selected taking into account previous authors experience working with plant proteins ( Olivares-Galván et al, 2020 ; Ma et al, 2022 ). In some cases, different buffers with identical pH were used.…”

Section: Resultsmentioning

confidence: 99%

Comparative study of factors affecting the recovery of proteins from malt rootlets using pressurized liquids and ultrasounds

Galván

González-García

Marina

et al. 2022

Current Research in Food Science

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“…So far, soyabean, is the most widely used legume flour extender (Kurek et al 2022;Ma et al 2022), nevertheless, as a result of increased functionality, other legume based flour (Shoaib et al 2018) are becoming increasingly famous as they all have promising nutritional and sensory properties of food products. Thus, along with soyabean, it is important to screen other legume based flour as extenders to chicken nuggets.…”

Section: Introductionmentioning

confidence: 99%

Quality attributes of chicken nuggets extended with different legume flours

Abiala

Omojola

2022

Food Prod Process and Nutr

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Chicken nugget is a comminuted meat product commonly prepared from spiced chicken meat and other ingredients. The tenderness of chicken meat lowers its firmness and mouth feel which may reduce acceptability of chicken nugget made from it. Thus, acceptability of chicken nugget could be harnessed when legume flour extenders are used along. Therefore, acceptability as well as quality of chicken nugget from different legume flours were evaluated. Soyabean, groundnut and cowpea flours were used as meat extenders for development of raw chicken nuggets and thereafter cooked for consumption. The quality of both raw and cooked legume flour extended chicken nuggets were assessed based on functional properties, sensory properties, proximate composition, amino acid content and shelf stability in terms of lipid peroxidation and microbial load. In their raw state, the legume flour extenders competed favourably with each other. Among all, soyabean flour extender maintained remarkable functional properties that transcend into significant (P < 0.05) yield of 86.93% of chicken nugget in comparison to the control (86.37%), groundnut (84.95%) and cowpea (84.50%). Upon cooking, all the legume flour extended chicken nuggets varied in their quality attributes. Apart from the high level of flavour and low microbial load, cowpea extended chicken nugget was of low quality based on the parameters evaluated in comparison with other legume flour extended chicken nuggets. Of interest, soyabean extended chicken nugget followed by groundnut extended chicken nugget were of good quality based on sensory properties, high crude protein and amino acid levels, low cholesterol content and lipid peroxidation value as well as low microbial load. Graphical abstract

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Functional Performance of Plant Proteins

Cited by 119 publications

References 97 publications

Novel Hydrocolloids Obtained from Mango (Mangifera indica) var. Hilaza: Chemical, Physicochemical, Techno-Functional, and Structural Characteristics

Novel Hydrocolloids Obtained from Mango (Mangifera indica) var. Hilaza: Chemical, Physicochemical, Techno-Functional, and Structural Characteristics

Comparative study of factors affecting the recovery of proteins from malt rootlets using pressurized liquids and ultrasounds

Quality attributes of chicken nuggets extended with different legume flours

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