Canola/Rapeseed Protein: Future Opportunities and Directions—Workshop Proceedings of IRC 2015

Campbell, Lisa; Rempel, Curtis; Wanasundara, Janitha P. D.

doi:10.3390/plants5020017

Cited by 84 publications

(86 citation statements)

References 10 publications

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“…The solutions were incubated and stirred continuously using magnetic stirrer for 30 min in a thermostat water bath at 40 ∘ C to ensure complete dissolution and then subjected to cool to room temperature. After that, the solutions were given treatment using probe-type sonicator ( Figure 1) (GA98-IID, Shanghai Biotechnology Co., Wuxi, China) at 20 kHz with a 1.5 cm flat tip probe (diameter of 2 cm) which was immersed into the rapeseed protein solution for different irradiation time (3,6,9,12,15, and 18 min) and at different powers (200, 400, 600, 800, 1000, and 1200 watts).…”

Section: Ultrasoundmentioning

confidence: 99%

“…This process results in two canola protein isolates, one of which being rich in cruciferin (commercially known as Puratein5) and the other one being rich in napin (commercially known as Supertein6). Both Supertein and Puratein (Burcon NutraScience) have generally recognized as safe (GRAS) status from the US Food and Drug Administration (FDA) for food use [3]. The use of these by-products could be improved by its use as a raw material for the production of functional and bioactive food constituents.…”

Section: Introductionmentioning

confidence: 99%

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Impact of Power Ultrasound on Antihypertensive Activity, Functional Properties, and Thermal Stability of Rapeseed Protein Hydrolysates

Wali

Shahnawaz

et al. 2017

Journal of Chemistry

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The effects of power ultrasound pretreatments on the degree of hydrolysis (DH), angiotensin-I-converting enzyme (ACE) inhibitory activity, amino acid composition, surface hydrophobicity, protein solubility, and thermal stability of ACE inhibition of rapeseed protein hydrolysates were evaluated. Ultrasonic pretreatments before enzymolysis in terms of power and exposure time increased the DH and ACE inhibitory activities over the control (without sonication). In this study, maximum DH 22.07% and ACE inhibitory activity 72.13% were achieved at 600 W and 12 min pretreatment. Compared to the hydrolysates obtained without sonication, the amino acid profile of ultrasound pretreated hydrolysates showed significant changes particularly in the proline content and hydrophobic amino acids with an increased rate of 2.47% and 6.31%, respectively. Ultrasound pretreatment (600 watts, 12 min) improved functional properties of protein hydrolysates over control by enhancing surface hydrophobicity and solubility index with an increased rate of 130.76% and 34.22%. Moreover, the stability test showed that the ACE inhibitory activity remains stable against heat treatments. However, extensive heat, prolonged heating time, and alkaline conditions were not in the favor of stability test, while under mild heat and acidic conditions their ACE inhibitory activities were not significantly different from unheated samples.

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Section: Ultrasoundmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Impact of Power Ultrasound on Antihypertensive Activity, Functional Properties, and Thermal Stability of Rapeseed Protein Hydrolysates

Wali

Shahnawaz

et al. 2017

Journal of Chemistry

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“…Tan et al [7] reviewed the studies on the utilization of canola protein in human food, comprising the extraction processes for protein isolates and fractions, the molecular character of the extracted proteins, as well as their food functional properties. Canola protein has a well-balanced amino acid profile, with a protein digestibilitycorrected amino acid score that is very competitive with other plant proteins currently on the market [8]. Seed storage proteins that include cruciferin [11S] and napin [2S] dominate the protein complement of canola while oleosins, lipid transfer proteins and other minor proteins of non-storage nature are also found [9].…”

Section: Introductionmentioning

confidence: 99%

“…Pepsin-hydrolysed protein concentrates showed significant angiotensin I-converting enzyme inhibition and radical scavenging activity [15]. In addition, antioxidant, antidiabetic, anorexigenic, anticancer, antiviral, hypercholesterolemic and bile acid binding activities have been reported for peptides and hydrolysate fractions generated from canola proteins [8,16]. Hemp seed enzymatic hydrolysates have also proven effective during in vitro and in vivo tests as antioxidant and antihypertensive agents.…”

Section: Introductionmentioning

confidence: 99%

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Pilot-Scale Production and Application of Microparticulated Plant Proteins

Beran¹,

Drahorád²,

Vltavsky³

et al. 2018

J Nutr Food Sci

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New Carbon Dioxide Assisted Spray Nebulisation Drying (CASND) technology has been used to produce microparticulated protein concentrates for human nutrition from alternative plant sources -hemp and canola seed filtration cakes. Alkali extraction was used to extract the proteins from the filtration cakes. The protein solutions after the alkali extractions were dried with the CASND demonstrator ATOMIZER. Aerosol particle size distribution and concentration in the draying chamber were determined by two different on-line aerosol spectrometers SMPS (Scaning Mobility Particle Sizer) and APS (Aerodynamic Particle Sizer). The protein powders were in form of hollow spheres with average particle diameter about 600 nm. The particles were characterized by the SEM method. The functional properties of the microparticulated protein concentrates were compared with the same protein concentrates dried by the convenctional spray drying process. The protein microparticulatin resulted in improved foaming and emulsifying properties and formation of long-term stable water dispersions. Gluten-free baguettes were prepared with the microparticulated protein concentrates as only protein source and evaluated by sensory analysis.

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Dairy Substitutes

Campbell¹,

Euston²

2020

Kirk-Othmer Encyclopedia of Chemical Technology

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Dairy product substitutes are growing in market share and product range due to an increased demand for lactose free or vegan products. This article will review the range of dairy substitutes available to the consumer, the ingredients (both dairy and nondairy) that are available to manufacturers, and outline the manufacturing processes used. Particular emphasis is placed on alternative and emerging sources of protein that increasingly are being used to replace dairy proteins in foods. The expanding market for plant‐based dairy substitutes will be explored, and recent changes in the law covering the naming of dairy substitute products will be outlined, including the use of the word milk for nondairy beverages.

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Canola/Rapeseed Protein: Future Opportunities and Directions—Workshop Proceedings of IRC 2015

Cited by 84 publications

References 10 publications

Impact of Power Ultrasound on Antihypertensive Activity, Functional Properties, and Thermal Stability of Rapeseed Protein Hydrolysates

Impact of Power Ultrasound on Antihypertensive Activity, Functional Properties, and Thermal Stability of Rapeseed Protein Hydrolysates

Pilot-Scale Production and Application of Microparticulated Plant Proteins

Dairy Substitutes

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