Effects of processing technologies on the antioxidant properties of common bean (Phaseolus vulgaris L.) and lentil (Lens culinaris) proteins and their hydrolysates

[Display omitted] •Enzymatic hydrolysis increased the antioxidant properties of common bean and lentil proteins.•Processing technologies as post-treatments did not affect the antioxidant properties of common bean hydrolysates.•Processing technologies as post-treatments reduced the antioxidant proper...

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Veröffentlicht in:Food research international 2023-10, Vol.172, p.113190-113190, Article 113190
Hauptverfasser: Lopes, Caroline, Akel Ferruccio, Cláudia, de Albuquerque Sales, Anne Caroline, Tavares, Guilherme M., de Castro, Ruann Janser Soares
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Sprache:eng
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Zusammenfassung:[Display omitted] •Enzymatic hydrolysis increased the antioxidant properties of common bean and lentil proteins.•Processing technologies as post-treatments did not affect the antioxidant properties of common bean hydrolysates.•Processing technologies as post-treatments reduced the antioxidant properties of lentil hydrolysates. The effects of ultrasound (280 W, 5 min), heat treatment (75 °C and 90 °C for 10 min) and microfluidization (125 MPa, 4 cycles) as pre or post treatments and their combination with enzymatic hydrolysis on the antioxidant properties of common bean and lentil protein hydrolysates were investigated. In general, hydrolysis resulted in increases of antioxidant activity, both in the presence and absence of processing technologies. The increases reached maximum values of 158% (ABTS), 105% (DPPH), 279% (FRAP) and 107% (TAC) for the bean protein hydrolysates submitted to post-treatment with ultrasound (ABTS, FRAP and TAC) and pre-treatment with microfluidization (DPPH), compared to their respective controls (untreated samples). For lentil proteins, the increases reached 197% (ABTS), 170% (DPPH), 690% (FRAP) and 213% (TAC) for samples submitted to ultrasound post-treatment (ABTS), microfluidization pre-treatment (DPPH) and post-treatment (FRAP), and 75 °C pre-treatment (TAC) compared to their respective controls. Surface hydrophobicity and molecular weight profile by SEC-HPLC analysis indicated modifications in the structures of proteins in function of the different processing technologies. For both proteins, electrophoresis indicated a similar profile for all hydrolysates, regardless of the process applied as pre or post treatment. Solubility of bean and lentil protein concentrates was also improved. These results indicated that different processing technologies can be successfully used in association with enzymatic hydrolysis to improve the antioxidant properties of lentil and bean proteins.
ISSN:0963-9969
1873-7145
DOI:10.1016/j.foodres.2023.113190