Journal
FOOD AND BIOPROCESS TECHNOLOGY
Volume 15, Issue 12, Pages 2749-2761Publisher
SPRINGER
DOI: 10.1007/s11947-022-02912-2
Keywords
Protein hydrolysates; Brewer's yeast; Fermentation performance; Conformational properties; Nitrogen sources
Categories
Funding
- Science and Technology Project of Guangzhou [201903010056]
- National Natural Science Foundation of China [31972062, 32001675]
- Science and Technology Project of Guangdong Province [2018A050506008]
- 111 Project [B17018]
- State Key Laboratory of Applied Microbiology Southern China [SKLAM010-2021]
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The conformational properties of hydrolysates derived from brewer's spent grain protein (BSGP) pretreatment with and without ultrasound were investigated, and the effect of BSGP hydrolysate (BSGPH) supplementation on the brewer's yeast growth and fermentation performances were examined. Results showed that hydrolysates derived from BSGP pretreated with ultrasound for 4-hour hydrolysis (UBPH-4) significantly increased the biomass, viability, sugar consumption, and ethanol yields of yeast.
The conformational properties of hydrolysates derived from brewer's spent grain protein (BSGP) pretreatment with and without ultrasound were investigated, and the effect of BSGP hydrolysate (BSGPH) supplementation on the brewer's yeast growth and fermentation performances were examined. Results demonstrated that BSGPH had substantial influences on the biomass, viability, sugar consumption, and ethanol production of yeast. Specifically, medium supplemented with hydrolysates derived from BSGP pretreated with ultrasound (UBPH) for 4-h hydrolysis (UBPH-4) increased biomass by 7.7%, viability by 9.78%, sugar consumption by 37.16%, and ethanol yields by 20.20% (v/v), respectively, compared with the blank. UBPH-4 exhibited a looser morphology and disordered secondary structure, with a decrease in alpha-helix and increased random coil. Meanwhile, a higher proportion of short peptides and hydrophilic amino acids in UBPH-4 might account for its preferred bioactivity. All findings revealed that UBPH were effective nitrogen sources for yeast growth and fermentation.
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