Enhanced Protein Extraction from <i>Auxenochlorella protothecoides</i> Through Synergistic Mechanical Cell Disruption and Alkaline Solubilization

Enhanced Protein Extraction from <i>Auxenochlorella protothecoides</i> Through Synergistic Mechanical Cell Disruption and Alkaline Solubilization

Microalgae proteins are increasingly recognized in the food and nutraceutical industries for their functional versatility and high nutritional value. Mild alkaline treatment is commonly used for cell wall degradation and intracellular protein solubilization, consequently enhancing the protein extrac...

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Bibliographic Details
Main Authors: Jun Wei Ng, Sze Ying Lee, Tong Mei Teh, Melanie Weingarten, Md. Mahabubur Rahman Talukder
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Foods
Subjects:
microalgae
wet biomass processing
mechanical cell disruption
high-pressure homogenization
alkaline solubilization
extraction
Online Access:https://www.mdpi.com/2304-8158/14/15/2597
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Summary:Microalgae proteins are increasingly recognized in the food and nutraceutical industries for their functional versatility and high nutritional value. Mild alkaline treatment is commonly used for cell wall degradation and intracellular protein solubilization, consequently enhancing the protein extraction yield. The findings of this study reveal that alkaline treatment alone, even at higher NaOH concentration (up to 0.3 M) and treatment time (up to 90 min), was ineffective (max. 2.4% yield) for the extraction of protein from <i>Auxenochlorella protothecoides</i> biomass. This challenge was significantly reduced through synergistic application of mechanical cell disruption using high-pressure homogenization (HPH) and alkaline solubilization. Single-pass HPH (35 k psi) alone without alkaline treatment led to 52.3% protein solubilization from wet biomass directly harvested from culture broth, while it was only 18.5% for spray-dried biomass. The combined effect of HPH and alkaline (0.1 M NaOH) treatment significantly increased protein extraction yield to 68.0% for a spray-dried biomass loading of 50 g L<sup>−1</sup>. Through replacing spray-dried biomass with wet biomass, the requirement of NaOH was reduced by 5-fold to 0.02 M to achieve a similar yield of 68.1%. The process integration of HPH with the mild alkaline solubilization and utilization of wet biomass from culture broth showed high potential for industrialization of microalgae protein extraction. This method achieves high extraction yield while reducing alkaline waste and eliminating the need for energy-consuming drying of biomass, thereby minimizing the environmental impact.
ISSN:2304-8158

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