Single Cell Protein: an alternative eco-friendly protein source derived from microorganisms

Published 16 October, 2023

Researchers and businesses are increasingly drawn to alternative protein sources as they grapple with the challenge of meeting the growing global demand for protein. Among the unconventional sources, microorganisms stand out for their remarkable protein content.

Dry microorganism cells have been described as “single cell protein” (SCP) or “microbial protein”. SCP is primarily sourced from microorganisms such as yeasts, fungi, bacteria, and algae. They serve as an environmentally friendly alternative to animal-derived proteins. Furthermore, microorganisms exhibit the capacity to thrive on a diverse range of substrates for their growth, including waste materials. Leveraging renewable resources derived from different waste streams within the food and agricultural sector, such as dairy waste, crop residues, sugar industry byproducts, and fruit waste, has the potential to greatly enhance SCP production from a standpoint of socio-economic and environmental sustainability.

“Particularly when SCP production is integrated into biorefinery frameworks, it can significantly advance circular bio-economy concepts, fostering the continued growth of the SCP market for applications in animal feed, innovative food formulations, and bioactive food packaging,” explains Danai Ioanna Koukoumaki, first author of a recent review on the topic published in Carbon Resources Conversion.

 “It’s true that the use of microorganisms for protein production holds promise, but it is nonetheless crucial to study consumer perceptions of this alternative protein source,” adds Koukoumaki, who is a Ph.D. candidate at the Department of Food Science and Nutrition, University of the Aegean.

For instance, in a research study examining the attitudes of older adults towards alternative protein sources such as single-cell protein and plant-based protein, it was observed that gender and country of residence had a notable impact on acceptance levels.

Overall, the review provides a clear insight into the micro-organisms, agro-industrial wastes, functional properties, as well as current applications of single-cell protein.

“Utilizing renewable feedstock in SCP production has the potential to address both modern society's challenges of food waste management and protein shortages. However, to effectively commercialize this alternative, efforts must be made to enhance consumer acceptance,” concludes corresponding author Dimitris Sarris.

Image 1. Properties and application of SCP. CREDIT: Danai Ioanna Koukoumaki.

Contact author name, affiliation, email address: Danai Ioanna Koukoumaki, Laboratory of Physico-Chemical and Biotechnological Valorization of Food By-Products, Department of Food Science & Nutrition, School of Environment, University of the Aegean, Leoforos Dimokratias 66, Myrina 81400, Lemnos, Greece danaikouk@aegean.gr

Social media handle: Dimitris Sarris, Department of Food Science and Nutrition, University of the Aegean, Greece. linkedin.com/in/dimitris-sarris-63073079

Funder: This research was funded by the project “Infrastructure of Microbiome Applications in Food Systems-FOODBIOMES” (MIS 5047291), which is implemented under the Action “Regional Excellence in R&D Infrastructures”, funded by the Operational Programme “Competitiveness, Entrepreneurship, and Innovation” (NSRF 2014-2020) and co-financed by Greece and the European Union (European Regional Development Fund).

Conflict of interest: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

See the article: D.I. Koukoumaki, et al. Recent advances in the production of single cell protein from renewable resources and applications, Carbon Resources Conversion (2023), doi: https://doi.org/10.1016/j.crcon.2023.07.004

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