Precision Fermentation of Recombinant Myofibrillar Proteins for Future Foods
Dolgin, J.; Barrett, C. H.; Nakatsuji, M. J.; Aguilera-Moreno, J.; Kaplan, D. L.
Show abstract
Myofibrillar proteins, namely actin and myosin, are responsible for many of the textural attributes of animal-based meat. Precision fermentation (recombinant production of food ingredients) represents an underexplored approach to producing these proteins without the unsustainable practice of animal agriculture. We show that through the solubility-enhancing SUMO peptide tag and precipitation-based purification, we can produce actin via recombinant DNA methods at titers of 326 mg/L E. coli culture. We also show expression and precipitation of a recombinant fragment of the myosin tail, leading to 572 mg/L culture. For both proteins, yields are improved compared to prior studies, without the need for low-yielding laborious purification columns, with final purities of 69-73%. These recombinant actin and myosin proteins showed macro- and microscopic fibrous features similar to meat. When combined with plant-based proteins, chewiness, hardness, and Youngs modulus were improved towards that of animal-based meat. Preliminary cost analyses suggest a less expensive process for producing myofibrillar proteins compared to established methods. Our results reveal a novel scalable approach to making meat-like foods and ingredients through precision fermentation.
Matching journals
The top 7 journals account for 50% of the predicted probability mass.