Nature Communications (May 2023)

Cultured meat platform developed through the structuring of edible microcarrier-derived microtissues with oleogel-based fat substitute

  • Feng-Chun Yen,
  • Jovana Glusac,
  • Shira Levi,
  • Anton Zernov,
  • Limor Baruch,
  • Maya Davidovich-Pinhas,
  • Ayelet Fishman,
  • Marcelle Machluf

DOI
https://doi.org/10.1038/s41467-023-38593-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract With the increasing global demand for meat, cultured meat technologies are emerging, offering more sustainable solutions that aim to evade a future shortage of meat. Here, we demonstrate a cultured meat platform composed of edible microcarriers and an oleogel-based fat substitute. Scalable expansion of bovine mesenchymal stem cells on edible chitosan-collagen microcarriers is optimized to generate cellularized microtissues. In parallel, an oleogel system incorporated with plant protein is developed as a fat substitute, which is comparable to beef fat in appearance and texture. Combining the cellularized microtissues with the developed fat substitute, two types of cultured meat prototypes are introduced: layered cultured meat and burger-like cultured meat. While the layered prototype benefits enhanced stiffness, the burger-like prototype has a marbling meat-like appearance and a softer texture. Overall, this platform and the established technological basis may contribute to the development of different cultured meat products and promote their commercial production.