Smart scaffolds for cultivated meat
2021-2023
Dr. Shoseyov is working to explore a process to incorporate growth-factors into scaffolds to help grow complex 3D meat.
PRODUCTION PLATFORM: Cultivated
TECHNOLOGY SECTOR: Scaffolding
Project aims
This project will help develop a “smart scaffold” to facilitate the production of complex cultivated meat products with multiple cell types organized in a specific tissue shape. This would provide a cost-effective platform to produce differentiated muscle.
One approach to reduce the price of producing cultivated meat is decreasing the amount of growth factors (GFs) required for proliferation and differentiation of muscle cells. GFs currently account for ~90% of cell culture media price. Since GFs are supplied in the growth media, most cells make limited contact with them and much goes to waste. This, together with the inherent instability of GFs, severely limits their efficacy. BioBetter produces growth factors in tobacco in a sustainable and economically viable manner. These recombinant GFs have a cellulose-binding domain, which can be used to anchor the GFs to a cellulose-containing scaffold. Using anchored GFs will significantly lower (up to 99%) the amount required for efficient cell growth, due to their close proximity to the cells. In addition, anchoring specific GFs at designated areas in the scaffold will allow spatial differentiation of cells into different tissues (fat, muscle, etc.) and creation of whole cuts.
Through this work, new methods to produce and structure complex cultivated meat products will be devised. Ultimately, it could reduce costs of cultivated meat production and increase production capacity of whole cuts.
Principal researchers
Dr. Oded Shoseyov
Professor, The Hebrew University of Jerusalem, Israel
Dr. Shoseyov has expertise in plant molecular biology, protein engineering, and nanobiotechnology. He has experience developing biomimetic products for affordable and sustainable innovation.
Dr. Sharon Schlesinger
Assistant Professor, The Hebrew University of Jerusalem, Israel
Dr. Schlesinger has expertise working with embryonic stem cells and studies epigenetic reprogramming following fertilization.
Dr. Yonatan Eran
CRDO, BioBetter, Israel
Dr. Eran has 10 years of experience managing R&D teams and leading preclinical projects, including constructing expression vectors, protein analytics, and developing methods for measuring protein biological activity.
Prof. Oded Shoseyov’s SavorEat becomes first plant-based meat company on Tel Aviv Stock Exchange
In addition to his cultivated meat research, Dr. Shoseyov is CTO of the plant-based meat startup SavorEat.
Related research
Hybrid scaffolds for cultivated chicken
Learn about Dr. Aline Bruna da Silva’s research on hybrid scaffolds to create 3D cultivated chicken at the Federal Center for Technological Education of Minas Gerais (CEFET-MG).
Algae scaffolds for cultivated fish
Learn about Dr. Federico Ferreira’s research to develop scaffolds for cultivated fish from algae and plant materials at University of Lisbon.
Tissue-engineering whole-cut chicken
Learn about Dr. Vivian Feddern’s research to tissue-engineer whole-cut chicken at Embrapa.
Plant-based scaffolds
GFI is building plant-based tissue scaffolds for cultivated meat with Dr. Masatoshi Suzuki at University of Wisconsin, Madison
Explore research opportunities
- Cultivated
Incorporating growth factors into scaffolds to reduce costs and introduce spatial heterogeneity
Growth factors (GFs) can be incorporated into scaffolds as a strategy for both reducing costs and improving product quality of cultivated meat. Open-access research is needed to test the feasibility…
- Cultivated
Scaffolds and structural approaches to optimize fat distribution and content in cultivated meat
The inclusion of fat and marbling in cultivated meat is likely to increase its flavor, texture, and consumer appeal. Structural approaches using edible microcarriers, hydrogels, and 3D bioprinting present promising…
- Cultivated
- Plant-Based
Plant-based scaffolds to improve cultivated meat nutrition
A variety of plant-based scaffolds present the opportunity to combine the natural nutritional and structural benefits of plants with the taste and high protein of cultivated meat. Bacterial nanocellulose from…
Check out related resources
Advancing solutions for alternative proteins
Explore commercial whitespaces, research gaps, technological needs, and investment priorities at each stage of the alternative protein value chain.
Cultivated Meat Research Tools Database
Use this crowdsourced directory to find species-specific information on research tools, reagents, protocols, and data for cultivated meat researchers.