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21st.BIO, a leading technology partner in precision fermentation, has launched a new development program for bovine alpha-lactalbumin (α-lac) after exclusively licensing the high-yield microbial strain from Novonesis – the global leader in biosolutions.
From breakthrough strain to global access
Alpha-lactalbumin is a highly functional milk protein rich in essential amino acids. It is easy to digest and is linked to immune and cognitive development benefits. Bovine α-lac is currently used in infant nutrition, functional food and health-focused applications. 21st.BIO is optimizing the Novonesis-developed strain for industrial fermentation, scale-up, and commercialization – enabling companies around the world to bring precision fermented α-lac to market and with the ambition to be cost competitive with its bovine counterpart.
Today, producing α-lac from bovine milk is costly and inefficient, making it one of the most expensive dairy proteins on the market. About a thousand liters of milk must be fractionated to obtain a kilogram of α-lac.
“Alpha-lactalbumin is incredibly valuable, but current supply from cow’s milk is limited. It is challenging and costly to extract at scale, which is why current supply is mostly reserved for the very high-end infant formula market,” said Thomas Schmidt, CEO of 21st.BIO. “Through precision fermentation, we make production more efficient, sustainable, and – most importantly – available to many, not just the few. On top of this, we are able to produce α-lac of high purity, an important parameter for infant nutrition.”
Democratizing access to advanced biomanufacturing
With this program, 21st.BIO offers an animal-free, scalable, and cost-effective way to produce α-lac – using precision fermentation and a best-in-class strain from Novonesis.
“We are proud to see our world-class strain being brought to market to solve current challenges in food and nutrition by 21st.BIO” said Thomas Batchelor, Senior Vice President of Advanced Health and Protein Solutions at Novonesis. “We continually strive to be at the forefront of innovation and this strain is one result of our pioneering work in R&D, strain development and production. We see α-lac as a great fit to 21st.BIO’s strategy and portfolio, making it the right path forward while we in Novonesis continue to focus on other protein innovation and we’re excited about the future of protein made with precision fermentation.”
21st.BIO works with customers – from dairy, food and beverage companies to foodtech start-ups – through a phased development program that includes:
- - Access to production-ready microbial strains
- - Tailored fermentation and downstream process development
- - Pilot and large-scale scale-up support
- - Regulatory advisory
- - Royalty-based licensing upon commercialization
“We go beyond licensing our technology to our partners,” said Schmidt. “We help them through the entire process of industrial-scale production. Our experience in functional proteins and our goal of achieving at least price parity with traditional dairy makes this a game-changer for companies looking to supply the market.”
Addressing a growing global need for dairy proteins
Global demand for dairy proteins is expected by many insiders to outpace supply by 2030, as milk production slows in many parts of the world. Feedback from industry partners points to a clear need: aging dairy farmer populations, limited scalability, and growing pressure to reduce emissions are challenging the status quo.
Schmidt explains: “We’re heading for a protein supply gap. The industry itself is telling us: We won’t be able to meet future demand using traditional methods alone. Precision fermentation is a complementary solution – one that can reduce pressure on natural resources, lower environmental impact, and create a more distributed and resilient supply chain.”
With the launch of its alpha-lactalbumin program, 21st.BIO is helping bring this unique protein – and the technology to make it – to companies around the world.