To produce plant-based cheeses that feel and taste like dairy cheese, scientists have their sights set on fermentation. In a new research result, University of Copenhagen scientists demonstrate the potential of fermentation for producing climate-friendly cheeses that people want to eat. 

Nearly thirty kilos of cheese are eaten by the average dairy-loving Dane every year. But increasing pressure on Earth’s resources and climate change call for our food system to turn in a more plant-based direction. As a result, scientists are looking into how to transform protein-rich plants like peas and beans into a new generation of non-dairy cheeses that possess the similar sensory properties as the dairy-based ones that humans have enjoyed for thousands of years.

Several plant-based cheeses are already on the market. The challenge is that plant proteins behave differently than milk proteins when trying to make cheese from them. To meet this challenge, producers add starch or coconut oil to harden plant cheeses, as well as an array of flavourants to make them taste like cheese.

But it turns out that this can be done with the help of nature’s smallest creatures. In a new research result from the University of Copenhagen’s Department of Food Science, researcher Carmen Masiá has succeeded in developing plant-based cheeses made from yellow pea protein with a firm texture and improved aroma profile. She was able to do so by using the same natural fermentation process with bacteria that we have used with cheeses made from milk for thousands of years.

“Fermentation is an incredibly powerful tool to develop flavour and texture in plant-based cheeses. In this study, we show that bacteria can serve to develop firmness in non-dairy cheese in a very short period of time while reducing the bean-like aroma of yellow pea protein, which is used as the main and only protein source,” explains Carmen Masiá. 

Fresh cheese after eight hours

The result builds upon a research result from last year by the same researcher, who found that yellow pea protein constituted a good “protein base” for making fermented plant-based cheese. In the new result, the researcher examined twenty four bacterial combinations made from bacterial cultures supplied by the biotech company Chr. Hansen, where Carmen Masiá is completing her Industrial PhD.

“The whole point of this study has been to combine the commercially-available bacterial cultures that are suitable for the fermentation of a plant-based raw material, and test them in a pea protein matrix to develop both taste and texture that would be suitable for a cheese-like product. And, even if some bacterial combinations performed better than others, all of them actually provided firm gels and reduced beaniness in the samples” says the researcher.

To study the behavior of the bacterial combinations, the scientist inoculated them in a protein base made of yellow pea protein. After only eight hours of incubation, the result was a firm “cheese-like gel” reminiscent of a fresh soft white cheese.

“All bacterial blends produced firm gels, which means that one can get a fermentation-induced gel without necessarily adding starch or coconut oil to the base. From an aroma perspective, we had two goals: To reduce the compounds that characterize the beaniness of yellow peas, and to produce compounds that are normally found in dairy cheese. Here we saw that some bacteria were better at producing certain volatile compounds than others, but that they all worked great to reduce beaniness – which is a very positive outcome. Furthermore, all blends acquired dairy aroma notes to different degrees” explains Carmen Masiá.

Taste and feeling is everything

The researcher points out there is still a way to go to before achieving this plant-based cheese, but that research is on the right track. According to her, tailored bacterial compositions and cultures must be developed in order to achieve the optimal cheese-like characteristics. Furthermore, the plant-based cheese might need to mature over time so that it develops flavor and character, just as dairy-based cheeses do.

Finally, the new generation of fermented plant-based cheeses must be judged by consumers, so that the flavour is perfected. All in all, this is to make plant-based cheeses so delicious that people seek them out and purchase them.

“The most challenging thing for now is that, while there are a lot of people who would like to eat plant-based cheese, they aren’t satisfied with how it tastes and feels in the mouth. In the end, this means that no matter how sustainable, nutritious, etc. a food product is, people aren’t interested in buying it if it doesn’t provide a good experience when consumed,” says Carmen Masiá, who adds:

“One needs to remember that dairy cheese production has been studied over many years, so it’s not something that we can just mimic overnight with totally different raw materials. Nevertheless, there are many scientists and companies out there doing great progress in the field; I hope that we will get closer to making non-dairy cheeses that taste good over the next few years. We are getting there.”

The study was conducted in collaboration between the Department of Food Science and microbial ingredients supplier Chr. Hansen, a bioscience company that produces ingredients for the food and pharmaceutical industries, among other things. 

What is fermentation:

Fermentation is an ancient technique which originated in China. Today, it is used to make beer, wine, cheese, pharmaceuticals and much more. Fermented foods are preserved by initiating a fermentation process in which natural lactic acid bacteria and enzymes are formed. This is done as microorganisms convert sugars in the selected food into lactic acid, acetic acid and carbon dioxide. This makes food acidic and prevents the growth of putrefactive and pathogenic bacteria.

The first textual evidence of cabbage fermentation is found in China’s oldest collection of poems, Shi Jing (Book of the Odes), which dates back to approximately 600 BC.

About the study:

• The researchers tested twenty four different bacterial compositions on a protein base made from yellow pea protein.
• The study shows that all of the bacterial compositions produce a firm cheese-like gel, reduced the beaniness, and produced dairy-related volatile compounds.
• The study was conducted in collaboration between the Department of Food Science and microbial ingredients supplier Chr. Hansen, a bioscience company that manufactures microbial ingredients for the food and pharmaceutical industries.
• The study has been published in the scientific journal Future Foods
• The research is funded by Innovation Fund Denmark (grant 0153-00058B)

The Saudi Society of Medical Genetics Annual Conference 2023 was held in Riyadh, Saudi Arabia, on September 29-30, 2023. As the most authoritative academic conference on precision medicine in the Kingdom, this conference attracted global experts worldwide.

One of the highlights of the conference was the presentation entitled “Spatial-temporal sequencing and some large-scale application of precision medicine technologies,” delivered by Dr. Louis (Renyuan) Luo, VP of BGI Genomics West Asia, at the invitation of the Saudi Society of Medical Genetics.

Dr. Luo’s presentation discussed the importance of spatiotemporal sequencing technology in the field of precision medicine and its potential large-scale applications, introduced the company’s case studies, such as the world’s first multi-center project of newborn genetic screening, large-scale regional noninvasive prenatal testing (NIPT) coverage and extensive early screening project of colorectal cancer at Wuhan, Hubei province, China.

Besides sharing BGI Genomics research achievements and innovative applications in enhancing medical outcomes, Dr. Luo highlighted Genalive, BGI Genomics joint venture laboratory in the Kingdom of Saudi Arabia. This is the result of a localized strategic partnership aiming to provide cutting-edge precision medicine services, promote development and contribute to improving the country’s healthcare system.

The success of Dr. Luo’s presentation paves the way for deepening future localized collaboration and innovation in Saudi Arabia. BGI Genomics will continue to support the realization of Saudi Vision 2030 through active participation in global cooperation and exchanges in the field of precision medicine to enhance patients’ health outcomes.

About BGI Genomics:

BGI Genomics, headquartered in Shenzhen, China, is the world’s leading integrated solutions provider of precision medicine. Our services cover more than 100 countries and regions, involving more than 2,300 medical institutions. In July 2017, as a subsidiary of BGI Group, BGI Genomics (300676.SZ) was officially listed on the Shenzhen Stock Exchange.