Lactic acid bacteria (LAB) fermentation is a method of converting carbohydrates into lactic acid that employs LAB. Foods like yogurt, cheese, and sauerkraut are frequently fermented using a type of bacteria known as LAB. In addition to making biofuels and pharmaceuticals, LAB fermentation is also used to make food additives and preservatives.
How Lactic Acid Bacteria Fermentation Works
Anaerobic fermentation processes, such as LAB fermentation, function without the presence of oxygen. Lactic acid is created when LAB ferment carbohydrates, producing pyruvate first. The buildup of lactic acid lowers the food’s pH, which prevents the growth of dangerous yeasts and bacteria.
Types of LAB Fermentation
There are two main types of LAB fermentation: homolactic fermentation and heterolactic fermentation.
- Homolactic fermentation: In homolactic fermentation, LAB convert carbohydrates almost exclusively into lactic acid. This type of fermentation is used to produce yogurt, cheese, and sauerkraut.
- Heterolactic fermentation: In heterolactic fermentation, LAB convert carbohydrates into lactic acid and other products, such as ethanol, acetic acid, and carbon dioxide. This type of fermentation is used to produce kimchi and sourdough bread.
Industrial Uses of LAB Fermentation
Food additives and preservatives
Many food additives and preservatives, including lactic acid and lactate salts, are made using LAB fermentation. A mild acid called lactic acid is used to change the pH of various foods and beverages. Additionally, it serves to stop the development of dangerous yeasts and bacteria. Lactate salts are added to food as a flavoring and texture enhancer.
Pharmaceuticals
Pharmaceutical products such as antibiotics, probiotics, and anti-inflammatory medications can also be made using LAB fermentation. Food preservation and food poisoning are both prevented by the use of antibiotics made through LAB fermentation, which are effective against a number of foodborne pathogens. Live microorganisms that are good for human health are known as probiotics. To enhance gut health and strengthen immunity, they are frequently taken as supplements. Different probiotic supplements are made using LAB fermentation.
Anti-inflammatory drugs produced using LAB fermentation are effective in reducing inflammation and have been shown to be effective in treating a variety of medical conditions, such as arthritis and inflammatory bowel disease.
Biofuels
Biofuel is a fuel that is produced over a short period from biomass, rather than by the very slow natural processes involved in the formation of fossil fuels, such as oil. Biofuel can be produced from plants or agricultural, domestic, or industrial biowaste. Biofuels are mostly used for transportation but can also be used for heating and electricity. Biofuels (and bioenergy in general) are regarded as a renewable energy source. However, the use of biofuel has been controversial because of the several disadvantages associated with the use of it. These include for example (and this varies on a case-by-case basis): the “food vs fuel” debate, biofuel production methods being sustainable or not, leading to deforestation and loss of biodiversity or not.
Using LAB fermentation, it is possible to make biofuels like ethanol and biodiesel. These biofuels can reduce greenhouse gas emissions by replacing fossil fuels. Given that LAB are relatively simple to grow and don’t require a lot of energy or resources, LAB fermentation is a sustainable method for creating biofuels.
Chemicals
Chemicals like lactic acid, lactate salts, and polylactic acid (PLA) are produced using LAB fermentation. A versatile chemical, lactic acid is used in the manufacture of food and beverages, as well as in pharmaceuticals and cosmetics. Lactate salts are used as cleaning agents, pH regulators, and food additives. Lactic acid is used to create the biodegradable plastic known as PLA. Clothing, 3D printing filament, and food packaging are just a few of the items made from PLA.
Benefits of Using LAB Fermentation in Industry
There are a number of benefits to using LAB fermentation in industry, including:
- Versatility: LAB fermentation can be used to produce a wide range of products, including food additives and preservatives, pharmaceuticals, biofuels, and chemicals.
- Efficiency: LAB fermentation is a very efficient process, as LAB can convert carbohydrates into lactic acid with a high yield.
- Sustainability: LAB fermentation is a sustainable process, as LAB are relatively easy to grow and do not require large amounts of energy or resources.
- Safety: LAB fermentation is a very safe process, as LAB are generally regarded as safe (GRAS) microorganisms.
Conclusion
Lactic acid bacteria fermentation is a flexible and effective technology with many industrial uses. It is a great option for a variety of industrial uses because it is a sustainable and safe process. Future applications for LAB fermentation are likely to be even more inventive and environmentally friendly as research advances.
Source from Profacgen
Profacgen is a state-of-the-art protein service provider located in Long Island, NY, USA. We provide custom protein services in the biological sciences, enabling access to the latest tools, techniques, and expertise with competitive pricing and rapid turnaround time. We serve a broad spectrum of industrial and academic clients with a commitment to delivering high-quality data and customer services.
