Benefits of Single Cell Protein Production

Single-cell proteins are dried microorganism cells that are used as a protein supplement in human foods and animal feeds. Microorganisms such as algae, fungi, yeast, and bacteria use cheap feedstock and waste as sources of carbon and energy for growth to produce biomass, protein concentrate, or amino acids. Because protein constitutes a quantitatively significant portion of microbial cells, these microorganisms, also known as single-cell proteins as natural proteins. With an increasing population and a global protein shortage, the use of microbial biomass as food and feed is becoming more prominent. Although single-cell protein has a high nutritive value due to its higher protein, vitamin, essential amino acid, and lipid content, it is doubtful that it can be used in place of conventional protein sources due to their lower protein, vitamin, essential amino acid, and lipid content.

What is a Single Cell Protein?

A single-cell protein, or SCP, is an edible protein produced by a pure microbial monoculture or cell culture of various microorganisms. For synthesis, these bacteria primarily grow on various carbon sources.

Because these bacteria sprout and evolve primarily as filamentous structures, the term SCP is frequently used. That justifies the term “single-cell protein.” This biomass-derived protein can be used as a supplement by both humans and animals.

By producing single-cell proteins, various poultry farms and animal husbandries can provide high-quality ready-to-use proteins to their livestock. SCP has the potential to be used as a viable solution to the protein deficiency problem in humans.

Advantages of Single Cell Protein

The quantity of protein produced is the primary advantage of SCP production. Microbial culture can produce a large amount of protein if the right conditions are met.

• Microorganisms grow at a much faster rate. Under ideal conditions, these microorganisms can produce a significant amount of biomass. Some microbes can double their size in 30 minutes.

• The protein produced by these bacteria is of higher quality and quantity than that produced by other animals and plants.

• Microbes are genetically simple to manipulate. As a result, various amino acid compositions can be seen.

• Waste products can be used as a substrate in the development of SCPs. This also aids in the reduction of pollution.

• Both the fermentation procedures and the culture conditions are straightforward.

• Environmental factors do not affect the generation of microorganisms.

Disadvantages of Single Cell Protein

Nonetheless, there are some drawbacks to SCP. For human consumption, single-cell protein has the following drawbacks:

• Because of the limited capacity of decomposing nucleic acid, SPC ingestion may be harmful to humans. These microorganisms contain 5-15 per cent nucleic acid, which is potentially toxic to humans. It has the potential to cause severe gastrointestinal issues.

• SCP has the potential to cause allergic reactions in people with sensitive digestive systems or whose bodies fail to recognise the biomass.

• A high nucleic acid concentration may also cause an increase in blood uric acid levels.

• Regular consumption of single-cell protein can lead to gout and kidney stones.

• Some people may experience cutaneous reactions after taking the medication.

• Finally, the production cost may be higher due to the requirement for high-end machinery.

Uses of Single Cell Protein

• It is used as a protein-supplemented diet, supplementing malnourished children and assisting in the reduction of the problem of hidden hunger.

• They are nutritious meal, it aids in the reduction and regulation of blood sugar levels in diabetics and promotes healthy skin and eyes and decreases bad cholesterol deposition and thus obesity.

• It is used in cosmetics to keep hair healthy, and it can be found in a variety of herbal beauty products such as bio lipsticks and herbal face creams.

• Used in chicken and cattle feed — The yeast protein is the only SCP product that can be consumed by humans, while the rest of the SCP is suitable for animal feed. It is primarily used to feed cattle, birds, and fish and is high in protein and other nutrients.

• SCP has a high protein content of 60–80% carbs, low fats, vitamins (B1, B2, and E), and minerals such as calcium, potassium, and phosphorus.

Application of Single Cell Protein

This therapeutic and pharmaceutical use can control obesity, stress, weight, cholesterol, and blood sugar levels.

• Hair and skincare products can benefit from this application.

• Protein supplements can help malnourished people.

• A convenient source of food for poultry, fisheries, and animal farms.

Single Cell Protein Production

The following steps are taken in the production process:

• Choosing a suitable strain

• Fermentation.

• Harvesting.

• Treatment after harvesting.

• Single Cell Protein food processing.

Pure microbial cultures for desired protein products, like any other microbial culture, require a nitrogen source, sources of carbohydrates, and other nutrients such as phosphorus to support optimal culture growth. Throughout the process, strict sterile conditions are maintained to prevent contamination. The culture media components are either heat sterilised or filtered through microporous membranes. The chosen microorganism is then inoculated in isolated conditions. 

Except for algal fermentation, the majority of the processes are highly aerobic; thus, a steady supply of oxygen is a must. After the biomass has multiplied, it is extracted from the medium and purified further.

Conclusion 

Single-cell proteins are dried microorganism cells that are used as a protein supplement in human foods and animal feeds. Because protein constitutes a quantitatively significant portion of microbial cells, these microorganisms, also known as single-cell proteins as natural proteins. With an increasing population and a global protein shortage, the use of microbial biomass as food and feed is becoming more prominent. Although single-cell protein has a high nutritive value due to its higher protein, vitamin, essential amino acid, and lipid content, it is doubtful that it can be used in place of conventional protein sources due to their lower protein, vitamin, essential amino acid, and lipid content. A single-cell protein, or SCP, is an edible protein produced by a pure microbial monoculture or cell culture of various microorganisms. SCP has the potential to be used as a viable solution to the protein deficiency problem in humans.