Abstract
Microbial protein refers to dead, dry microbial cells or total proteins extracted from pure microbial cell culture and is produced using a number of different microorganisms including bacteria, yeasts, filamentous fungi, and algae, which are used as protein supplement in human foods or animal feeds. It can also be called single cell protein, bio protein or biomass. Microorganisms, utilize inexpensive feedstock and wastes as sources of carbon and energy for growth to produce biomass, protein concentrate or amino acids. Besides high protein content (about 60-82% of dry cell weight), microbial protein also contains fats, carbohydrates, nucleic acids, vitamins and minerals like potassium, phosphorus. Another advantage with microbial protein is that it is rich in certain essential amino acids like lysine, methionine which are limiting in most plant and animal. With increase in population and worldwide protein shortage the use of microbial biomass as food and feed is more highlighted. One of the most prominent applications of microbial protein (single cell protein) is that it can be used as dietary supplements to address important issues like malnutrition especially in the developing countries.
Highlights
IntroductionIntense efforts have been made to explore new, alternate and unconventional protein
The increasing world deficiency of protein is becoming a main problem of humankind
The production of single cell protein takes place in a fermentation process. This is done by selected strains of microorganisms which are multiplied on suitable raw materials in technical cultivation process directed to the growth of the culture and the cell mass followed by separation processes
Summary
Intense efforts have been made to explore new, alternate and unconventional protein For this reason, in 1996, new sources mainly yeast, fungi, bacteria and algae named Single Cell Protein (SCP) as coined to describe the protein production from biomass, originating from different microbial sources. Tirsit Tibebu Bogale: Microbial Protein Production from Agro-industrial Wastes as Food and Feed content and acceptability [28]. The production of single cell protein takes place in a fermentation process. This is done by selected strains of microorganisms which are multiplied on suitable raw materials in technical cultivation process directed to the growth of the culture and the cell mass followed by separation processes. Safety and the protection of innovation throw up legal and controlled aspects, namely operating licenses, product authorizations for particular applications and the legal protection of new process and strains of microorganisms [30]
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