Microbial alkaline serine proteases: Production, properties and applications
- PMID: 33730214
- DOI: 10.1007/s11274-021-03036-z
Microbial alkaline serine proteases: Production, properties and applications
Abstract
Proteolytic enzymes hold a pivotal position in numerous industrial processes where hydrolysis of protein molecules is required under precise conditions. The emerging trend of biotechnological applications in recent years has witnessed a renewed interest in alkaline serine proteases extending their utility in detergent, leather, textile, food and pharmaceutical industries. A variety of microorganisms have been reported to produce alkaline serine proteases on a large scale, however, extensive research to find an alkaline serine protease with desirable characteristics such as significant catalytic efficiency, expanded stability and broad substrate specificity is still ongoing. Although submerged fermentation dominates the commercial enzyme production, recent reports have emphasized on solid state fermentation technology which can reduce major cost associated with the enzyme production. In the present review, recent research on alkaline serine proteases along with their novel properties and production using solid state fermentation have been discussed.
Keywords: Alkaline serine protease; Biochemical properties; Industrial applications; Solid state fermentation.
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References
-
- Abidi F, Limam F, Neji MM (2018) Production of alkaline proteases by Botrytis cinerea using economic raw materials: assay as biodetergent. Process Biochem 43:1202–1208
-
- Abu-Tahon MA, Arafat HH, Isaac GS (2020) Laundry detergent compatibility and dehairing efficiency of alkaline thermostable protease produced from Aspergillus terreus under solid-state fermentation. J Oleo Sci 69(3):241–254 - PubMed
-
- Aguilar JGS, Sato HH (2017) Microbial proteases: production and application in obtaining protein hydrolysates. Food Res Int. https://doi.org/10.1016/j.foodres.2017.10.044 - DOI
-
- Alici EH, Arabaci G (2018) A novel serine protease from strawberry (Fragaria ananassa): purification and biochemical characterization. Int J Biol Macromol 114:1295–1304 - PubMed
-
- Benmrad MO, Moujehed E, Elhoul MB et al (2018) Production, purification, and biochemical characterization of serine alkaline protease from Penicillium chrysogenium strain X5 used as excellent bio-additive for textile processing. Int J Biol Macromol 119:1002–1016
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