Alkaline Proteases Market Dynamics
Alkaline protease enzymes demonstrate high stability and resistance to proteolytic hydrolysis, owing to their high degree of cross-linking to hydrogen bonds, disulphide bonds, and hydrophobic interactions. They are stable in association with chelating agents and perbonates. Developments in field of protein engineering coupled with development of industrial enzymes is expected to create substantial demand for industry players in artificial proteases market.
Alkaline Proteases Market Taxonomy
The global alkaline protease market outlook can be segmented on the basis of:
Serine protease and metalloprotease are the two types of alkaline proteases. They are also classified as endo-peptidases and exo-peptidases based on the position of the peptide bond cleavage.
Alkaline Proteases Market Applications
On the basis of application, the alkaline proteases market size has been classified into detergents, pharmaceuticals, meat tenderizers, protein hydrolyzates, food products, and waste processing. Alkaline proteases play a crucial role in the bioprocessing of used X-ray or photographic films for silver recovery. The use of alkaline proteases in detergents is being increasingly preferred over conventional synthetic ones due to their better cleaning properties, safer dirt removal conditions, and higher performance efficiency at lower washing temperature. Immobilized alkaline protease obtained from Bacillus subtilis has been studied for development of ointment compositions, non-woven tissues, gauze, and new bandage materials. Aspergillus oryzae derived proteases are used as a diagnostic aid in certain lytic enzyme deficiency syndrome. Alkaline proteases with keratinolytic activity are being explored in feather degradation and feather meal production for glues, fertilizers, biodegradable foils, and films.
Increasing number of Studies being conducted to Increase Stability and Explore Additional Applications in Alkaline Proteases Market
High production cost is inhibiting the widespread use of extracellular enzymes for remediation. Technological development in the field of immobilized enzymes offers possibility of wider and economical use of these enzymes. Advancements in microbiology and biotechnology have created a favorable condition for development of proteases. Extensive studies are underway to increase stability to pH, temperature, organic solvents, reuse, and recovery of enzymes with the help of various enzyme immobilization techniques such as whole cell and cell free immobilization techniques. Characterization of enzymes, isolation and identification of promising strains, and optimization of products is a continuous process for improving existing application and also discovering potential application areas.
Market- Trends
Alkaline protease enzymes demonstrate high stability and resistance to proteolytic hydrolysis, owing to their high degree of cross-linking to hydrogen bonds, disulphide bonds, and hydrophobic interactions. They are stable in association with chelating agents and perbonates. Developments in field of protein engineering coupled with development of industrial enzymes is expected to create substantial demand for industry players in artificial proteases market.
Joining thousands of companies around the world committed to making the Excellent Business Solutions.
View All Our Clients