At present alkaline proteases are widely used in the detergent, leather tanning, pharmaceutical, food, and feed processing industries. Although proteases are found in all living organisms (plant, animal, and microorganisms), the bulk of commercially important enzymes are from microorganisms. The aim of this study was to isolate protease producing bacteria, characterize the enzyme, and evaluate potential application as detergent additive to enhance the washing performance of endod berries. Different bacterial strains were isolated from soil and screened using an alkaline casein agar media. One isolate designated as aau 2106 was selected for further study because of its high proteoliytic activity, level of enzyme production and, ability to grow under solid state fermentation (SSF). Cultivation condition for the production of the enzyme under SSF, such as, moisture content, nitrogen content, and incubation period were optimized. The enzyme was active in the pH range of 6 to 10.5, temperature of 40 to 75°C. And optimum in; 96h incubation period, 1:1 ratio of moisture content and, casein in the production of enzyme under SSF and the enzyme was stable in the presence of endod and commercial detergents. The potential of the enzyme as a detergent additive was tested by adding the protease (57 U/g) in detergent formulations and used to clean pieces of cloth stained with blood and egg. Addition of the enzyme improved the cleaning efficiency of both endod and commercial detergents. This indicates that enzyme supplementation of endod could result in the development of an ecofriendly detergent.
Published in | International Journal of Microbiology and Biotechnology (Volume 5, Issue 4) |
DOI | 10.11648/j.ijmb.20200504.14 |
Page(s) | 193-202 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2020. Published by Science Publishing Group |
Detergent, Endod, Protease
[1] | Sookkheo, B., Sinchaikul, S., Phutrakul, S. and Chen, S. T. (2000). Purification and characterization of the highly thermostable proteases from Bacillus stearothermophilus TLS33. Protein Expression and Purification. pp. 20 (2): 142-151. |
[2] | Kocher, G. S. and Mishra, S. (2009). Immobilization of Bacillus circulans MTCC 7906 for enhanced production of alkaline protease under batch and packed bed fermentation conditions. Internet Journal of Microbiology. pp. 7: 2. |
[3] | Gupta, R., Beg, Q. K., Lorenz, P. (2002). Bacterial alkaline proteases: molecular approaches and industrial applications. Applied microbiology and biotechnology. pp. 59: 13–32. |
[4] | Amare Gessesse (1997). The use of nug meal as low-cost substrate for the production of alkaline protease by the alkaliphilic Bacillus sp. AR-009 and some properties of the enzyme. Bioresource Technology. pp. 62: 59–61. |
[5] | Chu, W. H. (2007). Optimization of extracellular alkaline protease production from species of Bacillus. Journal of industrial microbiology and biotechnology. pp. 34: 241-245. |
[6] | Guleria, A. and Chandna, S. (2016). ATM kinase: Much more than a DNA damage responsive protein. DNA repair. pp. 39: 1-20. |
[7] | Nehra, K. S., Dhillon, S., Chaudhary, K. and Singh, R. (2002). Production of alkaline protease by Aspergillus species under submerged and solid state fermentation. Indian. Jornal of Microbiology. pp. 42: 43-47. |
[8] | Horikoshi, K. (1990). Enzymes of alkalophiles. Microbial Enzyme and Biotechnology. pp. 2: 275–294. |
[9] | Amare Gessesse and Birhanu Abegaz Gashe (1997). Production of alkaline protease by an alkaliphilic bacterium isolated from an alkaline soda lake. Biotechnology letters. pp. 19 (5): 479. |
[10] | Shimogaki, H., Takeuchi, K., Nishino, T., Ohdera, M., Kudo, T., Ohba, K. and Irie, M. (1991). Purification and properties of a novel surface-active agent-and alkaline-resistant protease from Bacillus sp. Y. Agricultural and biological chemistry. pp. 55 (9): 2251-2258. |
[11] | Muhammed, S. (2011). Production, characterization, and potential application of a keratinolytic alkaline protease produced by alkaliphilic Vibrio sp. |
[12] | Leboffe, M. J. and Pierce, B. E. (2010). Microbiology: laboratory theory and application. Morten Pubishing Company. |
[13] | Kalisz, H. M. (1988). Microbial proteinases. Advance in Biochemical Engineering/ Biotechnology. pp. 36: 1-65. |
[14] | El-Sawah, M. M. A. and El-Din, M. Z. (2000). Production and properties of thermostable alkaline protease from Bacillus licheniformis and its importance in Domiati cheese ripening. Annals of Agricultural Science. pp. 45 (1): 113-127. |
[15] | Eftekhar, F., Fouladi, J. and Faghihi, M. (2003). Isolation and identification of an alkaline protease producing Bacillus from soil. Iranian journal of biotechnology. pp. 1: 183-185. |
[16] | Bhosale, H. S., Rao, B. M., Deshpande, V V. and Srinivasan, C. V. (1995). Thermostability of high-activity alkaline protease from candiobolus coronatus. Enzyme and microbial technology. pp. 17 (2): 136-139. |
[17] | Banerjee, U. C., Sani, R. K., Azmi, W., and Soni, R. (1999). Thermostable alkaline protease from Bacillus brevis and its characterization as laundry detergent additive. Process Biochemistry. pp. 35: 213-19. |
[18] | Hameed, A., Keshavarz, T. and Evans, C. S. (1999). Effect of dissolved oxygen tension and pH on the production of extracellular protease from a new isolate of Bacillus subtilisK2 for use in leather processing. Chemical Technology and Biotechnology. pp. 74: 5-8. |
[19] | Ellaiah, P., Adinarayana, K., Bhavani, Y., Padmaja, P. and Srinivasulu B. (2002). Optimization of process parameters for glucoamylase production under solid state fermentation by a newly isolated Aspergillus species. Process biochemistry. pp. 8: 615–20. |
[20] | Singh, J., Batra, N. and Sobti, R. C. (2001). Serine alkaline protease from a newly isolated Bacillus sp. SRR1. Process Biochemistry. pp. 36: 781-85. |
[21] | Tsuchiya, K., Nakamura, Y., Sakashita, H. and Kimura, T. (1992). Purification and characterization of a thermostable alkaline protease from alkalophilic Thermoactinomyces sp. HS682. Bioscience, biotechnology, and biochemistry. pp. 56 (2): 246-250. |
[22] | Oberoi, Ruchi., Beg, Qasim., Puri, Sumant., Saxena, R., Gupta, Rani. (2001). Characterization and wash performance of an SDS-stable alkaline protease from Bacillus sp. World Journal of Microbiology and Biotechnology. pp. 17: 493–497. |
[23] | Kumar, D. and Bhalla, T. C. (2004). Purification and characterization of a small size protease from Bacillus sp. APR-4. National Institute of science communication and information resources. pp. 42 (5): 515-521. |
APA Style
Rahel Tilahun. (2020). Production, Characterization and Evaluation of Bacterial Protease as a Potential Additive to Enhance Detergency of Endod. International Journal of Microbiology and Biotechnology, 5(4), 193-202. https://doi.org/10.11648/j.ijmb.20200504.14
ACS Style
Rahel Tilahun. Production, Characterization and Evaluation of Bacterial Protease as a Potential Additive to Enhance Detergency of Endod. Int. J. Microbiol. Biotechnol. 2020, 5(4), 193-202. doi: 10.11648/j.ijmb.20200504.14
AMA Style
Rahel Tilahun. Production, Characterization and Evaluation of Bacterial Protease as a Potential Additive to Enhance Detergency of Endod. Int J Microbiol Biotechnol. 2020;5(4):193-202. doi: 10.11648/j.ijmb.20200504.14
@article{10.11648/j.ijmb.20200504.14, author = {Rahel Tilahun}, title = {Production, Characterization and Evaluation of Bacterial Protease as a Potential Additive to Enhance Detergency of Endod}, journal = {International Journal of Microbiology and Biotechnology}, volume = {5}, number = {4}, pages = {193-202}, doi = {10.11648/j.ijmb.20200504.14}, url = {https://doi.org/10.11648/j.ijmb.20200504.14}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijmb.20200504.14}, abstract = {At present alkaline proteases are widely used in the detergent, leather tanning, pharmaceutical, food, and feed processing industries. Although proteases are found in all living organisms (plant, animal, and microorganisms), the bulk of commercially important enzymes are from microorganisms. The aim of this study was to isolate protease producing bacteria, characterize the enzyme, and evaluate potential application as detergent additive to enhance the washing performance of endod berries. Different bacterial strains were isolated from soil and screened using an alkaline casein agar media. One isolate designated as aau 2106 was selected for further study because of its high proteoliytic activity, level of enzyme production and, ability to grow under solid state fermentation (SSF). Cultivation condition for the production of the enzyme under SSF, such as, moisture content, nitrogen content, and incubation period were optimized. The enzyme was active in the pH range of 6 to 10.5, temperature of 40 to 75°C. And optimum in; 96h incubation period, 1:1 ratio of moisture content and, casein in the production of enzyme under SSF and the enzyme was stable in the presence of endod and commercial detergents. The potential of the enzyme as a detergent additive was tested by adding the protease (57 U/g) in detergent formulations and used to clean pieces of cloth stained with blood and egg. Addition of the enzyme improved the cleaning efficiency of both endod and commercial detergents. This indicates that enzyme supplementation of endod could result in the development of an ecofriendly detergent.}, year = {2020} }
TY - JOUR T1 - Production, Characterization and Evaluation of Bacterial Protease as a Potential Additive to Enhance Detergency of Endod AU - Rahel Tilahun Y1 - 2020/12/16 PY - 2020 N1 - https://doi.org/10.11648/j.ijmb.20200504.14 DO - 10.11648/j.ijmb.20200504.14 T2 - International Journal of Microbiology and Biotechnology JF - International Journal of Microbiology and Biotechnology JO - International Journal of Microbiology and Biotechnology SP - 193 EP - 202 PB - Science Publishing Group SN - 2578-9686 UR - https://doi.org/10.11648/j.ijmb.20200504.14 AB - At present alkaline proteases are widely used in the detergent, leather tanning, pharmaceutical, food, and feed processing industries. Although proteases are found in all living organisms (plant, animal, and microorganisms), the bulk of commercially important enzymes are from microorganisms. The aim of this study was to isolate protease producing bacteria, characterize the enzyme, and evaluate potential application as detergent additive to enhance the washing performance of endod berries. Different bacterial strains were isolated from soil and screened using an alkaline casein agar media. One isolate designated as aau 2106 was selected for further study because of its high proteoliytic activity, level of enzyme production and, ability to grow under solid state fermentation (SSF). Cultivation condition for the production of the enzyme under SSF, such as, moisture content, nitrogen content, and incubation period were optimized. The enzyme was active in the pH range of 6 to 10.5, temperature of 40 to 75°C. And optimum in; 96h incubation period, 1:1 ratio of moisture content and, casein in the production of enzyme under SSF and the enzyme was stable in the presence of endod and commercial detergents. The potential of the enzyme as a detergent additive was tested by adding the protease (57 U/g) in detergent formulations and used to clean pieces of cloth stained with blood and egg. Addition of the enzyme improved the cleaning efficiency of both endod and commercial detergents. This indicates that enzyme supplementation of endod could result in the development of an ecofriendly detergent. VL - 5 IS - 4 ER -