- Zambare V, Nilegaonkar S, Kanekar P. A novel extracellular protease from Pseudomonas
aeruginosa MCM B-327: enzyme production and its partial characterization. New Biotechnol.
2011; 28 (2), 173-181.
2. Haddar A, Sellami-Kamoun A, Fakhfakh-Zouari N, Hmidet N, Nasri M. Characterization of
detergent stable and feather degrading serine protease from Bacillus mojavensis A21. Biochem
Eng J. 2010; 51(1-2): 53-63.
3. Rao M, Tanksale A, Ghatge M, Deshpande, V. Molecular and biotechnological aspects of
microbial protease. Microbiol Mol Biol Rev. 1988; 62(3): 597-635.
4. Anbu P. Characterization of solvent stable extracellular protease from Bacillus koreensis
(BK-P21A). Int J Biological Macromolecules. 2013; 56: 162-168.
5. Ghafoor A, Hasnain Sh. Purification and characterization of an extracellular protease from
Bacillus subtilis EAG-2 strain isolated from ornamental plant nursery. Pol J Microbiol. 2010;
59(2): 107-112.
6. Gupta A, Khare SK. A protease stable in organic solvents from solvent tolerant strain of
Pseudomonas aeruginosa. Bioresour Technol. 2006; 97(15): 1788-1793.
7. Hajji M, Kanoun S, Nasri M, Gharsallah N. Purification and characterization of an alkaline
serine-protease produced by a new isolated Aspergillus clavatus ES1. Process Biochem. 2007;
42(5): 791-797.
8. Chaudhari P, Chaudhari B, Chincholkar S. Iron containing keratinolytic metallo-protease
produced by Chryseobacterium gleum. Process Biochem. 2013; 48(1): 144-151.
9. Lv LX, Sim MH, Li YD, Min J, Feng WH, Guan WJ, Li YQ. Production, characterization and
application of a keratinase from Chryseobacterium l99 sp. nov. Process Biochem. 2010; 45 (8):
1236-1244.
10. Wang S, Yang Ch, Liang T, Yen Y. Optimization of conditions for protease production by
Chryseobacterium taeanense TKU001. Bioresour Technol. 2008, 99(99): 3700-3707.
11. Riffel A, Brandelli A, Bellato MC, Souza, HMFG, Eberlin NM, Tavares CAF. Purification and
characterization of a keratinolytic metalloprotease from Chryseabacterium sp.Kr6. J Biotechnol.
2007; 128(3): 693-703.
12. Wang S, Hsu W, Liang T, Yen Y, Wang Ch. Purification and characterization of three novel
keratinolytic metalloprpteases produced by Chryseobacterium indologenes TKU014 in a shrimp
shell powder medium. Bioresour Technol. 2008; 99(13): 5679-5686.
13. Prakasham RS, Subba-Rao Ch, Sreenivas R, Rajesham S, Sarma PN. Optimization of alkaline
protease production by Bacillus sp. using Taguchi methodology. Appl Biochem Biotechnol.
2004; 120(2): 133-144.
14. Beinabadi Y, Namaki-Soushtari AH, Badoei-Dalfard A. Isolation and characterization of
protease producing Chryseobacterium indologenes strain BYK27 from Kerman, s dairy industry
sewage. J Cell Mol Res. 2016; 29: 33-47.
15. Badoei-Dalfard A, Karami Z. Screening and isolation of an organic solvent tolerant-protease
from Bacillus sp. JER02: Activity optimization by response surface methodology. J Mol
Catalysis B: Enzymatic. 2013; 89: 15-23.
16. Badoei-Dalfard A, Karami Z, Ravan H. Purification and characterization of a thermo- and
organic solvent-tolerant alkaline protease from Bacillus sp. JER02. Preparative Biochem
Biotechnol. 2015; 45: 128-143.
17. Meena P, Dutt Tripathi A, Srivastava SK, Jha, A. Utilization of agro-industrial waste (wheat
bran) for alkaline protease production by Pseudomonas aeruginosa in SSF using Taguchi
(DOE) methodology. Biocatal Agric Biotechnol. 2013; 2(3): 210-216.
18. Badoei-Dalfard A, Amiri-Bahrami M, Riahi-Madvar A, Karami Z, Ebrahimi M A. Isolation,
identification and characterization of organic solvent tolerant protease from Bacillus sp.
DAF-01. Biological J Microorganism. 2012; 1(2): 37-48.
19. Ward OP. Proteolytic enzymes. Comprehensive Biotechnol. 1985; 8: 789-818.
20. Sarkar PK, Cook PE, Owens JD. Bacillus fermentation of soybeans. World J
Microbiol Biotechnol. 1993; 9(3): 295-299.
21. Sinagh S, Sinagh S, Tripathi V, Grag S. Purification, characterization and secondary structure
elucidation of a detergent stable, halotolerant, thermoalkaline protease from Bacillus cereus
SIU1. Process Biochem. 2012; 47(10): 1479-1487.
22. Venil CK, Lakshmanaperumalsamy P. Taguchi experimental design for medium optimization
for enhanced protease production by Bacillus subtilis HB04. J Sci Technol. 2009; 2: 54-59.
23. Ghaemi Oskouie SF, Tabandeh F, Yakhchali B, Eftekhar F. Enhancement of alkaline protease
production by Bacillus clausii using Taguchi experimental design. Afr J Biotechnol. 2007; 6
(22): 2559-2564.
24. Raut GR, Chakraborty S, Chopade BA, Kokare CR. Isolation and characterization of organic
solvent stable protease from alkaliphilic marine Saccharopolyspora species. Ind J Geo-Mar Sci.
2013; 42 (1): 131-138.
25. Annamalai N, Veeramuthu Rajeswari M, Kumar Sahu S, Balasubramanian Th. Purification
and characterization of solvent stable, alkaline protease from Bacillus firmus CAS 7 by
microbial conversion of marine wastes and molecular mechanism underlying solvent stability.
Process Biochem. 2014; 49(6): 1012-1019.
26. Paul T, Das A, Mandal AK, Halder S, Jana A, Maity Ch, Kumar DasMohapatra, P, Pati RB,
Mondal CK. An efficient cloth cleaning properties of a crude keratinase combined with
detergent: towards industrial viewpoint. J Clean Prod. 2014; 66(1): 672-684.
27. Ubba-Rao Ch, Sathish T, Ravichandra P, Prakasham RS. Characterization of thermos- and
detergent stable serine protease from isolated Bacillus circulans and evaluation of eco-friendly
applications. Process Biochem. 2009; 44(3): 262-268.
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