Simultaneous purification and characterization of detergent-stable, solvent-tolerant haloextremozymes protease and lipase from Haloferax sp. strain GUBF 2

Industrial important proteases and lipases are in increasing demand for various biotechnological applications. In the present study, the concomitantly produced protease and lipase by Haloferax sp. strain GUBF 2 were simultaneously purified as a heterogeneous lipase (45 and 66 kDa) and homogeneous protease (180 kDa); with 28.3 and 31.36 fold purity, respectively using Sephadex G-200. The aforementioned extremozymes were active at pH 3-13, 20-80 °C, 1-5 M NaCl, with optimal activity at pH 6, 70 °C, and 3 M NaCl, thus exhibiting attributes of true haloextremozymes. The K_m and V_max of purified lipase were 3.47 mM and 16.2 U/mL, while protease were 3.29 mg/mL and 28.5 U/mL, respectively. FTIR bands corresponding to the vibrations of amide II and amide III were detected in haloextremozymes which could perhaps be used to determine the secondary structure of the purified proteins. Furthermore, the activity of both enzymes was stimulated by Ca²⁺ and inhibited by 10 mM Hg²⁺ and phenylmethyl sulphonyl fluoride (PMSF). Additionally, these haloextremozymes are stable in the presence of detergent additives and organic solvents. In addition, purified protease displayed 74.3 ± 4.85% in-vitro blood clot dissolution activity. Conclusively this study revealed the key features, unusual properties, and possible biomedical applications of detergent-stable and organic solvent-tolerant haloextremozymes from Haloferax sp. strain GUBF 2 to date unexplored.