Biochemical Characterization of Lipase Produced by Bacillus spp. Isolated from Soil and Oil Effluent

Afaf O. B. Shart, E. Elkhalil
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引用次数: 4

Abstract

The aim of the present work was to isolate Bacillus spp. With high lipase activity; to characterize the isolates using both biochemical and molecular methods; to produce lipase using Bacillus isolates and to study the biochemical and biophysical characteristics of the produced lipase. Sixty five Bacillus isolates were isolated from soil 20 isolates from guar field soil (G), 15 isolates from Abusabein field soil (B), 15 isolates from sun flower field soil (S) and 15 isolates from oil effluent (O). Lipase producing isolates were screened; a Chromogenic plate’s method was used. Enzyme activity was quantitatively assayed. Lipase production under submerged fermentation (SMF) conditions using a production medium that contained metal salts, Tween-20 and olive oil as substrate at different period 24, 48, 72 and 96 h, the optimum pH, temperature for lipase activity was determinated and kinetics as well. The isolates showed the highest lipase activity which was identified as Bacillus sp. The optimum pH, temperature, thermostability and kinetic of the produced enzymes were found in three isolates G14, O1 and B10 with the highest enzyme activity and best stability. The isolates G14, O1 and B10 revealed the highest lipase activity of 63.4, 41.2 and 28.3 U/ml, respectively. The results showed optimum pH of the lipase activity from isolates G14, O1 and B10 8.0, 6.0 and 6.0 and the optimum temperature 40, 60 and 75˚C, respectively. Lipase enzymes from isolates O1 and B10 were found to be more thermostable after incubation time for 120 min at 90˚C. The Vmax and Km values of lipase for isolates G14, OI and B10 were 17.6, 135 and 24.4 μmole∙min𕒵 and 1.3, 1.6 and 0.681 mM, respectively. According to these results Bacillus spp. with high lipase activity and thermostability can be used to promote food, pharmaceuticals, paper, detergents agrochemicals industries and pollution control in Sudan.
从土壤和石油废水中分离的芽孢杆菌产脂肪酶的生化特性
本工作的目的是分离具有高脂肪酶活性的芽孢杆菌;用生化和分子方法对分离菌株进行鉴定;利用分离的芽孢杆菌生产脂肪酶,并研究所生产的脂肪酶的生化和生物物理特性。从土壤中分离到65株芽孢杆菌,瓜尔豆田土壤中分离到20株(G),荞麦豆田土壤中分离到15株(B),向日葵田土壤中分离到15株(S),石油废水中分离到15株(O)。采用显色板法。定量测定酶活性。以含金属盐、Tween-20和橄榄油为底物的培养基为底物,在24、48、72和96 h的条件下进行了脂肪酶的深层发酵,确定了脂肪酶活性的最佳pH、温度和动力学。脂肪酶活性最高的菌株为芽孢杆菌。菌株G14、O1和B10的最佳pH、温度、热稳定性和酶动力学结果表明,菌株G14、O1和B10的酶活性最高,稳定性最好。分离菌株G14、O1和B10的脂肪酶活性最高,分别为63.4、41.2和28.3 U/ml。结果表明,菌株G14、O1和B10脂肪酶活性的最佳pH分别为8.0、6.0和6.0,最佳温度为40、60和75℃。分离物O1和B10在90℃下培养120 min后,脂肪酶的耐热性较好。分离菌株G14、OI和B10的脂肪酶Vmax和Km分别为17.6、135和24.4 μmol∙min𕒵和1.3、1.6和0.681 mM。这些结果表明,具有高脂肪酶活性和热稳定性的芽孢杆菌可用于促进苏丹食品、制药、造纸、洗涤剂、农药工业和污染控制。
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