Enzymatic hydrolysis of complex agrowastes by Bacillus cereus ARA-12 A sustainable approach for biofuel production

Ayesha Siddiqui, R. R. Zohra, Aliya Riaz, Anoosha Fatima, Areeba Imtiaz, Mahnaz Ahmad, Raheela Rahmat Zohra
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Abstract

Currently petroleum-based fossil fuels are the main source of the production of energy. The major issue is that all these resources are non-renewable. As the demand of fuel increases day by day, these non-renewable resources may deplete shortly and will not meet the supply criteria according to the requirements. To overcome this problem, the production of bioethanol using wastes biomass such as fruit peels, agricultural waste, municipal and kitchen waste etc. has gained considerable attention. As these agro-wastes mainly contain lignocellulosic biomass, lignocellulolytic bacterial cultures harness the full potential of these substances. In the present study, endoglucanase producing Bacillus cereus ARA-12 was isolated from soil samples. Fermentation parameters to produce endoglucanase were optimized. The optimum production of endoglucanase was achieved in the medium containing carboxymethyl cellulose (15g/L), yeast extract (30g/L), KH2PO4 (1g/L), K2HPO4 (1.45g/L), MgSO4 (0.4g/L), CaCl2 (0.05g/L) and FeSO4 (0.00125g/L). The optimum temperature and pH of the medium were found to be 50°C and 8 respectively. The maximum enzyme production was achieved at agitation speed of 120 rpm after 20 hours of fermentation by using 5% inoculum. Maximum of 35.9 % bioethanol was produced by the action of endoglucanase enzyme on sugarcane bagasse whereas sweet potato, rice bran, banana peel, corn cob, potato peel and corn husk were also found to be potential raw material to produce second-generation biofuel.
蜡样芽孢杆菌 ARA-12 对复杂农业废弃物的酶水解 生物燃料生产的可持续方法
目前,以石油为基础的化石燃料是能源生产的主要来源。主要问题是所有这些资源都是不可再生的。随着燃料需求量的与日俱增,这些不可再生资源可能会在短期内枯竭,无法满足要求的供应标准。为了解决这个问题,利用果皮、农业废弃物、城市垃圾和厨房垃圾等废弃生物质生产生物乙醇的方法受到了广泛关注。由于这些农业废弃物主要含有木质纤维素生物质,因此木质纤维素分解细菌培养物能充分利用这些物质的潜力。本研究从土壤样本中分离出了能产生内切葡聚糖酶的蜡样芽孢杆菌 ARA-12。对产生内切葡聚糖酶的发酵参数进行了优化。在含有羧甲基纤维素(15g/L)、酵母提取物(30g/L)、KH2PO4(1g/L)、K2HPO4(1.45g/L)、MgSO4(0.4g/L)、CaCl2(0.05g/L)和FeSO4(0.00125g/L)的培养基中,内切葡聚糖酶的产量达到最佳。培养基的最佳温度和 pH 值分别为 50°C 和 8。使用 5% 的接种物发酵 20 小时后,搅拌速度为 120 rpm 时产酶量最大。甘蔗渣在内切葡聚糖酶的作用下产生了 35.9% 的生物乙醇,而甘薯、米糠、香蕉皮、玉米芯、马铃薯皮和玉米皮也被认为是生产第二代生物燃料的潜在原料。
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