This study evaluates the influence of growth parameters such as pH, temperature, Carboxy Methyl Cellulose (CMC) concentration and agitation on cellulase production from three bacterial strains, viz., Achromobacter xylosoxidans BSS4, Bacillus sp. BSS3 and Pseudomonas sp. BSS2 isolated from the wood-yards on Kallai river bank in Kerala. Production of cellulase by these isolates was detected using basal salt medium (BSM) with 0.5% CMC as supplement, and CMCase activity was confirmed by iodine test. Dinitrosalicylic acid method was employed for assaying the cellulase production by measuring the amount of glucose liberated in μmol/mL/min. Maximum enzyme production from Pseudomonas sp. BSS2 was at pH 8, 37℃ with 1% CMC and 150 rpm, and cellulase production increased from initial 49.84 U/mL to 91.28 U/mL after optimization. The highest enzyme activity from Bacillus sp. BSS3 was at pH 9, 37℃ with 1% CMC, 150 rpm, and cellulase production increased from initial 26.05 U/mL to 104.68 U/mL after optimization. The maximum enzyme production from A. xylosoxidans BSS4 was at pH 7, 40℃ with 0.5% CMC and 150 rpm, and cellulase production increased from initial 55.28 U/mL to 68.37 U/mL after optimization. Thus among the three isolates, Bacillus sp. BSS3 showed maximum enzyme yield which can be explored for further scale up studies with an industrial perspective.
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机译:这项研究评估了pH,温度,羧甲基纤维素(CMC)浓度和搅动等生长参数对三种细菌菌株(即木氧化无色杆菌BSS4,芽孢杆菌)的纤维素酶生产的影响。 BSS3和假单胞菌sp。 BSS2与喀拉拉邦Kallai河岸的木场隔离。使用含0.5%CMC的基础盐培养基(BSM)补充检测这些分离物产生的纤维素酶,并通过碘试验确认CMCase活性。通过测量以μmol/ mL / min释放的葡萄糖量,使用二硝基水杨酸方法来测定纤维素酶的产量。假单胞菌最大的酶产生。 BSS2的pH为8,37℃,CMC为1%,转速为150 rpm,优化后纤维素酶的产量从最初的49.84 U / mL增加到91.28 U / mL。来自芽孢杆菌的最高酶活性。 BSS3的pH为9,37℃,CMC为1%,转速为150 rpm,优化后纤维素酶的产量从最初的26.05 U / mL增加到104.68 U / mL。木聚糖氧化酶BSS4的最大酶产量是在pH 7、40℃,0.5%CMC和150 rpm的条件下进行的,优化后纤维素酶的产量从最初的55.28 U / mL增加到68.37 U / mL。因此,在三个分离物中,芽孢杆菌属。 BSS3显示出最大的酶产量,可以从工业角度进行进一步的研究。
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