Bioprocess exploration for thermostable α-amylase production of a deep-sea thermophile Geobacillus sp. in high-temperature bioreactor

Preparative Biochemistry and Biotechnology Pub Date : 2016-08-17 DOI:10.1080/10826068.2015.1128444

Tao Jiang, Mengmeng Huang, Hao He, Jian Lu, Xiangshan Zhou, Menghao Cai, Yuanxing Zhang

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引用次数: 3

Abstract

ABSTRACT Geobacillus sp. 4j, a deep-sea high-salt thermophile, was found to produce thermostable α-amylase. In this work, culture medium and conditions were first optimized to enhance the production of thermostable α-amylase by statistical methodologies. The resulting extracellular production was increased by five times and reached 6.40 U/ml. Then, a high-temperature batch culture of the thermophile in a 15 l in-house-designed bioreactor was studied. The results showed that a relatively high dissolved oxygen (600 rpm and 15 l/min) and culture temperature of 60°C facilitated both cell growth and α-amylase production. Thus, an efficient fermentation process was established with initial medium of pH 6.0, culture temperature of 60°C, and dissolved oxygen above 20%. It gave an α-amylase production of 79 U/ml and productivity of 19804 U/l·hr, which were 10.8 and 208 times higher than those in shake flask, respectively. This work is useful for deep-sea high-salt thermophile culture, where efforts are lacking presently.

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深海嗜热地杆菌高温生物反应器生产耐热α-淀粉酶的生物工艺探索

摘要:Geobacillus sp. 4j是一种深海高盐嗜热菌，可产生耐热α-淀粉酶。在这项工作中，首先通过统计方法优化培养基和条件，以提高耐热α-淀粉酶的产量。细胞外产量提高了5倍，达到6.40 U/ml。然后，在室内设计的15l生物反应器中对嗜热菌进行了高温间歇培养研究。结果表明，较高的溶解氧(600 rpm和15 l/min)和60℃的培养温度有利于细胞生长和α-淀粉酶的产生。因此，在初始培养基pH为6.0，培养温度为60℃，溶解氧≥20%的条件下，建立了高效的发酵工艺。α-淀粉酶产量为79 U/ml，产率为19804 U/l·hr，分别是摇瓶法的10.8倍和208倍。这项工作对目前缺乏的深海高盐嗜热菌培养具有重要意义。

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Preparative Biochemistry and Biotechnology

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