利用从海洋环境中分离的土著 sp. MAR2 生产海藻糖。

Ectoine production with indigenous sp. MAR2 isolated from the marine environment.

机构信息

Graduate School of Biotechnology and Bioengineering, Yuan Ze University, Taoyuan, Taiwan (R.O.C.).

Department of Applied Chemistry and Materials Science, Fooyin University, Kaohsiung, Taiwan (R.O.C.).

出版信息

Prep Biochem Biotechnol. 2020;50(1):74-81. doi: 10.1080/10826068.2019.1663534. Epub 2019 Sep 13.

DOI:10.1080/10826068.2019.1663534

PMID:31517565

Abstract

Ectoine has fostered the development of products for skin care and cosmetics. In this study, we employed the marine bacterial strain sp. MAR2 to increase ectoine production by optimizing medium constituents using Response Surface Methodology (RSM) and a fed-batch strategy. The results from the steepest ascent and central composite design indicated that 54 g/L of yeast extract, 14.0 g/L of ammonium acetate, 74.4 g/L of sodium glutamate, and 6.2 g/L of sodium citrate constituted the optimal medium with maximum ectoine production (3.5 g/L). In addition, we performed fed-batch culture in the bioreactor, combining pH and dissolved oxygen to produce ectoine by sp. MAR2. The ectoine production, content, and productivity of 5.6 g/L, 10%, and 3.9 g/L/day were further reached by a fed-batch culture. Thus, the ectoine production by sp. MAR2 using RSM and fed-batch strategy shows its potential for industrial production.

摘要

海藻糖促进了皮肤护理和化妆品产品的发展。在这项研究中，我们采用海洋细菌菌株 sp. MAR2 通过响应面法（RSM）和分批补料策略优化培养基成分来提高海藻糖产量。最陡爬坡和中心复合设计的结果表明，酵母提取物 54g/L、乙酸铵 14.0g/L、谷氨酸钠 74.4g/L 和柠檬酸钠 6.2g/L 组成了具有最大海藻糖产量（3.5g/L）的最佳培养基。此外，我们在生物反应器中进行了分批补料培养，通过 sp. MAR2 结合 pH 值和溶解氧生产海藻糖。通过分批补料培养，海藻糖的产量、含量和生产率分别达到了 5.6g/L、10%和 3.9g/L/天。因此，使用 RSM 和分批补料策略的 sp. MAR2 生产海藻糖显示出其在工业生产中的潜力。

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利用从海洋环境中分离的土著 sp. MAR2 生产海藻糖。

Ectoine production with indigenous sp. MAR2 isolated from the marine environment.

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