重离子诱变显著提高了由……产生的持久霉素产量。（原文by后内容缺失）

Heavy-ion mutagenesis significantly enhances enduracidin production by .

作者信息

Liu Lu, Hu Wei, Li Wen-Jian, Wang Shu-Yang, Lu Dong, Tian Xue-Jiao, Mao Yan-Qin, Liu Jing, Chen Ji-Hong

机构信息

Institute of Modern Physics Chinese Academy of Sciences Lanzhou P. R. China.

University of Chinese Academy of Sciences Beijing P. R. China.

出版信息

Eng Life Sci. 2018 Nov 29;19(2):112-120. doi: 10.1002/elsc.201800109. eCollection 2019 Feb.

DOI:10.1002/elsc.201800109

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6999446/

Abstract

To improve fermentative production of enduracidin, heavy-ion beams generated by the Heavy Ion Research Facility in Lanzhou (HIRFL), China, were employed for the first time to generate mutations in . Initial screening detected 44 positive mutants with larger inhibition zone, which were subsequently tested based on flask fermentation. Finally, 20 mutants showed 20% increase in enduracidin production, when compared with the original strain. Among them, enduracidin production by the three mutants (M13, M30, and M34) was significantly higher than that by the original strain. In particular, mutant M30 exhibited highest enduracidin production, which was 114% higher than that obtained with the original strain. Following culture optimization, the maximal enduracidin yield obtained by M30 reached 918.5 mg/L in 10 days, which was 34% higher than that noted in the control.

摘要

为提高持久霉素的发酵产量，首次利用中国兰州重离子研究装置（HIRFL）产生的重离子束对[具体对象未给出]进行诱变。初步筛选检测到44个抑菌圈更大的阳性突变体，随后基于摇瓶发酵对其进行测试。最终，与原始菌株相比，20个突变体的持久霉素产量提高了20%。其中，三个突变体（M13、M30和M34）的持久霉素产量显著高于原始菌株。特别是，突变体M30的持久霉素产量最高，比原始菌株高出114%。经过培养优化，M30在10天内获得的持久霉素最大产量达到918.5 mg/L，比对照高出34%。

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