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来自浅蓝链霉菌SB12026的扁枝衣霉素的效价提高及中试规模生产

Titer improvement and pilot-scale production of platensimycin from Streptomyces platensis SB12026.

作者信息

Shi Jun, Pan Jian, Liu Ling, Yang Dong, Lu Songquan, Zhu Xiangcheng, Shen Ben, Duan Yanwen, Huang Yong

机构信息

Xiangya International Academy of Translational Medicine, Central South University, Tongzipo Road, #172, Yuelu District, Changsha, 410013, Hunan, China.

Department of Chemistry, The Scripps Research Institute, Jupiter, FL, 33458, USA.

出版信息

J Ind Microbiol Biotechnol. 2016 Jul;43(7):1027-35. doi: 10.1007/s10295-016-1769-z. Epub 2016 Apr 28.

DOI:10.1007/s10295-016-1769-z
PMID:27126098
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5056013/
Abstract

Platensimycin (PTM) and platencin (PTN), isolated from several strains of Streptomyces platensis are potent antibiotics against multi-drug resistant bacteria. PTM was also shown to have antidiabetic and antisteatotic activities in mouse models. Through a novel genome-mining method, we have recently identified six PTM and PTN dual-producing strains, and generated several mutants with improved production of PTM or PTN by inactivating the pathway-specific transcriptional repressor gene ptmR1. Among them, S. platensis SB12026 gave the highest titer of 310 mg/L for PTM. In this study, we now report titer improvement by medium and fermentation optimization and pilot-scale production and isolation of PTM from SB12026. The fermentation medium optimization was achieved by manipulating the carbon and nitrogen sources, as well as the inorganic salts. The highest titer of 1560 mg/L PTM was obtained in 15-L fermentors, using a formulated medium mainly containing soluble starch, soybean flour, morpholinepropanesulfonic acid sodium salt and CaCO3. In addition, a polyamide chromatographic step was applied to facilitate the purification and 45.14 g of PTM was successfully obtained from a 60 L scale fermentation. These results would speed up the future development of PTM as human medicine.

摘要

从多种普拉特链霉菌菌株中分离得到的扁枝衣霉素(PTM)和扁枝菌素(PTN)是针对多重耐药菌的强效抗生素。在小鼠模型中,PTM还显示出抗糖尿病和抗脂肪变性活性。通过一种新的基因组挖掘方法,我们最近鉴定出6株PTM和PTN双产菌株,并通过使途径特异性转录阻遏基因ptmR1失活,获得了几株PTM或PTN产量提高的突变株。其中,普拉特链霉菌SB12026的PTM产量最高,达到310mg/L。在本研究中,我们现在报告通过培养基和发酵优化提高产量,以及从SB12026进行中试规模生产和分离PTM。通过控制碳源、氮源以及无机盐实现了发酵培养基的优化。在15L发酵罐中,使用主要含有可溶性淀粉、大豆粉、吗啉丙磺酸钠盐和CaCO3的配方培养基,获得了1560mg/L的PTM最高产量。此外,采用聚酰胺色谱步骤促进纯化,从60L规模发酵中成功获得了45.14g PTM。这些结果将加速PTM作为人类药物的未来开发。

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