烟曲霉中三乙酰伏马菌素C和铁载体菌素产量的优化。

Optimization of triacetylfusarinine C and ferricrocin productions in Aspergillus fumigatus.

作者信息

Szigeti Zsuzsa M, Szaniszló Szilvia, Fazekas Erika, Gyémánt Gyöngyi, Szabon Judit, Antal Károly, Emri Tamás, Balla József, Balla György, Csernoch László, Pócsi István

机构信息

University of Debrecen Department of Microbial Biotechnology and Cell Biology, Faculty of Science and Technology Debrecen Hungary.

University of Debrecen Department of Inorganic and Analytical Chemistry, Faculty of Science and Technology Debrecen Hungary.

出版信息

Acta Microbiol Immunol Hung. 2014 Jun;61(2):107-19. doi: 10.1556/AMicr.61.2014.2.2.

DOI:10.1556/AMicr.61.2014.2.2

PMID:24939680

Abstract

Iron is an essential element for all microorganisms. Bacteria and fungi produce versatile siderophores for binding and storing this essential transition metal when its availability is limited in the environment. The aim of the study was to optimize the fermentation medium of Aspergillus fumigatus for siderophore production. Triacetyl-fusarinine C and ferricrocin yields were dependent on glucose and glycine supplementations as well as the initial pH of the culture media. The optimal fermentation medium for triacetylfusarinine C production contained 8% glucose, 0.4% glycine and the initial pH was set to 5.9. Meanwhile, maximal ferricrocin yields were recorded in the presence of 10% glucose, 0.5% glycine and at an initial pH of 7.4. Under optimized fermentation conditions, the yields for triacetylfusarinine C and ferricrocin increased up to 2.9 g/l culture medium and 18.9 mg/g mycelium, respectively.

摘要

铁是所有微生物的必需元素。当环境中铁这种必需的过渡金属的可用性有限时，细菌和真菌会产生多种铁载体来结合和储存它。本研究的目的是优化烟曲霉用于铁载体生产的发酵培养基。三乙酰基伏马菌素C和铁载体菌素的产量取决于葡萄糖和甘氨酸的添加量以及培养基的初始pH值。用于三乙酰基伏马菌素C生产的最佳发酵培养基含有8%的葡萄糖、0.4%的甘氨酸，初始pH值设定为5.9。同时，在含有10%葡萄糖、0.5%甘氨酸且初始pH值为7.4的条件下，铁载体菌素的产量最高。在优化的发酵条件下，三乙酰基伏马菌素C和铁载体菌素的产量分别提高到每升培养基2.9克和每克菌丝体18.9毫克。

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Optimization of triacetylfusarinine C and ferricrocin productions in Aspergillus fumigatus.烟曲霉中三乙酰伏马菌素C和铁载体菌素产量的优化。

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烟曲霉中三乙酰伏马菌素C和铁载体菌素产量的优化。

Optimization of triacetylfusarinine C and ferricrocin productions in Aspergillus fumigatus.

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