Exobiopolymer production of Phytocordyceps sp. BCC 2744 and Akanthomyces pistillariiformis BCC 2694; optimization and scale-up

Q3 Agricultural and Biological Sciences
W. Prathumpai, P. Rachtawee
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引用次数: 0

Abstract

Production of exobiopolymers by Phytocordyceps sp. BCC 2744 and Akanthomyces pistillariiformis BCC 2694, interleukin-8 (IL-8) inducers, were optimized using experimental design. Biological and physiological properties of these exobiopolymers are attractive to use as wound-dressing material, so that it is very interesting to increase its production. Phytocordyceps sp. BCC 2744 and Akanthomyces pistillariiformis BCC 2694 were cultivated on different carbon and nitrogen sources and the best carbon and nitrogen sources for exobiopolymer production of Phytocordyceps sp. BCC 2744 were glucose and peptone, respectively, and 0.88 g/L exobiopolymer was obtained. Higher exobiopolymer (1.82 g/L) was obtained on glucose and meat extract by Akanthomyces pistillariiformis BCC 2694. After the effects of 4 variables were studied using a two-level fractional design, glucose and peptone concentration were the most influential parameters on exobiopolymer production of Phytocordyceps sp. BCC 2744. Lower exobiopolymer production was obtained in the medium supplemented with 5-Fluorouracil and vitamin solution at high level (10 mM and 3mL/L, respectively). The highest exobiopolymer production was obtained on 60 g/L glucose and 20 g/L peptone and 2.32 g/L exobiopolymer was produced. About 4.0 g/L exobiopolymer production in a 20 L bioreactor was obtained. At least 4 variables; medium type, nitrogen sources, glucose, and nitrogen concentration were applied on a two-level factorial design of biomass and exobiopolymer production of Akanthomyces pistillariiformis BCC 2694. Models obtained from the multiple regression are significant. At high level of glucose (60 g/L), phosphate medium, and 20 g/L meat extract, higher exobiopolymer production and about 2.54 g/L was obtained. About 4.5 g/L exobiopolymer production in 20 L bioreactor was obtained.
冬虫夏草BCC 2744和雌蕊Akanthomyces BCC 2694的生物外聚合物生产优化和扩展
以白细胞介素-8 (IL-8)为诱导剂,对冬虫夏草BCC 2744和珠芽Akanthomyces pistilliformis BCC 2694产外生物聚合物进行了优化设计。这些外生物聚合物具有良好的生物学和生理学特性,有潜力作为创面材料,因此其产量的增加是非常值得关注的。在不同碳氮源条件下培养冬虫夏草BCC 2744和珠蕊Akanthomyces pistilliformis BCC 2694,发现冬虫夏草BCC 2744产外生物聚合物的最佳碳氮源分别为葡萄糖和蛋白胨,产外生物聚合物量为0.88 g/L。雌蕊Akanthomyces pistilliformis BCC 2694在葡萄糖和肉提取物上获得较高的外生物聚合物(1.82 g/L)。采用双水平分数设计研究了4个变量的影响,结果表明葡萄糖和蛋白胨浓度是影响冬虫夏草BCC 2744产胞外聚合物的最主要参数。在高水平添加5-氟尿嘧啶和维生素溶液(分别为10 mM和3mL/L)的培养基中,获得较低的外生物聚合物产量。葡萄糖用量为60 g/L,蛋白胨用量为20 g/L时,体外生物聚合物产量最高,为2.32 g/L。在20 L的生物反应器中获得了约4.0 g/L的外生物聚合物产量。至少4个变量;采用培养基类型、氮源、葡萄糖和氮浓度对雌蕊Akanthomyces pistilliformis BCC 2694的生物量和体外聚合物产量进行了两水平因子设计。由多元回归得到的模型是显著的。在高水平的葡萄糖(60 g/L)、磷酸盐培养基和20 g/L肉提取物中,获得了较高的外生物聚合物产量,约为2.54 g/L。在20 L的生物反应器中,外聚物的产量约为4.5 g/L。
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来源期刊
Asia-Pacific Journal of Science and Technology
Asia-Pacific Journal of Science and Technology Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
0.90
自引率
0.00%
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0
审稿时长
8 weeks
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