菊芋块茎中产聚苹果酸和普鲁兰的经济共生产:由 pullulansHA-4D 引起的 Aureobasidium。
Economic co-production of poly(malic acid) and pullulan from Jerusalem artichoke tuber by Aureobasidium pullulans HA-4D.
机构信息
Jiangsu Key Laboratory for Biomass-Based Energy and Enzyme Technology, Jiangsu Collaborative Innovation Center of Regional Modern Agriculture and Environmental Protection, College of Chemistry and Chemical Engineering, Huaiyin Normal University, Huai'an, 223300, China.
Jiangsu Province Engineering Laboratory for Biomass Conversion and Process Integration, Huaiyin Institute of Technology, Huai'an, 223300, China.
出版信息
BMC Biotechnol. 2017 Feb 23;17(1):20. doi: 10.1186/s12896-017-0340-y.
BACKGROUND
poly(L-malic acid) (PMA) is a water-soluble polyester with many attractive properties in medicine and food industries, but the high cost of PMA fermentation has restricted its further application for large-scale production. To overcome this problem, PMA production from Jerusalem artichoke tubers was successfully performed. Additionally, a valuable exopolysaccharide, pullulan, was co-produced with PMA by Aureobasidum pullulans HA-4D.
RESULTS
The Jerusalem artichoke medium for PMA and pullulan co-production contained only 100 g/L hydrolysate sugar, 30 g/L CaCO and 1 g/L NaNO. Compared with the glucose medium, the Jerusalem artichoke medium resulted in a higher PMA concentration (114.4 g/L) and a lower pullulan concentration (14.3 g/L) in a 5 L bioreactor. Meanwhile, the activity of pyruvate carboxylase and malate dehydrogenas was significantly increased, while the activity of α-phosphoglucose mutase, UDP-glucose pyrophosphorylase and glucosyltransferase was not affected. To assay the economic-feasibility, large-scale production in a 1 t fermentor was performed, yielding 117.5 g/L PMA and 15.2 g/L pullulan.
CONCLUSIONS
In this study, an economical co-production system for PMA and pullulan from Jerusalem artichoke was developed. The medium for PMA and pullulan co-production was significantly simplified when Jerusalem artichoke tubers were used. With the simplified medium, PMA production was obviously stimulated, which would be associated with the improved activity of pyruvate carboxylase and malate dehydrogenas.
背景
聚 L-苹果酸(PMA)是一种水溶性聚酯,在医学和食品工业中有许多吸引人的特性,但 PMA 发酵的高成本限制了其进一步应用于大规模生产。为了克服这个问题,成功地从菊芋块茎中生产 PMA。此外,菊糖通过 Aureobasidum pullulans HA-4D 与 PMA 共同生产。
结果
用于 PMA 和 pullulan 共生产的菊芋培养基仅含有 100g/L 水解糖、30g/L CaCO 和 1g/L NaNO。与葡萄糖培养基相比,菊芋培养基在 5L 生物反应器中产生了更高的 PMA 浓度(114.4g/L)和更低的 pullulan 浓度(14.3g/L)。同时,丙酮酸羧化酶和苹果酸脱氢酶的活性显著增加,而 α-磷酸葡萄糖变位酶、UDP-葡萄糖焦磷酸化酶和葡糖基转移酶的活性不受影响。为了检验经济可行性,在 1t 发酵罐中进行了大规模生产,得到了 117.5g/L PMA 和 15.2g/L pullulan。
结论
在这项研究中,开发了一种从菊芋中经济地生产 PMA 和 pullulan 的共生产系统。当使用菊芋块茎时,PMA 和 pullulan 共生产的培养基得到了显著简化。使用简化的培养基,PMA 的生产明显受到刺激,这可能与丙酮酸羧化酶和苹果酸脱氢酶活性的提高有关。
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