High cell density cultivation for docosahexanoic acid production of Schizochytrium sp. BCC 25505

Q3 Agricultural and Biological Sciences

Asia-Pacific Journal of Science and Technology Pub Date : 2015-06-01 DOI:10.14456/KKURJ.2015.11

W. Prathumpai, Nuntida Sahach-atiraklap, K. Kocharin

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Abstract

Docosahexanoic acid (22:6 n-3; DHA) is a polyunsaturated fatty acid that is essential for functional development and maintenance of human brain and is also involved in the prevention of cardiovascular diseases, improving neural and retinal development in infants. Schizochytriumsp. BCC 25505, a marine protist, can produce DHA at high yield.In this study, biomass and DHA production of this marine protist were carried out to avoid glucose repression and nitrogen limitation using high cell density cultivation technique. The use of high glucose concentration resulted in a slow growth rate and low biomass concentration. By employing central composite design and by pulsing 40 gL-1 glucose at a time yielded maximum biomass (77.3g.L-1) and DHA (18.5 gL-1) productions.Theoptimal conditions for maximizing DHA production of Schizochytrium sp. BCC 25505 calculated using Design expert software were validated in a 5L bioreactor cultivation, yielding at 97 h a maximum concentration of biomass and docosahexanoic acid of 70.8 and 14.1gL-1 respectively. This was further scaled up in 300 L bioreactor and 115.9 gL-1 biomass, 15.0 gL-1 DHA at 119 h were obtained. This optimal fermentation process can provide a low cost production of DHA, which can be used in industrial scale.

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Schizochytrium sp. BCC 25505高产二十二碳己酸的高密度培养

二十二碳己酸(22:6 n-3;DHA是一种多不饱和脂肪酸，对人类大脑的功能发育和维持至关重要，还参与预防心血管疾病，改善婴儿的神经和视网膜发育。Schizochytriumsp。BCC 25505是一种高产DHA的海洋原生生物。在本研究中，采用高密度培养技术，对这种海洋原生生物进行生物量和DHA生产，以避免葡萄糖抑制和氮限制。使用高葡萄糖浓度导致生长速度慢，生物量浓度低。采用中心复合设计，每次脉冲40 g葡萄糖，可产生最大生物量(77.3g -1)和DHA (18.5 g -1)。利用Design专家软件计算出的Schizochytrium sp. BCC 25505最大DHA产量的最佳条件，在5L的生物反应器中进行了验证，在97 h时，生物质和二十二碳己酸的最大浓度分别为70.8和14.1g。在300 L的生物反应器中进一步放大，在119 h得到115.9 g生物质，15.0 g DHA。该优化发酵工艺可提供低成本的DHA生产工艺，可实现工业化生产。

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