College of Energy, Xiamen University, Xiamen, 361102, People's Republic of China.
Xiamen Key Laboratory of High-valued Conversion Technology of Agricultural Biomass, Xiamen University, Xiamen, 361102, People's Republic of China.
Bioprocess Biosyst Eng. 2017 Dec;40(12):1763-1773. doi: 10.1007/s00449-017-1831-x. Epub 2017 Aug 23.
The present study attempts to cultivate Porphyridium purpureum under different scale-up conditions for further development and commercialization of microalgae-derived PUFAs such as ARA and EPA. Different temperatures (25, 30, and 35 °C) and light intensities (70, 165, and 280 μmol/ms) were applied to the 50 L pilot-scale cultivation of P. purpureum in ASW. The cultivation under the light intensity of 280 μmol/ms at 35 °C obtained biomass concentration up to 9.52 g/L, total fatty acid content to 56.82 mg/g, and ARA content to 22.29 mg/g. While the maximum EPA content of 7.00 mg/g was achieved under the light intensity of 280 μmol/ms at 25 °C and the highest ratio of UFAs to TFAs of 74.66% was also obtained in this trial. Both biomass concentration and TFAs content were improved by increasing light intensity and temperature. Moreover, the ratio of ARA to EPA was enhanced by increasing cultivation temperature under the light intensity of 280 μmol/ms. In contrast with flask culture, the conversion of linoleic acid (C18:2) to ARA was enhanced in scale-up culture, leading to more ARA content. Phosphate limitation enhanced the synthesis of lipid and LPUFAs. Moreover, the biomass concentration and biosynthesis of palmitic acid were preferred by sufficient C (NaHCO).
本研究试图在不同放大条件下培养紫球藻,以进一步开发和商业化微藻衍生的多不饱和脂肪酸(如 ARA 和 EPA)。在 ASW 中,对 50 L 规模的紫球藻进行了不同温度(25、30 和 35°C)和光照强度(70、165 和 280 μmol/ms)的培养。在 35°C 和 280 μmol/ms 的光照强度下,获得了最高的生物量浓度 9.52 g/L、总脂肪酸含量 56.82 mg/g 和 ARA 含量 22.29 mg/g。而在 25°C 和 280 μmol/ms 的光照强度下,获得了最高的 EPA 含量 7.00 mg/g,并且在该试验中还获得了最高的 UFAs 与 TFAs 比值 74.66%。增加光照强度和温度均提高了生物量浓度和 TFAs 含量。此外,在 280 μmol/ms 的光照强度下,随着培养温度的升高,ARA 与 EPA 的比值也得到了提高。与摇瓶培养相比,在放大培养中,亚油酸(C18:2)向 ARA 的转化率得到了提高,从而导致 ARA 含量增加。磷限制增强了脂质和 LPUFA 的合成。此外,充足的 C(NaHCO3)促进了生物量浓度和棕榈酸的生物合成。
