Division of Food Science and Biotechnology, Pukyong National University, Busan, Korea.
J Ind Microbiol Biotechnol. 2010 May;37(5):521-9. doi: 10.1007/s10295-010-0699-4. Epub 2010 Feb 27.
For the commercial production of CoQ(10), batch-type fermentations were attempted in a 150-l fermenter using a mutant strain of R. sphaeroides. Optimum temperature and initial aeration rate were found to be 30 degrees C and 2 vvm, respectively. Under optimum fermentation conditions, the maximum value of specific CoQ(10) content was achieved reproducibly as 6.34 mg/g DCW after 24 h, with 3.02 g/l of DCW. During the fermentation, aeration shift (from the adequate aeration at the early growth phase to the limited aeration in active cellular metabolism) was a key factor in CoQ(10) production for scale-up. A higher value of the specific CoQ(10) content (8.12 mg/g DCW) was achieved in fed-batch fermentation and comparable to those produced by the pilot-scale fed-batch fermentations of A. tumefaciens, which indicated that the mutant strain of R. sphaeroides used in this study was a potential high CoQ(10) producer. This is the first detailed study to demonstrate a pilot-scale production of CoQ(10) using a mutant strain of R. sphaeroides.
为了商业化生产 CoQ(10),我们在一个 150 升的发酵罐中使用一种球形红杆菌突变株进行分批发酵。结果发现最适温度和初始通气率分别为 30°C 和 2 vvm。在最适发酵条件下,经过 24 小时的培养,可重复性地获得最大比 CoQ(10)含量为 6.34 mg/g DCW,DCW 得率为 3.02 g/L。在发酵过程中,通气方式的改变(从早期生长阶段的充足通气到细胞代谢活跃时的有限通气)是放大生产 CoQ(10)的关键因素。在补料分批发酵中可以获得更高的比 CoQ(10)含量(8.12 mg/g DCW),与农杆菌的中试补料分批发酵相当,这表明本研究中使用的球形红杆菌突变株是一种有潜力的 CoQ(10)高产菌株。这是首次详细研究使用球形红杆菌突变株进行中试规模生产 CoQ(10)。