张新武‘,杨晓明2廉娜娜2,黄继红‘’
1河南省食品工业科学研究所有限公司,郑州450053_ 2孟州市华兴生物化工有限责任公司,孟州454750
摘要:目的以L一色氨酸营养缺陷型高产菌HX22-118为出发菌株,研究探讨L一色氨酸补料分批发酵工艺。
方法通过对L一色氨酸补料分批发酵工艺中小同初糖浓度、小同补料方式、碳氮源比例、小同pH值调节方式、添加L-苯丙氨酸、L-酪氨酸对发酵的影响进行了研究。结果通过补料分批发酵工艺能有效地解除了高糖对菌体生长的抑制,促进菌体生长产酸,选择初糖淀粉浓度为90 g/L,保持葡萄糖总浓度160 g/L,在发酵第24 h开始连续流加剩余的糖,并于发酵第12h和24 h分2次补加各50 mg/L的L-苯丙氨酸、L-酪氨酸,同时用氨水与NaOH控制发酵过程的pH,发酵产酸较分批发酵的33.5 g/L提高49.5%,达到50.1 g/L,缩短了发酵周期,提高了原料利用率。
结论形成一套先进的L一色氨酸工业化发酵生产工艺技术,产酸高,生产运行稳定。
结论形成一套先进的L一色氨酸工业化发酵生产工艺技术,产酸高,生产运行稳定。
关键词:L一色氨酸 营养缺陷型 菌株 补料 分批发酵 产酸率
Research on fermentation process with L-tryptophan auxotrophic strains of high-yield
ZHANG Xin-Wu'*, YANG Xiao-Mingz, LIAN Na-Naz, HUANG Ji-Hong'
(1. Henan Province Food Industry Research Institute Co,Ltd, Zhengzhou 450053, China;
2. Mengzhou Huaxing Biological Chemical Co,Ltd., Mengzhou 454750, China)
ABSTRACT: Objective The batch fermentation of L-tryptophan filling material was researched by using L-tryptophan auxotroph high-yielding bacteria HX22-118 as a starting strain. Methods The different initial sugar concentration, different ways of filling material, different proportion of carbon and nitrogen sources,different pH adjustment methods, as well as the adding of L-phenylalanine and L-tyrosine, on fermentation with L-tryptophan as filling material were studied. Results By covering material batch fermentation process could effectively remove the sugar on inhibition of bacteria growth, and promote the growth of bacteria to produce acid. The concentration of sugar starch was 90 g/L, the total concentration of glucose was 160 g/L, after a 24 h fermentation there began the continuous flow with the rest of the sugar, and in the 12 h fermentation and 24 h fermentation points each 50 mg/L of L-phenylalanine and L-tyrosine was added 2 times, and at the same time with ammonia and NaOH were added to control the pH. The fermentation promoted the acid fermentation to produce the batch fermentation of 33.5 g几,、、hich was increased by 49.5% to 50.1 g几,shortening the fermentation period, and improving the utilization rate of raw materials. Conclusion The advanced industrial fermentation of L-tryptophan production technology was formed, which could produce acid quite high, with a stable production operation
KEY WORDS: }tryptophan, auxotroph; strains; fill material batch fermentation; acid production rate