·864·                             精细化工   FINE CHEMICALS                                  第 36 卷

            磷酸二氢钾质量浓度 8.7 g/L 时，青蒿酸的发酵产量                       [11]  Kung  S  H,  Lund  S,  Murarka  A,  et al.  Approaches  and  recent
            可达（1529.712.6）mg/L，与未经优化的初始发酵                         developments  for  the  commercial  production  of  semi-synthetic
                                                                   artemisinin[J].  Frontiers  in  Plant  Science,  2018,  9:  87.
            产量（915.714.3）mg/L 相比，青蒿酸发酵产量提
                                                               [12]  Lenihan J R,  Tsuruta  H, Diola D,  et al.  Developing  an  industrial
            高了 67.1%。结果表明，经优化后所使用的培养基成                             artemisinic  acid  fermentation  process  to  support  the  cost-effective
            分易于获取，青蒿酸发酵产量得到显著提高。该研                                 production of antimalarial artemisinin-based combination therapies[J].
            究为发酵青蒿酸的工业化生产及青蒿素的低成本制                                 Biotechnology Progress, 2008, 24(5): 1026-1032.
            备提供了参考。                                            [13]  Paddon C J, Keasling J D. Semi-synthetic artemisinin: A model for
                                                                   the use of synthetic biology in pharmaceutical development[J]. Nature
            参考文献：                                                  Reviews Microbiology, 2014, 12(5): 355.
                                                               [14]  Martin V J, Pitera D J, Withers S T, et al. Engineering a mevalonate
            [1]   Enserink M. Source of new hope against malaria is in short supply:   pathway in Escherichia coli for production of terpenoids[J]. Nature
                New drugs based on an old Chinese cure could save countless lives in   biotechnology, 2003, 21(7): 796.
                Africa,  if  health  agencies  and  companies  can  find  ways  to  make   [15]  Wang  Dong  (王冬),  Dai  Zhubo  (戴住波),  Zhang  Xueli  (张学礼).
                enough[J]. Science, 2005, 307(5706): 33-34.        Production  of  plant-derived  natural  products  in  yeast  cells  -  A
            [2]   White N J. Qinghaosu (artemisinin): The price of success[J]. Science,   review[J].  Acta  Microbiologica  Sinica  (微生物学报),  2016,  56(3):
                2008, 320(5874): 330-334.                          516-529.
            [3]   Fröhlich T, Ndreshkjana B, Muenzner J K, et al. Synthesis of novel   [16]  Guo  Rui  (郭睿),  Ding  Mingzhu  (丁明珠),  Yuan  Yingjin  (元英进).
                hybrids  of  thymoquinone  and  artemisinin  with  high  activity  and   Construction  of  artificial  yeast  cell  for  producing  amorphadiene,
                selectivity  against  colon  cancer[J].  ChemMedChem,  2017,  12(3):   andoptimization of fermentation[J]. Journal of Chemical Industry and
                226-234.                                           Engineering (China) (化工学报), 2015, 66(1): 378-385.
            [4]   Bennett  A,  Bisanzio  D,  Yukich  J  O,  et al.  Population  coverage  of   [17]  Wu  Tao  (吴涛),  Wu  Shengming  (吴胜明), Yin Qing  (殷晴),  et al.
                artemisinin-based combination treatment in children younger than 5   Biosynthesis of amorpha-4, 11-diene, a precursor of the antimalarial
                years  with  fever  and  Plasmodium falciparum  infection  in  Africa,   agent artemisinin, in Escherichia coli through introducing mevalonate
                2003–2015: A modelling study using data from national surveys[J].   pathway[J]. Chinese Journal of Biotechnology (生物工程学报), 2011,
                The Lancet Global Health, 2017, 5(4): e418-e427.   27(7): 1040-1048.
            [5]   Wallaart T E, Pras N, Quax W J. Seasonal variations of artemisinin   [18]  Chen  W,  Ma  L,  Zhou  P,  et al.  A  novel  feedstock  for  biodiesel
                and  its  biosynthetic  precursors  in  tetraploid Artemisia annua plants   production: The application of palmitic acid from schizochytrium[J].
                compared with the diploid wild-type[J]. Planta medica, 1999, 65(08):   Energy, 2015, 86: 128-138.
                723-728.                                       [19]  Xu  Su  (徐速), Sun Libin (孙立斌),  Zhao  Qingxia  (赵清霞),  et al.
            [6]   Liu Delong (刘德龙), Zhang Wanbin (张万斌). The development on   Optimization  of  solid-state  fermentation  process  on  antibiotic
                the  research  of  industrial  production  of  artemisinin[J].Chinese   alternative bacillus subtilis probiotics[J]. Journal of Chinese Institute
                Science Bulletin (科学通报), 2017, 62(18): 1997-2006.   of Food Science and Technology (中国食品学报), 2016, 16(8): 132-
            [7]   Fu Yanhui (付彦辉), Zhong Jun (钟俊), Luo Suqin (罗素琴), et al.   139.
                Progress  in  the  chemical  synthesis  of  artemisinin[J].  Chinese   [20]  Wang Dahong (王大红), Wei Lanlan (韦兰兰), Zhang Shuaiying (张
                Pharmaceutical Journal (中国药学杂志), 2014, 49(10): 795-805.     帅滢),  et al.  Optimization  of  fermentation  medium  for  producing
            [8]   Kong  J  Q,  Wang  W,  Cheng  K  D,  et al.  Research  progresses  in   strain  of  natamycin  using  response  surface  methodology[J].  Fine
                synthetic biology of artemisinin[J]. Acta pharmaceutica Sinica, 2013,   Chemicals (精细化工), 2017, 34(11): 1233-1238, 1245.
                48(2): 193-205.                                [21]  Zhang Qianwen (张倩雯), Wang Chunxia (王春霞), Yang Liyun (杨
            [9]   Paddon C J, Westfall P J, Pitera D J, et al. High-level semi-synthetic   丽芸), et al. Research on the factors affecting Saccharomyces cerevisiae
                production  of  the  potent  antimalarial  artemisinin[J].  Nature,  2013,   fermentation[J]. China Brewing (中国酿造), 2015, 34(12): 14-19.
                496(7446): 528-532.                            [22]  Li Hua (李华), Shan Zuhua (单祖华), Wang hua (王华). Inhibition
            [10]  Ro  D  K,  Paradise  E  M,  Ouellet  M,  et al.  Production  of  the   effect  of  carbon  dioxide  on  the  growth  and  metabolism  of
                antimalarial  drug  precursor  artemisinic  acid  in  engineered  yeast[J].   Saccharomyces cerevisiae[J]. Science & Technology Review (科技导
                Nature, 2006, 440(7086): 940-943.                  报), 2008, 26(5): 31-34.