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9,10-环甲基十七烷酸干预下灵芝深层发酵合成三萜酸的动力学特征
引用本文:张婧,王思贤,薛菲菲,王晓玲,张家顺,刘高强. 9,10-环甲基十七烷酸干预下灵芝深层发酵合成三萜酸的动力学特征[J]. 菌物学报, 2020, 39(1): 75-83. DOI: 10.13346/j.mycosystema.190317
作者姓名:张婧  王思贤  薛菲菲  王晓玲  张家顺  刘高强
作者单位:中南林业科技大学林业生物技术湖南省重点实验室 森林资源生物技术湖南省国际科技创新合作基地 湖南 长沙 410004
基金项目:国家自然科学基金;国家林业;国家国际科技合作专项基金;草原科技创新人才建设计划(领军人才)项目;湖南省自然科学基金;湖南省国际科技创新合作基地项目;草原局林业
摘    要:利用Sigmoid模型对比研究了添加9,10-环甲基十七烷酸(9,10-CMA)前后灵芝深层发酵产三萜酸的动态变化特征。研究显示,灵芝对照组中三萜酸在4-9d大量合成,并于第9天达到最大值(268.62mg/L);添加9,10-CMA组中三萜酸的合成量于第8天时达到最大值(343.52mg/L)。添加9,10-CMA后,灵芝菌丝体细胞对底物葡萄糖的利用速度加快,细胞比生长速率在3.2天达到最大值(Μmax),为0.94d -1,显著高于对照组的0.88d -1(在第3.4天获得);葡萄糖比消耗速率在第1.7天达到最大值(QS, max),为8.34d -1,显著高于对照组的6.80d -1(在第2.1天获得)。胞内三萜酸比合成速率显著提高,在第6.2天达到最大值(QITA, max)13.76d -1,是对照组9.66d -1的1.42倍。两组中灵芝三萜酸的合成与细胞生长均呈现部分偶联关系,添加9,10-CMA后,没有改变细胞生长和三萜酸合成在发酵过程中的相互关系。

关 键 词:灵芝  三萜酸  深层发酵  9  10-环甲基十七烷酸  动力学模型  
收稿时间:2019-08-20

Kinetic characteristics of triterpene acid synthesised by submerged fermentation of Ganoderma lingzhi under 9,10-methylene hexadecanoic acid intervention
ZHANG Jing,WANG Si-Xian,XUE Fei-Fei,WANG Xiao-Ling,ZHANG Jia-Shun,LIU Gao-Qiang. Kinetic characteristics of triterpene acid synthesised by submerged fermentation of Ganoderma lingzhi under 9,10-methylene hexadecanoic acid intervention[J]. Mycosystema, 2020, 39(1): 75-83. DOI: 10.13346/j.mycosystema.190317
Authors:ZHANG Jing  WANG Si-Xian  XUE Fei-Fei  WANG Xiao-Ling  ZHANG Jia-Shun  LIU Gao-Qiang
Affiliation:International Cooperation Base of Science and Technology Innovation on Forest Resource Biotechnology of Hunan Province, Central South University of Forestry & Technology, Changsha, Hunan 410004, China
Abstract:The dynamic characteristics of triterpene acid produced by submerged fermentation of Ganoderma lingzhi before and after adding 9,10-methylene hexadecanoic acid(9,10-CMA) were studied by using Sigmoid model. The results showed that triterpene acids were mainly synthesized at days 4–9 and reached the maximum at day 9(268.62 mg/L) in experimental control, while the synthesis rate was relatively fast, reached the maximum at day 8(343.52 mg/L) under the treatment of adding 9,10-CMA. After adding 9,10-CMA, the utilization rate of substrate glucose in G. lingzhi cells increased, and the cell specific growth rate(μ) reached the maximum of 0.94 d^-1 at day 3.2(μmax), being higher than that of the experimental control(0.88 d^-1 obtained at day 3.4);the specific consumption rate of glucose reached the maximum of 8.34 d^-1 at day 1.7(qS, max), significantly higher than that of the control(6.80 d^-1 acquired on day 2.1). Intracellular triterpene acids were synthesized at a rate of 13.76 d^-1(qITA, max) at days 6.2, being 1.42 times higher than that of the control(9.66 d^-1). The triterpene acid synthesis of G. lingzhi in both experimental groups showed a partial coupling relationship with cell growth. After adding 9,10-CMA, there was no change in the relationship between cell growth and triterpene acid synthesis in the fermentation process.
Keywords:Ganoderma lingzhi  triterpene acid  submerged fermentation  9,10-methylene hexadecanoic acid  kinetic model
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