| 油酸促进灵芝三萜液态深层发酵的工艺研究及规模化验证 |
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| 引用本文: | 苏晓薇,唐庆九,张劲松,冯娜,王金艳,周帅,冯杰,俞苓.油酸促进灵芝三萜液态深层发酵的工艺研究及规模化验证[J].菌物学报,2021,40(9):2445-2460. |
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| 作者姓名: | 苏晓薇 唐庆九 张劲松 冯娜 王金艳 周帅 冯杰 俞苓 |
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| 作者单位: | 1.上海市农业科学院食用菌研究所 农业部南方食用菌资源利用重点实验室 国家食用菌工程技术研究中心 国家食用菌加工技术研发分中心 上海市农业遗传育种重点开放实验室 上海 2014032.上海应用技术大学香料香精技术与工程学院 上海 201418 |
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| 基金项目: | 国家自然科学基金(31801919);上海人才发展资金(2019052);上海市农业科学院卓越团队建设计划(2017A-06);上海市农业科学院学科领域建设专项[农科国推2019 (匹配-12)] |
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| 摘 要: | 灵芝三萜是灵芝中主要的活性成分之一,前期研究发现油酸可以促进灵芝三萜液态深层发酵下的发酵合成。本研究主要对油酸促进灵芝三萜液态深层发酵的工艺进行优化,并进行3L发酵罐规模的验证。通过单因素实验考察油酸的添加方式、添加时间和添加浓度对灵芝三萜的影响,结合响应面实验,获得最优工艺条件并进行验证:在发酵第32h添加1.21%高温灭菌油酸,最高灵芝三萜含量为42.69mg/g;在发酵第7h添加1.35%过滤除菌油酸,最高三萜含量为43.38mg/g,分别比对照提高2.04倍和2.08倍。在1 000mL摇瓶中添加高温灭菌油酸和过滤除菌油酸,灵芝三萜含量分别为32.18和32.48mg/g,为对照的1.96倍和1.95倍;在3L发酵罐规模下灵芝三萜含量分别为28.66和25.13mg/g,为对照的1.62倍和1.42倍。本研究系统优化了油酸促进灵芝三萜液态深层发酵的工艺条件,并在与工业生产相对应的3L发酵罐上进行验证。该研究可为灵芝三萜的规模化发酵提供重要参考和借鉴。
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| 关 键 词: | 灵芝三萜 工艺优化 响应面 油酸 规模化 |
| 收稿时间: | 2021-04-26 |
Synthesis of triterpenes in liquid submerged fermentation of Ganoderma lingzhi promoted by oleic acid |
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| Authors: | SU Xiao-Wei TANG Qing-Jiu ZHANG Jing-Song FENG Na WANG Jin-Yan ZHOU Shuai FENG Jie YU Ling |
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| Institution: | 1. Institute of Edible Fungi, Shanghai Academy of Agricultural Sciences; Key Laboratory of Edible Fungal Resources and Utilization (South), Ministry of Agriculture, P.R. China; National Engineering Research Center of Edible Fungi; National R&D Center for Edible Fungal Processing; Key Laboratory of Agriculture Genetics and Breeding of Shanghai; Shanghai 201403, China2. School of Perfume and Aroma Technology, Shanghai Institute of Technology, Shanghai 201418, China |
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| Abstract: | Triterpene is one of the most important active ingredients in Ganoderma lingzhi. Previous studies found that oleic acid could promote the biosynthesis of triterpenes in liquid submerged fermentation of Ganoderma lingzhi. In this study, the process of liquid submerged fermentation for synthesis of triterpenes by using oleic acid as promoter was optimized and verified on the scale of a 3L fermenter. The effects of the additive method, time for addition and concentration of oleic acid on triterpene synthesis were investigated by single factor experiment. The optimal process conditions were obtained and verified by response surface experiment. The highest triterpene content reaching 42.69mg/g was obtained by adding 1.21% moist heat sterilized oleic acid at 32h of fermentation, and by adding 1.35% filtered sterilized oleic acid at the 7h of fermentation, the highest triterpene content was 43.38mg/g, being 2.04 times and 2.08 times higher than triterpene content of the control, respectively. The triterpenes content was 32.18mg/g and 32.48mg/g respectively by adding moist heat sterilized and filterer sterilized oleic acid at 1 000mL scale of shake culture, being 1.96 times and 1.95 times higher as compared with the control. The triterpene content in 3L fermenter was 28.66mg/g and 25.13mg/g, 1.62 times and 1.42 times higher than that of the control. The technological conditions of liquid submerged fermentation of triterpenes promoted by oleic acid were successfully optimized and verified in a 3L fermenter, corresponding to industrial production. This study provide an important reference for large-scale fermentation of Ganoderma lingzhi for production of triterpenes. |
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| Keywords: | Ganoderma triterpenes process optimization response surface oleic acid scaled |
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