常璐璐,唐鑫,张灏,等.不同碳、氮源质量浓度对高山被孢霉脂质积累及SNF1复合体转录调控的影响研究[J].中国油脂,2018,43(7):.[CHANG Lulu, TANG Xin, ZHANG Hao,etc.Effect of carbon and nitrogen mass concentrations on lipid production and transcriptional regulation of SNF1 complex in Mortierella alpina[J].China Oils and Fats,2018,43(7):.]
不同碳、氮源质量浓度对高山被孢霉脂质积累及SNF1复合体转录调控的影响研究
Effect of carbon and nitrogen mass concentrations on lipid production and transcriptional regulation of SNF1 complex in Mortierella alpina
  
DOI:
中文关键词:  高山被孢霉  SNF1复合体  脂质积累  营养信号  转录调控
英文关键词:Mortierella alpina  SNF1 complex  lipid accumulation  nutrition signal  transcriptional regulation
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常璐璐,唐鑫,张灏,等  
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中文摘要:
      高山被孢霉(M. alpina)是一株具有较强脂质合成能力的产油微生物,其脂质积累受培养基中碳、氮源调控。探究了不同葡萄糖和酒石酸铵质量浓度对M. alpina生长及脂质积累的影响,并进一步研究不同碳、氮源质量浓度下M. alpina SNF1复合体各亚基的转录水平。结果表明:初始酒石酸铵质量浓度一定时,M. alpina脂肪酸含量随碳氮比(C/N)的增加而提高,C/N为24.6时其脂肪酸含量比C/N为4.6时提高42.6%,初始葡萄糖质量浓度一定时,氮源限制下(C/N=76.7)M. alpina 脂肪酸产率达到2.6 g/L,是氮源存在时的1.5~3.2倍,与葡萄糖相比氮源水平对M. alpina脂质积累影响更为显著。氮源一定时高葡萄糖质量浓度(C/N=24.6)下SNF1复合体各亚基转录水平比对照组提高13.9~20.5倍;而氮限制导致的高C/N同样可促进其转录水平的提高。高C/N和氮限制均属于营养失衡信号,说明M. alpina SNF1转录水平的变化是其对胞外营养水平的响应方式,并与脂质积累水平具有相关性。
英文摘要:
      Mortierella alpina is an oleaginous filamentous fungus with strong oil producing capacity, and its lipid synthesis is regulated by carbon and nitrogen in culture medium. The effects of different mass concentrations of glucose and ammonium tartrate on biomass and lipid accumulation of M. alpina were studied. Under different mass concentrations of carbon and nitrogen,the transcriptional levels of subunits of M. alpina SNF1 complex were further studied.The results showed that lipid accumulation was basically proportional to carbon to nitrogen ratio(C/N) under the same initial nitrogen mass concentration. When C/N was 24.6, the fatty acid content was 42.6%, higher than that of C/N 4.6. While under the same initial glucose mass concentration, in nitrogen limited culture medium(C/N 76.7), fatty acid yield reached 2.6 g/L, which was 1.5-3.2 times of that in nitrogen-rich medium, indicating that nitrogen mass concentration showed a greater impact on lipid production. High glucose mass concentration(C/N 24.6) led to 13.9-20.5 times higher transcriptional level of SNF1 complex compared with lower glucose groups under the same nitrogen level, and higher C/N brought by nitrogen limitation also promoted SNF1 transcription. High C/N and nitrogen limitation were both unbalanced nutrition signal, and changes in transcriptional level might be the response of M. alpina SNF1 complex to nutrient signal, which had positive relationship to lipid accumulation.
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