Hucheng Zhang, Jun Yang, Shuai Luo, Linying Liu, Guowei Yang, Bo Gao, Haitao Fan, Lina Deng, Ming Yang
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引用次数: 0
Abstract
We determined whether there exists a complementary pathway of cordycepin biosynthesis in wild-type Cordyceps militaris, high-cordycepin-producing strain C. militaris GYS60, and low-cordycepin-producing strain C. militaris GYS80. Differentially expressed genes were identified from the transcriptomes of the three strains. Compared with C. militaris, in GYS60 and GYS80, we identified 145 and 470 upregulated and 96 and 594 downregulated genes. Compared with GYS80, in GYS60, we identified 306 upregulated and 207 downregulated genes. Gene Ontology analysis revealed that upregulated genes were mostly involved in detoxification, antioxidant, and molecular transducer in GYS60. By Clusters of Orthologous Groups of Proteins and Kyoto Encyclopedia of Genes and Genomes analyses, eight genes were significantly upregulated: five genes related to purine metabolism, one to ATP production, one to secondary metabolite transport, and one to RNA degradation. In GYS60, cordycepin was significantly increased by upregulation of ATP production, which promoted 3',5'-cyclic AMP production. Cyclic AMP accelerated 3'-AMP accumulation, and cordycepin continued to be synthesized and exported. We verified the novel complementary pathway by adding the precursor adenosine and analyzing the expression of four key genes involved in the main pathway of cordycepin biosynthesis. Adenosine addition increased cordycepin production by 51.2% and 10.1%, respectively, in C. militaris and GYS60. Four genes in the main pathway in GYS60 were not upregulated.
我们确定野生型蛹虫草、高产虫草素菌株C. militaris GYS60和低产虫草素菌株C. militaris GYS80中是否存在虫草素生物合成的互补途径。从三个菌株的转录组中鉴定出差异表达基因。在GYS60和GYS80中,分别鉴定出145和470个上调基因和96和594个下调基因。与GYS80相比,在GYS60中,我们鉴定出306个上调基因和207个下调基因。基因本体分析显示,GYS60中表达上调的基因主要与解毒、抗氧化和分子换能器有关。通过蛋白质簇和京都基因与基因组百科分析,8个基因显著上调:5个与嘌呤代谢有关的基因,1个与ATP产生有关的基因,1个与次级代谢物运输有关的基因,1个与RNA降解有关的基因。在GYS60中,虫草素通过上调ATP的产生而显著增加,ATP的产生促进了3',5'环AMP的产生。环状AMP加速了3′-AMP的积累,虫草素继续合成并输出。我们通过添加前体腺苷和分析虫草素生物合成主要途径中涉及的四个关键基因的表达,验证了新的互补途径。添加腺苷可使蛹虫草素产量分别提高51.2%和10.1%。GYS60主要通路上的4个基因未上调。
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