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灵芝属(伞菌纲)真菌免疫调节蛋白基因启动子的克隆、特性分析及其对茉莉酸甲酯和水杨酸的响应

Cloning and Characterization of Promoters of the Fungal Immunomodulatory Protein Genes from Ganoderma spp. (Agaricomycetes) and Their Response to Methyl Jasmonate and Salicylic Acid.

作者信息

Li Qi-Zhang, Chang Yu-Zhou, Su Kai-Qi, Wang Xiao-Lei, Bai Xiao-Hui, Zhou Xuan-Wei

机构信息

School of Agriculture and Biology and Engineering Research Center of Therapeutic Antibody (Ministry of Education), Shanghai Jiao Tong University, Shanghai, People's Republic of China.

State Key Laboratory of Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, Shanghai, People's Republic of China.

出版信息

Int J Med Mushrooms. 2018;20(2):177-189. doi: 10.1615/IntJMedMushrooms.2018025451.

Abstract

Ganoderma mushrooms for medicinal use contain various bioactive compounds, but the genetic elements available for these medicinal mushrooms are still limited. In this study we cloned and analyzed the promoters of fungal immunomodulatory protein (FIP) genes from G. lucidum and G. atrum. FIP gene expression was induced by different concentrations of methyl jasmonate (MeJA) and salicylic acid (SA), and messenger RNA expression was detected by quantitative reverse-transcription polymerase chain reaction. The results provided 5' upstream sequences of FIP genes from G. lucidum and G. atrum. Sequence analysis showed that the FIP-glu promoter sequence contained 11 CAAT boxes, 3 TATA boxes, 3 MeJA-responsive elements, 3 MYB binding site (MBS) motifs, 1 abscisic acid responsive element, 1 TGA, 1 anaerobic inducible element, 2 circadian elements, 1 fungal elicitor, 1 meristem-specific activation element, 3 Skn-1 motifs, and several light-responsive elements. The 5' flanking region of FIP-gat included 9 CAAT boxes, 4 TATA boxes, 3 MeJA-responsive elements, 1 AuxRR core, 1 GC motif, 1 MBS, 1 fungal elicitor, 1 meristem-specific activation element, 3 Skn-1 motifs, and several light-responsive elements. On the transcriptional level, both FIP-glu and FIP-gat reached their highest expression after treatment with MeJA at 500 μmol/L. FIP-glu expression depended on the concentration of SA (0-1000 mg/L); the expression of the FIP-gat gene was highest at a concentration of 100 mg MeJA/L. This research lays the foundation to use Ganoderma mycelia as bioreactors for producing FIPs.

摘要

药用灵芝含有多种生物活性化合物,但这些药用蘑菇可用的遗传元件仍然有限。在本研究中,我们克隆并分析了来自灵芝和紫芝的真菌免疫调节蛋白(FIP)基因的启动子。FIP基因表达受不同浓度茉莉酸甲酯(MeJA)和水杨酸(SA)诱导,通过定量逆转录聚合酶链反应检测信使核糖核酸表达。结果提供了灵芝和紫芝FIP基因的5'上游序列。序列分析表明,FIP-glu启动子序列包含11个CAAT框、3个TATA框、3个MeJA响应元件、3个MYB结合位点(MBS)基序、1个脱落酸响应元件、1个TGA、1个厌氧诱导元件、2个昼夜节律元件、1个真菌激发子、1个分生组织特异性激活元件、3个Skn-1基序和几个光响应元件。FIP-gat的5'侧翼区域包括9个CAAT框、4个TATA框、3个MeJA响应元件、1个AuxRR核心、1个GC基序、1个MBS、1个真菌激发子、1个分生组织特异性激活元件、3个Skn-1基序和几个光响应元件。在转录水平上,FIP-glu和FIP-gat在用500μmol/L MeJA处理后均达到最高表达。FIP-glu表达取决于SA浓度(0 - 1000mg/L);FIP-gat基因在100mg MeJA/L浓度下表达最高。本研究为利用灵芝菌丝体作为生物反应器生产FIP奠定了基础。

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