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里氏木霉双基因同步缺失菌株的构建与甘露聚糖酶表达研究
引用本文:吴鸿清,秦丽娜,陈秀珍,黄建忠,董志扬. 里氏木霉双基因同步缺失菌株的构建与甘露聚糖酶表达研究[J]. 菌物学报, 2014, 33(6): 1281-1291. DOI: 10.13346/j.mycosystema.140034
作者姓名:吴鸿清  秦丽娜  陈秀珍  黄建忠  董志扬
作者单位:1福建师范大学生命科学学院 工业微生物教育部工程研究中心 福建省现代发酵技术工程研究中心 福建 福州 350108;2中国科学院微生物研究所 北京 100101
基金项目:国家重点基础研究发展计划(973计划)(No.2011CB707402);国家自然科学基金(No.30970073);国家高技术研究发展计划(863计划)(No.2012AA092103)
摘    要:在里氏木霉中建立了一个快速的双基因位点同步同源重组新方法,较好解决了里氏木霉基因逐个敲除周期长等问题。研究以里氏木霉自身甘露聚糖酶基因(man5A)为重组表达的报告基因,通过一步转化,将该基因定点整合入纤维二糖水解酶Ⅰ(cbh1)基因位点,同时缺失主要的两个纤维素酶基因(cbh1、cbh2),得到重组工程菌Man12。将重组工程菌Man12与出发菌株Tu6Δku70进行摇瓶发酵,结果显示,重组菌株的甘露聚糖酶产量比出发菌株提高10倍,而纤维素酶产量降低了60%,胞外总蛋白分泌水平降低了40%。Real-time PCR检测甘露聚糖酶基因(man5A)的转录水平,发现重组菌株较出发菌株提高了25倍。在里氏木霉中首次报道了通过一步转化实现两个基因同步定点整合的方法,对利用基因工程手段构建高效表达重组蛋白的里氏木霉工程菌株具有一定的指导意义。

关 键 词:里氏木霉  纤维素酶基因  甘露聚糖酶基因  同步定点整合  

Expression of mannanase in Trichoderma reesei by construction of a simultaneous double-gene disruption strain
WU Hong-Qing,QIN Li-Na,CHEN Xiu-Zhen,HUANG Jian-Zhong,DONG Zhi-Yang. Expression of mannanase in Trichoderma reesei by construction of a simultaneous double-gene disruption strain[J]. Mycosystema, 2014, 33(6): 1281-1291. DOI: 10.13346/j.mycosystema.140034
Authors:WU Hong-Qing  QIN Li-Na  CHEN Xiu-Zhen  HUANG Jian-Zhong  DONG Zhi-Yang
Affiliation:1Engineering Research Center of Industrial Microbiology, Ministry of Education; Engineering Research Center of Fujian Modern Fermentation Technology, College of Life Science, Fujian Normal University, Fuzhou, Fujian 350108, China;2Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, China
Abstract:A new rapid method for simultaneous homologous recombination was constructed in Trichoderma reesei for better solving long-cycle gene manipulation issues. The Trichoderma reesei recombinant strain Man12 was obtained by replacing the cellobiohydrolase Ⅰ(cbh1) ORF with the homologous mannanase gene (man5A) as a reporter. In addition, two major cellulases genes (cbh1, cbh2) were deleted simultaneously. The shake flask fermentation indicated that as compared with the parent strain, the production of mannanase activity of the recombinant strain Man12 was increased 10-fold, while the production of cellulases activity was reduced by 60% and the production of extracellular secreted protein was reduced by 40%. Real-time PCR analysis showed that mRNA level of the mannanase gene (man5A) in Man12 exhibited about 25-fold increase. This work will be the first report of a method, by which site-specific integration of two genes could be achieved simultaneously in one-step transformation in Trichoderma reesei, and should provide valuable knowledge for the engineering of high-level recombinant protein expression in Trichoderma reesei.
Keywords:Trichoderma reesei  cellulase  mannanase  simultaneous site-specific integration  
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