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Nakajima, Keiichi,Sano, Motoaki,Machida, Masayuki The Korean Society for Biotechnology and Bioengine 2000 Biotechnology and Bioprocess Engineering Vol.5 No.4
Aspergillus is considered to be an attractive host for heterologous protein production because of its safety and ability to secrete large amounts of proteins. In order to obtain high productivity, thus far promoters of amylases have been most widely used in A. oryzae. Recent progress in cloning and expression analysis, including EST sequencing, revealed that glycolytic genes represent some of those most strongly expressed in A. oryzae. Therefore, promoters of glycolytic genes could be important alternatives to promoters of amylases because lower amounts of proteases are produced in the presence of glucose. Several A. oryzae transcription factors responsible for the induction and/or maximum expression of many industrially important genes encoding amylases and proteases have been cloned and characterized. In addition to the transcriptional regulatory factors, the gene encoding the largest subunit of RNa polymerase II, constituting the basic transcription machinery, has also been cloned from A. oryzae. This recently acquired understanding of the details of transcriptional regulatory mechanisms and factors will facilitate engineering flexible controls for the expression of proteins important for the fermentation industries.
Saccharomyces cerevisiae에서 Aspergillus oryzae 유래의 exo-β-1,3- glucanase (laminarinase)의 생산 최적화
김민정(Min-Jung Kim),남수완(Soo-Wan Nam),Koichi Tamano,Masayuki Machida,김성구(Sung-Koo Kim),김연희(Yeon-Hee Kim) 한국생물공학회 2011 KSBB Journal Vol.26 No.5
In this study, a EXGA gene code for exo-β-1,3-glucanase from Aspergillus oryzae was overexpressed and secretory produced in Saccharomyces cerevisiae. To overexpress the β-1,3-glucanase, pGInu-exgA and pAInu-exgA plasmids having GAL10 and ADH1 promoter, respectively, and exoinulinase signal sequence (Inu s.s) were constructed and introduced in S. cerevisiae SEY2102 and 2805. The recombinant β-1,3- glucanase was successfully expressed and secreted into the medium and the β-1,3-glucanase activity in 2102/pGInu-exgA and 2102/pAInu-exgA strain were 5.01 unit/mL and 4.09 unit/mL, respectively. In the 2805/pGInu-exgA and 2805/pAInu-exgA strain, the β-1,3-glucanase activity showed 3.23 unit/mL and 3.22 unit/mL, respectively. Secretory efficiency in each strain reached 95% to 98%. Subsequently, the recombinant β-1,3-glucanase was used for ethanol production. Ethanol productivity in 2102/pAInu-exgA strain was 0.83 g/L when pre-treated Laminaria japonica which has initial reducing sugar of 1.4 g/L was used as substrate. It is assumed that the polysaccharides of Laminaria japonica was effectively saccharified by recombinant β-1,3-glucanase, resulting in increase of ethanol productivity. These results suggested that recombinant β-1,3- glucanase was efficiently overexpressed and secreted in S. cerevisiae SEY2102 as host strain by using ADH1 promoter-Inu s.s system.