標題: | 以大腸桿菌表現β-glucosidase及熱穩定性改良之研究 Expression of β-glucosidase in E. coli and thermostability improvement |
作者: | 王修容 Hsiu-Jung Wang 曾慶平 Ching-Ping Tseng 生物科技學系 |
關鍵字: | 大腸桿菌;纖維素水解酶;表面表現系統;冰核蛋白;熱穩定性;E. coli;cellulase;surface display system;ice nucleation protein;thermostability |
公開日期: | 2008 |
摘要: | 生質酒精是一個極具潛力的能源之ㄧ。目前生質酒精的製程把纖維素水解及酒精發酵分成兩個部份,成兩個部份,若把兩個步驟結合成單一步驟將能降低40 %的生產成本。纖維素水解酶分成三種,分別為endoglucanase、exoglucanase及β-glucosidase,本實驗分別把五個β-glucosidase表現在E. coli表面以期能應用在水解發酵同步化。從醣類水解資料庫中,根據發酵的環境(37 °C, pH 7.0)選出五個細菌來源的β-glucosidases ( E.C. 3. 2. 1. 21 ),分別為BglA、BglB(Bacillus sp.)、BgxA(Erwinia sp.)、CelA、SalB(Azospirillum sp.)。BglA利用表面系統表現,活性為0.3 μmole/min/100 ml(OD600 = 1.0的菌液),BgxA則可達3.5 μmole/min/100 ml,均超越原本菌株的活性。
BglA,根據文獻,比活性為2417 units/mg同時具有3D結構,此部分利用生物資訊方法,藉由尋找BglA內能形成離子鍵的位置,利用點突變方式增加離子鍵的數目進而提高熱穩定性。BglA野生株粗萃取在55 ℃、pH 7之半衰期為15 min,Q216K則約為20 min,預期結合所有提高熱穩定性的突變點可得到耐高熱的BglA。根據實驗結果,利用離子鍵增加BglA熱穩定性的方法除電荷平衡外,須同時考慮B-fator,形成離子鍵的距離及改變胺基酸conserved與否。 Bioehtanol is an important energy to substitute gasoline. In this study, the β-glucosdiase expressed on the surface of E. coli which can be used for cellulose degradation and ethanol fermentation, synchronously. From the glycoside hydrolase database, five bacterial β-glucosidases ( E.C. 3. 2. 1. 21 ), BglA、BglB、BgxA、CelA and SalB with the optimum activity ( 37 °C, pH 7.0 ), were selected to express in E. coli. The activity of BglA was 0.3 μmole/min/100 ml which was expressed on the surface with surface display system 1(SDV1). Furthermore, the activity of BgxA reached 3.5 μmole/min/100 ml which was expressed on the surface with SDV2. BglA from Bacillus sp. containing three dimensional structure was used to improve thermostability by site-directed mutagenesis. Ten possible sites for increasing ionic pairs of BglA were found. Half life of wild type BglA was 15 min at pH 7 and 55 ℃. The thermostability of Q216K was improved for half life of 20 min at pH 7 and 55 ℃. Therefore, the high themoresistance enzyme can be obtained by combination of single substitution for increasing salt bridges. In conclusion, charge balance, B-factor, ionic bonds distance and the conserved region of BglA need to be considered for rational design of thermostable BglA. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT009528514 http://hdl.handle.net/11536/39037 |
顯示於類別: | 畢業論文 |