標題: | △5-3-酮基類固醇異構酵素突變株化學修飾之研究 Study of Chemical Modification of △5-3-Ketosteroid Isomerase Mutants |
作者: | 黃彥杰 Yen-Chien Huang 李耀坤 Yaw-Kuen Li 應用化學系碩博士班 |
關鍵字: | 酮基類固醇;螢光;胜肽圖譜;Ketosteroid isomerase;fluorescence;peptide mapping |
公開日期: | 2001 |
摘要: | Pseudomonas testoteroni 中發現的酵素 △5-3-酮基類固醇異構酵素 (KSI,EC 5.3.3.1) 能以擴散速率控制,立體選擇及立體保留的方式將 △5-3-酮基類固醇轉變成 △4-3-酮基類固醇。其催化反應中,Tyr-14 扮演 general acid,Asp-38 扮演 general base。當類固醇進到酵素活性區時會對 Tyr-14 的螢光產生淬息現象,但因螢光強度不高而靈敏度不夠,無法使用於晶片檢測上。所以,為了在酵素活性區內修飾一螢光物質以增大其螢光強度,分別以定點突變方式設計了半胱胺酸於胺基酸序列 54、55、82 的位置,再將此突變株與 5,5’-Dithiobis(2-nitrobenzoic acid) (DTNB) 及螢光物質 IANBD ester (I-9) 及 1,5-IAEDANS (I-14) 反應。結果發現 DTNB 可修飾於所引入的半胱胺酸上,而上述兩類螢光物質除了可以修飾在 Cys-54 外,並無法進入酵素活性區深處與 Cys-82 反應。反之,以胜肽圖譜法分析螢光物質所修飾的胺基酸位置發現,I-14 可修飾在胺基酸 Asp-38 上。這是因為 Asp-38 位於酵素活性區疏水環境中親核性變強,以致於可與螢光物質反應的結果。而 I-9 修飾於胺基酸後螢光團會斷裂,導致無法觀測 I-9 的紫外-可見光及螢光變化。以 DTNB 和 I-14 修飾後的 KSI 活性至少降低了 103 倍,而由類固醇結合能力的 KD 值分析,修飾後的 KSI 與類固醇的結合能力變差。 DTNB 修飾在 Cys-82 時,紫外光吸收剩下 55 ﹪,且由 324 nm 藍位移至 318 nm;DTNB 修飾在 Cys-54 時,紫外光吸收剩下 50 ﹪,沒有藍位移現象。I-14 修飾在 Asp-38 上時,螢光由 498 nm 藍位移至 452 nm (Y55F/Y88F) 及 464 nm (Y55F/F82C/Y88F),螢光強度也分別增強 3.4 倍 及 3.7 倍,而I-14 同時修飾在 Asp-38 與 Cys-54 上時,螢光無藍位移產生,但螢光強度約增強了 6 倍。此外,利用設計在酵素表面的半胱胺酸可使 KSI 與奈米金條反應而固定在奈米金條上,此現象或可應用於開發類固醇檢測試片或晶片。 △5-3-Ketosteroid isomerase (KSI, EC 5.3.3.1) of Pseudomonas testoteroni promotes the highly efficient isomerization of △5-3-Ketosteroids to △4-3- Ketosteroids by a direct and stereospecific transfer of the 4β-proton to the 6-β-position. Asp-38 and Tyr-14 function as the general base and the general acid of the catalytic reaction, respectively. The fluorescence intensity of Tyr-14 can be quenched when enzyme binds with some steroids such as 19-nortestosterone. Since the intrinsic fluorescence intensity of KSI is too weak to apply on biochip for steroid detection, two dyes (I-14 and I-9) are hence selected as labeling agents which are potentially useful for improving fluorescent property of KSI. KSI mutants, Y55F/Y88F, Y55F/Y88F/F54C and Y55F/Y88F/F82C, which are designated as Y14only, 54C, and 82C, respectively, were constructed for labeling study. The dye I-14 can only performed a single-labeling on Y14only and 82C, whereas a double-labeling can be found when 54C was incubated with I-14. Studies from peptide mapping and tandem mass spectrometry of the labeled KSI mutants revealed that both the newly recruited cystein residue and Asp-38 in the mutant can be modified. The modification on Asp-38 can be explained by assuming its unusual nucleophilicity resulting from the highly hydrophobic environment. The outcomes of labeling with I-9 were similar to those of with I-14. However, interestingly, on the I-9 labeled mutants, the corresponding chromophoric moiety can be further hydrolyzed. All of these observations were confirmed both by ESI-MS and UV-spectroscopy analysis of proteins. The fluorescence intensity of I-14-labeled mutants is enhanced, whereas for I-9-labeled mutants, the fluorescence data were not reliable owing to the continuous decomposition of chromophoric group of I-9. Both the catalytic activity and steroid binding ability of mutants labeled with DTNB or I-14 decrease significantly. Further study will be performed on improving the recognition of steroid by this group of KSI mutants. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#NT900500036 http://hdl.handle.net/11536/69264 |
顯示於類別: | 畢業論文 |