肌氨酸氧化酶的酶学性质及失活机理
On the Enzymatic Properties and Deactivation Mechanism of Sarcosine Oxidase
DOI:10.3969/j.issn.1673-1689.2015.12.002
中文关键词: 肌氨酸氧化酶 酶学性质 失活机理
英文关键词: sarcosine oxidase,enzymatic properties,deactivation mechanism
基金项目:
作者
单位
仝艳军
江南大学 教育部工业微生物技术重点实验室,江苏 无锡 214122
江南大学 生物工程学院,江苏 无锡 214122
辛瑜
杨海麟
冯守帅
张玲
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中文摘要:
将来源于Bacillus sp.的肌氨酸氧化酶(SOX)基因在E. coli 成功表达,并探索了肌氨酸氧化酶(sarcosine oxidase)酶学性质和失活机理。Bacillus sp.的肌氨酸氧化酶基因克隆入载体pET28a,并转化至E. coli BL21(DE3)表达。经IPTG诱导8 h,对菌体破壁液进行SDS-PAGE电泳分析,发现在43 kDa处有明显蛋白质条带。采用亲和介质分离纯化获得较高纯度SOX。SOX酶学性质分析结果表明,其相对分子质量为43.8 kDa,最适反应温度40 ℃,最适反应pH值为8.0;20 mmol/L的Mn2+对SOX具有明显激活作用;其动力学参数分析表明,肌氨酸作为底物时的Km值为141.6 mmol/L,Vmax为0.115 mmol/(L?min)。结合SDS-PAGE凝胶电泳、荧光光谱和圆二色性光谱分析,探明了液态SOX的失活机理。在37 ℃恒温条件下,随储存时间延长,SOX酶分子内部疏水基团逐渐暴露且二级结构被破坏,导致酶分子变性以及最终酶活力下降。为进一步提高SOX的酶活稳定性提供了理论依据。
英文摘要:
The sarcosine oxidase(SOX) gene from Bacillus sp. was expressed in E. coli,and the properties and deactivation mechanism were further analyzed. After transformation of the cloned DNA into host E. coli BL21(DE3),the SOX gene was induced by IPTG for 8 h,a protein band of 43 kDa appeared in SDS-PAGE electrophoresis. From the crude enzyme solution,SOX in high purity was obtained through affinitive separation and purification. The analytic results of enzymatic properties showed that its relative molecular mass was 43.8 kDa, and its optimum reaction temperature and pH value were 40 ℃ and 8.0,respectively. Moreover,20 mmol/L Mn2+ exhibited an obvious activation effects on recombinant SOX. The kinetic parameters of Km and Vmax were determined as 141.6 mmol/L and 0.115 mmol/(L?min) when sarcosine used as a substrate. With the SDS-PAGE gel electrophoresis,fluorescence and circular dichroism spectroscopy,the deactivation mechanism of SOX was further studied. At constant temperature 37 ℃,the internal hydrophobic group of SOX molecule was gradually exposed and its secondary structure was destroyed along with the prolonged storage time,leading to the denaturation of SOX protein and the lowering down of its activity. The above results provide a theoretical basis for improving SOX stability in future.
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