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嗜γ-变形菌嗜微螺菌XCL-2的α-碳酸酐酶的结构与生物物理特性:对用于二氧化碳封存的工程热稳定酶的见解

Structural and biophysical characterization of the α-carbonic anhydrase from the gammaproteobacterium Thiomicrospira crunogena XCL-2: insights into engineering thermostable enzymes for CO2 sequestration.

作者信息

Díaz-Torres Natalia A, Mahon Brian P, Boone Christopher D, Pinard Melissa A, Tu Chingkuang, Ng Robert, Agbandje-McKenna Mavis, Silverman David, Scott Kathleen, McKenna Robert

机构信息

Department of Biochemistry and Molecular Biology, University of Florida College of Medicine, Gainesville, FL 32610, USA.

Department of Pharmacology and Therapeutics, University of Florida College of Medicine, Gainesville, FL 32610, USA.

出版信息

Acta Crystallogr D Biol Crystallogr. 2015 Aug;71(Pt 8):1745-56. doi: 10.1107/S1399004715012183. Epub 2015 Jul 31.

DOI:10.1107/S1399004715012183
PMID:26249355
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4528804/
Abstract

Biocatalytic CO2 sequestration to reduce greenhouse-gas emissions from industrial processes is an active area of research. Carbonic anhydrases (CAs) are attractive enzymes for this process. However, the most active CAs display limited thermal and pH stability, making them less than ideal. As a result, there is an ongoing effort to engineer and/or find a thermostable CA to fulfill these needs. Here, the kinetic and thermal characterization is presented of an α-CA recently discovered in the mesophilic hydrothermal vent-isolate extremophile Thiomicrospira crunogena XCL-2 (TcruCA), which has a significantly higher thermostability compared with human CA II (melting temperature of 71.9°C versus 59.5°C, respectively) but with a tenfold decrease in the catalytic efficiency. The X-ray crystallographic structure of the dimeric TcruCA shows that it has a highly conserved yet compact structure compared with other α-CAs. In addition, TcruCA contains an intramolecular disulfide bond that stabilizes the enzyme. These features are thought to contribute significantly to the thermostability and pH stability of the enzyme and may be exploited to engineer α-CAs for applications in industrial CO2 sequestration.

摘要

生物催化二氧化碳封存以减少工业过程中的温室气体排放是一个活跃的研究领域。碳酸酐酶(CAs)是该过程中具有吸引力的酶。然而,活性最高的CAs表现出有限的热稳定性和pH稳定性,使其不太理想。因此,人们一直在努力改造和/或寻找一种热稳定的CA来满足这些需求。在此,本文介绍了一种最近在嗜温热液喷口分离嗜极菌嗜热栖热硫螺旋菌XCL-2(TcruCA)中发现的α-CA的动力学和热学特性,与人类CA II相比,它具有显著更高的热稳定性(熔解温度分别为71.9°C和59.5°C),但催化效率降低了十倍。二聚体TcruCA的X射线晶体结构表明,与其他α-CAs相比,它具有高度保守但紧凑的结构。此外,TcruCA含有一个稳定酶的分子内二硫键。这些特性被认为对酶的热稳定性和pH稳定性有显著贡献,并且可被用于改造α-CAs以应用于工业二氧化碳封存。

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