新型耐卤代和耐热科恩氏菌 A01 L-谷氨酰胺酶：异源表达和生化特性。

Novel halo- and thermo-tolerant Cohnella sp. A01 L-glutaminase: heterologous expression and biochemical characterization.

机构信息

Bioprocess Engineering Group, Institute of Industrial and Environmental Biotechnology, National Institute of Genetic Engineering and Biotechnology (NIGEB), Tehran, Iran.

Faculty of Science, Payame Noor University, Tehran, Iran.

出版信息

Sci Rep. 2019 Dec 13;9(1):19062. doi: 10.1038/s41598-019-55587-9.

DOI:10.1038/s41598-019-55587-9

PMID:31836796

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6910923/

Abstract

L-glutaminase importance to use in the food industry and medicine has attracted much attention. Enzymes stability has always been a challenge while working with them. We heterologously expressed and characterized a novel stable L-glutaminase from an extremophile bacterium (Cohnella sp. A01, PTCC No: 1921). K, V, catalytic efficiency and specific activity of rSAM were respectively 1.8 mM, 49 µmol/min, 1851 1/(S.mM) and 9.2 IU/mg. Activation energy for substrate to product conversion and irreversible thermo-inactivation were respectively 4 kJ/mol and 105 kJ/mol from the linear Arrhenius plot. rSAM had the highest activity at temperature 50 °C, pH 8 and was resistant to a wide range of temperature and pH. In compare to the other characterized glutaminases, rSAM was the most resistant to NaCl. Mg, glycerol, DTT, and BME enhanced the enzyme activity and iodoacetate and iodoacetamide inhibited it. rSAM had only been partially digested by some proteases. According to the Fluorimetry and Circular dichroism analysis, rSAM in pH range from 4 to 11 and temperatures up to 60 °C had structural stability. A cysteine residue in the enzyme active site and a thiol bond were predicted upon the modeled tertiary structure of rSAM. Present structural studies also confirmed the presence of a thiol bond in its structure.

摘要

L-谷氨酰胺酶在食品工业和医学中的重要性引起了广泛关注。然而，在使用酶时，其稳定性一直是一个挑战。我们从极端微生物（Cohnella sp. A01，PTCC No: 1921）中异源表达和表征了一种新型稳定的 L-谷氨酰胺酶。rSAM 的 K、V、催化效率和比活性分别为 1.8 mM、49 µmol/min、1851 1/(S.mM)和 9.2 IU/mg。底物到产物转化的活化能和不可逆热失活分别为 4 kJ/mol 和 105 kJ/mol，从线性 Arrhenius 图中得出。rSAM 在 50°C、pH 8 的温度下活性最高，并且能够耐受广泛的温度和 pH 值。与其他已表征的谷氨酰胺酶相比，rSAM 对 NaCl 的抗性最强。Mg、甘油、DTT 和 BME 增强了酶的活性，而碘乙酸盐和碘乙酰胺则抑制了其活性。rSAM 仅被一些蛋白酶部分消化。根据荧光和圆二色性分析，rSAM 在 pH 4 到 11 和温度高达 60°C 的范围内具有结构稳定性。酶活性位点中的一个半胱氨酸残基和一个硫键在 rSAM 的三级结构模型中被预测。目前的结构研究也证实了其结构中存在一个硫键。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a40d/6910923/ba2d521b7a2d/41598_2019_55587_Fig1_HTML.jpg

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新型耐卤代和耐热科恩氏菌 A01 L-谷氨酰胺酶：异源表达和生化特性。

Novel halo- and thermo-tolerant Cohnella sp. A01 L-glutaminase: heterologous expression and biochemical characterization.

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