Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis.

Tagami U; Shimba N; Nakamura M; Yokoyama K; Suzuki E; Hirokawa T

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Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis.

机译：三维对接模拟和诱变揭示了微生物转谷氨酰胺酶的底物特异性。

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Transglutaminases (TGases) are used in fields such as food and pharmaceuticals. Unlike other TGases, microbial transglutaminase (MTG) activity is Ca(2+)-independent, broadening its application. Here, a three-dimensional docking model of MTG binding to a peptide substrate, CBZ-Gln-Gly, was simulated. The data reveal CBZ-Gln-Gly to be stretched along the MTG active site cleft with hydrophobic and/or aromatic residues interacting directly with the substrate. Moreover, an oxyanion binding site for TGase activity may be constructed from the amide groups of Cys64 and/or Val65. Alanine mutagenesis verified the simulated binding region and indicated that large molecules can be widely recognized on the MTG cleft.

机译：转谷氨酰胺酶（TGase）用于食品和药品等领域。与其他TGases不同，微生物转谷氨酰胺酶（MTG）活性是Ca（2+）无关的，从而扩大了其应用范围。在此，模拟了MTG与肽底物CBZ-Gln-Gly结合的三维对接模型。数据显示，CBZ-Gln-Gly沿着MTG活性位点裂开，疏水和/或芳族残基直接与底物相互作用。此外，可以由Cys64和/或Val65的酰胺基构建用于TGase活性的氧阴离子结合位点。丙氨酸诱变验证了模拟的结合区域，并表明大分子可以在MTG裂隙上被广泛识别。

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《Protein engineering design & selection: PEDS》 |2009年第12期|共6页
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Tagami U; Shimba N; Nakamura M; Yokoyama K; Suzuki E; Hirokawa T;
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中图分类蛋白质（朊）化学加工工业;
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1. Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis. [J] . Tagami U, Shimba N, Nakamura M, Protein engineering design & selection: PEDS . 2009,第12期

机译：三维对接模拟和诱变揭示了微生物转谷氨酰胺酶的底物特异性。
2. Function of the central domain of streptokinase in substrate plasminogen docking and processing revealed by site-directed mutagenesis. [J] . Chaudhary A, Vasudha S, Rajagopal K, Protein Science: A Publication of the Protein Society . 1999,第12期

机译：通过定向诱变揭示链激酶的中央结构域在底物纤溶酶原对接和加工中的功能。
3. Characterization of differences in substrate specificity among CYP1A1, CYP1A2 and CYP1B1: an integrated approach employing molecular docking and molecular dynamics simulations [J] . Kesharwani Siddharth S., Nandekar Prajwal P., Pragyan Preeti, Journal of molecular recognition: JMR . 2016,第8期

机译：CYP1A1，CYP1A2和CYP1B1之间底物特异性差异的表征：采用分子对接和分子动力学模拟的综合方法
4. CovIsoLink?: New Bacterial Transglutaminase Q-Tag Substrate for the Development of Site Specific Antibody Drug Conjugates [C] . Michael R. Dyson, Eva Sivado, Meddy El Alaoui, Protein Engineering Summit. . 2018

机译：covisolink？：新的细菌转谷氨酰胺酶q-tag基材用于开发位点特异性抗体药物缀合物
5. Laboratory and numerical simulations of three-dimensional microbial transport and biodegradation. [D] . Lepczyk, Peter Alexander. 2005

机译：三维微生物运输和生物降解的实验室和数值模拟。
6. Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis [O] . Uno Tagami, Nobuhisa Shimba, Mina Nakamura, -1

机译：三维对接模拟和诱变揭示了微生物转谷氨酰胺酶的底物特异性
7. Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis [O] . Tagami, Uno, Shimba, Nobuhisa, Nakamura, Mina, 2009

机译：三维对接模拟和诱变揭示了微生物转谷氨酰胺酶的底物特异性

Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis.

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