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本文引用的文献

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Linking crystallographic model and data quality.链接晶体学模型和数据质量。
Science. 2012 May 25;336(6084):1030-3. doi: 10.1126/science.1218231.
2
Protein conformational gating of enzymatic activity in xanthine oxidoreductase.黄嘌呤氧化还原酶中酶活性的蛋白构象门控。
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Inhibition of human liver aldehyde oxidase: implications for potential drug-drug interactions.抑制人肝醛氧化酶:潜在药物相互作用的影响。
Drug Metab Dispos. 2011 Dec;39(12):2381-6. doi: 10.1124/dmd.111.041806. Epub 2011 Sep 22.
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Characterization and crystallization of mouse aldehyde oxidase 3: from mouse liver to Escherichia coli heterologous protein expression.鼠醛氧化酶 3 的特性鉴定和结晶:从鼠肝到大肠杆菌异源蛋白表达。
Drug Metab Dispos. 2011 Oct;39(10):1939-45. doi: 10.1124/dmd.111.040873. Epub 2011 Jun 24.
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Increasing recognition of the importance of aldehyde oxidase in drug development and discovery.日益认识到醛氧化酶在药物研发和发现中的重要性。
Drug Metab Rev. 2011 Aug;43(3):374-86. doi: 10.3109/03602532.2011.560606. Epub 2011 Mar 23.
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Crystal structures of urate bound form of xanthine oxidoreductase: substrate orientation and structure of the key reaction intermediate.尿酸结合形式黄嘌呤氧化还原酶的晶体结构:底物取向和关键反应中间体的结构。
J Am Chem Soc. 2010 Dec 8;132(48):17080-3. doi: 10.1021/ja1077574. Epub 2010 Nov 15.
7
Aldehyde oxidase: an enzyme of emerging importance in drug discovery.醛氧化酶:药物研发中一种日益重要的酶。
J Med Chem. 2010 Dec 23;53(24):8441-60. doi: 10.1021/jm100888d. Epub 2010 Sep 20.
8
Substrate orientation and catalytic specificity in the action of xanthine oxidase: the sequential hydroxylation of hypoxanthine to uric acid.黄嘌呤氧化酶作用中的底物取向和催化特异性:次黄嘌呤到尿酸的顺序羟化。
J Biol Chem. 2010 Sep 3;285(36):28044-53. doi: 10.1074/jbc.M110.128561. Epub 2010 Jul 8.
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Recent developments in classical density modification.经典密度修正的最新进展。
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10
XDS.XDS.(这个词如果没有更多背景信息,很难准确翻译出更有意义的内容,直接保留原文是一种处理方式,或者音译为“克斯达斯”之类,但感觉都不太符合常规翻译场景,你可以补充更多关于这个词的信息以便我更准确翻译 )
Acta Crystallogr D Biol Crystallogr. 2010 Feb;66(Pt 2):125-32. doi: 10.1107/S0907444909047337. Epub 2010 Jan 22.

首个哺乳动物醛氧化酶晶体结构:对底物特异性的深入了解。

The first mammalian aldehyde oxidase crystal structure: insights into substrate specificity.

机构信息

Requimte, Departamento de Química, Faculdade de Ciências e Tecnologia, Universidade Nova de Lisboa, 2829-516 Caparica, Portugal.

出版信息

J Biol Chem. 2012 Nov 23;287(48):40690-702. doi: 10.1074/jbc.M112.390419. Epub 2012 Sep 27.

DOI:10.1074/jbc.M112.390419
PMID:23019336
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3504782/
Abstract

BACKGROUND

Aldehyde oxidases have pharmacological relevance, and AOX3 is the major drug-metabolizing enzyme in rodents.

RESULTS

The crystal structure of mouse AOX3 with kinetics and molecular docking studies provides insights into its enzymatic characteristics.

CONCLUSION

Differences in substrate and inhibitor specificities can be rationalized by comparing the AOX3 and xanthine oxidase structures.

SIGNIFICANCE

The first aldehyde oxidase structure represents a major advance for drug design and mechanistic studies. Aldehyde oxidases (AOXs) are homodimeric proteins belonging to the xanthine oxidase family of molybdenum-containing enzymes. Each 150-kDa monomer contains a FAD redox cofactor, two spectroscopically distinct [2Fe-2S] clusters, and a molybdenum cofactor located within the protein active site. AOXs are characterized by broad range substrate specificity, oxidizing different aldehydes and aromatic N-heterocycles. Despite increasing recognition of its role in the metabolism of drugs and xenobiotics, the physiological function of the protein is still largely unknown. We have crystallized and solved the crystal structure of mouse liver aldehyde oxidase 3 to 2.9 Å. This is the first mammalian AOX whose structure has been solved. The structure provides important insights into the protein active center and further evidence on the catalytic differences characterizing AOX and xanthine oxidoreductase. The mouse liver aldehyde oxidase 3 three-dimensional structure combined with kinetic, mutagenesis data, molecular docking, and molecular dynamics studies make a decisive contribution to understand the molecular basis of its rather broad substrate specificity.

摘要

背景

醛氧化酶具有药理学意义,AOX3 是啮齿动物中主要的药物代谢酶。

结果

结合动力学和分子对接研究的鼠 AOX3 晶体结构提供了对其酶学特征的深入了解。

结论

通过比较 AOX3 和黄嘌呤氧化酶的结构,可以合理地解释底物和抑制剂特异性的差异。

意义

第一个醛氧化酶结构代表了药物设计和机制研究的重大进展。醛氧化酶(AOXs)是属于钼含酶的黄嘌呤氧化酶家族的同二聚体蛋白。每个 150kDa 的单体包含一个 FAD 氧化还原辅因子、两个光谱上明显不同的[2Fe-2S]簇和位于蛋白质活性部位内的钼辅因子。AOXs 的特点是具有广泛的底物特异性,可氧化不同的醛和芳香族 N-杂环。尽管越来越认识到其在药物和外源性物质代谢中的作用,但该蛋白质的生理功能仍在很大程度上未知。我们已经结晶并解析了 2.9Å 的鼠肝醛氧化酶 3 的晶体结构。这是第一个已解决结构的哺乳动物 AOX。该结构为蛋白质活性中心提供了重要的见解,并进一步证明了催化差异特征,即 AOX 和黄嘌呤氧化还原酶。鼠肝醛氧化酶 3 的三维结构结合动力学、突变体数据、分子对接和分子动力学研究,为理解其相当广泛的底物特异性的分子基础做出了决定性的贡献。