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Enantioselective oxidation of trans-4-hydroxy-2-nonenal is aldehyde dehydrogenase isozyme and Mg2+ dependent.反式-4-羟基-2-壬烯醛的对映选择性氧化是醛脱氢酶同工酶和Mg2+依赖性的。
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Inhibition of aldehyde detoxification in CNS mitochondria by fungicides.杀菌剂对中枢神经系统线粒体中醛解毒作用的抑制
Neurotoxicology. 2007 Jan;28(1):143-9. doi: 10.1016/j.neuro.2006.08.008. Epub 2006 Sep 1.
4
Differential effects of Mg2+ ions on the individual kinetic steps of human cytosolic and mitochondrial aldehyde dehydrogenases.镁离子对人胞质和线粒体醛脱氢酶各个动力学步骤的不同影响。
Biochemistry. 2005 Jun 7;44(22):8022-9. doi: 10.1021/bi050038u.
5
Conformational dependence of intracellular NADH on metabolic state revealed by associated fluorescence anisotropy.通过相关荧光各向异性揭示细胞内NADH对代谢状态的构象依赖性。
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Differences in the roles of conserved glutamic acid residues in the active site of human class 3 and class 2 aldehyde dehydrogenases.人类3类和2类醛脱氢酶活性位点中保守谷氨酸残基作用的差异。
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The potential roles of the conserved amino acids in human liver mitochondrial aldehyde dehydrogenase.保守氨基酸在人肝脏线粒体醛脱氢酶中的潜在作用。
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The first structure of an aldehyde dehydrogenase reveals novel interactions between NAD and the Rossmann fold.醛脱氢酶的首个结构揭示了烟酰胺腺嘌呤二核苷酸(NAD)与罗斯曼折叠之间的新型相互作用。
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NADH 荧光寿命分析镁离子对 ALDH2 的影响。

NADH fluorescence lifetime analysis of the effect of magnesium ions on ALDH2.

机构信息

Division of Science and Mathematics, Mayville State University, Mayville, ND 58257, United States.

出版信息

Chem Biol Interact. 2011 May 30;191(1-3):147-52. doi: 10.1016/j.cbi.2011.01.023. Epub 2011 Jan 27.

DOI:10.1016/j.cbi.2011.01.023
PMID:21276780
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3103607/
Abstract

Aldehyde dehydrogenase 2 (ALDH2) catalyzes oxidation of toxic aldehydes to carboxylic acids. Physiologic levels of Mg(2+) ions influence ALDH2 activity in part by increasing NADH binding affinity. Traditional fluorescence measurements monitor the blue shift of the NADH fluorescence spectrum to study ALDH2-NADH interactions. By using time-resolved fluorescence spectroscopy, we have resolved the fluorescent lifetimes (τ) of free NADH (τ=0.4 ns) and bound NADH (τ=6.0 ns). We used this technique to investigate the effects of Mg(2+) on the ALDH2-NADH binding characteristics and enzyme catalysis. From the resolved free and bound NADH fluorescence signatures, the K(D) for NADH with ALDH2 ranged from 468 μM to 12 μM for Mg(2+) ion concentrations of 20 to 6000 μM, respectively. The rate constant for dissociation of the enzyme-NADH complex ranged from 0.4s(-1) (6000 μM Mg(2+)) to 8.3s(-1) (0 μM Mg(2+)) as determined by addition of excess NAD(+) to prevent re-association of NADH and resolving the real-time NADH fluorescence signal. The apparent NADH association/re-association rate constants were approximately 0.04 μM(-1)s(-1) over the entire Mg(2+) ion concentration range and demonstrate that Mg(2+) ions slow the release of NADH from the enzyme rather than promoting its re-association. We applied NADH fluorescence lifetime analysis to the study of NADH binding during enzyme catalysis. Our fluorescence lifetime analysis confirmed complex behavior of the enzyme activity as a function of Mg(2+) concentration. Importantly, we observed no pre-steady state burst of NADH formation. Furthermore, we observed distinct fluorescence signatures from multiple ALDH2-NADH complexes corresponding to free NADH, enzyme-bound NADH, and, potentially, an abortive NADH-enzyme-propanal complex (τ=11.2 ns).

摘要

乙醛脱氢酶 2(ALDH2)催化有毒醛氧化为羧酸。生理浓度的 Mg(2+)离子通过增加 NADH 结合亲和力在一定程度上影响 ALDH2 活性。传统的荧光测量方法监测 NADH 荧光光谱的蓝移来研究 ALDH2-NADH 相互作用。通过使用时间分辨荧光光谱法,我们已经解析了游离 NADH 的荧光寿命(τ)(τ=0.4 ns)和结合 NADH 的荧光寿命(τ)(τ=6.0 ns)。我们使用该技术研究了 Mg(2+)对 ALDH2-NADH 结合特性和酶催化的影响。从解析的游离和结合的 NADH 荧光特征中,ALDH2 与 NADH 的 K(D)值范围为 468 μM 至 12 μM,Mg(2+)离子浓度范围分别为 20 μM 至 6000 μM。通过添加过量的 NAD(+)以防止 NADH 重新结合并解析实时 NADH 荧光信号,酶-NADH 复合物的离解速率常数范围从 0.4 s(-1)(6000 μM Mg(2+))到 8.3 s(-1)(0 μM Mg(2+))。通过整个 Mg(2+)离子浓度范围的表观 NADH 结合/再结合速率常数约为 0.04 μM(-1)s(-1),表明 Mg(2+)离子减缓 NADH 从酶上的释放,而不是促进其重新结合。我们将 NADH 荧光寿命分析应用于酶催化过程中 NADH 结合的研究。我们的荧光寿命分析证实了酶活性作为 Mg(2+)浓度函数的复杂行为。重要的是,我们没有观察到 NADH 形成的预稳态爆发。此外,我们观察到来自多个 ALDH2-NADH 复合物的独特荧光特征,对应于游离 NADH、酶结合的 NADH,并且可能还有一个无效的 NADH-酶-丙醛复合物(τ=11.2 ns)。