Spectroscopic Analyses of Oscillations in ECTO-NOX-Catalyzed Oxidation of NADH.

D James Morré, Dorothy M Morré
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Abstract

Spectroscopic strategies that substantiate periodic oscillations in low rates of NADH oxidation exhibited by ECTO-NOX proteins at the animal and plant cell surface are described. Both continuous display and discontinuous rate determinations exhibit the oscillations but continuous displays lack sufficient resolution to discern details. A procedure is documented where rates are determined by least squares analyses of traces recorded over 1 min at intervals of 1.5 min. These traces recapitulate the continuous displays but offer an opportunity to reliably estimate changes in reaction rates over short time intervals not afforded by the continuous traces. Results from previously used rate determination over 5 min intervals are included for comparison. Turbidity is identified as the major contributor to losses in resolution. Even highly purified NOX preparations tend to aggregate to form turbid suspensions. With turbid suspensions, double beam or dual wavelength instrumentation where the sample is placed immediately adjacent to the photomultiplier tube are required to reduce losses in resolution from turbidity. Also required are high levels of synchronous ECTO-NOX function. Blue or red (plants) light, small molecules (i.e., melatonin) and autosynchrony alone or in combination were used to synchronize the oscillations. Special problems posed by preparations containing more than one ECTO-NOX form and where the different ECTO-NOX forms do not cross entrain are discussed.

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ECTO-NOX 催化 NADH 氧化过程中的振荡光谱分析。
本文介绍了一些光谱学策略,这些策略证实了动物和植物细胞表面的 ECTO-NOX 蛋白所表现出的低 NADH 氧化速率的周期性振荡。连续显示和非连续速率测定都能显示出振荡,但连续显示缺乏足够的分辨率来辨别细节。本文记录了一种程序,通过对 1 分钟内记录的、间隔 1.5 分钟的迹线进行最小二乘法分析来确定速率。这些轨迹再现了连续显示,但为可靠估计短时间间隔内反应速率的变化提供了机会,而连续轨迹则无法提供这种机会。此外,还包括以前使用的 5 分钟间隔速率测定结果,以供比较。浊度是造成分辨率损失的主要原因。即使是高度纯化的 NOX 制剂也会聚集形成浑浊的悬浮液。对于浑浊的悬浮液,需要使用双光束或双波长仪器,将样品置于光电倍增管附近,以减少浑浊造成的分辨率损失。此外,还需要高水平的同步 ECTO-NOX 功能。蓝光或红光(植物)、小分子(如褪黑素)和自同步单独或组合用于同步振荡。本文讨论了含有一种以上 ECTO-NOX 形式的制剂以及不同 ECTO-NOX 形式不会交叉诱导所带来的特殊问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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