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关于酵母中糖酵解振荡的机制

On the mechanisms of glycolytic oscillations in yeast.

作者信息

Madsen Mads F, Danø Sune, Sørensen Preben G

机构信息

Functional Dynamics Group, Department of Chemistry, University of Copenhagen, Denmark.

出版信息

FEBS J. 2005 Jun;272(11):2648-60. doi: 10.1111/j.1742-4658.2005.04639.x.

Abstract

This work concerns the cause of glycolytic oscillations in yeast. We analyse experimental data as well as models in two distinct cases: the relaxation-like oscillations seen in yeast extracts, and the sinusoidal Hopf oscillations seen in intact yeast cells. In the case of yeast extracts, we use flux-change plots and model analyses to establish that the oscillations are driven by on/off switching of phosphofructokinase. In the case of intact yeast cells, we find that the instability leading to the appearance of oscillations is caused by the stoichiometry of the ATP-ADP-AMP system and the allosteric regulation of phosphofructokinase, whereas frequency control is distributed over the reaction network. Notably, the NAD+/NADH ratio modulates the frequency of the oscillations without affecting the instability. This is important for understanding the mutual synchronization of oscillations in the individual yeast cells, as synchronization is believed to occur via acetaldehyde, which in turn affects the frequency of oscillations by changing this ratio.

摘要

这项工作关注酵母中糖酵解振荡的原因。我们在两种不同情况下分析实验数据以及模型:在酵母提取物中观察到的类似弛豫的振荡,以及在完整酵母细胞中观察到的正弦霍普夫振荡。对于酵母提取物的情况,我们使用通量变化图和模型分析来确定振荡是由磷酸果糖激酶的开/关切换驱动的。对于完整酵母细胞的情况,我们发现导致振荡出现的不稳定性是由ATP - ADP - AMP系统的化学计量和磷酸果糖激酶的变构调节引起的,而频率控制分布在反应网络中。值得注意的是,NAD⁺/NADH比值调节振荡频率而不影响不稳定性。这对于理解单个酵母细胞中振荡的相互同步很重要,因为据信同步是通过乙醛发生的,而乙醛又通过改变这个比值来影响振荡频率。

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