Markus M, Kuschmitz D, Hess B
Max - Planck - Institut für Ernährungsphysiologie, Rheinlanddamm 201, 4600 Dortmund 1, F.R.G.
Biophys Chem. 1985 Jun;22(1-2):95-105. doi: 10.1016/0301-4622(85)80030-2.
The properties of periodic and aperiodic glycolytic oscillations observed in yeast extracts under sinusoidal glucose input were analyzed by the following methods. (1) Spectral analysis, rendering sharp peaks for periodic responses and enhanced broad-band noise for aperiodic oscillations. (2) Phase plane analysis, leading to closed and to open trajectories for periodic and aperiodic oscillations, respectively. (3) Rotation of a phase plane proportionally to time, revealing strange attractors associated with the aperiodic oscillations. (4) Stroboscopic plot on the phase plane, showing that the strange attractors follow a stretch-fold-press process, if the stroboscoping phase is varied. (5) Stroboscopic transfer plot, admitting a period of three transfer processes and thus implying chaos according to the Li-Yorke theorem. (6) Determination of the rate of information production by differentiation of the transfer plot, yielding approx. 0.21 bits per min for the chaotically glycolyzing yeast extract.
通过以下方法分析了在正弦葡萄糖输入下酵母提取物中观察到的周期性和非周期性糖酵解振荡的特性。(1)频谱分析,周期性响应呈现尖锐峰值,非周期性振荡呈现增强的宽带噪声。(2)相平面分析,分别导致周期性和非周期性振荡的封闭和开放轨迹。(3)相平面随时间成比例旋转,揭示与非周期性振荡相关的奇怪吸引子。(4)相平面上的频闪图,表明如果频闪相位变化,奇怪吸引子遵循拉伸-折叠-挤压过程。(5)频闪转移图,允许三个转移过程的周期,因此根据李-约克定理意味着混沌。(6)通过转移图的微分确定信息产生速率,对于混沌糖酵解的酵母提取物,约为每分钟0.21比特。