Müller S C, Plesser T, Hess B
Max-Planck-Institut für Ernährungsphysiologie, Rheinlanddamm 201, D-4600 Dortmund, F.R.G.
Biophys Chem. 1987 May 9;26(2-3):357-65. doi: 10.1016/0301-4622(87)80035-2.
Perspective display techniques are applied to chemical and biochemical data sets. These represent spatially distributed gradients of reactive compounds that participate in pattern-formation processes due to reaction-diffusion or reaction-convection coupling. The patterns form in thin solution layers and are observed as chemical waves in the Belousov-Zhabotinskii reaction, as convection-induced stationary structures during oscillating glycolysis in yeast cytoplasm, and as the diffusive spreading of enzyme-catalyzed metabolic turnover in a substrate layer. The digital data are measured with a two-dimensional spectrophotometer based on a computerized video equipment with high spatial, temporal and intensity resolution. By application of three-dimensional procedures detailed structural properties of chemical and biochemical model systems will be presented yielding localization of reaction and transport events.
透视显示技术应用于化学和生化数据集。这些数据集代表了反应性化合物的空间分布梯度,这些化合物由于反应-扩散或反应-对流耦合而参与模式形成过程。这些模式在薄溶液层中形成,并在贝洛索夫-扎博廷斯基反应中作为化学波被观察到,在酵母细胞质中的振荡糖酵解过程中作为对流诱导的静止结构被观察到,以及在底物层中作为酶催化代谢周转的扩散传播被观察到。数字数据是用基于具有高空间、时间和强度分辨率的计算机化视频设备的二维分光光度计测量的。通过应用三维程序,将呈现化学和生化模型系统的详细结构特性,从而确定反应和传输事件的位置。
