Dhurjati P, Ramkrishna D, Flickinger M C, Tsao G T
School of Chemical Engineering, Purdue University, West Lafayette, Indiana 47907, USA.
Biotechnol Bioeng. 1985 Jan;27(1):1-9. doi: 10.1002/bit.260270102.
A cybernetic framework is presented which views microbial response in multiple substrate environments as a judicious investment of cellular resources in synthesizing different key proteins according to an optimal regulatory strategy. A mathematical model is developed within the cybernetic framework for the diauxic growth of Klebsiella pneumoniae on a mixture of D-glucose and D-xylose. The "bang-bang" optimal policy describes well the experimental observations obtained using a fermenter coupled to an Apple II microcomputer. Striking variations in respiratory levels are observed experimentally during the switching of the cell's adaptive machinery for the utilization of the less preferred substrate.
提出了一种控制论框架,该框架将微生物在多种底物环境中的反应视为细胞资源根据最优调控策略明智地投资于合成不同关键蛋白质的过程。在控制论框架内建立了一个数学模型,用于描述肺炎克雷伯菌在D-葡萄糖和D-木糖混合物上的双相生长。“砰砰”最优策略很好地描述了使用与苹果II微型计算机相连的发酵罐获得的实验观察结果。在细胞用于利用较难利用底物的适应性机制转换过程中,实验观察到呼吸水平有显著变化。