论文信息 - Modeling of bacterial growth; Formulation and evaluation of a structured model

Modeling of bacterial growth; Formulation and evaluation of a structured model

Models which consider changes in the composition of biomass in response to environmental changes are called Structured models. They provide a more comprehensive description of microbial behavior than unstructured models. Compared with the unstructured modeling efforts, very little has so far been done on the theory and practice of structured model building. In most of the works reported so far, no experimental data were provided, and hence no means of testing the proposed models were offered. Others only reported macroscopic response data and not the cellular composition. In an attempt to fill some of the gaps in this field, in this work, first the general formal approach to structured modeling is developed in matrix notation. Then, a simple two‐compartmental model, i.e., a structured model describing the activity of the biomass with two variables, is described. The cell is divided into two fractions, one of which relates to the RNA fraction. The proposed model was then critically evaluated with experimental data, including the RNA data, obtained from fed‐batch and continuous‐culture experiments. The importance of using cellular structure data for model verification, i.e., RNA data in this case, is shown. Shortcomings and capabilities of the developed model are discussed.

[1] N. W. F. Kossen,et al. The influence of temperature on the maximum specific growth rate of Klebsiella pneumoniae , 1981 .

[2] F. M. Williams,et al. A model of cell growth dynamics. , 1967, Journal of theoretical biology.

[3] Doraiswami Ramkrishna,et al. Dynamics of microbial propagation: Models considering inhibitors and variable cell composition , 1967 .

[4] Michael L. Shuler,et al. A MATHEMATICAL MODEL FOR THE GROWTH OF A SINGLE BACTERIAL CELL * , 1979 .

[5] A. H. Stouthamer,et al. Fermentation of Glucose, Lactose, Galactose, Mannitol, and Xylose by Bifidobacteria , 1968, Journal of bacteriology.

[6] James E. Bailey,et al. Measurement of structured microbial population dynamics by flow microfluorometry , 1978 .

[7] J. E. Bailey,et al. Bacterial population dynamics in batch and continuous-flow microbial reactors , 1981 .

[8] A G Fredrickson,et al. Formulation of structured growth models. , 2000, Biotechnology and bioengineering.

[9] David A. Bella,et al. A mathematical model of the nutrient dynamics of phytoplankton in a nitrate‐limited environment , 1973 .

[10] N. W. F. Kossen,et al. Fed‐batch culture: Modeling and application in the study of microbiol energetics , 1981 .

[11] H. M. Tsuchiya,et al. Mathematical Models for Fermentation Processes , 1970 .

[12] M. Moo‐Young,et al. A model for diauxic growth , 1975, Biotechnology and bioengineering.