A morphologically structured model for penicillin production

A mathematical model is formulated to describe trends in biomass and penicillin formation as well as substrate consumption for fed-batch cultivations. The biomass is structured into three morphological compartments, and glucose and corn steep liquor are considered as substrates for growth. Penicilli

We present a model for diauxic growth of denitrifying bacteria in which nitrate reductase synthesis kinetics dominate the overall growth kinetics. The model is based on the assumption of the existence of a nitrate respiration operon, thereby linking the rate of nitrate uptake to the activity of nitr

## Abstract As is often the case for microbial product formation, the penicillin production rate of __Penicillium chrysogenum__ has been observed to be a function of the growth rate of the organism. The relation between the biomass specific rate of penicillin formation (__q__~p~) and growth rate (_

The stoichiometry of maintenance and carbohydrate storage as well as ajmalicine production kinetics of non-dividing Catharanthus roseus cells in the second stage of a two-stage batch process were investigated. For the mathematical description of these processes, a simple structured model with 5 para

A morphologically structured model is well suited for obtaining a good description of growth and product formation of filamentous fungi for use in a process model, for example. This article describes a new morphologically structured model and its application to an ␣-amylase producing strain of Asper