Your search keyword '"M. Dors"' showing total 6 results

1. Improvement of the production of subtilisin Carlsberg alkaline protease by Bacillus licheniformis by on-line process monitoring and control in a stirred tank reactor

Author

M. Dors, Bernd Hitzmann, F. Spitzenberger, Karl Schügerl, Gerlinde Kretzmer, Rimvydas Simutis, and A.B. Van Putten

Subjects

Serine protease, Chromatography, Protease, biology, Starch, medicine.medical_treatment, Subtilisin, Substrate (chemistry), Bioengineering, General Medicine, Maltose, biology.organism_classification, Applied Microbiology and Biotechnology, chemistry.chemical_compound, chemistry, Biochemistry, biology.protein, medicine, Ammonium, Bacillus licheniformis, Biotechnology

Abstract

The cultivation of Bacillus licheniformis and the production of subtilisin Carlsberg serine protease were investigated in complex medium with starch and glucose, respectively, and Na-caseinate as substrates to maximize the protease concentration. The turbidity and culture fluorescence were monitored in situ, the optical density on-line and the (dry) sediment and (dry) cell mass concentrations as well as the cell count and the DNA content were monitored off-line. These values are closely interrelated and were quantified by particular relationships. By means of the six-channel flow injection analyser (FIA) system, the following medium components were monitored on-line: glucose, maltose, starch, ammonium, urea, phosphate and protease activity. The same components as well as protein, intracellular phosphate and-α-amylase activity were evaluated off-line. The off-gas composition was analysed on-line as well. Various control strategies were tested in order to maximize the protease concentration: On one hand, starch in various concentrations was used as substrate. These runs were performed at non-controlled starch decomposition, at controlled and non-controlled pH-values, respectively, and non-controlled Po2-values. On the other hand, glucose was used as substrate in fed-batch mode. These runs were performed with closed loop controlled pH- and Po2-values and open-loop and closed-loop controlled glucose concentrations, respectively. The latter strategy yielded a higher protease concentration than the former. With complex medium and closed-loop controlled process, extremely high protease activities (24 000 EPE ml −1) were obtained.

Published

1996

2. Bioprocess optimization and control: Application of hybrid modelling Author's reply to comments by G.F. Andrews (J. Biotechnol 42 (1995) 281–284)

Author

Andreas Lübbert, M. Dors, and Rimvydas Simutis

Subjects

Bioengineering, General Medicine, Biochemical engineering, Bioprocess, Applied Microbiology and Biotechnology, Biotechnology, Mathematics

Published

1995

3. Bioprocess optimization and control: Application of hybrid modelling

Author

Andreas Lübbert, I. Havlik, Jörg Schubert, M. Dors, and Rimvydas Simutis

Subjects

Artificial neural network, Computer science, Bioengineering, Control engineering, General Medicine, Fuzzy control system, Applied Microbiology and Biotechnology, Set (abstract data type), Control system, Component (UML), Hybrid system, Process control, Bioprocess, Biotechnology

Abstract

An improved technique of hybrid modelling biochemical production processes is described, composed of a set of dynamical differential equations, an artificial neural network and a fuzzy expert system. The applicability of a hybrid model for state estimation, prediction, feed rate optimization, and process control is explained. Its performance is demonstrated by means of an the example of a fed-batch baker's yeast production process. The identification procedure is described in detail. Emphasis is placed on the most difficult part of it, the training of the neural network component of the hybrid model. New approaches to process control are developed based on neural networks.

Published

1994

4. Influence of medium composition on penicillin V production in a stirred tank reactor

Author

J. Möller, M. Dors, Karl Schügerl, R. Hiddessen, and J. Niehoff

Subjects

Chromatography, biology, food and beverages, Substrate (chemistry), Continuous stirred-tank reactor, Lactose, Bioengineering, General Medicine, Penicillium chrysogenum, biology.organism_classification, Mole fraction, Dietary Fats, Applied Microbiology and Biotechnology, Culture Media, chemistry.chemical_compound, chemistry, Biochemistry, Bioreactor, Penicillin V, Composition (visual arts), Biotechnology, Penicilloic acid

Abstract

Penicillin production with a high-producing strain Penicillium chrysogenum was investigated under well-controlled conditions in a stirred tank reactor with complex media containing lard oil and lactose on the one hand, and lactose on the other hand. With lard oil, cell growth and product formation rates were higher, and the production time was shorter by 40 h than without lard oil. On account of the longer production time without lard oil, the amount of β-lactam compounds was higher (29.93 g 1−1), but the mole fraction of the decomposed products (penicilloic acid and penilloic acid) was larger (0.282) than the amount of penicillin V (23.25 g 1−1 and the decomposed mole fraction (0.0747) with lard oil. The final product concentrations were about the same (20.86 g 1−1 or 35 462 IU ml−1 with lard oil, and 20.43 g 1−1 or 34510 IU ml −1 without lard oil). The mole fractions of the by-product (p-OH-penicillin V) were 0.0365 and 0.066. The substitution of lard oil with lactose is possible without a considerable reduction of process performance.

Published

1992

5. Influence of medium composition on penicillin V production in a stirred tank reactor.

Author

Möller J, Niehoff J, Dors M, Hiddessen R, and Schügerl K

Subjects

Culture Media, Dietary Fats pharmacology, Lactose pharmacology, Penicillin V metabolism, Penicillium chrysogenum metabolism

Abstract

Penicillin production with a high-producing strain Penicillium chrysogenum was investigated under well-controlled conditions in a stirred tank reactor with complex media containing lard oil and lactose on the one hand, and lactose on the other hand. With lard oil, cell growth and product formation rates were higher, and the production time was shorter by 40 h than without lard oil. On account of the longer production time without lard oil, the amount of beta-lactam compounds was higher (29.93 g l-1), but the mole fraction of the decomposed products (penicilloic acid and penilloic acid) was larger (0.282) than the amount of penicillin V (23.25 g l-1) and the decomposed mole fraction (0.0747) with lard oil. The final product concentrations were about the same (20.86 g l-1 or 35,462 IU ml-1 with lard oil, and 20.43 g l-1 or 34510 IU ml-1 without lard oil). The mole fractions of the by-product (p-OH-penicillin V) were 0.0365 and 0.066. The substitution of lard oil with lactose is possible without a considerable reduction of process performance.

Published

1992

6. Influence of medium composition on the cephalosporin C production with a highly productive strain Cephalosporium acremonium.

Author

Zhou W, Holzhauer-Rieger K, Dors M, and Schügerl K

Subjects

Acremonium growth & development, Amino Acid Sequence, Arachis metabolism, Evaluation Studies as Topic, Glucose metabolism, Kinetics, Methionine metabolism, Molecular Sequence Data, Oxygen metabolism, Phosphates metabolism, Acremonium metabolism, Cephalosporins biosynthesis, Culture Media pharmacology

Abstract

Cephalosporin production by a highly productive Cephalosporium acremonium strain was carried out and optimized by fed-batch operation in a 40 l stirred tank reactor using a complex medium containing 30-120 g l-1 peanut flour. The concentrations of cephalosporin C (CPC) and its precursors: penicillin N (PEN N), deacetoxy cephalosporin C (DAOC), and deacetyl cephalosporin C (DAC) were monitored with an on-line HPLC. The concentrations of amino acids valine (VAL), cysteine (CYS), alpha-amino adipic acid (alpha-AAA), the dipeptide alpha-amino-adipyl-cysteine (AC), and the tripeptide alpha-amino-adipyl-cysteinyl-valine (ACV), were determined off-line by HPLC. The RNA content and dry weight of the sediment as well as the oxygen transfer rate (OTR) and the CO2 production rate (CPR) were used to calculate the cell mass concentration (X). The influences of peanut flour (PF) and the on-line monitored and controlled medium components: glucose (GLU), phosphate, methionine (MET) as well as the dissolved oxygen (DOC) on the cell growth, the product formation, and the pathway of cephalosporin C biosynthesis were investigated and evaluated. When the glucose fed-batch cycle was optimized and oxygen transfer limitation was avoided (DOC greater than 20% of the saturation value), high process performance (103.5 g l-1 X, 11.84 g l-1 CPC, a maximum CPC productivity of 118 mg l-1 h-1, and the whole concentration of the beta-lactam antibiotics CPC, DAC, DAOC, PEN N 17.34 g l-1) was achieved by using 100 g l-1 PF in the medium with the optimum concentration of phosphate (260-270 mg l-1) and a low glucose concentration (less than 0.5 g l-1). The cultivations with different medium concentrations demonstrated that the product formation was directly proportional to the cell mass concentration. On the average, the cell mass-based yield coefficient of CPC: YCPC/X amounted to 0.115 g CPC per g cell mass.

Published

1992