Application of metabolic flux analysis for the identification of metabolic bottlenecks in the biosynthesis of penicillin-G

Gulik, Walter M. van; Laat, Wim T. A. M. de; Vinke, J. L.; Heijnen, Joseph J.

doi:10.1002/(sici)1097-0290(20000620)68:6<602::aid-bit3>3.0.co;2-2

Cited by 123 publications

(138 citation statements)

References 60 publications

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“…For all cultivations, including the ones with the constructed strains, steady states with regard to biomass were achieved (data not shown) and the biomass yields were comparable with yields found in previous studies (van Gulik et al, 2000;Robin et al, 2003c). The specific productivities of the reference strains were estimated to be 17(±2) mmol b-lactam (g dry wt)…”

Section: Physiological Characterizationsupporting

confidence: 85%

NADPH-dependent glutamate dehydrogenase in Penicillium chrysogenum is involved in regulation of β-lactam production

Thykaer

Rueksomtawin

Noorman³

et al. 2008

Microbiology

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The interactions between the ammonium assimilatory pathways and b-lactam production were investigated by disruption of the NADPH-dependent glutamate dehydrogenase gene (gdhA) in two industrial b-lactam-producing strains of Penicillium chrysogenum. The strains used were an adipoyl-7-ADCA-and a penicillin-producing strain. The gdhA gene disruption caused a decrease in maximum specific growth rate of 26 % and 35 % for the adipoyl-7-ADCA-producing strain and the penicillin-producing strain, respectively, compared to the corresponding reference strains. Interestingly, no b-lactam production was detected in either of the DgdhA strains. Supplementation with glutamate restored growth but no b-lactam production was detected for the constructed strains. Cultures with high ammonium concentrations (repressing conditions) and with proline as nitrogen source (de-repressed conditions) showed continued b-lactam production for the reference strains whereas the DgdhA strains remained non-productive under all conditions. By overexpressing the NAD-dependent glutamate dehydrogenase, the specific growth rate could be restored, but still no b-lactam production was detected. The results indicate that the NADPH-dependent glutamate dehydrogenase may be directly or indirectly involved in the regulation of b-lactam production in industrial strains of P. chrysogenum.

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Section: Physiological Characterizationsupporting

confidence: 85%

NADPH-dependent glutamate dehydrogenase in Penicillium chrysogenum is involved in regulation of β-lactam production

Thykaer

Rueksomtawin

Noorman³

et al. 2008

Microbiology

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“…A general problem is the ATP-balance which contains uncertain ATP stoichiometric parameters (P/O ratio, unknown growth related ATP ð¼ K X Þ and the unknown growth unrelated ATP ðm ATP Þ. Van Gulik and Heijnen [7] and Van Gulik et al [8] have shown how in vivo values for these ATP-parameters can be obtained using extensive experiments. For many organisms this ATP-information is not available.…”

Section: Thermodynamic Approach To Obtain Network Stoichiometry and Fmentioning

confidence: 99%

“…A very nice example is the model for penicillin production [8,16] and the model developed for biological P-removal using mixed cultures in a cyclic process [17]. These black box models show that highly complex biological systems, comprising thousands of reactions, can be effectively modeled with a reduced model containing only about 6-12 parameters.…”

Section: Black Box Models For Design Of Biotechnological Processes: Fmentioning

confidence: 99%

Impact of Thermodynamic Principles in Systems Biology

Heijnen

2010

Biosystems Engineering II

Self Cite

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“…The standard for detailed physiological characterization was set in the late 1990s and is exemplified in studies that employ different cultivation modes to study various physiological states. [56][57][58] Such studies provided highly reproducible data on growth rates, yield coefficients, and productivity, allowing an assessment of conditions for optimal cellular performance.…”

Section: Improving Cell Factoriesmentioning

confidence: 99%

Integrated Approaches for Assessment of Cellular Performance in Industrially Relevant Filamentous Fungi

WorkmanMhairi

Andersen

ThykaerJette

2013

Industrial Biotechnology

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The performance of filamentous fungi in submerged cultivation determines their suitability for large-scale industrial biotechnology processes and is the result of complex interplay between the physical and chemical parameters of the process and the cellular biology of the fungi. Filamentous fungi have a natural ability to degrade complex substrates through secretion of a large number of diverse enzymes and to produce a number of metabolites that inhibit or prevent the growth of other species in the surroundings. These features have been exploited by industry, resulting in multi-billion dollar processes for producing enzymes and metabolites of value. However, the wealth of diversity of these species is still not fully represented in large-scale bioprocesses, and thus advancement from discovery to application is one of the challenges for modern biotechnology. Acceleration of the process can be achieved through integrated approaches for assessing cellular performance (quantitative physiology), genetic modification of strains (metabolic engineering), and omics analyses and modeling (systems biology). In this review, we evaluate stateof-the-art of filamentous fungal applications in industrial biotechnology , focusing on physiological aspects of the fungi that provide the basis of their cellular performance. We also discuss the advancement of systems biology approaches and how the establishment of these tools for fungal research has begun to reveal the possibilities for further exploitation of these organisms. Increased future focus on multicellular physiology and relevant assays will lead to fungal cells and processes that are customizable to a greater degree, finally allowing the full potential of these complex organisms and their product diversity to unfold.

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Application of metabolic flux analysis for the identification of metabolic bottlenecks in the biosynthesis of penicillin-G

Cited by 123 publications

References 60 publications

NADPH-dependent glutamate dehydrogenase in Penicillium chrysogenum is involved in regulation of β-lactam production

NADPH-dependent glutamate dehydrogenase in Penicillium chrysogenum is involved in regulation of β-lactam production

Impact of Thermodynamic Principles in Systems Biology

Integrated Approaches for Assessment of Cellular Performance in Industrially Relevant Filamentous Fungi

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