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Pathway Analysis and Metabolic Engineering in Corynebacterium glutamicum

  • Hermann Sahm , Lothar Eggeling and Albert A. de Graaf
Published/Copyright: July 5, 2005
Biological Chemistry
From the journal Volume 381 Issue 9-10

Abstract

The Gram-positive bacterium Corynebacterium glutamicum is used for the industrial production of amino acids, e.g. of L-glutamate and L-lysine. During the last 15 years, genetic engineering and amplification of genes have become fascinating methods for studying metabolic pathways in greater detail and for the construction of strains with the desired genotypes. In order to obtain a better understanding of the central metabolism and to quantify the in vivo fluxes in C. glutamicum, the [13C]-labelling technique was combined with metabolite balancing to achieve a unifying comprehensive pathway analysis. These methods can determine the flux distribution at the branch point between glycolysis and the pentose phosphate pathway. The in vivo fluxes in the oxidative part of the pentose phosphate pathway calculated on the basis of intracellular metabolite concentrations and the kinetic constants of the purified glucose-6-phosphate and 6-phosphogluconate dehydrogenases determined in vitro were in full accordance with the fluxes measured by the [13C]-labelling technique. These data indicate that the oxidative pentose phosphate pathway in C. glutamicum is mainly regulated by the ratio of NADPH/NADP concentrations and the specific activity of glucose-6-phosphate dehydrogenase. The carbon flux via the oxidative pentose phosphate pathway correlated with the NADPH demand for L-lysine synthesis.

Although it has generally been accepted that phosphoenolpyruvate carboxylase fulfills a main anaplerotic function in C. glutamicum, we recently detected that a biotin-dependent pyruvate carboxylase exists as a further anaplerotic enzyme in this bacterium. In addition to the activities of these two carboxylases three enzymes catalysing the decarboxylation of the C4 metabolites oxaloacetate or malate are also present in this bacterium. The individual flux rates at this complex anaplerotic node were investigated by using [13C]-labelled substrates. The results indicate that both carboxylation and decarboxylation occur simultaneously in C. glutamicum so that a high cyclic flux of oxaloacetate via phosphoenolpyruvate to pyruvate was found.

Furthermore, we detected that in C. glutamicum two biosynthetic pathways exist for the synthesis of DL-diaminopimelate and L-lysine. As shown by NMR spectroscopy the relative use of both pathways in vivo is dependent on the ammonium concentration in the culture medium. Mutants defective in one pathway are still able to synthesise enough L-lysine for growth, but the L-lysine yields with overproducers were reduced. The luxury of having these two pathways gives C. glutamicum an increased flexibility in response to changing environmental conditions and is also related to the essential need for DL-diaminopimelate as a building block for the synthesis of the murein sacculus.

:
Published Online: 2005-07-05
Published in Print: 2000-09-13

Copyright © 2000 by Walter de Gruyter GmbH & Co. KG

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https://doi.org/10.1515/BC.2000.111

Articles in the same Issue

  1. Alexander J. Varshavsky Felix Hoppe-Seyler Lecturer 2000
  2. The Ubiquitin System and the N-End Rule Pathway
  3. Paper of the Year 1999: Award to Igor Stagljar
  4. A Clockwork Organ
  5. The Transgeneticists Toolbox: Novel Methods for the Targeted Modification of Eukaryotic Genomes
  6. Interdependence of Filamentous Actin and Microtubules for Asymmetric Cell Division
  7. Genetic Analysis of Mammalian Cyclin-Dependent Kinases and Their Inhibitors
  8. Phosphorylcholine Substituents in Nematodes: Structures, Occurrence and Biological Implications
  9. Selenium in Biology: Facts and Medical Perspectives
  10. The Role of Se, Mo and Fe in the Structure and Function of Carbon Monoxide Dehydrogenase
  11. Molecular Basis for Interactions of the DnaK Chaperone with Substrates
  12. Protein Import: the Hitchhikers Guide into Chloroplasts
  13. Pathway Analysis and Metabolic Engineering in Corynebacterium glutamicum
  14. Metabolic Networks: a Signal-Oriented Approach to Cellular Models
  15. Representing and Analysing Molecular and Cellular Function Using the Computer
  16. Protein Aggregation and Pathogenesis of Huntingtons Disease: Mechanisms and Correlations
  17. The Mitochondrial Protein Import Motor
  18. The Immunoglobulin κ Gene Families of Human and Mouse: a Cottage Industry Approach
  19. Protein-Protein Interactions in Receptor Activation and Intracellular Signalling
  20. Molecular Genetic Analysis of Glucocorticoid Signaling Using the Cre/loxP System
  21. Macromolecular Intelligence in Microorganisms
  22. Thyroid Hormone Receptors Bind to an Element in the Connexin43 Promoter
  23. Analysis of the Deubiquitinating Enzymes of the Yeast Saccharomyces cerevisiae
  24. Helical Tubes of FtsZ from Methanococcus jannaschii
  25. Surface Topography of Microtubule Walls Decorated with Monomeric and Dimeric Kinesin Constructs
  26. Histone Deacetylase Activity Is Required for the Induction of the MyoD Muscle Cell Lineage in Xenopus
  27. The Effect of Heat Shock on 20S/26S Proteasomes
  28. Sec61p Is the Main Ribosome Receptor in the Endoplasmic Reticulum of Saccharomyces cerevisiae
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