The exception was pyruvate which increased as all other metabolites with glycolysis-precursors in the phoP mutant while it table 5 decreased in the wild-type strain M145. The reason for
this is not obvious but likely to be a downstream effect of the phoP deletion. The overall fairly picture for the changes in GC-MS metabolite pool composition of the L-glutamate limited M145 wild-type cultivation (Figure 2C, left panel) is quite different from the phosphate Inhibitors,research,lifescience,medical limited cultures, contrary to the LC-MS/MS metabolites. A decrease in pool size is observed for all TCA-metabolites and metabolites synthesized from TCA precursors. The pyruvate profile is similar to the respective phosphate limited cultivation. Clearly, this pool is strictly dependent on the growth phase and not on which nutrient is becoming growth-limiting. The glycine pool remained almost constant while the histidine, phenylalanine, tyrosine, alanine, valine and leucine Inhibitors,research,lifescience,medical pools were, to varying extent, increased later in production phase after L-glutamate Inhibitors,research,lifescience,medical depletion. The immediate response of the culture to L-glutamate depletion at the metabolite level is obviously due to the dual function of L-glutamate as carbon and nitrogen source. When glutamate becomes depleted, a major reorganization occurs as the S. coelicolor cells are not able to increase the glucose uptake rate to compensate
for the glutamate depletion. However, as the cells also experience
nitrogen limitation, growth stops and therefore synthesis of biomass precursors is shut down. Interestingly, the combined effects of changing to one carbon source and turning of growth is detected at the amino acid and Inhibitors,research,lifescience,medical organic acid levels while the pools of phosphorylated Inhibitors,research,lifescience,medical metabolites and nucleotides are more or less unchanged during this transition period (Figure 2C). 2.3. General Discussion Figure 3 presents the core metabolism in Streptomyces; it might be that the Entner-Doudoroff pathway enzymes are also active as this has been shown for other Actinomycetes [34], and a recent proteome study of S. coelicolor M145 detected the ED enzyme Cilengitide 2-keto-3-deoxy-6-phosphogluconate aldolase [6,9]. The GC-MS method covers TCA metabolites and amino acids while the LC-MS/MS method covers the upper glycolytic pathway, pentose phosphate pathway metabolites and in addition the nucleotide pool, indicated with red and blue color in Figure 3, respectively. The overall trend in metabolite pool changes during the transition phase is also included in Figure 3 (i.e., green bar for decrease, black bar for no change and red bar for increase) for the three cultivation situations (left bar for M145 in SSBM-P, middle bar for phoP deletion mutant INB201 in SSBM-P and right bar for M145 in SSBM-E).