5 U aldolase, 0.5 U glycerolphosphate dehydrogenase and 0.5 U triosephosphate isomerase. Metabolic flux selleck products calculations Metabolic flux calculations were performed as described previously [18]. Briefly, metabolic flux ratio analysis was used to gain information about the flux distribution at important branch points within the network. As several alternative pathways may lead to a particular product, the fractional contribution (metabolic flux ratio) of each pathway was determined based on the molecular Dibutyryl-cAMP mass distributions of the reactants and the
product according to Fischer and Sauer [33]. For the performed calculations, corrected mass spectra of selected fragments of serine, glycine, alanine, phenylalanine, tyrosine, aspartate and glutamate were used in this study (see Table 1). As the amino acids are synthesised from precursor metabolites of the central carbon metabolism with a known and well conserved carbon transition, their labelling pattern can be used to conclude the corresponding labelling pattern of their precursors [34]. To gain important information about the position of the labelling within the molecule, different fragments were considered simultaneously. PX-478 In general, TBDMS-derivatised amino acids yield characteristic fragments by electron impact ionisation. The [M-57] fragment of each amino acid contains the complete carbon backbone, whereas the
[M-85] fragment lacks the carbon at the C1 position Megestrol Acetate that corresponds to the carbon atom of the carboxyl group of the amino acid. The third fragment considered – [f302] – always contains the C1 and C2 carbon of the corresponding amino acid. In the case of alternative pathways yielding a specific product, the fractional contribution of each pathway can be determined
concerning the mass distributions of the reactants and the product according to Eq. (1) [33]. (1) In Eq. (1) index X indicates the product molecule whereas the consecutive numbers 1 through n represent reactant molecules of alternative pathways contributing to the mass distribution of the product pool. The corresponding fractional amount of each pathway f can then be calculated by considering two additional constraints: (i) all fractions must have a positive value and (ii) their sum has to equal 1. A more detailed description will be given in the following respective sections. Theoretical framework for flux estimation To carry out metabolic flux calculations for D. shibae and P. gallaeciensis, a metabolic network was constructed based on genome data (GenBank accession numbers NC_009952 [D. shibae] and NZ_ABIF00000000 [P. gallaeciensis]). As we focused on the central carbon metabolism, the major catabolic routes for glucose as well as the reactions linking the C3 and C4 pools were considered. In terms of glucose catabolism, the annotated genome revealed the presence of the genes encoding for glycolytic enzymes, enzymes of reactions in both the PPP and the ED pathway and TCA cycle. For D.