Analysis of 13C labeling enrichment in microbial culture applying metabolic tracer experiments using gas chromatography-combustion-isotope ratio mass spectrometry

The applicability of gas chromatography–combustion–isotope ratio mass spectrometry (GC–C–IRMS) for the quantification of ¹³C enrichment of proteinogenic amino acids in metabolic tracer experiments was evaluated. Measurement of the ¹³C enrichment of proteinogenic amino acids from cell hydrolyzates of Corynebacterium glutamicum growing on different mixtures containing between 0.5 and 10% 1-¹³C]glucose shows the significance of kinetic isotope effects in metabolic flux studies at low degree of labeling. We developed a method to calculate the ¹³C enrichment. The approach to correct for these effects in metabolic flux studies using δ¹³C measurement by GC–C–IRMS uses two parallel experiments applying substrate with natural abundance and ¹³C-enriched tracer substrate, respectively. The fractional enrichment obtained in natural substrate is subtracted from that of the enriched one. Tracer studies with C. glutamicum resulted in a statistically identical relative fractional enrichment of ¹³C in proteinogenic amino acids over the whole range of applied concentrations of 1-¹³C]glucose. The current findings indicate a great potential of GC–C–IRMS for labeling quantification in ¹³C metabolic flux analysis with low labeling degree of tracer substrate directly in larger scale bioreactors.