Application of quantitative IR spectral analysis of bacterial cells to acetone-butanol-ethanol fermentation monitoring

Clostridium acetobutylicum ATCC 824 was grown under three different acetone-butanol-ethanol (ABE) fermentation conditions: (1) strictly anaerobic conditions with vegetative inoculum; (2) semi-anaerobic conditions with vegetative inoculum; and (3) strictly anaerobic conditions with spore inoculum. Semi-anaerobic fermentation with vegetative inoculum and strictly anaerobic fermentation with spore inoculum produced solvents at high level. Strictly anaerobic fermentation with vegetative inoculum showed an “acid crash”, i.e. produced mainly acids and did not switch to predominant solvent production. The content of carbohydrates, nucleic acids, proteins and lipids in Clostridium cells during the fermentation were evaluated from the mid-IR spectra. The content of nucleic acids decreased with process time, and the lipid content increased, corresponding to ceasing growth and formation of the toxic fermentation products. It was shown that the physiological states of either solvent production or acid crash are reflected in the microbial biomass composition, which can be assessed by IR spectroscopy.