S. Paavilainen et al., PROTON AND CARBON INVENTORY DURING THE GROWTH OF AN ALKALIPHILIC BACILLUS INDICATES THAT PROTONS ARE INDEPENDENT FROM ACID ANIONS, Journal of fermentation and bioengineering, 80(5), 1995, pp. 429-433
Sugar catabolism and pa-dynamics in culture medium of an alkaliphilic
bacterium, Bacillus circulans var. alkalophilus were studied. The mole
s of carbon in 1% glucose (55 mmol/l) media were recovered almost quan
titatively in acetic acid (65-75 mmol/l), formic acid (40-45 mmol/l) a
nd CO2 (90-100 mmol/l). The moles of acids needed to achieve the minim
um pH of the medium during bacterial growth approximately corresponded
to the moles of produced acids. However, the timing of the pH minimum
did not match with the appearance of the acids, but the required amou
nt of acids were detected several hours later in the medium. During ac
tive growth, the concentration of dissolved oxygen remained zero at al
l reasonable aeration levels in a fermenter. It was concluded that sug
ars are not metabolized through the tricarboxylic acid cycle, but the
reduction potential generated from dehydrogenation of sugars is the dr
iving force for the growth followed by the very effective transfer of
hydrogen atoms/protons onto molecular oxygen/oxygen anion. The eventua
l rise of the pH shall result from re-equilibration of the redox state
, and not from consumption of acids or generation of basic compounds a
s suggested previously.