Pseudoauxotrophy of Methanococcus voltae for acetate, leucine, and isoleucine.

Methanococcus voltae is a methanogenic bacterium which requires leucine, isoleucine, and acetate for growth. However, it also can synthesize these amino acids, and it is capable of low levels of autotrophic acetyl coenzyme A (acetyl-CoA) biosynthesis. When cells were grown in the presence of 14CO2, as well as in the presence of compounds required for growth, the alanine found in the cellular protein was radiolabeled. The percentages of radiolabel in the C-1, C-2, and C-3 positions of alanine were 64, 24, and 16%, respectively. The incorporation of radiolabel into the C-2 and C-3 positions of alanine demonstrated the autotrophic acetyl-CoA biosynthetic pathway in this bacterium. Additional evidence was obtained in cell extracts in which autotrophically synthesized acetyl-CoA was trapped into lactate. In these extracts, both CO and CH2O stimulated acetyl-CoA synthesis. 14CH2O was specifically incorporated into the C-3 of lactate. Cell extracts of M. voltae also contained low levels of CO dehydrogenase, 13 nmol min-1 mg of protein-1. These results further confirmed the presence of the autotrophic acetyl-CoA biosynthetic pathway in M. voltae. Likewise, 14CO2 and [U-14C]acetate were also incorporated into leucine and isoleucine during growth. During growth with [U-14C]leucine or [U-14C]isoleucine, the specific radioactivity of these amino acids in the culture medium declined, and the specific radioactivities of these amino acids recovered from the cellular protein were 32 to 40% lower than the initial specific radioactivities in the medium. Cell extracts of M. voltae also contained levels of isopropyl malate synthase, an enzyme that is specific to the leucine biosynthetic pathway, of 0.8 nmol min-1 mg of protein-1. Thus, M. voltae is capable of autotrophic CO2 fixation and leucine and isoleucine biosynthesis.