Alpha-ketoglutarate metabolism by cytochrome-containing anaerobes.

During growth in the presence of tracer amounts of exogenously supplied alpha-keto[1-14C]glutarate (AKG) or alpha-keto [5-14C]glutarate, cytochrome-containing Bacteroides fragilis strain 2044 and Bacteroides vulgatus strain 8482 incorporated extremely small amounts of radioactivity into cell macromolecules and protoheme. Under identical conditions, Bacteroides "l" strain 7CM and Bacteroides buccae strain J1 incorporated substantial label from [5-14C]AKG, but not [1-14C]AKG, into cellular macromolecules and protoheme. Bacteroides succinogenes strain S85 incorporated radioactivity from both [1-14C]AKG and [5-14C]AKG into cell macromolecules, but only label from [5-14C]AKG appeared in protoheme. Selenomonas ruminantium strain HD1 and Butyrivibrio fibrisolvens strain D1, both of which are devoid of cytochromes, incorporated substantial label from both [1-14C]AKG and [5-14C]AKG into cell macromolecules, but failed to incorporate label from either position into protoheme. Bacteroides ruminicola sp. brevis strain GA33 incorporated label from both [1-14C]AKG and [5-14C]AKG into both cell macromolecules and protoheme. A substantial portion of the heme synthesized by this organism may be formed by the "plant" pathway involving the intact use of the AKG carbon skeleton. Major differences exist in the manner and extent of AKG utilization among cytochrome-containing anaerobes and between these organisms and bacteria devoid of cytochromes obtained from similar environments.