Evidence that a B 12 -Adenosyl Transferase Is Encoded within the Ethanolamine Operon of Salmonella enterica

Abstract

Adenosylcobalamin (Ado-B₁₂) is both the cofactor and inducer of ethanolamine ammonia lyase (EA-lyase), a catabolic enzyme for ethanolamine. De novo synthesis of Ado-B₁₂ by Salmonella enterica occurs only under anaerobic conditions. Therefore, aerobic growth on ethanolamine requires import of Ado-B₁₂ or a precursor (CN-B₁₂ or OH-B₁₂) that can be adenosylated internally. Several known enzymes adenosylate corrinoids. The CobA enzyme transfers adenosine from ATP to a biosynthetic intermediate in de novo B₁₂ synthesis and to imported CN-B₁₂, OH-B₁₂, or Cbi (a B₁₂ precursor). The PduO adenosyl transferase is encoded in an operon (pdu) for cobalamin-dependent propanediol degradation and is induced by propanediol. Evidence is presented here that a third transferase (EutT) is encoded within the operon for ethanolamine utilization (eut). Surprisingly, these three transferases share no apparent sequence similarity. CobA produces sufficient Ado-B₁₂ to initiate eut operon induction and to serve as a cofactor for EA-lyase when B₁₂ levels are high. Once the eut operon is induced, the EutT transferase supplies more Ado-B₁₂ during the period of high demand. Another protein encoded in the operon (EutA) protects EA-lyase from inhibition by CN-B₁₂ but does so without adenosylation of this corrinoid.