(R)-1-hydroxy-2-aminoethylphosphonate ammonia-lyase, a new PLP-dependent enzyme involved in bacterial phosphonate degradation

Abstract

ABSTRACTPhosphonates contain a particularly stable carbon-phosphorus bond, yet a number of microorganisms possess pathways to degrade these molecules and use them as source of phosphorus. One example is the widespread hydrolytic route for the breakdown of 2-aminoethylphosphonate (AEP). In this pathway, the aminotransferase PhnW initially converts AEP into phosphonoacetaldehyde (PAA), which is then cleaved by the hydrolase PhnX to yield acetaldehyde and phosphate.This work focuses on a novel enzyme (hereby termed PbfA), which is often encoded in bacterial gene clusters containing the phnW-phnX combination. Although PbfA is annotated as a transaminase, we report that it catalyzes an elimination reaction on the naturally occurring compound (R)-1-hydroxy-2-aminoethylphosphonate (R-HAEP). The reaction releases ammonia and generates PAA, which can be subsequently hydrolyzed by PhnX. Overall, the PbfA reaction represents a frequent accessory branch in the hydrolytic pathway for AEP degradation, which expands the scope and versatility of the pathway itself.