The roles of diol dehydratase from pdu operon on glycerol catabolism in Klebsiella pneumoniae

The dha operon of Klebsiella pneumoniae is responsible for glycerol catabolism and 1,3-propanediol formation. Subunits of glycerol dehydratase and the large subunit of glycerol dehydratase reactivating factor are encoded by dhaBCE and dhaF, respectively. Proteins of pdu operon form a microcompartment (bacteria organelle) and responsible for 1,2-propanediol catabolism. In this operon, pduCDE and pduG encode subunits of diol dehydratase and its reactivating factor. Diol dehydratase is an isofunctional enzyme of glycerol dehydratase, but its role in glycerol catabolism was not entirely clear. In this study, dhaBCE, pduCDE, dhaF, and pduG in K. pneumoniae were knocked out individually or combinedly. These strains were cultured with glycerol as a substrate, and dehydratase activities in the cytoplasm and microcompartment were detected. Results showed that glycerol dehydratase and diol dehydratase were simultaneously responsible for glycerol catabolism in K. pneumoniae. Besides being packaged in microcompartment, large amounts of diol dehydratase was also presented in the cytoplasm. However, the Pdu microcompartment reduced the accumulation of 3-hydroxypropionaldehyde in the fermentation broth. PduG can cross reactivate glycerol dehydratase instead of DhaF. However, DhaF is not involved in reactivation of diol dehydratase. In conclusion, diol dehydratase and Pdu microcompartment play important roles in glycerol catabolism in K. pneumoniae.

Automated summary

This study revealed that glycerol catabolism and 1,2-propanediol catabolism in K. pneumoniae are undertaken by glycerol dehydratase and diol dehydratase, respectively. The Pdu microcompartment reduces the accumulation of 3-hydroxypropionaldehyde in the fermentation broth. PduG can cross reactivate glycerol dehydratase, while DhaF is not involved in the reactivation of diol dehydratase.