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Wide‐open conformation of UDP‐MurNc‐tripeptide ligase revealed by the substrate‐free structure of MurE from <i>Acinetobacter baumannii</i>

Kyoung Ho Jung, Yeon‐Gil Kim, Chang Min Kim, Hyun Ji Ha, Chang Sup Lee, Jun Hyuck Lee, Hyun Ho Park

2020FEBS Letters13 citationsDOI

Abstract

MurE ligase catalyzes the attachment of meso ‐diaminopimelic acid to the UDP‐MurNAc‐ l ‐Ala‐ d ‐Glu using ATP and producing UDP‐MurNAc‐ l ‐Ala‐ d ‐Glu‐ meso ‐A 2 pm during bacterial cell wall biosynthesis. Owing to the critical role of this enzyme, MurE is considered an attractive target for antibacterial drugs. Despite extensive studies on MurE ligase, the structural dynamics of its conformational changes are still elusive. In this study, we present the substrate‐free structure of MurE from Acinetobacter baumannii , which is an antibiotic‐resistant superbacterium that has threatened global public health. The structure revealed that MurE has a wide‐open conformation and undergoes wide‐open, intermediately closed, and fully closed dynamic conformational transition. Unveiling structural dynamics of MurE will help to understand the working mechanism of this ligase and to design next‐generation antibiotics targeting MurE.

Topics & Concepts

DNA ligaseAcinetobacter baumanniiTripeptideBiochemistryChemistryBacterial cell structureEnzymeTransferaseConformational changeStereochemistryBacteriaBiologyPeptideGeneticsPseudomonas aeruginosaEnzyme Structure and FunctionBacterial Genetics and BiotechnologyRNA and protein synthesis mechanisms
Wide‐open conformation of UDP‐MurNc‐tripeptide ligase revealed by the substrate‐free structure of MurE from <i>Acinetobacter baumannii</i> | Litcius