Deciphering the nucleotide driven kinetic and oligomeric dynamics in IMPDH regulation
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Inosine monophosphate dehydrogenase (IMPDH) controls guanine nucleotide biosynthesis. Here, using biochemical and integrative structural biology approaches, we characterize the class II bacterial IMPDH from Burkholderia thailandensis . We demonstrate that MgGTP acts as a direct allosteric inhibitor independently of MgATP, promoting tetramer-to-octamer assembly via the Bateman domain. When both nucleotides are present, the enzyme exhibits a biphasic response: low MgGTP concentrations enhance activity, whereas higher concentrations restore inhibition. Structural analyses reveal distinct octameric conformations and capture a pre-catalytic Michaelis complex with substrates and effectors bound. These findings uncover a regulatory mechanism where the Bateman domain integrates opposing nucleotide signals to dynamically control guanine nucleotide biosynthesis, highlighting IMPDH as a potential antimicrobial target in pathogenic Burkholderia species.