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Substrate Locking Promotes Dimer-Dimer Docking of an Enzyme Antibiotic Target.

Structure (London, England : 1993) (2018-05-29)
Sarah C Atkinson, Con Dogovski, Kathleen Wood, Michael D W Griffin, Michael A Gorman, Lilian Hor, Cyril F Reboul, Ashley M Buckle, Joachim Wuttke, Michael W Parker, Renwick C J Dobson, Matthew A Perugini
ANOTACE

Protein dynamics manifested through structural flexibility play a central role in the function of biological molecules. Here we explore the substrate-mediated change in protein flexibility of an antibiotic target enzyme, Clostridium botulinum dihydrodipicolinate synthase. We demonstrate that the substrate, pyruvate, stabilizes the more active dimer-of-dimers or tetrameric form. Surprisingly, there is little difference between the crystal structures of apo and substrate-bound enzyme, suggesting protein dynamics may be important. Neutron and small-angle X-ray scattering experiments were used to probe substrate-induced dynamics on the sub-second timescale, but no significant changes were observed. We therefore developed a simple technique, coined protein dynamics-mass spectrometry (ProD-MS), which enables measurement of time-dependent alkylation of cysteine residues. ProD-MS together with X-ray crystallography and analytical ultracentrifugation analyses indicates that pyruvate locks the conformation of the dimer that promotes docking to the more active tetrameric form, offering insight into ligand-mediated stabilization of multimeric enzymes.

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2-Aminobenzaldehyde, ≥98%