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Novel Binding Motif and New Flexibility Revealed by Structural Analyses of a Pyruvate Dehydrogenase-Dihydrolipoyl Acetyltransferase Subcomplex from the Escherichia coli Pyruvate Dehydrogenase Multienzyme Complex
Authors:Palaniappa Arjunan  Junjie Wang  Natalia S. Nemeria  Shelley Reynolds  Ian Brown  Krishnamoorthy Chandrasekhar  Guillermo Calero  Frank Jordan  William Furey
Affiliation:From the Departments of Pharmacology and Chemical Biology and ;Structural Biology, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania 15261.;the §Department of Chemistry, Rutgers University, Newark, New Jersey 07102, and ;the Veterans Affairs Medical Center, Pittsburgh, Pennsylvania 15240
Abstract:The Escherichia coli pyruvate dehydrogenase multienzyme complex contains multiple copies of three enzymatic components, E1p, E2p, and E3, that sequentially carry out distinct steps in the overall reaction converting pyruvate to acetyl-CoA. Efficient functioning requires the enzymatic components to assemble into a large complex, the integrity of which is maintained by tethering of the displaced, peripheral E1p and E3 components to the E2p core through non-covalent binding. We here report the crystal structure of a subcomplex between E1p and an E2p didomain containing a hybrid lipoyl domain along with the peripheral subunit-binding domain responsible for tethering to the core. In the structure, a region at the N terminus of each subunit in the E1p homodimer previously unseen due to crystallographic disorder was observed, revealing a new folding motif involved in E1p-E2p didomain interactions, and an additional, unexpected, flexibility was discovered in the E1p-E2p didomain subcomplex, both of which probably have consequences in the overall multienzyme complex assembly. This represents the first structure of an E1p-E2p didomain subcomplex involving a homodimeric E1p, and the results may be applicable to a large range of complexes with homodimeric E1 components. Results of HD exchange mass spectrometric experiments using the intact, wild type 3-lipoyl E2p and E1p are consistent with the crystallographic data obtained from the E1p-E2p didomain subcomplex as well as with other biochemical and NMR data reported from our groups, confirming that our findings are applicable to the entire E1p-E2p assembly.
Keywords:Metabolism   Protein Assembly   Protein Complex   Pyruvate Dehydrogenase Complex (PDC)   X-ray Crystallography   E1p-E2p Binding   Hydrogen/Deuterium (H/D) Exchange Mass Spectrometry
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