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PDBsum entry 3dfs
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References listed in PDB file
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Key reference
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Title
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Charge stabilization and entropy reduction of central lysine residues in fructose-Bisphosphate aldolase.
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Authors
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M.St-Jean,
C.Blonski,
J.Sygusch.
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Ref.
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Biochemistry, 2009,
48,
4528-4537.
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PubMed id
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Abstract
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Fructose-1,6-bisphosphate muscle aldolase is an essential glycolytic enzyme that
catalyzes reversible carbon-carbon bond formation by cleaving fructose
1,6-bisphosphate to yield dihydroxyacetone phosphate (DHAP) and d-glyceraldehyde
phosphate. To elucidate the mechanistic role of conserved amino acid Asp-33,
Asn-33 and Ser-33 mutants were examined by kinetic and structural analyses. The
mutations significantly compromised enzymatic activity and carbanion oxidation
in presence of DHAP. Detailed structural analysis demonstrated that, like native
crystals, Asp-33 mutant crystals, soaked in DHAP solutions, trapped Schiff
base-derived intermediates covalently attached to Lys-229. The mutant
structures, however, exhibited an abridged conformational change with the
helical region (34-65) flanking the active site as well as pK(a) reductions and
increased side chain disorder by central lysine residues, Lys-107 and Lys-146.
These changes directly affect their interaction with the C-terminal Tyr-363,
consistent with the absence of active site binding by the C-terminal region in
the presence of phosphate. Lys-146 pK(a) reduction and side chain disorder would
further compromise charge stabilization during C-C bond cleavage and proton
transfer during enamine formation. These mechanistic impediments explain
diminished catalytic activity and a reduced level of carbanion oxidation and are
consistent with rate-determining proton transfer observed in the Asn-33 mutant.
Asp-33 reduces the entropic cost and augments the enthalpic gain during
catalysis by rigidifying Lys-107 and Lys-146, stabilizing their protonated
forms, and promoting a conformational change triggered by substrate or obligate
product binding, which lower kinetic barriers in C-C bond cleavage and Schiff
base-enamine interconversion.
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