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PDBsum entry 1j4e
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Snapshots of catalysis: the structure of fructose-1,6-(Bis)phosphate aldolase covalently bound to the substrate dihydroxyacetone phosphate.
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Authors
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K.H.Choi,
J.Shi,
C.E.Hopkins,
D.R.Tolan,
K.N.Allen.
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Ref.
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Biochemistry, 2001,
40,
13868-13875.
[DOI no: ]
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PubMed id
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Abstract
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Fructose-1,6-bis(phosphate) aldolase is an essential glycolytic enzyme found in
all vertebrates and higher plants that catalyzes the cleavage of fructose
1,6-bis(phosphate) (Fru-1,6-P(2)) to glyceraldehyde 3-phosphate and
dihydroxyacetone phosphate (DHAP). Mutations in the aldolase genes in humans
cause hemolytic anemia and hereditary fructose intolerance. The structure of the
aldolase-DHAP Schiff base has been determined by X-ray crystallography to 2.6 A
resolution (R(cryst) = 0.213, R(free) = 0.249) by trapping the catalytic
intermediate with NaBH(4) in the presence of Fru-1,6-P(2). This is the first
structure of a trapped covalent intermediate for this essential glycolytic
enzyme. The structure allows the elucidation of a comprehensive catalytic
mechanism and identification of a conserved chemical motif in Schiff-base
aldolases. The position of the bound DHAP relative to Asp33 is consistent with a
role for Asp33 in deprotonation of the C4-hydroxyl leading to C-C bond cleavage.
The methyl side chain of Ala31 is positioned directly opposite the C3-hydroxyl,
sterically favoring the S-configuration of the substrate at this carbon. The
"trigger" residue Arg303, which binds the substrate C6-phosphate group, is a
ligand to the phosphate group of DHAP. The observed movement of the ligand
between substrate and product phosphates may provide a structural link between
the substrate cleavage and the conformational change in the C-terminus
associated with product release. The position of Glu187 in relation to the DHAP
Schiff base is consistent with a role for the residue in protonation of the
hydroxyl group of the carbinolamine in the dehydration step, catalyzing
Schiff-base formation. The overlay of the aldolase-DHAP structure with that of
the covalent enzyme-dihydroxyacetone structure of the mechanistically similar
transaldolase and KDPG aldolase allows the identification of a conserved Lys-Glu
dyad involved in Schiff-base formation and breakdown. The overlay highlights the
fact that Lys146 in aldolase is replaced in transaldolase with Asn35. The
substitution in transaldolase stabilizes the enamine intermediate required for
the attack of the second aldose substrate, changing the chemistry from aldolase
to transaldolase.
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Secondary reference #1
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Title
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Structure of a fructose-1,6-Bis(phosphate) aldolase liganded to its natural substrate in a cleavage-Defective mutant at 2.3 a(,).
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Authors
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K.H.Choi,
A.S.Mazurkie,
A.J.Morris,
D.Utheza,
D.R.Tolan,
K.N.Allen.
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Ref.
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Biochemistry, 1999,
38,
12655-12664.
[DOI no: ]
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PubMed id
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