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PDBsum entry 3imj
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Signaling protein/peptide
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PDB id
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3imj
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References listed in PDB file
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Key reference
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Title
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Thermodynamic and structural effects of conformational constraints in protein-Ligand interactions. Entropic paradoxy associated with ligand preorganization.
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Authors
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J.E.Delorbe,
J.H.Clements,
M.G.Teresk,
A.P.Benfield,
H.R.Plake,
L.E.Millspaugh,
S.F.Martin.
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Ref.
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J Am Chem Soc, 2009,
131,
16758-16770.
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PubMed id
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Abstract
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Succinate- and cyclopropane-derived phosphotyrosine (pY) replacements were
incorporated into a series of Grb2 SH2 binding ligands wherein the pY+1 residue
was varied to determine explicitly how variations in ligand preorganization
affect binding energetics and structure. The complexes of these ligands with the
Grb2 SH2 domain were examined in a series of thermodynamic and structural
investigations using isothermal titration calorimetry and X-ray crystallography.
The binding enthalpies for all ligands were favorable, and although binding
entropies for all ligands having a hydrophobic residue at the pY+1 site were
favorable, binding entropies for those having a hydrophilic residue at this site
were unfavorable. Preorganized ligands generally bound with more favorable Gibbs
energies than their flexible controls, but this increased affinity was the
consequence of relatively more favorable binding enthalpies. Unexpectedly,
binding entropies of the constrained ligands were uniformly disfavored relative
to their flexible controls, demonstrating that the widely held belief that
ligand preorganization should result in an entropic advantage is not necessarily
true. Crystallographic studies of complexes of several flexible and constrained
ligands having the same amino acid at the pY+1 position revealed extensive
similarities, but there were some notable differences. There are a greater
number of direct polar contacts in complexes of the constrained ligands that
correlate qualitatively with their more favorable binding enthalpies and Gibbs
energies. There are more single water-mediated contacts between the domain and
the flexible ligand of each pair; although fixing water molecules at a
protein-ligand interface is commonly viewed as entropically unfavorable,
entropies for forming these complexes are favored relative to those of their
constrained counterparts. Crystallographic b-factors in the complexes of
constrained ligands are greater than those of their flexible counterparts, an
observation that seems inconsistent with our finding that entropies for forming
complexes of flexible ligands are relatively more favorable. This systematic
study highlights the profound challenges and complexities associated with
predicting how structural changes in a ligand will affect enthalpies, entropies,
and structure in protein-ligand interactions.
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Secondary reference #1
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Title
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Ligand preorganization may be accompanied by entropic penalties in protein-Ligand interactions.
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Authors
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A.P.Benfield,
M.G.Teresk,
H.R.Plake,
J.E.Delorbe,
L.E.Millspaugh,
S.F.Martin.
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Ref.
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Angew Chem Int Ed Engl, 2006,
45,
6830-6835.
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PubMed id
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