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PDBsum entry 3gul
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References listed in PDB file
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Key reference
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Title
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Use of stabilizing mutations to engineer a charged group within a ligand-Binding hydrophobic cavity in t4 lysozyme.
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Authors
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L.Liu,
W.A.Baase,
M.M.Michael,
B.W.Matthews.
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Ref.
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Biochemistry, 2009,
48,
8842-8851.
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PubMed id
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Abstract
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Both large-to-small and nonpolar-to-polar mutations in the hydrophobic core of
T4 lysozyme cause significant loss in stability. By including supplementary
stabilizing mutations we constructed a variant that combines the cavity-creating
substitution Leu99 --> Ala with the buried charge mutant Met102 --> Glu.
Crystal structure determination confirmed that this variant has a large cavity
with the side chain of Glu102 located within the cavity wall. The cavity
includes a large disk-shaped region plus a bulge. The disk-like region is
essentially nonpolar, similar to L99A, while the Glu102 substituent is located
in the vicinity of the bulge. Three ordered water molecules bind within this
part of the cavity and appear to stabilize the conformation of Glu102. Glu102
has an estimated pKa of about 5.5-6.5, suggesting that it is at least partially
charged in the crystal structure. The polar ligands pyridine, phenol and aniline
bind within the cavity, and crystal structures of the complexes show one or two
water molecules to be retained. Nonpolar ligands of appropriate shape can also
bind in the cavity and in some cases exclude all three water molecules. This
disrupts the hydrogen-bond network and causes the Glu102 side chain to move away
from the ligand by up to 0.8 A where it remains buried in a completely nonpolar
environment. Isothermal titration calorimetry revealed that the binding of these
compounds stabilizes the protein by 4-6 kcal/mol. For both polar and nonpolar
ligands the binding is enthalpically driven. Large negative changes in entropy
adversely balance the binding of the polar ligands, whereas entropy has little
effect on the nonpolar ligand binding.
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