220L
GENERATING LIGAND BINDING SITES IN T4 LYSOZYME USING DEFICIENCY-CREATING SUBSTITUTIONS
Summary for 220L
Entry DOI | 10.2210/pdb220l/pdb |
Descriptor | T4 LYSOZYME, CHLORIDE ION, BETA-MERCAPTOETHANOL, ... (5 entities in total) |
Functional Keywords | hydrolase, o-glycosyl, t4 lysozyme, cavity mutants, ligand binding, protein engineering, protein design |
Biological source | Enterobacteria phage T4 |
Cellular location | Host cytoplasm : P00720 |
Total number of polymer chains | 1 |
Total formula weight | 18873.53 |
Authors | Baldwin, E.P.,Baase, W.A.,Zhang, X.-J.,Feher, V.,Matthews, B.W. (deposition date: 1997-06-25, release date: 1998-03-18, Last modification date: 2024-04-03) |
Primary citation | Baldwin, E.,Baase, W.A.,Zhang, X.,Feher, V.,Matthews, B.W. Generation of ligand binding sites in T4 lysozyme by deficiency-creating substitutions. J.Mol.Biol., 277:467-485, 1998 Cited by PubMed Abstract: Several variants of T4 lysozyme have been identified that sequester small organic ligands in cavities or clefts. To evaluate potential binding sites for non-polar molecules, we screened a number of hydrophobic large-to-small mutants for stabilization in the presence of benzene. In addition to Leu99-->Ala, binding was indicated for at least five other mutants. Variants Met102-->Ala and Leu133-->Gly, and a crevice mutant, Phe104-->Ala, were further characterized using X-ray crystallography and thermal denaturation. As predicted from the shape of the cavity in the benzene complex, mutant Leu133-->Gly also bound p-xylene. We attempted to enlarge the cavity of the Met102-->Ala mutant into a deep crevice through an additional substitution, but the double mutant failed to bind ligands because an adjacent helix rearranged into a non-helical structure, apparently due to the loss of packing interactions. In general, the protein structure contracted slightly to reduce the volume of the void created by truncating substitutions and expanded upon binding the non-polar ligand, with shifts similar to those resulting from the mutations.A polar molecule binding site was also created by truncating Arg95 to alanine. This creates a highly complementary buried polar environment that can be utilized as a specific "receptor" for a guanidinium ion. Our results suggest that creating a deficiency through truncating mutations of buried residues generates "binding potential" for ligands with characteristics similar to the deleted side-chain. Analysis of complex and apo crystal structures of binding and non-binding mutants suggests that ligand size and shape as well as protein flexibility and complementarity are all determinants of binding. Binding at non-polar sites is governed by hydrophobicity and steric interactions and is relatively permissive. Binding at a polar site is more restrictive and requires extensive complementarity between the ligand and the site. PubMed: 9514755DOI: 10.1006/jmbi.1997.1606 PDB entries with the same primary citation |
Experimental method | X-RAY DIFFRACTION (1.85 Å) |
Structure validation
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