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1LNE

A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN

Summary for 1LNE
Entry DOI10.2210/pdb1lne/pdb
DescriptorTHERMOLYSIN, VALINE, LYSINE, ... (7 entities in total)
Functional Keywordshydrolase (metalloprotease)
Biological sourceBacillus thermoproteolyticus
Cellular locationSecreted: P00800
Total number of polymer chains1
Total formula weight35234.58
Authors
Holland, D.R.,Hausrath, A.C.,Juers, D.,Matthews, B.W. (deposition date: 1994-05-13, release date: 1995-05-08, Last modification date: 2024-02-14)
Primary citationHolland, D.R.,Hausrath, A.C.,Juers, D.,Matthews, B.W.
Structural analysis of zinc substitutions in the active site of thermolysin.
Protein Sci., 4:1955-1965, 1995
Cited by
PubMed Abstract: Native thermolysin binds a single catalytically essential zinc ion that is tetrahedrally coordinated by three protein ligands and a water molecule. During catalysis the zinc ligation is thought to change from fourfold to fivefold. Substitution of the active-site zinc with Cd2+, Mn2+, Fe2+, and Co2+ alters the catalytic activity (Holmquist B, Vallee BL, 1974, J Biol Chem 249:4601-4607). Excess zinc inhibits the enzyme. To investigate the structural basis of these changes in activity, we have determined the structures of a series of metal-substituted thermolysins at 1.7-1.9 A resolution. The structure of the Co(2+)-substituted enzyme is shown to be very similar to that of wild type except that two solvent molecules are liganded to the metal at positions that are thought to be occupied by the two oxygens of the hydrated scissile peptide in the transition state. Thus, the enhanced activity toward some substrates of the cobalt-relative to the zinc-substituted enzyme may be due to enhanced stabilization of the transition state. The ability of Zn2+ and Co2+ to accept tetrahedral coordination in the Michaelis complex, as well as fivefold coordination in the transition state, may also contribute to their effectiveness in catalysis. The Cd(2+)- and Mn(2+)-substituted thermolysins display conformational changes that disrupt the active site to varying degrees and could explain the associated reduction of activity. The conformational changes involve not only the essential catalytic residue, Glu 143, but also concerted side-chain rotations in the adjacent residues Met 120 and Leu 144. Some of these side-chain movements are similar to adjustments that have been observed previously in association with the "hinge-bending" motion that is presumed to occur during catalysis by the zinc endoproteases. In the presence of excess zinc, a second zinc ion is observed to bind at His 231 within 3.2 A of the zinc bound to native thermolysin, explaining the inhibitory effect.
PubMed: 8535232
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.7 Å)
Structure validation

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