Crystal structure of the haemopexin-like C-terminal domain of gelatinase A.

The crystal structure of the haemopexin-like C-terminal domain of gelatinase A reveals that it is a four-bladed beta-propeller protein. The four blades are arranged around a channel-like opening in which Ca2+ and a Na-Cl+ ion pair are bound.

Crystal structures of the binary Ca2+ and pdTp complexes and the ternary complex of the Asp21-->Glu mutant of staphylococcal nuclease. Implications for catalysis and ligand binding.

The crystal structure of the Asp21-->Glu mutant (D21E) of staphylococcal nuclease (SNase) has been determined in three different complex forms. The structure of the D21E ternary complex in which D21E is bound to both Ca2+ and the transition-state analogue, thymidine 3',5'-diphosphate (pdTp), was determined to 1.95-A resolution. The structures of both binary complexes, D21E bound either to Ca2+ or pdTp, were determined to 2.15- and 2.05-A resolution, respectively. In the ternary structure, we find a 1.5-A movement of the Ca2+ in the active site, evidence of bidentate coordination of Ca2+ by Glu21 and inner-sphere coordination of the Ca2+ by Glu43. Comparison of the D21E binary structures with the ternary model shows large movements of active site side chains expected to play a direct role in catalysis. Glu43 moves in the binary nucleotide complex, whereas Arg35 is oriented differently in the binary metal complex. From these changes, we seek to explain the basis for the 1500-fold decrease in Vmax of D21E relative to wild-type SNase (WT). Furthermore, we describe direct structural evidence which explains the cooperativity of Ca2+ and pdTp binding in the ternary complex relative to that of the binary complexes.

NMR docking of a substrate into the X-ray structure of the Asp-21-->Glu mutant of staphylococcal nuclease.

To understand the structural basis of the 1500-fold decrease in catalytic activity of the D21E mutant of staphylococcal nuclease in which an aspartate ligand of the essential Ca2+ has been enlarged to glutamate, the conformation of the enzyme-bound substrate dTdA has been determined by NMR methods and has been docked into the X-ray structure of the D21E mutant (Libson, A. M., Gittis, A.G., & Lattman, E. E. Biochemistry, preceding paper in this issue) based on distances from the bound metal ion to dTdA and on intermolecular nuclear Overhauser effects from assigned aromatic proton resonances of Tyr-85, Tyr-113, and Tyr-115 to proton resonances of dTdA, using energy minimization to relieve small overlaps. Like the wild-type enzyme, the D21E mutant forms binary E-M and E-S and ternary E-M-S complexes with Ca2+, Mn2+, Co2+, and La3+. D21E enhances the paramagnetic effects of Co2+ on 1/T1 and 1/T2 of the phosphorus and on 1/T1 of four proton resonances of dTdA, and these effects are abolished by the binding of the competitive inhibitor 3',5'-pdTp. From the paramagnetic effects of enzyme-bound Co2+ on 1/T1 of phosphorus and protons, with the use of a correlation time of 1.1 ps based on 1/T1 values at 250 and 600 MHz, five metal-nucleus distances and 11 lower limit metal-nucleus distances have been calculated. The Co2+ to 31P distance of 4.1 +/- 0.9 A agrees with that found on the wild-type enzyme (Weber, D. J., Mullen, G. P., & Mildvan, A. S. (1991) Biochemistry 30, 7425-7437) and indicates at least 18% inner sphere phosphate coordination. Fourteen interproton distances and 109 lower limit interproton distances in dTdA in the ternary D21E-La(3+)-dTdA complex were determined by NOESY spectra at 50-, 100-, and 200-ms mixing times. Both the metal-nucleus and interproton distances were necessary to compute a narrow range of conformations for enzyme-bound dTdA. As on the wild-type enzyme, the conformation of dTdA on the D21E mutant is highly extended, with high-anti C-2' endo conformations for the individual nucleosides. However, significant conformational differences are found in the torsional angles chi of dA (delta chi = 49 +/- 3 degrees), in gamma of dT (delta gamma = 108 +/- 30 degrees) and in zeta of dT (delta zeta = 124 +/- 38 degrees).(ABSTRACT TRUNCATED AT 400 WORDS)