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Protein Science, Vol 7, Issue 7 1620-1625, Copyright © 1998 by Cold Spring Harbor Laboratory Press

FOR THE RECORD

Structure and stability of the P93G variant of ribonuclease A

L. W. SCHULTZ, S. R. HARGRAVES, T. A. KLINK and R. T. RAINES
Departments of Biochemistry and Chemistry, University of Wisconsin-Madison, Madison, Wisconsin 53706

The peptide bonds preceding Pro 93 and Pro 114 of bovine pancreatic ribonuclease A (RNase A) are in the cis conformation. The trans-to-cis isomerization of these bonds had been indicted as the slow step during protein folding. Here, site-directed mutagenesis was used to replace Pro 93 or Pro 114 with a glycine residue, and the crystalline structure of the P93G variant was determined by X-ray diffraction analysis to a resolution of 1.7 A. This structure is essentially identical to that of the wild-type protein, except for the 91-94 {beta}-turn containing the substitution. In the wild-type protein, the {beta}-turn is of type VIa. In the P93G variant, this turn is of type II with the peptide bond preceding Gly 93 being trans. The thermal stabilities of the P93G and P114G variants were assessed by differential scanning calorimetry and thermal denaturation experiments monitored by ultraviolet spectroscopy. The value of {Delta}{Delta}G(m), which reports on the stability lost in the variants, is 1.5-fold greater for the P114G variant than for the P93G variant. The greater stability of the P93G variant is likely due to the relatively facile accommodation of residues 91-94 in a type II turn, which has a preference for a glycine residue in its i + 2 position.
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D. A. Schultz, A. M. Friedman, M. A. White, and R. O. Fox
The crystal structure of the cis-proline to glycine variant (P114G) of ribonuclease A
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E. Chatani, R. Hayashi, H. Moriyama, and T. Ueki
Conformational strictness required for maximum activity and stability of bovine pancreatic ribonuclease A as revealed by crystallographic study of three Phe120 mutants at 1.4 A resolution
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