1976
DOI: 10.1021/bi00662a014
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Binding of chloromethyl ketone substrate analogs to crystalline papain

Abstract: Papain (EC 3.4.22.2) is a proteolytic enzyme, the three-dimensional structure of which has been determined by x-ray diffraction at 2.8 A resolution (Drenth, J., Jansonius, J.N., Koekoek, R., Swen, H. M., and Wothers, B.G. (1968), Nature (London) 218, 929-932). The active site is a groove on the molecular surface in which the essential sulfhydryl group of cysteine-25 is situated next to the imidazole ring of histidine-159. The main object of this study was to determine by the difference-Fourier technique the bi… Show more

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Cited by 383 publications
(343 citation statements)
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“…According to the docking model, Gly-9 is in the close vicinity of but not in direct contact with the active site Cys-25 of papain. Within the preceding segment, assuming a tight-turn conformation ( fig.3), the side chain of Leu-8 could bind to the S2-subsite which mainly determines the substrate specificity of papain [17,18]. Our results obtained with N-terminally truncated forms of chicken cystatin strongly support this idea.…”
Section: Discussionsupporting
confidence: 67%
“…According to the docking model, Gly-9 is in the close vicinity of but not in direct contact with the active site Cys-25 of papain. Within the preceding segment, assuming a tight-turn conformation ( fig.3), the side chain of Leu-8 could bind to the S2-subsite which mainly determines the substrate specificity of papain [17,18]. Our results obtained with N-terminally truncated forms of chicken cystatin strongly support this idea.…”
Section: Discussionsupporting
confidence: 67%
“…Thus the electrostatic modulation caused by the ionization of one or more acidic residues (electrostatic modulators) would be an important factor to weaken the Cys25 (Ϫ) …His159 (ϩ) interaction and permit the rotation of the His159 imidazolium ring from a more stable equiplanar conformation 32 to a conformation where the ND1-His159 atom is in the correct position to donate its proton to the nitrogen of the substrate peptide bond. 58 This analysis, which we will call the E SG3 ND1 attenuation hypothesis, gives support to the suggestion made by Pinitglang et al 23 : "It seems possible, however, that there may be a requirement to rearrange the ion pair geometry from that of an intimate ion pair to one in which the two components have separated to permit each to play its role in the rate-determining acylation process of the catalytic act. "…”
Section: Electrostatic Switch Mechanism and Possible Electrostatic Mosupporting
confidence: 65%
“…The electrostatic contribution from the basic residues is lesser in extent and in the sense to reinforce the electric field in the SG3 ND1 direction (⌬⌬V ϭ ⌬V mutated Ϫ ⌬V papain ϭ Ϫ1.003 kcal/mol). On the basis of these results and on the catalytic mechanism proposed by Drenth et al, 58 we formulate a possible explanation for the electrostatic switch mechanism of enzymatic regulation proposed by Pinitglang et al 23 The electrostatic contribution from the remote negatively charged residues would be important to attenuate the well-oriented local SG3 ND1 electric field, allowing the His159 to adopt a more favorable conformation to act as a proton donor in the acylation step of the enzymatic mechanism of papain. Thus the electrostatic modulation caused by the ionization of one or more acidic residues (electrostatic modulators) would be an important factor to weaken the Cys25 (Ϫ) …His159 (ϩ) interaction and permit the rotation of the His159 imidazolium ring from a more stable equiplanar conformation 32 to a conformation where the ND1-His159 atom is in the correct position to donate its proton to the nitrogen of the substrate peptide bond.…”
Section: Electrostatic Switch Mechanism and Possible Electrostatic Momentioning
confidence: 87%
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“…Site-directed mutagenesis studies were suggestive but inconclusive (Ivanoff et al, 1986;Cheah et al, 1990;Hammerle et al, 1991;Kean et al, 1991). Speculation that a carboxylate third member was unnecessary to activate the more easily deprotonated thiol nucleophile, as generally accepted for the papain family of thiol proteinases (Drenth et al, 1976), has been (Fujinaga et al, 1987), and (C) papain (Drenth et al, 1976) generated using RASTER3D (Bacon & Anderson, 1988). Side chains of catalytic residues are color coded: nucleophiles (cysteine and serine) in yellow, general bases (histidines) in blue.…”
Section: Existence Of a Catalytic Triad?mentioning
confidence: 99%