Structural and Functional Roles of Asparagine 175 in the Cysteine Protease Papain (∗)

The role of the asparagine residue in the Cys-His-Asn “catalytic triad” of cysteine proteases has been investigated by replacing Asn175 in papain by alanine and glutamine using site-directed mutagenesis. The mutants were expressed in yeast and kinetic parameters determined against the substrate carb...

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Veröffentlicht in:	The Journal of biological chemistry 1995-07, Vol.270 (28), p.16645-16652
Hauptverfasser:	Vernet, Thierry, Tessier, Daniel C., Chatellier, Jean, Plouffe, Céline, Lee, Tak Sing, Thomas, David Y., Storer, Andrew C., Ménard, Robert
Format:	Artikel
Sprache:	eng
Schlagworte:	ACTIVIDAD ENZIMATICA ACTIVITE ENZYMATIQUE Amino Acid Sequence APLICACIONES DEL ORDENADOR APPLICATION DES ORDINATEURS ASPARAGINA ASPARAGINE Binding Sites Enzyme Stability EXPRESION GENICA EXPRESSION DES GENES Kinetics MODELE MODELOS Molecular Sequence Data MUTACION MUTATION Papain - chemistry Papain - physiology PAPAINA PAPAINE Protein Folding PURIFICACION PURIFICATION Structure-Activity Relationship
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container_issue	28
container_start_page	16645
container_title	The Journal of biological chemistry
container_volume	270
creator	Vernet, Thierry Tessier, Daniel C. Chatellier, Jean Plouffe, Céline Lee, Tak Sing Thomas, David Y. Storer, Andrew C. Ménard, Robert
description	The role of the asparagine residue in the Cys-His-Asn “catalytic triad” of cysteine proteases has been investigated by replacing Asn175 in papain by alanine and glutamine using site-directed mutagenesis. The mutants were expressed in yeast and kinetic parameters determined against the substrate carbobenzoxy-L-phenylalanyl-(7-amino-4-methylcoumarinyl)-L-arginine. At the optimal pH of 6.5, the specificity constant (kcat/KM)obs was reduced by factors of 3.4 and 150 for the Asn175 → Gln and Asn175 → Ala mutants, respectively. Most of this effect was the result of a decrease in kcat, as neither mutation significantly affected KM. Substrate hydrolysis by these mutants is still much faster than the non-catalytic rate, and therefore Asn175 cannot be considered as an essential catalytic residue in the cysteine protease papain. Detailed analyses of the pH activity profiles for both mutants allow the evaluation of the role of the Asn175 side chain on the stability of the active site ion pair and on the intrinsic activity of the enzyme. Alteration of the side chain at position 175 was also found to increase aggregation and proteolytic susceptibility of the proenzyme and to affect the thermal stability of the mature enzyme, reflecting a contribution of the asparagine residue to the structural integrity of papain. The strict conservation of Asn175 in cysteine proteases might therefore result from a combination of functional and structural constraints.
doi_str_mv	10.1074/jbc.270.28.16645
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The mutants were expressed in yeast and kinetic parameters determined against the substrate carbobenzoxy-L-phenylalanyl-(7-amino-4-methylcoumarinyl)-L-arginine. At the optimal pH of 6.5, the specificity constant (kcat/KM)obs was reduced by factors of 3.4 and 150 for the Asn175 → Gln and Asn175 → Ala mutants, respectively. Most of this effect was the result of a decrease in kcat, as neither mutation significantly affected KM. Substrate hydrolysis by these mutants is still much faster than the non-catalytic rate, and therefore Asn175 cannot be considered as an essential catalytic residue in the cysteine protease papain. Detailed analyses of the pH activity profiles for both mutants allow the evaluation of the role of the Asn175 side chain on the stability of the active site ion pair and on the intrinsic activity of the enzyme. Alteration of the side chain at position 175 was also found to increase aggregation and proteolytic susceptibility of the proenzyme and to affect the thermal stability of the mature enzyme, reflecting a contribution of the asparagine residue to the structural integrity of papain. The strict conservation of Asn175 in cysteine proteases might therefore result from a combination of functional and structural constraints.</description><identifier>ISSN: 0021-9258</identifier><identifier>EISSN: 1083-351X</identifier><identifier>DOI: 10.1074/jbc.270.28.16645</identifier><identifier>PMID: 7622473</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>ACTIVIDAD ENZIMATICA ; ACTIVITE ENZYMATIQUE ; Amino Acid Sequence ; APLICACIONES DEL ORDENADOR ; APPLICATION DES ORDINATEURS ; ASPARAGINA ; ASPARAGINE ; Binding Sites ; Enzyme Stability ; EXPRESION GENICA ; EXPRESSION DES GENES ; Kinetics ; MODELE ; MODELOS ; Molecular Sequence Data ; MUTACION ; MUTATION ; Papain - chemistry ; Papain - physiology ; PAPAINA ; PAPAINE ; Protein Folding ; PURIFICACION ; PURIFICATION ; Structure-Activity Relationship</subject><ispartof>The Journal of biological chemistry, 1995-07, Vol.270 (28), p.16645-16652</ispartof><rights>1995 © 1995 ASBMB. 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The mutants were expressed in yeast and kinetic parameters determined against the substrate carbobenzoxy-L-phenylalanyl-(7-amino-4-methylcoumarinyl)-L-arginine. At the optimal pH of 6.5, the specificity constant (kcat/KM)obs was reduced by factors of 3.4 and 150 for the Asn175 → Gln and Asn175 → Ala mutants, respectively. Most of this effect was the result of a decrease in kcat, as neither mutation significantly affected KM. Substrate hydrolysis by these mutants is still much faster than the non-catalytic rate, and therefore Asn175 cannot be considered as an essential catalytic residue in the cysteine protease papain. Detailed analyses of the pH activity profiles for both mutants allow the evaluation of the role of the Asn175 side chain on the stability of the active site ion pair and on the intrinsic activity of the enzyme. Alteration of the side chain at position 175 was also found to increase aggregation and proteolytic susceptibility of the proenzyme and to affect the thermal stability of the mature enzyme, reflecting a contribution of the asparagine residue to the structural integrity of papain. 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subjects	ACTIVIDAD ENZIMATICA ACTIVITE ENZYMATIQUE Amino Acid Sequence APLICACIONES DEL ORDENADOR APPLICATION DES ORDINATEURS ASPARAGINA ASPARAGINE Binding Sites Enzyme Stability EXPRESION GENICA EXPRESSION DES GENES Kinetics MODELE MODELOS Molecular Sequence Data MUTACION MUTATION Papain - chemistry Papain - physiology PAPAINA PAPAINE Protein Folding PURIFICACION PURIFICATION Structure-Activity Relationship
title	Structural and Functional Roles of Asparagine 175 in the Cysteine Protease Papain (∗)
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