MECHANISM OF THIOL PROTEASE CATALYSIS - DETECTION AND STABILIZATION OF A TETRAHEDRAL INTERMEDIATE IN PAPAIN CATALYSIS

被引：39

作者：

ANGELIDES, KJ ^{[1
]}

FINK, AL ^{[1
]}

机构：

[1] UNIV CALIF SANTA CRUZ, DIV NAT RESOURCES, SANTA CRUZ, CA 95064 USA

来源：

BIOCHEMISTRY | 1979年 / 18卷 / 11期

关键词：

D O I：

10.1021/bi00578a035

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Evidence supporting the existence of a tetrahedral intermediate in the acylation reaction of papain with the specific substrate N.alpha.-carbobenzoxy-L-lysine p-nitroanilide is presented. This intermediate can be directly observed both at subzero temperatures using cryoenzymological techniques and in aqueous solution at 25.degree. C using rapid reaction techniques. The intermediate is accumulated in essentially 1:1 stoichiometry with active enzyme at high pH* [apparent pH in the cryosolvent] (.gtoreq. 9.3) and stabilized for indefinitely long periods at subzero temperatures. Both the rate of formation and concentrations of the intermediate are pH dependent (pK1 .simeq. 4.3; pK2 .simeq. 8.6). Formation of the intermediate is rate limiting at low pH, whereas breakdown is rate determining at high pH. The spectral characteristics of the tetrahedral intermediate are similar to those of p-nitroaniline except .lambda.max is blue-shifted by about 16 nm. If mercuripapain or the S-methylthio derivative of papain is used, no reaction is observed at ambient or subzero temperatures. Extrapolation of the rate of formation of the tetrahedral intermediate at subzero temperatures to 25.degree. C and 0% cosolvent yields a calculated value of Kobsd = 65 .+-. 10 s-1, in excellent agreement with the observed value of 70 .+-. 4 s-1 from stopped-flow studies. The role of stereoelectronic factors in the formation of the tetrahedral intermediate is considered in the context of the proposed catalytic mechanism.

引用

页码：2363 / 2369

页数：7

共 50 条

[1] CRYSTAL-STRUCTURE OF ELASTASE-SUBSTRATE COMPLEX AT -55DEGREESC [J].

ALBER, T ;

PETSKO, GA ;

TSERNOGLOU, D .

NATURE, 1976, 263 (5575) :297-300

[2] CRYOENZYMOLOGY OF PAPAIN - REACTION-MECHANISM WITH AN ESTER SUBSTRATE [J].

ANGELIDES, KJ ;

FINK, AL .

BIOCHEMISTRY, 1978, 17 (13) :2659-2668

[3] MECHANISM OF THIOL PROTEASE CATALYSIS - DETECTION AND STABILIZATION OF A TETRAHEDRAL INTERMEDIATE IN PAPAIN CATALYSIS [J].

ANGELIDES, KJ ;

FINK, AL .

BIOCHEMISTRY, 1979, 18 (11) :2363-2369

[4] INHIBITION OF PAPAIN BY N-ACYL-AMINOACETALDEHYDES AND N-ACYL-AMINOPROPANONES - EVIDENCE FOR HEMITHIOACETAL FORMATION BY A CROSS-SATURATION TECHNIQUE IN NMR-SPECTROSCOPY [J].

BENDALL, MR ;

CARTWRIGHT, IL ;

LOWE, G ;

NURSE, D ;

CLARK, PI .

EUROPEAN JOURNAL OF BIOCHEMISTRY, 1977, 79 (01) :201-209

[5] KINETICS AND MECHANISM OF PAPAIN-CATALYZED HYDROLYSES [J].

BENDER, ML ;

BRUBACHE.LJ .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1966, 88 (24) :5880-&

[6] DETERMINATION OF CONCENTRATION OF HYDROLYTIC ENZYME SOLUTIONS - ALPHA-CHYMOTRYPSIN TRYPSIN PAPAIN ELASTASE SUBTILISIN AND ACETYLCHOLINESTERASE [J].

BENDER, ML ;

BEGUECAN.ML ;

BLAKELEY, RL ;

BRUBACHER, LJ ;

FEDER, J ;

GUNTER, CR ;

KEZDY, FJ ;

KILLHEFFER, JV ;

MARSHALL, TH ;

MILLER, CG ;

ROESKE, RW ;

STOOPS, JK .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1966, 88 (24) :5890-+

[7] OXYGEN EXCHANGE AS EVIDENCE FOR THE EXISTENCE OF AN INTERMEDIATE IN ESTER HYDROLYSIS [J].

BENDER, ML .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1951, 73 (04) :1626-1629

[8] DETAILED STRUCTURAL COMPARISON BETWEEN CHARGE RELAY SYSTEM IN CHYMOTRYPSINOGEN AND IN ALPHA-CHYMOTRYPSIN [J].

BIRKTOFT, JJ ;

KRAUT, J ;

FREER, ST .

BIOCHEMISTRY, 1976, 15 (20) :4481-4485

[9] IMPORTANCE OF CONFORMATION OF TETRAHEDRAL INTERMEDIATE FOR ALPHA-CHYMOTRYPSIN-CATALYZED HYDROLYSIS OF PEPTIDE SUBSTRATES [J].

BIZZOZERO, SA ;

ZWEIFEL, BO .

FEBS LETTERS, 1975, 59 (01) :105-108

[10] PURIFICATION OF PAPAIN BY AFFINITY CHROMATOGRAPHY [J].

BLUMBERG, S ;

SCHECHTER, I ;

BERGER, A .

EUROPEAN JOURNAL OF BIOCHEMISTRY, 1970, 15 (01) :97-+

← 1 2 3 4 5 →