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Literature DB >> 14343130

A STUDY OF SOME THIOL ESTER HYDROLYSES AS MODELS FOR THE DEACYLATION STEP OF PAPAIN-CATALYSED HYDROLYSES.

Abstract

1. The self-catalysed hydrolyses of the thiol esters, S-hippurylthioglycollic acid and S-ethyl monothiolsuccinate, have been shown to be slower than the deacylation step for the papain-catalysed hydrolysis of hippuric esters, by a factor approx. 10(5). This difference in rate constants largely reflects a difference in activation energy, which together with other evidence drawn from the literature make it unlikely that a carboxylate ion could be the nucleophile responsible for the deacylation of acyl-papain. 2. The imidazole-catalysed hydrolysis of S-hippurylthioglycollic acid and ethyl thiolacetate have activation energies similar to that for the deacylation step in papain-catalysed hydrolyses. This, together with other evidence drawn from the literature, suggests that the imidazole of a histidine residue is the nucleophile responsible for the deacylation of acyl-papain.

Entities: Chemical

Keywords: CATALYSIS; CHEMISTRY, PHYSICAL; EXPERIMENTAL LAB STUDY; HIPPURATES; HISTIDINE; IMIDAZOLES; MODELS, THEORETICAL; PAPAIN; SUCCINATES; SULFHYDRYL COMPOUNDS; THIOGLYCOLATES

Mesh：

Substances：

Year: 1965 PMID： 14343130 PMCID： PMC1206921 DOI： 10.1042/bj0960194

Source DB: PubMed Journal: Biochem J ISSN： 0264-6021 Impact factor: 3.857

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9 in total

9. Characterization of papaya peptidase A as a cysteine proteinase of Carica papaya L. with active-centre properties that differ from those of papain by using 2,2'-dipyridyl disulphide and 4-chloro-7-nitrobenzofurazan as reactivity probes. Use of two-protonic-state electrophiles in the identification of catalytic-site thiol groups.

Authors: B S Baines; K Brocklehurst
Journal: Biochem J Date: 1982-07-01 Impact factor: 3.857

9 in total

A STUDY OF SOME THIOL ESTER HYDROLYSES AS MODELS FOR THE DEACYLATION STEP OF PAPAIN-CATALYSED HYDROLYSES.

1. Reactivity of sperm whale metmyoglobin towards hydrogen ions and p-nitrophenyl acetate.

2. Active site of papain and covalent high-energy bonds of proteins.

3. Kinetics of papain action. I. Hydrolysis of benzoly-L-argininamide.

4. The properties of papain.

5. PAPAIN-CATALYSED HYDROLYSIS OF SOME HIPPURIC ESTERS. A NEW MECHANISM FOR PAPAIN-CATALYSED HYDROLYSIS.

6. DIRECT EVIDENCE FOR AN ACYLATED THIOL AS AN INTERMEDIATE IN PAPAIN- AND FICIN-CATALYSED HYDROLYSES.

1. Stability of thioester intermediates in ubiquitin-like modifications.

2. The location of the active-site histidine residue in the primary sequence of papain.

Review 3. Infra-red and Raman spectroscopic studies of enzyme structure and function.

4. Ficin-Catalyzed Reactions. Hydrolysis of alpha-N-Benzoyl-l-Arginine Ethyl Ester and alpha-N-Benzoyl-l-Argininamide.

5. PAPAIN-CATALYSED HYDROLYSIS OF SOME HIPPURIC ESTERS. A NEW MECHANISM FOR PAPAIN-CATALYSED HYDROLYSIS.

6. Investigation of the active site of papain with fluorescent probes.

7. Evidence for histidine in the active site of papain.

8. The kinetics of papain- and ficin-catalysed hydrolyses in the presence of alcohols.