Thermolysine

G., Berendsen, H.J.C. The essential dynamics of thermolysin Confirmation of the hinge-bending motion and comparison of simulations in vacuum and water. Proteins 22 (1995) 45-54. 

Thermogravimetry Thermoid Thermolite Thermo luminescence Thermolysin... 

Metabolic Functions. Zinc is essential for the function of many enzymes, either in the active site, ie, as a nondialyzable component, of numerous metahoenzymes or as a dialyzable activator in various other enzyme systems (91,92). WeU-characterized zinc metahoenzymes are the carboxypeptidases A and B, thermolysin, neutral protease, leucine amino peptidase, carbonic anhydrase, alkaline phosphatase, aldolase (yeast), alcohol... 

Although equihbrium-controUed peptide synthesis has been successfully used on a number of occasions, including thermolysin-catalyzed synthesis of aspartame (126) and semisynthesis of insulin (127), the method has a significant drawback a water-miscible organic cosolvent added to the reaction medium to suppress the ionization of unactivated carboxy components significantly reduces the reaction rate. 

In the first publication describing the preparative use of an enzymatic reaction in ionic liquids, Erbeldinger et al. reported the use of the protease thermolysin for the synthesis of the dipeptide Z-aspartame (Entry 6) [34]. The reaction rates were comparable to those found in conventional organic solvents such as ethyl acetate. Additionally, the enzyme stability was increased in the ionic liquid. The ionic liquid was recycled several times after the removal of non-converted substrates by extraction with water and product precipitation. Recycling of the enzyme has not been reported. It should be noted, however, that according to the log P concept described in the previous section, ethyl acetate - with a value of 0.68 - may interfere with the pro-... 

Fig. 13. Relative sorption capacity of proteins by carboxylic CP Biocarb-T vs pH of solution 1) terrilytin, 2) insulin, 3) chymotrypsinogen, 4) pancreatic ribonuclease, 3) pepsin, 6) thymarine, 7) thermolysine, 8) haemoglobin, P) lysozyme. mma, — quantity of protein bonden on Biocarb-T by pHma (...

Similar reaction mechanisms, involving general base and metal ion catalysis, in conjunction with an OH nucleophilic attack, have been proposed for thermolysin (Ref. 12) and carboxypeptidase A (Refs. 12 and 13). Both these enzymes use Zn2+ as their catalytic metal and they also have additional positively charged active site residues (His 231 in thermolysin and... 

Tetrhedral intermediate, 172 Thermodynamic cycles, 186 Thermolysin, zinc as cofactor for, 204 Thrombin, 170 Torsional potential, 111 Transition states, 41-42,44, 45,46, 88, 90-92 in amide hydrolysis, 219-221 oxyanion hole and, 181 stabilization of, 181,181 carbonium ion, 154,155,156-161, 167-169 for gas-phase reactions, 43... 

DePriest SA, Mayer D, Naylor CB, Marshall GR. 3D-QSAR of angiotensinconverting enzyme and thermolysin inhibitors a comparison of CoMFA models based on deduced and experimentally determined active site geometries. J Am Chem Soc 1993 115 5372-84. 

Thermolysin acts simultaneously at several sites on the Ca -ATPase without accumulation of large fragments this property proved useful in the sequence analysis of the Ca -ATPase [78,79,82,83], and in the isolation of SH-group-containing peptides [257]. Small fragments also accumulate after treatment of sarcoplasmic reticulum with subtilisin [256]. 

The above two processes employ isolated enzymes - penicillin G acylase and thermolysin, respectively - and the key to their success was an efficient production of the enzyme. In the past this was often an insurmountable obstacle to commercialization, but the advent of recombinant DNA technology has changed this situation dramatically. Using this workhorse of modern biotechnology most enzymes can be expressed in a suitable microbial host, which enables their efficient production. As with chemical catalysts another key to success often is the development of a suitable immobilization method, which allows for efficient recovery and recycling of the biocatalyst. 

Evidence against the covalent mechanism has been summarized by Mock, who has also proposed alternative general-base-catalyzed mechanisms for ther-molysin and carboxypeptidase A.143 He suggests that His-231 is the general base for thermolysin and the carboxy-terminal carboxylate for carboxypeptidase A. The one common feature of all the proposed mechanisms is the Zn2+ functioning as a Lewis acid to polarize the substrate. 

Figure 12 Catalytic mechanism of thermolysin and stromelysin-1. (A) The mechanism of thermolysin [54], (B) The mechanism of stromleysin-1 [10]. Equivalent residues to Tyr-157 and His-231 are not observed for stromelysin-1. The proposed mechanism for collagenase-1 [S3] is similar to stromelysin-1, but also involves Asn-180 (equivalent to Asn-162 in stromelysin-1). This residue cannot participate in stromelysin-1 due to an additional residue between Ala-165 and Asn-162. (Adapted from Ref. 10.)...

Mathews BW. Structural basis of the action of thermolysin and related zinc peptidases. Acc Chem Res 1988 21 333-340. 

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