Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.17 (lysozyme)
 21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the irreversible thermal denaturation of chymopapain, a papain-related cysteine proteinase. It was found that this process follows simple first-order kinetics under all conditions tested. Rate constants determined by monitoring ellipticity changes at 220 or 279 nm are essentially identical, indicating that denaturation involves global unfolding of the protein. Enthalpies (DeltaH(double dagger)) and entropies (DeltaS(double dagger)) of activation for unfolding were determined at various pH values from the temperature dependence of the rate constant. In the pH range 1.1-3.0, a large variation of both DeltaH(double dagger) and DeltaS(double dagger) was observed. For the few proteins studied so far (lysozyme, trypsin, barnase) it is known that activation parameters for unfolding vary little with pH. It is proposed that this contrasting behavior of chymopapain originates from the numerous ion pairs - especially those with low solvent accessibilities - present in its molecular structure. In contrast, fewer, more exposed ion pairs are present in the other proteins mentioned above. Our results were analyzed in terms of differences in the protonation behavior of carboxylic groups between the transition (TS) and native (N) states of the protein. For this purpose, a model of independently titrating sites was assumed, which explained reasonably well the pH dependence of activation parameters, as well as the protonation properties of native chymopapain. According to these calculations, pK values of carboxyls in TS are shifted 0.6-0.9 units upwards with respect to those in N. In addition, some groups in TS appear to be protonated with unusually large enthalpy changes.
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PMID:pH dependence of the activation parameters for chymopapain unfolding: influence of ion pairs on the kinetic stability of proteins. 985 67

A substance has been demonstrated in solutions of crude papain, which, when injected intravenously into 1 kilo rabbits, in amounts less than 5 mg., results in complete collapse of both ears. The phenomenon becomes visible 4 hours after injection, and is complete within 24 hours. 3 or 4 days after papain, the ears gradually reassume their normal form. Ear collapse is associated with depletion of the ear cartilage matrix, and the disappearance of basophilia from the matrix. Similar changes occur in all other cartilage tissues, including bones, joints, larynx, trachea, and bronchi. At the time when the ears are restored to normal shape, the basophilic matrix reappears in cartilage. Repeated injections of papain, over a period of 2 or 3 weeks, bring about immunity to the phenomenon of ear collapse. When the arterial circulation to one ear is occluded for 15 minutes at the time of injection of papain, this ear is protected against collapse. The effect of crude papain could not be reproduced by crystalline papain protease or crystalline papain lysozyme, which together comprise a considerable portion of the dry weight of papain. The nature of the responsible factor has not been determined, and the possibility that chymopapain may be implicated is currently under study. Cortisone prevents the return of papain-collapsed ears to their normal shape and rigidity. Possibly this reflects a capacity of cortisone to impede the synthesis or deposition of sulfated mucopolysaccharides in tissues.
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PMID:Reversible collapse of rabbit ears after intravenous papain, and prevention of recovery by cortisone. 1334 69