Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Specific chemical modifications of apamin have been used to study the residues involved in its toxic action. Transformation of Lys4 into homoarginine did not affect toxicity. Modification of the alpha-amino group of Cys1 and of the epsilon-amino group of Lys4 by acetic anhydride or fluorescamine decreased toxicity only by a factor of 2.5-2.8. Modification of the gamma-carboxylate of Glu7 with glycine ethyl ester in the presence of a soluble carbodiimide decreased toxicity by a factor of 2.
Diethyl pyrocarbonate
treated of the imidazole side chain of His18 decreased toxicity by a factor of 2.6. Thus none of these residues is essential for toxicity. However, combined modification of amino groups and of the imidazole side chain of His-18 completely abolished biological activity. Complete loss of toxicity also resulted from reduction and alkylation of both disulfide bridges, from chemical modification with cyclohexanedione of Arg-13 and Arg-14, and from removal of Arg-14 of acetylated apamin by digestion with
trypsin
. Incorporation of radioactive acetyl groups on both amino groups of apamin gave an active labeled toxin which has been used to localize the site of action of apamin in the spinal cord, principally in the lumbar part of the neuraxis.
...
PMID:Structure-function relationships and site of action of apamin, a neurotoxic polypeptide of bee venom with an action on the central nervous system. 113 69
Diethyl pyrocarbonate
(
DEP
) is an electrophilic reagent that is used to modify reversibly the histidine residues of proteins. Unfortunately, the lability of the acylated histidine adduct usually does not permit the isolation and identification of the modified histidine. By use of 500-MHz proton NMR spectroscopy, it has been possible to identify the C-H resonances of the nonaxial histidines of
trypsin
-solubilized bovine, rabbit, and porcine cytochrome b5 and therefore observe the interaction of
DEP
with specific histidine residues of cytochrome b5. In addition, the pKa of the peripheral histidines of bovine and rabbit cytochrome b5 have been measured in D2O. In the bovine protein it was found that the histidines are modified sequentially with increasing
DEP
concentration in the order His-26 greater than His-15 greater than His-80. This order is maintained in the rabbit protein with the following additions: His-26 approximately His-27 greater than His-15 greater than or equal to His-17 greater than His-80. The relative reactivity of the peripheral histidines with
DEP
was rationalized by considering three of their characteristics: (1) the pKa of the histidine, (2) the fraction of the side chain exposed to the solvent, and (3) the hydrogen-bond interactions of the imidazole ring.
...
PMID:Identification by proton nuclear magnetic resonance of the histidines in cytochrome b5 modified by diethyl pyrocarbonate. 255 10
During aging, there is a decrease in the activity of many enzymes. The mechanism causing the loss of activity is still not well understood in most cases. We have studied the decrease in the activities of the malic, 6-phosphogluconate dehydrogenase and superoxide dismutase enzymes. The old malic enzyme is about 36% less active than the young enzyme and the old 6-phosphogluconic dehydrogenase enzyme is about 26% less active than the young enzyme. In this paper, some chemical properties of these enzymes are studied.
Diethyl pyrocarbonate
measurements indicate that the old malic enzyme has 1 histidine residue less than the young malic enzyme. Moreover, the treatment of the young malic enzyme with ascorbate for 15 min produces the loss of 36% of enzymatic activity and the loss of 1.2 histidine residues. 2,4,6-trinitrobenzenesulfonic acid measurements indicate that the old 6-phosphogluconate dehydrogenase enzyme has 11 lysine residues less than the young 6-phosphogluconate dehydrogenase enzyme. The proteolysis with
trypsin
produces more peptides in the young 6-phosphogluconate dehydrogenase enzyme than in the old one. However, similar numbers of peptides were produced when endoproteinase Arg-C was used in both enzymes, young and old 6-phosphogluconate dehydrogenase. Moreover, the treatment of young 6-phosphogluconate dehydrogenase enzyme with ascorbate for 15 min produces the loss of 8 lysine residues. These results suggest that during aging the modification of histidine residue could be involved in the loss of malic enzyme activity, and the modification of lysine residues could be involved in the loss of 6-phosphogluconate dehydrogenase activity. These results could also suggest that the modification of histidine and lysine residues during aging could be produced by oxidation. This could be a general process in aging, with an increase in the oxidation of many proteins. The relevance of this process in the aging effects must be related to the kind of proteins that are susceptible of oxidation and that this oxidation affects their enzymatic or biological function. We have also studied other enzymes one of which is the superoxide dismutase enzyme involved in the protection against oxidative damage. Our results are similar to those described for malic enzyme. In the latter case, the failure to measure one of the histidines in the Cu/Zn SOD is due to a chemical modification, probably caused by oxidation of the residue.
...
PMID:Relationship between enzymatic activity loss and post-translational protein modification in aging. 1537 47
