Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Strains of Streptococcus mutans synthesized bacteriocins in agar plates, but synthesis of detectable bacteriocins in liquid media took place only under certain culture conditions. The composition of the medium proved to be crucial. Trypticase Soy Broth with 4% Yeast Extract meeting the requirements. The effect of the Yeast Extract is obscure, for some strains also formed detectable bacteriocins in a special Trypticase medium without this agent. It was noted that the broth should be filter-sterilized rather than autoclaved and only a few days old. Attempts at liberating cell-bound bacteriocins from washed cells were unsuccessful, even when they were treated with ultrasound, EDTA, or various chemicals followed by ultrasound. On the basis of size and sensitivity to heat the bacteriocins could be divided into two groups, while their resistance to ether and chloroform and to
trypsin
did not follow this pattern.
Dependence on
plasmids could not be demonstrated by attempts at curing with acridine orange or ethidium bromide; and the involvement of phages was unlikely, since the inhibition was not transmissible and phage-like structures were not observed in the electron microscope.
...
PMID:Synthesis of bacteriocins in liquid cultures of Streptococcus mutans. 26 10
In order to explore the correlation between protease susceptibility and conformational stability of a protein, the proteolytic degradation by
trypsin
, subtilisin and pronase P of the wild-type alpha subunit of tryptophan synthase from Escherichia coli and of its two mutant proteins was studied by measuring circular dichroism at 222 nm at various pH values at 37 degrees C. The mutant proteins are substituted by Gln or Met in place of Glu at position 49. The single amino acid substitutions at position 49 significantly affected susceptibility of this protein to the three proteases.
Dependence
of protease susceptibility of the wild-type and the two mutant proteins on pH was characteristic of each protein and similar for the three proteases. Comparison of the present results with the conformational stabilities of the three proteins previously measured shows that the order of resistance to the proteases among the three proteins coincides with the order of the values of unfolding Gibbs energy change, suggesting that protein degradation depends upon the conformational stability of a protein.
...
PMID:Effect of single amino acid substitutions on the protease susceptibility of tryptophan synthase alpha subunit. 286 36
Creatine kinase isolated from monkey brain was characterized with respect to denaturation/inactivation and renaturation/reactivation/reassociation in order to determine the mechanism of reassembly. Enzyme unfolded in 8 M urea exhibits several characteristics of denatured protein: complete loss of enzymatic activity, decrease in intrinsic fluorescence with a red shift in the emission maximum and loss of circular dichroism at 220 nm. The renatured protein reassembles to its apparently native condition as judged by these criteria, but small differences of uncertain origin persist.
Dependence
of activity and fluorescence on denaturant concentration indicate that inactivation is more sensitive to urea than is unfolding; spectral changes at the intermediate urea concentrations suggest formation of aggregated protein. Upon dilution, enzyme previously exposed to 8 M urea for 40 min regains 70-80% native activity, independent of protein concentration over the range of 0.56-160 nM. Reactivation kinetics, measured using the assay mixture with and without
trypsin
, are independent of protein concentration, and are adequately described by a single rate constant, 3.2 X 10(-3) s-1 and 4.2 X 10(-3) s-1, respectively. Reactivation is completed 20-30 min after initiation of renaturation. Fluorescence changes during refolding are at least biphasic, exhibiting a rapid increase, then a slow decrease completed at approximately 15-20 min after initiating refolding. Reassociation is measured by competitive hybridization between dimerizing B subunits and M subunits to form MB heterodimer. The time dependent decay in heterodimer formation during competitive dimerization shows that reassociation is completed between 60 and 90 min after initiation of reassembly. These results indicate that the brain isozyme of creatine kinase, like the muscle form, is composed of subunits which do not require association for expression of catalytic activity. Furthermore, a comparison of spectral data and susceptibility to
trypsin
inactivation between the muscle and brain isozymes supports previous suggestions that in the native state, the brain isozyme is a conformationally looser, more open protein.
...
PMID:An analysis of the reassembly of denatured creatine kinase from monkey brain. 372 16
Soluble highly active conjugates were obtained after complex formation or covalent binding of
trypsin
and urokinase with polymers of various chemical structure as well as by means of condensation of the enzyme molecules as a result of which oligo- and heterooligoproteins were produced. Pharmacological activity of the conjugates obtained was studied in the course of treatment of rabbits with experimental hyphemia. All the preparations produced exhibited high therapeutic efficiency: the time of hyphemia resorption was decreased, the effect of immobilized enzymes was prolonged as compared with controls.
Dependence on
the molecular mass and the dose of enzymatic preparations of the period of hyphemia resorption was studied using heteromers of urokinase and hemoglobin. Maximal activity was noted with the preparations of molecular mass 4.10(5) daltons; they maintained the optimal level of pharmacological activity even after 4-fold decrease in the dose used as compared with other immobilized preparations of
trypsin
and urokinase. The immobilized preparations were 20-fold more effective as compared with native unmodified enzymes.
...
PMID:[Immobilized thrombolytic enzymes and their use in ophthalmology]. 404 87
pH-
Dependence
of hydrolytic activity of
trypsin
has been studied in cationic reverse micellar system of cetyltrimethylammonium bromide (CTAB) in (50% v/v) chloroform/isooctane using a positively charged substrate N(alpha)-benzoyl-L-arginine ethyl ester (BAEE). The pH of the medium was varied from 4.0 to 8.5 with addition of 0.025 M citrate-phosphate buffer containing 1 mM CaCl2. Optimum pH for maximum enzyme activity, pH(opt) in reverse micelles is found to be similar to that observed in bulk aqueous solution (8.0-8.5). However, changes in activity of
trypsin
(k(cat)) as a function of water content W0 (W0 = [H2O]/[CTAB]) in reverse micelles are found to be pH dependent. At low pH (4.0) and low water content (W0 = 5) the enzyme is more active in reverse micelles than in bulk aqueous solution by a factor of 2. This 'superactivity' is lost at higher W0 values and the k(cat) in reverse micelles is found to be similar to that observed in aqueous bulk. At pH 5, the enzyme activity is found to be independent of W0 while at pH 6.0-6.5 the enzyme activity is low at W0 5 and increases with water content to a constant value which is still 50% lower than that in aqueous buffer. Above pH 7, the W0-activity profile becomes distinctly bell shaped with W0 optimum around 10-15. The enzyme activity at optimum W0 is close to that observed in aqueous bulk.
...
PMID:Reactivity of trypsin in reverse micelles: pH-effects on the W0 versus enzyme activity profiles. 992 80
