Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1389183 (autodigestion)
 317 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bovine pancreatic trypsin was coupled to dextran after activation of the polysaccharide by cyanogen bromide. The soluble dextran-trypsin conjugated was purified by molecular sieve chromatography. After coupling, 53% of the esterase activity of trypsin remained, but the conjugate had only 7% of the caseinolytic activity of the native enzyme. The modified trypsin showed greater resistance than the native enzyme to inactivation by heat treatment, autodigestion, or denaturing agents, and was also more resistant to inhibition by trypsin inhibitors, particularly ovomucoid. Treatment with dextranase partly removed the improved stability properties and resistance to inhibition of the trypsin-dextran conjugate. The conjugated enzyme preparation consists of a heterogenous mixture of macromolecular aggregates, each containing many trypsin and many dextran molecules linked together. Intramolecular cross-linking of enzyme molecules by polysaccharide chains is considered to be responsible for stabilization of the tertiary structure of the enzyme molecules in the conjugate.
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PMID:Preparation and characterization of a dextran-trypsin conjugate. 94 52

Incubation of alpha-chymotrypsin and alpha-lytic protease with chloro(2,2':6',2''-terpyridine)platinum(II), [Pt(trpy)Cl]+, results in attachment of Pt(trpy)2+ tags at both His 57 and His 40 in the former and His 57 in the latter. The [Pt(trpy)His]2+ chromophores are readily detected and quantitated owing to their characteristic, strong UV absorption. Although the tagging of His 57 modifies the catalytic triad (Ser 195, His 57, and Asp 102) and disrupts the charge relay, the platinated enzymes retain significant esterase and amidase activity for both specific and nonspecific substrates. Unlike suicide inhibitors, which inactivate the enzymes by filling the active site and imitating the tetrahedral intermediate, [Pt(trpy)Cl]+ reacts with a particular amino acid and permits binding of substrates. The kinetic constants for the following are reported: two esters and two amides with alpha-chymotrypsin and an amide with alpha-lytic protease. The kcat values are between 1 and 25% of, and the Km values are a little higher than, the corresponding values for the native enzymes. The catalytic activity is not due to the native enzymes, trypsin, or some zinc-containing protease. Activities of the native and of the platinated alpha-chymotrypsin depend similarly on pH although the pKa of His 57 is raised to 9.7 upon platination. The platinated enzymes undergo autodigestion slower than do the native enzymes. Because the Pt(trpy)2+ tags are noninvasive, stable, and yet easily removable by thiourea, [Pt(trpy)Cl]+ may be used to retard autodigestion of stored proteolytic enzymes.
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PMID:Catalytic activity of the serine proteases alpha-chymotrypsin and alpha-lytic protease tagged at the active site with a (terpyridine)platinum(II) chromophore. 222 78

Human urine urokinase [EC 3.4.21.31] was found to be inactivated by dithiothreitol (DTT) much more severely than by 2-mercaptoethanol at the same concentration on the basis of -SH groups. Removal of DTT by dialysis restored the activities of esterase toward acetyl-glycyl-L-lysine methyl ester, plasminogen activation, and amidase toward 7-(glutaryl-glycyl-L-arginine-amido)-4-methyl coumarin. But the restoration of amidase activity was much less than that of esterase activity. The addition of DTT mediated the conversion of high molecular weight urokinase to low molecular weight urokinase, releasing several peptides. This suggests that the urokinase consists of several polypeptides linked by disulfide bonds. The molecular weight of urokinase produced with DTT was smaller than that of low molecular weight urokinase obtained by autodigestion of high molecular weight urokinase. The autodigestion was also accompanied by liberation of some peptides. But, those peptides released on autodigestion of high molecular weight urokinase were different from those appearing in the presence of DTT.
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PMID:Effect of dithiothreitol on activity and protein structure of human urine urokinase. 399 96

After partial reduction of disulfide bonds in the thaumatins, the sweet-tasting proteins from the fruits of Thaumatococcus danielii Benth, a rapid autodigestion was demonstrated. In the presence of suitable substrates, the reduced thaumatins showed protease, amidase and esterase activity. Thiol-blocking reagents like mercury(II) chloride inhibited the enzymatic activity. Of the thaumatins b, c, I, II and III (with increasing isoelectric points), thaumatin I showed the lowest enzymatic activity. In this series, the enzymatic activity increased from thaumatin I to thaumatin III as well as from thaumatin I to thaumatin b. Acetylation of the epsilon-amino group of lysine residues in the thaumatins by acetic anhydride, causing a decrease in basicity, led to an increase in enzymatic activity, which is correlated with the number of acetyl groups introduced. Comparison of the amino acid sequence of thaumatin I with that of cysteine proteases of plant origin showed no similarities. Moreover, the thaumatins lack histidine, one of the amino acids in the active site of the cysteine proteases. Monellin, the sweet-tasting protein from the fruits of Dioscoreophyllum cumminsii Diels, is not enzymatically active. However, when monellin with acetylated epsilon-amino groups of lysine residues was brought into a reducing environment it appeared to be enzymatically active. The similarities in properties of the thaumatins and monellin suggest a structural relationship between these proteins.
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PMID:Enzymatic properties of the sweet-tasting proteins thaumatin and monellin after partial reduction. 698 15

In the cell walls of grasses ferulic acid is esterified to arabinosyl residues in arabinoxylans that can then undergo oxidative coupling reactions to form ferulate dehydrodimers, trimers and oligomers which function to cross-link cell-wall polysaccharides, limiting cell wall degradability. Fungal ferulic acid esterase can release both esterified monomeric and dimeric ferulic acids from these cell wall arabinoxylans making the cell wall more susceptible to further enzymatic attack and increasing cell wall degradability. Non-embryogenic cell suspension cultures of Festuca arundinacea expressing a Aspergillus niger ferulic acid esterase (faeA) targeted to either the apoplast, or endoplasmic reticulum under the control of a constitutive actin promoter, or to the vacuole under the control of a soybean heat shock promoter, were established and FAE activity determined in the cells and medium during a growth cycle. Analysis of the ester-linked ferulates of the cell walls showed that all three transformed cell lines had both reduced ferulate levels and increased levels of xylanase mediated release of wall phenolics on autodigestion as well as increased rates of cell wall digestion in a simulated rumen environment, when compared to control non-transformed cells.
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PMID:Expression of a fungal ferulic acid esterase in suspension cultures of tall fescue (Festuca arundinacea) decreases cell wall feruloylation and increases rates of cell wall digestion. 2845 7