EC:3.4.21.4 - FACTA Search

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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)

1. A glycol-chitin-splitting enzyme without lysozyme (muramidase) activity has been found in calf serum. The enzyme also degrades colloidal chitin and is thus a true chitinase, 1,4-beta-poly-N-acetylglucosaminidase, without exo-beta-N-acetylglucosaminidase effect. 2. The enzyme is purified 1000-fold by ion-exchange chromatography and gel filtration. Its optimal activity is between pH 1.5-2.0 with glycol chitin and between pH 3-6 in a rather broad optimum with colloidal chitin as substrate. The optimal stability of the enzyme is in the pH interval 3.0-6.5 when tested by incubation with glycol chitin at 50 degrees C for 60 min. The optimal temperature for the degradation of glycol chitin is 40 degrees C when assayed at pH 1.5 and 51 degrees C when assayed at pH 3.5. 3. The enzyme is activated by moderate heating at pH 6.5. The highest relative activity, 135% is reached after 45 min incubation at 30 degrees C, pH 5 or after 30 min at 40, pH 2.4. By incubation with small amounts of trypsin at pH 6.5 at 3m degrees C the enzyme was temporarily activated. 4. The isoelectric point, pH 5.3, and the molecular weight, 47,000 +/- 3,000 were determined by respectively isoelectric focusing and gel filtration. 5. The Michaelis-Menten constant, Km = 0.76 +/- 0.05 (S.E.) mg/ml, was measured with glycol chitin as substrate.
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PMID:Bovine serum chitinase. 4 11

A low molecular weight fraction from chitinase digested cell walls of T. mentagrophytes containing both polysaccharide and peptide moieties was found to have immunological reactivity at both the cellular and humoral level. This fraction (UM2(a)) was further degraded by treatment with either a combination of pronase and carboxypeptidase A or with trypsin. Peptides were separated from the carbohydrate-rich fraction by ultrafiltration. The carbohydrate-rich fraction retained the ability to induce both immediate and delayed skin reactions in sensitized guinea pigs and to stimulate the proliferation of sensitized lymphocytes in vitro. The peptide moieties retained reactivity in that they caused delayed reactions and lymphocyte proliferation but were unable to induce immediate or Arthus reactions in sensitized animals. Tryptic peptides from UM2(a) were purified by ion exchange chromatography. A high proportion of these peptides demonstrated immunological activity at both the cellular and humoral level since they were capable of inducing delayed reactions and/or lymphocyte transformation, as well as being capable of blocking the complement fixation reaction between UM2(a) and specific antiserum.
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PMID:Characterization of immunologically active peptides from the cell wall of T. mentagrophytes. 44 Apr

Five extracellular chitinases of 20.5, 30, 47, 70, and 92 kDa purified from the culture filtrate of Streptomyces olivaceoviridis ATCC 11238 differed in their sequences at the amino termini of the protein chains. In the native state, the chitinases were found to be resistant to proteolysis by trypsin, papain, and Staphylococcus aureus V8 protease. The latter produced several fragments of identical molecular mass from chitinases denaturated with sodium dodecyl sulfate. Five proteases were detected in the protein concentrate from the culture filtrate, and two of them showing ability to cleave chitinases in the native state were purified. One, a protease of 42 kDa, released a 30-kDa protein from the 70-kDa chitinase that reacts with anti-30 kDa chitinase antibodies; the other, a protease of 29 kDa, split the 30-kDa chitinase into 20.5-, 18-, and 16-kDa fragments. From these results, it was deduced that the 70-kDa chitinase is the precursor protein of the 30- and 20.5-kDa chitinases.
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PMID:Chitinases of Streptomyces olivaceoviridis and significance of processing for multiplicity. 159 3

Chitinases isolated from membrane and cytosolic fractions of two mucoraceous fungi, Choanephora cucurbitarum and Phascolomyces articulosus, were investigated. The membrane-bound chitinase was isolated by Bio-Gel P-100 and DEAE Bio-Gel A chromatographic techniques. On SDS-PAGE the chitinase from both fungi migrated as a single band of M(r) 66 kDa. The cytosolic chitinase from the mycelial extracts of these fungi was separated by heat treatment, ammonium sulphate precipitation, and by affinity chromatography with regenerated chitin. SDS-PAGE showed two bands for each fungus with M(r) of 69.5 and 55 kDa in C. cucurbitarum and M(r) 69.5 and 53 kDa in Ph. articulosus. Chitinases, membrane bound or cytosolic, hydrolyzed regenerated chitin, colloidal chitin, glycol chitin, N,N'-diacetylchitobiose, and N,N',N"-triacetylchitotriose. Heavy metals, inhibitors, and N-acetylglucosamine inhibited chitinase activity, whereas trypsin and an acid protease enhanced its activity. Chitinase preparations showed lysozyme activity that was inhibited by histamine but not by N-acetylglucosamine. There was no N-acetylglucosamanidase activity, but beta-1,3 glucanase activity was found in cytosolic preparations only. Despite slight differences in their molecular mass, both the membrane-bound and cytosolic chitinases showed similarities in substrate utilization, response to inhibitors, and activation by trypsin and acid protease; pH and temperature optima also were similar.
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PMID:Cytosolic and membrane-bound chitinases of two mucoraceous fungi: a comparative study. 161 60

Although the cyst wall of Entamoeba invadens contains chitin, synthesis of this structural polymer during encystation has not been described before. Here we report that conditions which stimulate encystation of the parasite lead to increased chitin synthase (ChS) activity, measured by incorporation of [3H]GlcNAc ([3H]N-acetylglucosamine) from UDP-GlcNAc. The radiolabelled product was precipitable by trichloroacetic acid or ethanol and identified as chitin because it was digested by purified chitinase to radioactive chitobiose and GlcNAc. Cell fractionation indicated that approx. 60% of the enzyme is in the high-speed supernatant. pH-activity profiles showed that soluble ChS has an optimum at 6.0, whereas particulate ChS has a peak at pH 7.0-7.5. Both the activities were dependent on bivalent metal ions, especially Mn2+ and Mn2+ plus Co2+. In contrast with the ChS of other organisms, neither the particulate nor the soluble ChS of E. invadens was activated by trypsin treatment. Soluble and particulate ChS were also stimulated by digitonin and phosphatidylserine, whereas phosphatidylethanolamine stimulated only the soluble ChS. The enzyme activities were inhibited by UDP, UDP-glucose and UDP-GalNAc, but not by the analogues Polyoxin-D or Nikkomycin. This is the first report of an enzyme which is developmentally regulated during encystation of the primitive eukaryotic genus Entamoeba.
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PMID:Chitin synthase in encysting Entamoeba invadens. 176 27

The amino acid sequences of peptides generated by trypsin and chymotrypsin digestions of the acidic PR4 chitinase from bean were determined. Oligonucleotide primers derived from this sequence were used to synthesize a PR4 chitinase-specific probe by PCR-amplification. This probe allowed the isolation of cDNA clones encoding PR4 chitinase that have been sequenced. This acidic and extracellular chitinase shows some homology to the basic isoform from the same plant, and differs from other known acidic chitinases by the presence of an amino-terminal cysteine-rich domain. Southern blot analysis of bean genomic DNA revealed that PR4 chitinase is encoded by a single gene.
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PMID:Isolation of a complementary DNA encoding the bean PR4 chitinase: an acidic enzyme with an amino-terminus cysteine-rich domain. 186 76

Antifungal activity has been associated with 2 immunochemically distinct proteins, protein R and S (Mr approximately 23 kDa; pI 9-10), which were isolated in pure form from barley grain. The proteins are homologous with thaumatin- and pathogenesis-related proteins of the PR5 family. The proteins inhibit growth of i.a. Trichoderma viride and Candida albicans in microtiter plate assays and act synergistically with barley grain chitinase C. Like maize zeamatin, protein R and S but not chitinase C retarded fungal growth in synergism with nikkomycin Z, a nucleoside-peptide inhibitor of fungal chitin synthesis. Although no inhibition of alpha-amylases or serine proteases could be associated with protein R or S the results indicate that the homologous maize grain bifunctional inhibitor of insect alpha-amylase and trypsin is very similar to or identical with maize zeamatin, which was proposed to have permeabilizing activity towards fungal membranes. Thus, in addition to the intensely sweet properties of thaumatin, multiple unrelated defense functions against insect and fungal pests can now be associated with the family of thaumatin-homologous proteins.
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PMID:Two antifungal thaumatin-like proteins from barley grain. 193 40

Chitinase (E.C. 3.2.1.14) was characterized in microsomal fractions from yeast cells of Candida albicans. Following six washes with buffer (50 mM Bis-Tris.Cl, pH 6.5), enzyme activity of microsomes fell markedly to 0.3% of total and 6% of the specific activity detected in the low-speed supernatant (9000 X g) of a cell lysate. An apparently zymogenic, microsomal chitinase activity became more readily detectable with washing and after six washes enzyme activity was activated 1.7-fold following pre-incubation with trypsin. The following properties of microsomal chitinase were closely comparable with those for cytosolic chitinase (indicated in parentheses): Km = 2.1 mg chitin per ml (2.9 mg chitin per ml); temperature optimum = 45 degrees C (45 degrees C); inhibition by allosamidin competitive, Ki = 0.29 microM (competitive, Ki = 0.23 microM). A range of detergents solubilized and activated microsomal chitinase in a highly specific manner. Following density gradient centrifugation of microsomes, chitinase was distributed approximately evenly throughout the gradient suggesting that microsomal chitinase is not associated exclusively with any one membrane component. The possible morphogenetic role of microsomal chitinase is discussed in relation to the potential of this enzyme as a target for highly specific antifungal agents.
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PMID:Microsomal chitinase activity from Candida albicans. 199 Nov 32

An extracellular, acidic chitinase was purified to homogeneity from tobacco necrosis virus-infected leaves of Cucumis sativis. The amino acid sequences of the intact protein and of peptides isolated following endoproteinase Lys-C digestion, cyanogen bromide cleavage, and trypsin digestion were determined. Oligonucleotide probes derived from this sequence were used to isolate a cDNA clone encoding this protein. No significant homology was found between this chitinase and either the basic chitinase isolated from bean or tobacco or the chitinase isolated from Serratia marcescens; however, strong homology was found between the cucumber chitinase and a lysozyme/chitinase from Parthenocissus quinquifolia. The induction of the protein by tobacco necrosis virus infection or salicylate was found to be at the level of RNA accumulation. Genomic Southern analysis indicates that a single gene in the cucumber genome encodes this protein.
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PMID:Isolation of a complementary DNA encoding a chitinase with structural homology to a bifunctional lysozyme/chitinase. 291 85

The ultrastructure of the peritrophic membrane of the female sandfly Phlebotomus papatasi has been studied at various times after blood meals. The membrane begins to form within four hours of the blood meal with the secretion by the entire midgut epithelium of an electron-dense amorphous material. Subsequently, the membrane is stabilized and strengthened by the production of a layer of irregular chitinous microfibres, the whole membrane then forming a complete and resilient sac apparently unaffected by boiling 9 M potassium hydroxide. The membrane appears redundant 48 hours after the blood meal and fragments, possibly as a result of chitinase activity. The membrane's main functions are probably the prevention of clogging of the microvillous brush border by the blood meal and the confinement of large proteins, particularly serum trypsin inhibitors, to the endoperitrophic space while allowing sandfly proteases access to the blood meal periphery. Blood is not required to stimulate membrane production. Saline taken by blood feeding into the midgut also stimulates membrane formation. Phlebotomus papatasi females may lack an efficient anticoagulant, at least in the midgut, as blood meals frequently include fibrin clots.
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PMID:The peritrophic membrane of the female sandfly Phlebotomus papatasi. 325 79

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