Spelling suggestions: "subject:"proteolytic"" "subject:"proteolytica""
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Structural studies of bacterial Lon ATP-dependent proteasesDuman, Ramona Elena January 2010 (has links)
No description available.
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Targeting ubiquitin chains with deubiquitinasesYe, Yu January 2012 (has links)
No description available.
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Affinity labeling of metalloendoproteasesRasnick, David William 12 1900 (has links)
No description available.
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Specificity and reactivity of human leukocyte elastaseBarker, Larry Nathan 12 1900 (has links)
No description available.
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Influence of flow environment on the production and secretion of metalloproteinases and urokinase-type plasminogen activator by cultured bovine aortic endothelial cellsLacroix-Desmazes, Sebastien 12 1900 (has links)
No description available.
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A denaturant-stable protease isolated from pronase : qualitative comparisons of the cleavage specificities in the presence and absence of denaturantLindley, Brenda Rae January 1982 (has links)
Guanidine-stable chymoelastase (GSC-Elastase), an enzyme isolated from a commercial protease preparation (Pronase), has been shown to be stable and active in the presence of 6.0 M guanidinium chloride (Si egel , S . , et. al . , J . Biol. Chem. 247:4155, J . Pi of . Chem. 248:3233.) The amino acid sequence around the active site serine residue for the protease is similar to that found for bovine chymotrypsin (Awad, W. M. et.al., J. Biol. Chem. 247:4144). This investigation involved the qualitative comparison of the protein cleavage specificity of GSC-Elastase in the presence and absence of denaturant. This specificity was also compared to that found for a-chymotrypsin for the existence of possible similarities in their actionson protein substrates. S-Carboxymethylated lysozyme (CM-HEL) was hydrolyzed in separate trials which were catalyzed by GSC-Elastase in the presence and absence of 6.0 M guanidinium chloride and by a-chymotrypsin. Two-dimensional peptide maps were made from each of the hydrolysates by performing thin-layer chromatography in one direction followed by electrophoresis in a perpendicular direction. The results of the mapping procedure indicated that the cleavage of protein substrates by GSC-Elastase is reproducible and therefore specific under denaturing conditions as well as in the absence of denaturant. These results also suggested that the protein cleavage specificity of GSC-Elastase was found to be significantly different from that of bovine chymotrypsin.
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Recombinant expression and full backbone assignment of the human DWNN using heteronuclear NMR.Faro, Andrew January 2005 (has links)
The cellular levels of a number of proteins have been found to be regulated by the ubiquitin-proteasome pathway. In this pathway, proteins are covalently tagged (&ldquo / ubiquitinated&rdquo / ) by ubiquitin, which acts as a signal for degradation by the proteasome. A number of key cellular processes, including cell-cycle progression, transcription and DNA repair, are regulated in this way. In recent years a number of cellular proteins resembling ubiquitin in structure or function, the so-called ubiquitin-like proteins, have been identified. Ubiquitin-like proteins can be divided into two classes-the so-called &ldquo / ubiquitin-like modifiers&rdquo / , which consist of a single domain that structurally resembles ubiquitin, and &ldquo / ubiquitin-domain&rdquo / proteins, which are multi-domain proteins, which include domains that resemble ubiquitin.<br />
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This thesis describes the recombinant expression, purification and full backbone assignment of the human DWNN domain, a novel ubiquitin-like domain. The DWNN domain occurs at the N-terminus of RBBP6, a protein that has been shown to interact with p53 and Rb as well as to be involved in mRNA processing and apoptosis. A bacterial expression system was used to overexpress the DWNN domain as a GST fusion protein. The domain was labelled with 15N and 13C to perform triple-resonance heteronuclear NMR experiments, from which full backbone assignments were obtained.<br />
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Although full structure determination of the DWNN domain falls outside the scope of this thesis, the backbone assignments formed the basis for the subsequent structure determination, which confirmed that the DWNN domain is indeed a novel ubiquitin-like domain. The RBBP6 protein may therefore represent a novel E3 ubiquitin ligase that plays a role in regulating the cellular levels of p53 and Rb.
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Proteolytic enzymes in grass pollen and their relationship to allergenic proteinsSaldanha, Rohit Gregory, Medical Sciences, Faculty of Medicine, UNSW January 2005 (has links)
Pollen grains are ubiquitous triggers of allergic asthma and seasonal rhinitis. Proteolytic enzymes in pollen as well as other sources are capable of disrupting airway epithelial integrity in vivo and in vitro. This provides a plausible mechanism for the initiation of sensitisation of the respiratory immune system to inhaled pollen allergens, comparable to that suggested for Group 1 allergens from house dust mites and cat dander, which are known to possess intrinsic proteolytic activity. This thesis explores the relationship between pollen allergens and proteolytic enzymes. It describes the different strategies used for the characterisation, purification and identification of immunogenic and proteolytic proteins in the complex mixtures of pollen diffusates. The peptidases in the diffusates of Kentucky blue grass, ryegrass and Bermuda grass pollens were characterised by a sensitive fluorescence assay and gelatin zymography. Among these, Bermuda grass pollen demonstrated the presence of a serine peptidase at Mr ~30,000 Da, which corresponded to an intense band by Western blotting using a monoclonal antibody to the timothy grass (Phleum pratense) group 1 allergen, Phl p 1. Purification of this enzyme from Bermuda grass was complicated by the low levels of the enzyme present in the diffusate, as well as by its autohydrolysis. Partial purification of the serine peptidase activity by affinity chromatography using Concanavalin A Sepharose demonstrated that the diffusate contained a trypsin-like peptidase, detected by the fluorescent assay, in addition to the ~30,000 Da serine endopeptidase, detected on gelatin zymography. Proteomic analysis of the ~30,000 Da protein using one- and two-dimensional electrophoresis and mass spectrometry identified it as the major pollen allergen of Bermuda grass, Cyn d 1. The studies reported here provide, for the first time, evidence that a pollen allergen may possess intrinsic proteolytic activity. This activity may play a role in the initiation of airway inflammation and allergic sensitisation.
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Proteases of maize rootsShannon, John David January 1979 (has links)
xx, 94 leaves : graphs, tables ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.1980) from the Dept. of Agricultural Biochemistry, University of Adelaide
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Proteolytic enzymes in grass pollen and their relationship to allergenic proteinsSaldanha, Rohit Gregory, Medical Sciences, Faculty of Medicine, UNSW January 2005 (has links)
Pollen grains are ubiquitous triggers of allergic asthma and seasonal rhinitis. Proteolytic enzymes in pollen as well as other sources are capable of disrupting airway epithelial integrity in vivo and in vitro. This provides a plausible mechanism for the initiation of sensitisation of the respiratory immune system to inhaled pollen allergens, comparable to that suggested for Group 1 allergens from house dust mites and cat dander, which are known to possess intrinsic proteolytic activity. This thesis explores the relationship between pollen allergens and proteolytic enzymes. It describes the different strategies used for the characterisation, purification and identification of immunogenic and proteolytic proteins in the complex mixtures of pollen diffusates. The peptidases in the diffusates of Kentucky blue grass, ryegrass and Bermuda grass pollens were characterised by a sensitive fluorescence assay and gelatin zymography. Among these, Bermuda grass pollen demonstrated the presence of a serine peptidase at Mr ~30,000 Da, which corresponded to an intense band by Western blotting using a monoclonal antibody to the timothy grass (Phleum pratense) group 1 allergen, Phl p 1. Purification of this enzyme from Bermuda grass was complicated by the low levels of the enzyme present in the diffusate, as well as by its autohydrolysis. Partial purification of the serine peptidase activity by affinity chromatography using Concanavalin A Sepharose demonstrated that the diffusate contained a trypsin-like peptidase, detected by the fluorescent assay, in addition to the ~30,000 Da serine endopeptidase, detected on gelatin zymography. Proteomic analysis of the ~30,000 Da protein using one- and two-dimensional electrophoresis and mass spectrometry identified it as the major pollen allergen of Bermuda grass, Cyn d 1. The studies reported here provide, for the first time, evidence that a pollen allergen may possess intrinsic proteolytic activity. This activity may play a role in the initiation of airway inflammation and allergic sensitisation.
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