Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Incubation of two types of glutamate dehydrogenase (GDH) isoproteins from bovine brain with o-phthalaldehyde resulted in a time-dependent loss of enzyme activity. The inactivation was partially prevented by preincubation of the GDH isoproteins with 2-oxoglutarate or NADH. Spectrophotometric studies indicated that the inactivation of GDH isoproteins with o-phthalaldehyde resulted in isoindole derivatives characterized by typical fluorescence emission spectra with a stoichiometry of one isoindole derivative per molecule of enzyme subunit. There were no differences between the two GDH isoproteins in sensitivities to inactivation by o-phthalaldehyde indicating that the microenvironmental structures of the GDH isoproteins are very similar to each other. Tryptic peptides of the isoproteins, modified with and without protection, identified a selective modification of one lysine as in the region containing the sequence L-Q-H-G-S-I-L-G-F-P-X-A-K for both GDH isoproteins. The symbol X indicates a position for which no phenylthiohydantoin-amino acid could be assigned. The missing residue, however, can be designated as an o-phthalaldehyde-labeled lysine since the sequences including the lysine residue in question have a complete identity with those of the other mammalian GDHs. Also, trypsin was unable to cleave the labeled peptide at this site. Both amino acid sequencing and compositional analysis identified Lys-306 as the site of o-phthalaldehyde binding within the brain GDH isoproteins.
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PMID:Identification of lysine residue involved in inactivation of brain glutamate dehydrogenase isoproteins by o-phthalaldehyde. 1060 7

Although the structure of glutamate dehydrogenase (GDH) has been reported from various sources including mammalian GDH, there are conflicting views regarding the location and mechanism of actions of the coenzyme binding. We have expanded these speculations by photoaffinity labeling and cassette mutagenesis. Photoaffinity labeling with a specific probe, [(32)P]nicotinamide 2-azidoadenosine dinucleotide, was used to identify the NAD(+) binding site within human GDH encoded by the synthetic human GDH gene and expressed in Escherichia coli as a soluble protein. Photolabel-containing peptides generated with trypsin were isolated by immobilized boronate affinity chromatography. Photolabeling of these peptides was most effectively prevented by the presence of NAD(+) during photolysis, demonstrating a selectivity of the photoprobe for the NAD(+) binding site. Amino acid sequencing and compositional analysis identified Glu(279) as the site of photoinsertion into human GDH, suggesting that Glu(279) is located at or near the NAD(+) binding site. The importance of the Glu(279) residue in the binding of NAD(+) was further examined by cassette mutagenesis with mutant enzymes containing Arg, Gly, Leu, Met, or Tyr at position 279. The mutagenesis at Glu(279) has no effects on the expression or stability of the different mutants. The K(m) values for NAD(+) were 10-14-fold greater for the mutant GDHs than for wild-type GDH, whereas the V(max) values were similar for wild-type and mutant GDHs. The efficiency (k(cat)/K(m)) of the mutant GDH was reduced up to 18-fold. The decreased efficiency of the mutants results from the increase in K(m) values for NAD(+). In contrast to the K(m) values for NAD(+), wild-type and mutant GDHs show similar K(m) values for glutamate, indicating that substitution at position 279 had no appreciable effect on the affinity of enzyme for glutamate. There were no differences in sensitivities to ADP activation and GTP inhibition between wild-type and mutant GDH, suggesting that Glu(279) is not directly involved in allosteric regulation. The results with photoaffinity labeling and cassette mutagenesis studies suggest that Glu(279) plays an important role for efficient binding of NAD(+) to human GDH.
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PMID:Importance of glutamate 279 for the coenzyme binding of human glutamate dehydrogenase. 1219 7

The structural flexibility and thermostability of glutamate dehydrogenase (GDH) from Clostridium symbiosum were examined by limited proteolysis using three proteinases with different specificities, trypsin, chymotrypsin, and endoproteinase Glu-C. Clostridial GDH resisted proteolysis by any of these enzymes at 25 degrees C. Above 30 degrees C, however, GDH became cleavable by chymotrypsin, apparently at a single site. SDS-PAGE indicated the formation of one large fragment with a molecular mass of approximately 44 kDa and one small one of <10 kDa. Proteolysis was accompanied by the loss of enzyme activity, which outran peptide cleavage, suggesting a cooperative conformational change. Proteolysis was prevented by either of the substrates 2-oxoglutarate or l-glutamate but not by the coenzymes NAD(+) or NADH. Circular dichroism spectroscopy indicated that the protective effects of these ligands resulted from fixation of flexible regions of the native structure of the enzyme. Size-exclusion chromatography and SDS-PAGE studies of chymotrypsin-treated GDH showed that the enzyme retained its hexameric structure and all of its proteolytic fragments. However, circular dichroism spectroscopy and analytical ultracentrifugation showed global conformational changes affecting the overall compactness of the protein structure. Chymotrypsin-catalyzed cleavage also diminished the thermostability of GDH and the cooperativity of the transition between its native and denatured states. N-terminal amino acid sequencing and mass spectrometry showed that heat-induced sensitivity to chymotrypsin emerged in the loop formed by residues 390-393 that lies between helices alpha(15) and alpha(16) in the folded structure of the enzyme.
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PMID:A thermally sensitive loop in clostridial glutamate dehydrogenase detected by limited proteolysis. 1241 8

Changes in dietary protein sources due to substitution of fish meal by other protein sources can have metabolic consequences in farmed fish. A proteomics approach was used to study the protein profiles of livers of rainbow trout that have been fed two diets containing different proportions of plant ingredients. Both diets control (C) and soy (S) contained fish meal and plant ingredients and synthetic amino acids, but diet S had a greater proportion of soybean meal. A feeding trial was performed for 12 weeks at the end of which, growth and protein metabolism parameters were measured. Protein growth rates were not different in fish fed different diets; however, protein consumption and protein synthesis rates were higher in the fish fed the diet S. Fish fed diet S had lower efficiency of retention of synthesised protein. Ammonia excretion was increased as well as the activities of hepatic glutamate dehydrogenase and aspartate amino transferase (ASAT). No differences were found in free amino acid pools in either liver or muscle between diets. Protein extraction followed by high-resolution two-dimensional electrophoresis, coupled with gel image analysis, allowed identification and expression of hundreds of protein. Individual proteins of interest were then subjected to further analysis leading to protein identification by trypsin digest fingerprinting. During this study, approximately 800 liver proteins were analysed for expression pattern, of which 33 were found to be differentially expressed between diets C and S. Seventeen proteins were positively identified after database searching. Proteins were identified from diverse metabolic pathways, demonstrating the complex nature of gene expression responses to dietary manipulation revealed by proteomic characterisation.
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PMID:Proteomic sensitivity to dietary manipulations in rainbow trout. 1449 85

Abnormalities of the anterior cingulate cortex have previously been described in schizophrenia, major depressive disorder and bipolar disorder. In this study 2-DE was performed followed by mass spectrometric sequencing to identify disease-specific protein changes within the anterior cingulate cortex in these psychiatric disorders. The 2-DE system comprised IPGs 4-7 and 6-9 in the first, IEF dimension and SDS-PAGE in the second dimension. Resultant protein spots were compared between control and disease groups. Statistical analysis indicated that 35 spots were differentially expressed in one or more groups. Proteins comprising 26 of these spots were identified by mass spectroscopy. These represented 19 distinct proteins; aconitate hydratase, malate dehydrogenase, fructose bisphosphate aldolase A, ATP synthase, succinyl CoA ketoacid transferase, carbonic anhydrase, alpha- and beta-tubulin, dihydropyrimidinase-related protein-1 and -2, neuronal protein 25, trypsin precursor, glutamate dehydrogenase, glutamine synthetase, sorcin, vacuolar ATPase, creatine kinase, albumin and guanine nucleotide binding protein beta subunit. All but three of these proteins have previously been associated with the major psychiatric disorders. These findings provide support for the view that cytoskeletal and mitochondrial dysfunction are important components of the neuropathology of the major psychiatric disorders.
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PMID:Proteomic analysis of the anterior cingulate cortex in the major psychiatric disorders: Evidence for disease-associated changes. 1663 10

In this work, we re-examine the previously reported phenomenon of the creation of a superactive glutamate dehydrogenase by proteolytic modification by chymotrypsin and explore the various discrepancies that came to light during those studies. We find that superactivation is caused by cleavage at the N terminus of the protein and not the C-terminal allosteric site, as has previously been suggested. N-terminal sequencing reveals that TLCK-treated chymotrypsin cleaves bovine glutamate dehydrogenase at phenylalanine 10. We suggest that trypsin contamination in nontreated chymotrypsin may have led to the production of the larger 4-5 kDa digestion product, previously misinterpreted as having caused the activation. In line with some previous studies, we can confirm that GTP inhibition is attenuated to some extent by the proteolysis, while ADP activation is almost abolished. Utilizing the recently solved structures of bovine glutamate dehydrogenase, we illustrate the cleavage points.
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PMID:The structural basis of proteolytic activation of bovine glutamate dehydrogenase. 1846 97

Enzymes adsorbed on palmityl-substituted Sepharose 4B by hydrophobic interactions have been used in reactor-type experiments. Results presented on immobilized glutamate dehydrogenase, trypsin, alpha-chymotrypsin, and amyloglucosidase indicate possible potential of the method for continuous catalytic operations. Glutamate dehydrogenase used as a model allosteric enzyme was found to retain its allosteric properties after binding to the absorbent in the form of column or suspension. Thermal stabilities of glutamate dehydrogenase and alpha-chymotrypsin were significantly decreased upon adsorption, while that of trypsin was apparently unaltered. Results are discussed in terms of specific interactions involving palmityl residues present on the matrix. Relevance of these observations to in vivo processes are also discussed.
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PMID:Enzyme immobilization on palmityl-sepharose. 1854 97

Fractosil, a porous form of silica, has been used for the preparation of a hydrophobically derivatized carrier for protein immobilization. Interaction of a number of arbitrarily chosen proteins with hexadecyl-substituted Fractosil has been investigated. Binding of proteins was found to take place with retention of their native properties. Glutamate dehydrogenase, used as a model allosteric protein, was found to retain its catalytic and allosteric properties upon binding to the adsorbent in the form of suspension or column. Positive cooperative interactions for binding of bovine serum albumin and glutamate dehydrogenase to the matrix were observed. These findings are discussed in terms of hydrophobic interactions occurring between various residues of the protein molecules and the hydrophobic ligands in addition to those interactions which may occur with the unsubstituted gel. Results presented on immobilized glutamate dehydrogenase, trypsin, alpha-chymotrypsin, alpha-amylase, and amyloglucosidase clearly indicate possible potential of the support for continuous catalytic transformations.
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PMID:Use of hexadecyl Fractosil as a hydrophobic carrier for adsorptive immobilization of proteins. 1855 25

Initial acceptance of Cibacron Blue 3G-A based matrices has made dye-ligand affinity chromatography an attractive proposition. This prompted the synthesis and search for new dye structures. A systematic library of 96 affinity resins was generated using novel analogs of Cibacron Blue 3G-A and also by varying spacer lengths for immobilization. The library was tested in a batch binding and elution mode using seven different proteins--four Aspergillus enzymes namely, NADP-glutamate dehydrogenase, laccase, glutamine synthetase and arginase, bovine pancreatic trypsin and the two serum proteins human serum albumin and immunoglobulin G. Unique binding patterns were observed for each of them indicating that the library displayed discriminatory interactions. The significance of spacer length in the interaction with proteins was discernable. Trypsin interacted best with affinity resins that had no spacer. It was possible to resolve IgG and HSA from a mixture using a combination of resins. There was a good spread of HSA binding capacity in the 96 affinity resins. While some showed better HSA binding capacity than the commercial CB3GA-based matrix, a few with lower capacity were also observed. Subsequent to an initial screen, one affinity resin (CR-017) could be used to enrich Aspergillus terreus NADP-GDH from crude cell extracts. The efficacy of this dye-affinity resin was rationalized by characterizing NADP-GDH inhibition kinetics with the corresponding free dye ligand. In the sum, the library provides a set of dye-ligand affinity matrices with a potential for use in high throughput screening for protein purification.
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PMID:Discriminatory protein binding by a library of 96 new affinity resins: a novel dye-affinity chromatography tool-kit. 1976 65

Genetic variation in growth performance was estimated in 26 families from two commercial strains of Arctic charr Salvelinus alpinus. Physiological determinants of growth and metabolic capacities were also assessed through enzymatic assays. A relatedness coefficient was attributed to each family using parental genotypes at seven microsatellite loci. After 15 months of growth, faster growing families had significantly lower relatedness coefficients than slower growing families, suggesting their value as indicators of growth potential. Individual fish that exhibited higher trypsin activity also displayed higher growth rate, suggesting that superior protein digestion capacities can be highly advantageous at early stages. Capacities to use amino acids as expressed by glutamate dehydrogenase (GDH) activities were lower in the liver of fast-growing fish (13-20%), whereas white muscle of fast-growing fish showed higher activities than that of slow-growing fish for amino acid metabolism and aerobic capacity [22-32% increase for citrate synthase (CS), aspartate aminotransferase (AAT) and GDH]. The generally higher glycolytic capacities (PK and LDH) in white muscle of fast-growing fish indicated higher burst swimming capacities and hence better access to food.
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PMID:Digestive capacities, inbreeding and growth capacities in juvenile Arctic charr Salvelinus alpinus. 2073 17


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