Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucose-6-phosphate dehydrogenase from Leuconostoc mesenteroides is inactivated by trypsin, chymotrypsin, pronase E, thermolysin, 4.0 M urea, and by heating to 49 degrees C. It is protected, to varying degrees, against all these forms of inactivation by glucose 6-phosphate, NAD+, and NADP+. When these ligands are present at 10 times their respective KD concentrations, protection by NAD+ or glucose 6-phosphate is substantially greater than protection by NADP+. A detailed analysis was undertaken of the protective effects of these ligands, at varying concentrations, on proteolysis of glucose-6-phosphate dehydrogenase by thermolysin. This study confirmed the above conclusion and permitted calculation of KD values for NAD+, NADP+, and glucose 6-phosphate that agree with such values determined by independent means. For NADP+, two KD values, 6.1 microM and 8.0 mM, can be derived, associated with protection against thermolysin by low and high NADP+ concentrations, respectively. The former value is in agreement with other determinations of KD and the latter value appears to represent binding of NADP+ to a second site which causes inhibition of catalysis. A Ki value of 10.5 mM for NADP+ was derived from inhibition studies. The principal conclusion from these studies is that NAD+ binding to L. mesenteroides glucose-6-phosphate dehydrogenase results in a larger global conformational change of the enzyme than does NADP+ binding. Presumably, a substantially larger proportion of the free energy of binding of NAD+, compared to NADP+, is used to alter the enzyme's conformation, as reflected in a much higher KD value. This may play an important role in enabling this dual nucleotide-specific dehydrogenase to accommodate either NAD+ or NADP+ at the same binding site.
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PMID:Glucose-6-phosphate dehydrogenase from Leuconostoc mesenteroides: ligand-induced conformational changes. 329 33

The ferredoxin was purified from the green alga, Chlamydomonas reinhardtii. The protein showed typical absorption and circular dichroism spectra of a [2Fe-2S] ferredoxin. When compared with spinach ferredoxin, the C. reinhardtii protein was less effective in the catalysis of NADP+ photoreduction, but its activity was higher in the light activation of C. reinhardtii malate dehydrogenase (NADP). The complete amino acid sequence was determined by automated Edman degradation of the whole protein and of peptides obtained by trypsin and chymotrypsin digestions and by CNBr cleavage. The protein consists of 94 residues, with Tyr at both NH2 and COOH termini. The positions of the four cysteines binding the two iron atoms are similar to those found in other [2Fe-2S] ferredoxins. The primary structure of C. reinhardtii ferredoxin showed a great homology (about 80%) with ferredoxins from two other green algae.
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PMID:Purification, properties and complete amino acid sequence of the ferredoxin from a green alga, Chlamydomonas reinhardtii. 335 5

Azospirillum brasilense glutamate synthase, a complex iron-sulfur flavoprotein, was subjected to limited proteolysis using trypsin and chymotrypsin, in the absence or presence of its substrates or their analogs. Time-dependent degradation of glutamate synthase alpha and beta subunits, to yield several fragments of different stability, was observed, the alpha subunit being more sensitive than the beta to proteolytic attack. The main sites of proteolytic cleavage were determined by densitometric analysis of the electrophoretic patterns obtained under denaturing conditions and by N-terminal sequencing of the major proteolytic products. These analyses showed that most of the peptide bonds sensitive to the proteases are clustered in two regions of the alpha subunit, outside the proposed substrate and cofactor binding regions of glutamate synthase [Pelanda, R., Vanoni, M. A., Perego, M., Piubelli, L., Galizzi, A., Curti, B. & Zanetti, G. (1993) J. Biol. Chem. 268, 3099-3106]. Therefore, these protease-sensitive sites can be identified as flexible loops, exposed to solvent, connecting adjacent domains of the protein. The presence of the enzyme substrates or their analogs caused significant changes in the proteolytic patterns. NADP+ protected the C-terminal region of glutamate synthase beta subunit from tryptic cleavage, supporting the proposal that it contains the pyridine-nucleotide-binding site. Furthermore, NADP+, and to a lesser extent the glutamine analog L-methionine sulfone, which binds presumably to the N-terminal region of the alpha subunit, altered the sensitivity to proteolysis of the sites of the alpha subunit proposed to be part of links between domains of glutamate synthase. These results show that long-range conformational changes of glutamate synthase occur on binding of its substrates. The study of several NADPH-dependent diaphorase activities of glutamate synthase was also undertaken in order to test if proteolytic fragments of the enzyme retained their ability to transfer electrons from NADPH to synthetic electron acceptors. Although proteolysis yielded partial loss of all enzyme NADPH-dependent reactions, the kinetic analysis showed that the rates of reduction of iodonitrotetrazolium, ferricyanide and dichlorophenolindophenol were at least twofold faster than the rate of the physiological glutamate synthase reaction. These results indicate that enzyme reduction and intramolecular electron transfer are not rate limiting during catalysis of the physiological glutamate synthase reaction.
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PMID:Interdomain loops and conformational changes of glutamate synthase as detected by limited proteolysis. 800 67

Photoaffinity labeling of ovine prolactin with the NAD+ photoaffinity analog [alpha-32P]nicotinamide-2-azidoadenine dinucleotide has been used to identify an NADH/NADPH binding site. Specificity of nucleotide interaction was demonstrated by saturation and protection of labeling at physiologically relevant concentrations. Saturation of photoinsertion was observed at approximately 100 microM probe with an apparent Kd of approximately 25 microM. Protection of photoinsertion was observed with NAD+ and NADH. The photoinsertion was decreased by 75% and greater than 95%, respectively, upon addition of 200 microM of the above-mentioned compounds. The protection obtained with NADP+ and NADPH was of the same order, respectively. The adenine ring binding domain of NADH/NADPH binding site was identified by trypsin and chymotrypsin digestion of the photolabeled prolactin and purification of the photolabeled peptide by boronate affinity chromatography and immobilized Fe3+ affinity chromatography. The peptide was identified to be Ala22-Tyr28. These studies demonstrate that prolactin contains an NADH/NADPH binding site which may be significant in the mechanism of action of this hormone.
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PMID:Identification and characterization of a nucleotide binding site of ovine prolactin with 2-azido-NAD. 832 98

Bovine lens aldose reductase (alditol: NADP+ oxidoreductase, EC 1.1.1.21) undergoes a modification induced by 2-mercaptoethanol in the presence of the redox system Fe(II)/Fe(III). The modified form (ARa) exhibits an increased hydrophobicity and tendency to aggregate. Moreover, while the native enzyme form is rather insensitive to proteolytic breakdown, the modified form is susceptible to limited proteolysis by trypsin and chymotrypsin. With both proteases, the degradation correlated with a loss of enzyme activity and results in the appearance of one molecular species of 26 KDa (for chymotrypsin) and two molecular species of 24 and 17 KDa (for trypsin). The decline in solubility and the increase in susceptibility to proteolysis of ARa suggests that the thiol-dependent metal-catalyzed modification is comparable to other oxidative systems that mark proteins for degradation.
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PMID:Thiol-dependent metal-catalyzed oxidation of bovine lens aldose reductase. II. Proteolytic susceptibility of the modified enzyme form. 842 76