Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Calf thymus histones (individually isolated or mixtures) and high mobility group proteins were ADP-ribosylated in vitro using [32P]NAD+ and immobilized purified poly(ADP-ribose) polymerase. The modified histones were then subjected to V8 protease or alpha-chymotrypsin digestion and the resulting peptides were separated by electrophoresis on acetic acid-urea-Triton gels. It was found that in vitro ADP-ribosylated histones were much more resistant to proteases than unmodified histones. A similar approach was applied to histones modified by the endogenous poly(ADP-ribose) polymerase in permeabilized NS-1 mouse myeloma cells in culture. In this case, the proteases could not discriminate between modified and unmodified histones and putative mono(ADP-ribosyl)ated peptides appeared in a digestion frame corresponding to that of bulk peptides. These differences are most probably due to the specificity or number of ADP-ribose groups added to the histones by the endogenous or exogenous poly(ADP-ribose) polymerase. Thus, depending on the size of poly(ADP-ribose) attached to nuclear proteins, these modified proteins might display different degrees of resistance to proteolysis.
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PMID:Resistance of ADP-ribosylated histones and HMG proteins to proteases. 129 46

Native rat liver methylmalonate semialdehyde dehydrogenase was proteolyzed by lysylendopeptidase C, chymotrypsin, and trypsin to generate different cleavage fragments of molecular masses: 50, 8, 55, 44, 39, 53, 45, and 40 kDa. A proteolytic cleavage map of MMSDH was constructed based on sequencing data and a comparison of appearance and degradation rates of the different protein fragments as shown by SDS-PAGE. NAD+ was highly effective as a protector against proteolysis in both the N-terminal and the C-terminal parts of the intact enzyme. NADH did not efficiently protect the intact enzyme; however, it stabilized proteolytic fragment L50 from further degradation. This suggests that the NAD(+)-binding domain is not destroyed by cleavage of the N-terminal part of MMSDH. CoA had no effect on the proteolytic cleavage patterns of MMSDH. However, CoA esters reduced the protective effect of NAD+ with an order of effectiveness of acetyl-CoA greater than propionyl-CoA greater than butyryl-CoA. p-Nitrophenyl acetate, substrate for esterase activity by the enzyme, partially prevented the protective effect of NAD+ against proteolysis. These results suggest that S-acylation of the enzyme prevents a stabilizing conformational change induced in MMSDH by NAD+ binding.
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PMID:The effect of ligand binding on the proteolytic pattern of methylmalonate semialdehyde dehydrogenase. 189 92

Monoclonal antibodies were developed against poly(ADP-ribose) polymerase and analyzed for their reactivity against the NAD+- and DNA-binding fragments. Two fusions were performed to obtain hybridomas and the resulting anti-poly(ADP-ribose) polymerase antibodies were further screened by characterization of their immunoglobulin light chains. Five different hybridomas were isolated which produced different immunoglobulin light chains, all of which were specific for poly(ADP-ribose) polymerase. The specificities of these antibodies were determined by immunoblotting against the purified poly(ADP-ribose) polymerase, its autodegradation fragments, and the fragments prepared by limited proteolysis with chymotrypsin and papain. These fragments have been suggested to contain the NAD+-binding site, the DNA-binding site, and the automodification site, respectively. All the monoclonal antibodies reacted with the 116 kdalton (kDa) band corresponding to the purified enzyme. Four antibodies reacted exclusively with antigenic site(s) on the 46-kDa fragment which contains the DNA-binding site. A fifth antibody reacted exclusively with a clearly different antigenic site on the 74- and 54-kDa fragments which possess the NAD+ (substrate) binding site. The immunoreactivity with the major autodegradation products (69- and 46-kDa fragments) of the purified enzyme confirms this difference between the two groups of antibodies. The 22-kDa fragment corresponding to the auto-modification site does not show any immunoreactivity with the antibodies.
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PMID:Production and characterization of monoclonal antibodies specific for the functional domains of poly(ADP-ribose) polymerase. 242 80

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

D-beta-Hydroxybutyrate dehydrogenase is a lipid-requiring enzyme which is localized on the inner face of the mitochondrial inner membrane. The apodehydrogenase, i.e. the purified enzyme devoid of lipid, has been purified from beef heart mitochondria and as such is inactive. It can be reactivated by insertion into phospholipid vesicles containing lecithin. Proteolytic digestion with different proteases has been carried out to obtain insight into the orientation of the enzyme in the membrane and to assess the extent of immersion of the protein into the phospholipid bilayer. Digestion of the apodehydrogenase with either trypsin, chymotrypsin, Staphylococcus aureus protease, thermolysin, carboxypeptidases A and Y, or Pronase (from Streptomyces griseus) leads to loss of activity, as assayed with phospholipid. Limited digestion with carboxypeptidase results in complete inactivation. Of the proteases tested, only Pronase and chymotrypsin cleave and inactivate the enzyme inserted into phospholipid vesicles (enzyme-phospholipid complex). For the enzyme-phospholipid complex, the loss of activity with Pronase digestion follows a single exponential decay to less than 10% of the initial activity. With chymotrypsin digestion, the staining intensity of the original approximately 31,500-dalton polypeptide decreases more rapidly than the loss of enzymic activity. The enzyme-phospholipid complex, after limited cleavage with chymotrypsin, retains enzymic activity and resonance energy transfer from protein to bound NADH and an approximately 26,000-dalton polypeptide is observed. Phospholipid alters the cleavage pattern with both chymotrypsin and Pronase, and the rate of inactivation of the enzyme-phospholipid complex is slowed in the presence of NAD(H). Moreover, the rate of inactivation of the apodehydrogenase with chymotrypsin is diminished approximately 3-fold in the presence of NAD+. Digestion of submitochondrial vesicles with either trypsin, chymotrypsin, or Pronase rapidly inactivates D-beta-hydroxybutyrate dehydrogenase; the addition of NAD+ or NADH, together with dithiothreitol and increased salt (to 50 mM), decreases the rate of inactivation, and with trypsin, virtually eliminates inactivation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Phospholipid protection against proteolysis of D-beta-hydroxybutyrate dehydrogenase, a lecithin-requiring enzyme. 388 38

Tryptic cleavage of EF-2, molecular mass 93 kDa, produced an 82-kDa polypeptide and a 10-kDa fragment, which was further degraded. By a slower reaction the 82-kDa polypeptide was gradually split into a 48-kDa and a 34-kDa fragment. Similarly, treatment with chymotrypsin resulted in the formation of an 82-kDa polypeptide and a small fragment. In contrast to the tryptic 82-kDa polypeptide the corresponding chymotryptic cleavage product was relatively resistant to further attack. The degradation of the 82-kDa polypeptide with either trypsin or chymotrypsin was facilitated by the presence of guanosine nucleotides, indicating a conformational shift in native EF-2 upon nucleotide binding. No effect was observed in the presence of ATP, indicating that the effect was specific for guanosine nucleotides. After affinity labelling of native EF-2 with oxidized [3H]GTP and subsequent trypsin treatment the radioactivity was recovered in the 48-kDa polypeptide showing that the GTP-binding site was located within this part of the factor. Correspondingly, tryptic degradation of EF-2 labelled with [14C]NAD+ in the presence of diphtheria toxin showed that the site of ADP-ribosylation was within the 34-kDa polypeptide. By cleavage with the tryptophan-specific reagent N-chlorosuccinimide the site of ADP-ribosylation could be located at a distance of 40-60 kDa from the GTP-binding site and about 4-11 kDa from the nearest terminus.
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PMID:Localization of the sites of ADP-ribosylation and GTP binding in the eukaryotic elongation factor EF-2. 398 90

Horse liver alcohol dehydrogenase is inactivated with Michaelis kinetics at pH 7 and 25 degrees C by 3-bromopropionic acid. In the absence of NAD+, the Ki is 2 mM, and the pseudo bimolecular rate constant (k3/Ki) is 0.03 M-1 s-1; in the presence of 1 mM NAD+, Ki is 2.3 mM, and k3/Ki is 0.006 M-1 s-1. 3-Bromopropionic acid is a competitive inhibitor, Ki of 0.4 mM, against ethanol as a substrate. Inactivation was prevented in the ternary complexes with NAD+ X pyrazole and NADH X isobutyramide, was retarded by NAD+, NADH, or bipyridine, and was almost unaffected by imidazole and AMP. Carboxyethylated enzyme did not detectably (as observed spectrophotometrically) bind bipyridine, NAD+, or NADH. Enzyme was inactivated with radioactive 3-bromopropionic acid, aminoethylated, and digested with trypsin and chymotrypsin. Analysis of the labeled peptides showed that Cys-174 was predominantly modified. In the presence of 1 mM NAD+, the reaction was much less specific. The interaction of the carboxyl group of 3-bromopropionic acid with the guanidino group of Arg-369 probably facilitates the selective reaction with Cys-174, which is ligated to the zinc at the active site. Carboxyethylation apparently inactivates by interfering with the proper binding of the pyrophosphate of the coenzyme to the enzyme.
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PMID:Inactivation of horse liver alcohol dehydrogenase by modification of cysteine residue 174 with 3-bromopropionic acid. 636 61

Incubating rat fat cell membranes with [32P]NAD+ and cholera toxin results in ADP-ribosylation of three distinct components with approximate molecular weights of 42,000, 46,000 and 48,000. Partial proteolytic peptide maps of the Mr = 46,000 and 48,000 toxin-specific substrates generated by elastase, alpha-chymotrypsin, or Staphylococcus aureus V-8 protease were nearly identical, while those of the Mr = 42,000 target lacked several peptides common to both of the larger molecular weight targets. In addition, peptide maps generated from the Mr = 42,000 target displayed a number of peptides which were absent from the maps generated from either the Mr = 46,000 or 48,000 targets. These data suggest that the Mr = 46,000 and 48,000 substrates are closely related proteins, however the relationship between the Mr = 42,000 toxin-specific substrate and the larger peptides remains to be established. The relative patterns of fat cell membrane labelling by cholera toxin in the presence of [32P]NAD+ were identical in hypothyroid as compared to euthyroid rat fat cells.
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PMID:Peptide mapping of fat cell membrane substrates for cholera toxin-catalyzed ADP-ribosylation. 705 12

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

Oxidation of many prostaglandins at C-15 results in the formation of 15-keto metabolites, which have reduced biological activity. This reaction is catalyzed by NAD(+)-dependent 15-hydroxyprostaglandin dehydrogenase. Using the photoaffinity analog of NAD+, [alpha-32P]nicotinamide-2-azidoadenine dinucleotide, we have identified a peptide in the adenine ring binding domain of the NAD+ binding site of 15-hydroxyprostaglandin dehydrogenase. The specificity of photolabeling was demonstrated by saturation and protection experiments. Saturation of photolabeling was observed at approximately 45-50 microM with an apparent Kd of 8-10 microM. Approximately 90% of photolabeling could be protected by 200 microM NAD+ when the protein was photolyzed in the presence of 10 microM probe. The photolabeled protein was digested with Staphylococcus aureus V8 or chymotrypsin, and the photolabeled peptides were purified by either boronate affinity chromatography or Fe+3 chelate chromatography followed by reverse phase HPLC. The photolabeled peptide region was identified to be Val32-Glu40.
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PMID:Photoaffinity labeling of human placental NAD(+)-linked 15-hydroxyprostaglandin dehydrogenase with [alpha-32P]2N3NAD+. Identification of a peptide in the adenine ring binding domain. 834 29


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