EC:3.4.15.1 - FACTA Search

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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

For the application of restriction endonuclease analysis in typing and identifying leptospira, we selected some serovars and isolates, and analysed preliminarily their DNA with four restriction enzymes, EcoR I, Bgl II, Hha I, and Hind III. The DNA samples were isolated from the reference strains and isolates as follows: Serovar lai 56601, 017 (the virulent strain for PDH model of guinea pig), Serovar autumnalis 56606, Serovar manhao II 67020, and isolates 87112 and 87369. Each 2 micrograms of DNA was digested with 20mu of restriction enzyme at 37 degrees C for 2h and electrophoresed in 0.8% agarose gel. The gels were stained in ethidium bromide and photographed with UV light. In our experiments, apparently different restriction patterns of serovar lai 017 were observed with four restriction enzymes. Serovar lai, serovar autumnalis and serovar manhao II showed different patterns with EcoR I, especially in high molecular regions. We also observed in serovar lai 017 a distinct 10.5kb band which was obscure in 56601, the reference strain of serovar lai, after EcoR I digestion. The three serovars showed some delicate differences in Hind III restriction pattern. The two isolates from Apodemus agrarius in Sichuan (1987) 87112 and 87369 had patterns identical to those of serovar lai 56601, 017 with EcoR I, and 87112 also had a pattern identical to 56601, 017 with Hind III. Our results indicate that selected three serovars can be identified by analysis of their DNA with EcoR I and Hind III. It is suggested that restriction endonuclease analysis be a good method in typing and identify leptospira and in studying the differences of special DNA molecules.
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PMID:[Analysis of leptospiral deoxyribonucleic acids by restriction endonucleases]. 166 Aug 46

Antibodies to the mitochondrial autoantigen M2, characteristic of the autoimmune liver disease primary biliary cirrhosis (PBC), react with the E2 subunit of the pyruvate dehydrogenase enzyme (PDH-E2). We examined the effect of disease sera on the enzyme activation catalysed by the PDH complex. Inhibition of enzyme activity was observed in 19 of 24 sera of patients with PBC with a level of greater than 90% inhibition in 14 at a serum dilution of 1/50. The onset of inhibition by serum was rapid, within the time of mixing, and the inhibitory activity was shown to reside in the immunoglobulin fraction of the serum. The immunoglobulin fraction of control sera from patients with other liver diseases (n = 26) and healthy persons (n = 8) failed to produce inhibitory activity. In addition sera from four rabbits, intensively immunized with a recombinant human M2 autoantigen, gave anti-M2 reactions by fluorescence, ELISA and immunoblotting, but did not inhibit the activity of PDH. The failure of experimentally induced M2 antibodies in rabbits to inhibit is interesting in view of the reactivity of the natural M2 autoantibodies of PBC with the highly conserved site on the enzyme which carries the essential lipoic acid cofactor.
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PMID:Inhibition of enzyme function by human autoantibodies to an autoantigen pyruvate dehydrogenase E2: different epitope for spontaneous human and induced rabbit autoantibodies. 169 Oct 62

Some histochemical changes in adult C. sinensis collected from rats infected artificially and treated with pyquiton were observed. 1 h after administration the glycogen content showed a slight decrease which became prominent 24h later and almost disappeared at 48h post-medication. There was an increase in protein content in the parenchymal tissues of worms 1h after treatment, especially in the reproductive organ 24h after treatment. RNA content was decreased 1h post administration and continued decreasing gradually so that very little could be seen 48h later. An increase in the activities of SDH, MDH and Ca-ATPase was seen at the beginning and became marked 24h after medication, while that for G-6-PDH was detected 48h after drug administration. No obvious changes in DNA, lipid, AKP, ACP and phenolase were detected within 1-48h after treatment.
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PMID:[Histochemical changes in Clonorchis sinensis after pyquiton treatment]. 169 37

Antisera against a variety of vertebrate and invertebrate neuropeptides were used to map cerebral neurosecretory cells in the sphinx moth Manduca sexta. Intense immunoreactive staining of distinct populations of neurosecretory cells was obtained with antisera against locust adipokinetic hormone, bovine pancreatic polypeptide, FMRFamide, molluscan small cardioactive peptide (SCPB), leucine-enkephalin, gastrin/cholecystokinin, and crustacean beta-pigment dispersing hormone (beta PDH). Other antisera revealed moderate to weak staining. Each type of neurosecretory cell is immunoreactive with at least one of the antisera tested, and most of these neurons can be identified anatomically. The staining patterns provide additional information on the organization of cerebral neurosecretory cells in M. sexta. Based upon anatomical and immunocytochemical characteristics, 11 types of neurosecretory cells have been recognized in the brain, one type in the suboesophageal ganglion, and one in the corpus cardiacum. Extensive colocalization experiments show that many neurosecretory cells are immunoreactive with several different antisera. This raises the possibility that these cells may release mixtures of neuropeptides into the hemolymph, as has been demonstrated in certain other systems. The immunocytochemical data should be helpful in efforts to identify additional peptide neurohormones released from the brain of this and other insects.
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PMID:Peptide-immunocytochemistry of neurosecretory cells in the brain and retrocerebral complex of the sphinx moth Manduca sexta. 170 64

We have raised a monoclonal antibody (PBC-MoAb) directed against mitochondria which resembles patent anti-mitochondrial autoantibodies (AMA) (M2 type) in several respects. The reaction pattern of PBC-MoAb was characterized by western blot experiments, immunoaffinity purification and enzyme inhibition studies. PBC-MoAb reacts specifically with an epitope on the E2 subunit of pyruvate dehydrogenase (dihydrolipoamide acyltransferase) which is essential for enzymatic activity. This was shown as follows: (1) PBC-MoAb, like PBC-AMA, completely inhibited PDH enzyme activity and reacted weakly with OGDH; (2) PBC-MoAb bound strongly to the E2 subunit in western blots, with weaker binding to a doublet of about 56 kDa; and (3) in immunosorbent experiments, PBC-MoAb absorbed most (greater than 95%) of the AMA reactive material found in solubilized mitochondria. The present data together with earlier findings that the majority of PBC patient autoantibodies bind to epitopes defined by the PBC-MoAb, makes this antibody a valuable tool for characterizing the major PBC-associated epitope on PDH-E2 and localizing this epitope in liver tissue.
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PMID:Primary biliary cirrhosis (PBC): characterization of a monoclonal antibody (PBC-MoAb) having specificity identical with disease-associated autoantibodies. 171 Aug 22

Close to 95% of patients with established clinical, biochemical and histologic features of primary biliary cirrhosis (PBC) possess antimitochondrial M2 antibodies reacting with the E2 component, dihydrolipoamide acetyltransferase, of the pyruvate dehydrogenase complex. We examined the ability of synthetic peptides of E2 to be recognized in ELISA by sera from patients with PBC and autoimmune-related disorders. Sera from 14 PBC M2+ patients, 1 PBC M2- patient, 5 non-PBC M2+ patients, and 6 patients with chronic active hepatitis were studied. Among the seven E2 synthetic peptides tested (namely peptides 87-119, 167-184, 169-202, 267-302, 456-477, 498-513 and 530-543), only peptide 167-184 used as OVA conjugate and prepared with lipoic acid (LA) located on lysine 173 (natural inner lipoyl-binding site) was recognized in direct ELISA by PBC M2+ sera. The conjugated peptide 167-184 LA was not recognized in direct ELISA by non-PBC M2+ sera or by sera from patients with chronic active hepatitis. The free peptide 167-184 LA inhibited the ELISA reaction of PBC antibodies to PDH and totally abolished the typical immunofluorescence reaction of PBC sera on rat kidney, stomach and liver, or human HEp-2 cell substrates. No inhibition of ELISA or immunofluorescence reaction was found with the other E2 fragments including peptide 167-184 without LA. Our results show that the lipoyl moiety forms an integral part of a dominant conformational epitope recognized by PBC sera. Inasmuch as the peptide 167-184 LA was not recognized by non-PBC sera in direct ELISA, it could be used as a valuable probe for PBC diagnosis.
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PMID:A lipoyl synthetic octadecapeptide of dihydrolipoamide acetyltransferase specifically recognized by anti-M2 autoantibodies in primary biliary cirrhosis. 172 64

Porcine heart muscle pyruvate dehydrogenase (PDH, EC 1.2.4.1) with subunit composition alpha 2 beta 2 catalyzes the initial decarboxylation step of an oxidative decarboxylation sequence of pyruvate. Highly purified PDH, was further activated several-fold by limited digestion with trypsin, Staphylococcus aureus V8 proteinase (V8) or papain. The activation with these proteinases required about 10 min to attain a maximal level, lasted 1/2-2 h and thereafter decreased gradually. Addition of an inhibitor of each proteinase resulted in an immediate cessation of any further changes in the enzymatic activity. The optimal pH of the proteinase-activated PDH was not affected. Proteinases increased the maximum velocity and the apparent Km values for pyruvate, but the Hill coefficients for pyruvate were unchanged. Proteinase-activated PDH was capable of associating two other component enzymes to produce large unit resembling the native complex. The Coomassie brilliant blue stained gels after SDS-PAGE showed that the PDH alpha subunit (41 kDa) was cleaved by trypsin or V8 into two major fragments (31 and 10 kDa), whereas PDH beta was unaffected. By amino-terminal sequence analyses of these fragments the trypsin cleavage sites were identified as Arg-273 and Arg-282 and the V8 cleavage sites were Glu-277 and Glu-280.
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PMID:Proteinase-catalyzed activation of porcine heart muscle pyruvate dehydrogenase and identification of its cleavage site. 173 46

As a variety of eukaryotic cells age, the specific activity of glucose-6-phosphate dehydrogenase (Glu-6-PDH) declines as much as 50%. Because of the central role of this enzyme in metabolism, it is important to define factors responsible for this loss in enzyme activity. We report that Glu-6-PDH from Leuconostoc mesenteroides is rapidly inactivated by micromolar concentrations of Fe2+ and H2O2. Inactivation correlated with the formation of one carbonyl functionality/enzyme subunit, indicating that inactivation is the result of site-specific oxidative modification. Our results suggest that Fe2+ binds to the glucose 6-phosphate binding site and that interaction of the enzyme-bound Fe2+ with H2O2 leads to the oxidative modification of amino acids essential for enzyme activity. Partially inactivated enzyme remained predominantly in the dimeric form, and no change in the apparent affinity of the remaining active subunits for substrate was observed. Partial inactivation did, however, lead to a decrease in the thermal stability of the remaining activity. This decrease in thermal stability could be largely overcome by the addition of glucose 6-phosphate. Thus, although exposure to H2O2 and Fe2+ results in the irreversible inactivation of Glu-6-PDH, the resulting modification is selective, leads to the formation of heterodimers of both active and inactive subunits, and does not appear to cause large scale structural changes. Our results demonstrate the inherent susceptibility of Glu-6-PDH from L. mesenteroides to modification by an oxidation system known to exist in vivo. An assessment of the physiological significance of Fe(2+)-catalyzed oxidation of Glu-6-PDH awaits extension of these studies to mammalian sources known to accumulate less active or inactive forms of the enzyme as a function of age.
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PMID:Iron-catalyzed oxidative modification of glucose-6-phosphate dehydrogenase from Leuconostoc mesenteroides. Structural and functional changes. 173 65

In only 1 bee species (Tetragona clavipes) of 24 sampled in 145 colonies (0.69%) did we detect the presence of more than one allele for glycerol-3-phosphate dehydrogenase (EC 1.1.1.8), an enzyme that is involved in flight. In 34 colonies containing 9 wasp species, 5 colonies of only 2 species (Polybia paulista and P. sericea) showed variation in larval G-3-PDH (14.7%). The small amount of variation observed for the G-3-PDH-1 locus in the bee and wasp species analyzed in the present study agrees with that reported for the G-3-PDH system in other insects.
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PMID:Glycerol-3-phosphate dehydrogenase (G-3-PDH; EC 1.1.1.8) variation in Brazilian stingless bees and in wasp species. 177 96

Inhibition of glucose-6-phosphate dehydrogenase (G6-PDH) by dithranol (anthralin, CAS 480-22-8) has been studied in the presence of catalase, superoxide dismutase (SOD) and various scavengers of active oxygen species. Most scavengers were found to be either inhibitors of G6-PDH by themselves or simply without effect. The combined addition of catalase and SOD as well as the heat-denatured enzymes and the oxygen radical scavengers alpha-tocopherol and salicylic acid markedly reduced the inhibitory effect of dithranol. The direct exposure of G6-PDH to active oxygen species led to different results. When liberated from a water-soluble naphthalene endoperoxide, singlet oxygen was without effect whereas photosensitization with methylene blue resulted in a total loss of enzyme activity. Experiments under anaerobic conditions revealed that this inhibition was accomplished by the triplet state of the sensitizer. Superoxide anion radical was highly effective at concentrations corresponding to the amount of that produced by a 10 mumol/l dithranol solution. In contrast, hydroxyl, alkylperoxyl and alkoxyl radicals were all less efficient. H2O2 and alkylhydroperoxides did not alter the enzyme activity. The results suggest that .O2- is the potent species towards G6-PDH, if dithranol acts through formation of active oxygen species.
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PMID:Dithranol, glucose-6-phosphate dehydrogenase inhibition and active oxygen species. 181 Feb 65

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