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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In vitro biochemical characteristics of three strains of Haemonchus contortus, benzimidazole-susceptible, mebendazole-resistant and thiabendazole-resistant isolates, were investigated. Steady-state pool sizes of glucose and metabolic intermediates, including adenine nucleotides and end-products revealed no differences between adult worms resistant or susceptible to benzimidazoles in 30-60 min incubations. Possible regulatory steps in the glycolytic pathway are identified as those involving the enzymes hexokinase, phosphofructokinase and pyruvate kinase. The major component of carbohydrate reserves was trehalose, some glycogen was present and the glucose pool was small. On incubation for 18 h in vitro, carbohydrates were metabolised in all three strains. However, in the benzimidazole-susceptible worms there was a preferential use of the glycogen reserves to maintain energy metabolism. All three strains had similar levels of total lipid, total protein and free amino acid and these did not change on incubation. The major products found in the medium on incubation, in vitro, for 18 h were propionate, acetate and propanol, with smaller amounts of ethanol, lactate and malate. All three strains produced a similar sum total of end-products; however, in the mebendazole-resistant strain there appeared to be a diversion of carbon flow to the ethanol-producing pathway. Carbon dioxide production in 60 min incubations was measured using radioactively labelled glucose. A greater output of labelled CO2 was noted under aerobic than anaerobic conditions. This was particularly true of the mebendazole-resistant strain and, in this strain, was sensitive to cyanide. The extent to which metabolic differences noted in the three strains may be related to benzimidazole resistance is not readily apparent.
Mol Biochem Parasitol 1984 Mar
PMID:Energy metabolism of adult Haemonchus contortus in vitro: a comparison of benzimidazole-susceptible and -resistant strains. 642 5

The synthesis of purines and pyrimidines using Oparin-Urey-type primitive Earth atmospheres has been demonstrated by reacting methane, ethane, and ammonia in electrical discharges. Adenine, guanine, 4-aminoimidazole-5-carboxamide (AICA), and isocytosine have been identified by UV spectrometry and paper chromatography as the products of the reaction. The total yields of the identified heterocyclic compounds are 0.0023%. It is concluded that adenine synthesis occurs at a much lower concentration of hydrogen cyanide than has been shown by earlier studies. Pathways for the synthesis of purines from hydrogen cyanide are discussed, and a comparison of the heterocyclic compounds that have been identified in meteorites and in prebiotic reactions is presented.
J Mol Evol 1984
PMID:Abiotic synthesis of purines and other heterocyclic compounds by the action of electrical discharges. 644 61

The lysis gene region of bacteriophage lambda, including genes S, R, and Rz, was cloned into the plasmid pBH20. In the recombinant plasmid, the lysis genes are expressed under the control of the lacOP region. Induction of this "lysis operon" with the lac inducer, IPTG, under conditions where transcription from the lacOP region is not subject to catabolite repression, results in a sharply defined lysis after 35 min. Premature lysis can be accomplished by cyanide, chloramphenicol, or chloroform, exactly as in bacteriophage lambda infected cells. The lysis gene region of an S- mutant was also cloned into pBH20. Induction of the S- lysis operon has no apparent effect on culture growth; however, large quantities of bacteriolytic activity accumulate intracellularly. Neither cyanide nor chloramphenicol causes lysis in the induced S- clones. Thus premature lysis appears to be entirely an S-dependent phenomenon. A model for the control of lysis in bacteriophage lambda infections is presented in which it is the accumulation of the S gene product in competition with a host "anti-S" protein that determines lysis timing.
Mol Gen Genet 1981
PMID:Cell lysis by induction of cloned lambda lysis genes. 645 37

The effects of inhibition of oxidative phosphorylation by 1 mM cyanide (CN) and of glycolysis by 20 mM 2-deoxyglucose (2DG) on contraction and relaxation of cultured monolayers of chick embryo heart cells were determined. Exposure to these agents first induced a gradual decline in contractility and a transient impairment of relaxation. Spontaneous beating then ceased, associated with increased relaxation, followed by a marked and prolonged contracture. This contracture was completely reversible after washout of metabolic inhibitors. The effects of calcium flux inhibitors on the time course of development of contracture were studied. Verapamil, which inhibits Ca influx via the slow Ca channel, delayed the onset of contracture when used in pretreatment, but had no effect if added to cultures after exposure to CN + 2DG. Lanthanum, which inhibits Ca influx both via the slow Ca channel and via Na-Ca exchange, delayed onset of contracture if added after exposure to CN and 2DG, but accelerated contracture if added prior to treatment with CN + 2DG. Cellular exchangeable calcium content, measured after exposure to CN and 2DG for the same time period that produced contracture, was reduced compared to the control level while unidirectional Ca influx rate was not measurably altered. Exchangeable Ca content was unaffected by pretreatment with verapamil and La, but was reduced if cells were exposed to La after metabolic inhibition. These findings suggest that after metabolic inhibition intracellular storage capacity for Ca+ is reduced in cultured heart cells. Ca influx via the slow Ca channel after metabolic inhibition does not appear to contribute to development of contracture in this model system. However, Ca entry via Na-Ca exchange may accelerate cellular contracture developing after metabolic inhibition of ATP production.
J Mol Cell Cardiol 1984 Sep
PMID:Effects of calcium flux inhibitors on contracture and calcium content during inhibition of high energy phosphate production in cultured heart cells. 649 73

Schistosoma mansoni was studied by biochemical and electrophysiological techniques to follow the physiological changes occurring during transformation in the mammalian host. Volume conducted electrical potentials and measurement of CO2 evolution indicate that 3 h post-transformational schistosomula are highly sensitive to cyanide. By 24 h after transformation, evolution of CO2 under control conditions is reduced by 77% from 3 h levels, while lactate excretion rises by 84%. Cyanide does not affect the frequency or magnitude of endogenous electrical transients, but does eliminate 83% of the already reduced levels of CO2 evolved in 24 schistosomula. Electrophysiological analyses indicate that the timecourse of metabolic changes in skin- and mechanically transformed schistosomula are similar, and incubation of schistosomula in 200 micrograms ml-1 puromycin does not alter the onset of cyanide insensitivity. The adult parasite evolves a low level of CO2 which is reduced by 88% in the presence of 1 mM cyanide. No significant Pasteur effect is detected, however, and endogenous electrical activity as well as mechanical responses of the adult musculature are unaffected by cyanide exposure. Our results indicate that schistosomula continue to rely on cyanide-sensitive respiratory components for at least 3 h after transformation; by 24 h, however, the parasites are metabolically similar to the adult stage, i.e., they depend on lactate fermentation for most of their energy requirements.
Mol Biochem Parasitol 1984 Sep
PMID:Changes in glucose metabolism and cyanide sensitivity in Schistosoma mansoni during development. 651 87

The early electrophysiological and mechanical effects of metabolic inhibition of high energy phosphate production were studied in cultured chick embryo heart cells. Selective inhibition of either glycolysis by 2-deoxyglucose in the presence of acetate or of oxidative phosphorylation by cyanide showed different effects. 2-deoxyglucose induced pronounced reduction in maximal diastolic potential and prolongation of excitation contraction delay, with only a moderate decrease of contractility and with only minimal changes in action potential duration. Cyanide, on the other hand, induced a profound negative inotropic effect and caused slowing of relaxation, shortening of action potential duration, a decrease in the upstroke of the action potential, and only a moderate decrease in the diastolic membrane potential. Exposure to 2-deoxyglucose and cyanide combined produced effects consistent with inhibition of both metabolic pathways. These observations are consistent with the hypothesis that these two metabolic pathways may have specific roles in fueling several energy-demanding functions of the myocardial cell.
J Mol Cell Cardiol 1984 Nov
PMID:Electrophysiologic and mechanical effects of metabolic inhibition of high-energy phosphate production in cultured chick embryo ventricular cells. 652 Aug 73

Soret-excited resonance Raman spectroscopy yields direct information regarding the iron-carbon bonding interactions in the cyanomet and carbonmonoxy complexes of hemoglobin III from Chironomus thummi thummi (CTT III) in solution. By isotope exchange in cyanide (13CN-, C15N-, and 13C15N-) and carbon monoxide (13CO, C18O, and 13C18O), we have assigned the Fe(III)-CN- stretching at 453 cm-1, the Fe(III)-C-N- bending at 412 cm-1, the Fe(II)-CO stretching at 500 cm-1, the Fe(II)-C-O bending at 574 cm-1, and the C-O stretching at 1960 cm-1. The resonance Raman data, in conjunction with those obtained from heme model complexes with well-known Fe-C bond distances, strongly suggest that the Fe(III)-CN- bond (approximately 1.91 A) is longer (hence weaker) than the Fe(II)-CO bond (approximately 1.80 A). This result disagrees with those of x-ray crystallographic studies [Steigemann, W. & Weber, E. (1979) J. Mol. Biol. 127, 309-338] in which the Fe-C bond lengths were reported as 2.2 A in cyanomet and 2.4 A in carbonmonoxy CTT III. Based on Badger's rule and normal mode calculations, the x-ray data would lead to the prediction of 279 cm-1 for the Fe(II)-CO stretching frequency in CTT III . CO, which was not observed. On the other hand, we estimate the Fe-CO bond as approximately equal to 1.82 A, which is very similar to the 1.80-A value in human Hb . CO crystals. Furthermore, we have used isotope shift data to estimate the Fe-C-O angle as 169 +/- 5 degrees, somewhat larger than the 161 degrees value found by Steigemann and Weber. We therefore conclude that there must be errors in the x-ray crystallographic refinement for the ligand geometry in carbonmonoxy and cyanomet CTT III.
 ...
PMID:Iron-carbon bond lengths in carbonmonoxy and cyanomet complexes of the monomeric hemoglobin III from Chironomus thummi thummi: a critical comparison between resonance Raman and x-ray diffraction studies. 659 Nov 80

Assimilatory nitrate reductase (NAD(P)H-nitrate oxidoreductase, EC 1.6.6.2) from the green alga Ankistrodesmus braunii can be purified to homogeneity by dye-ligand chromatography on blue-Sepharose. The purified enzyme, whose turnover number is 623 s-1, presents an optimum pH of 7.5 and Km values of 13 microM, 23 microM and 0.15 mM for NADH, NADPH and nitrate, respectively. The NADH-nitrate reductase activity exhibits an iso ping pong bi bi kinetic mechanism. The molecular weight of the native nitrate reductase is 467 400, while that of its subunits is 58 750. These values suggest an octameric structure for the enzyme, which has been confirmed by electron microscopy. As deduced from spectrophotometric and fluorimetric studies, the enzyme contains FAD and cytochrome b-557 as prosthetic groups. FAD is not covalently bound to the protein and is easily dissociated in diluted solutions from the enzyme. Its apparent Km value is 4 nM, indicative of a high affinity of the enzyme for FAD. The results of the quantitative analyses of prosthetic groups indicate that nitrate reductase contains four molecules of flavin, four heme irons, and two atoms of molybdenum. The three components act sequentially transferring electrons from reduced pyridine nucleotides to nitrate, thus forming a short electron transport chain along the protein. A mechanism is proposed for the redox interconversion of the nitrate reductase activity. Inactivation seems to occur by formation of a stable complex of reduced enzyme with cyanide or superoxide, while reactivation is a consequence of reoxidation of the inactive enzyme. Both reactions imply the transfer of only one electron.
Mol Cell Biochem 1983
PMID:Assimilatory nitrate reductase from the green alga Ankistrodesmus braunii. 668 79

The regulation of the resting intracellular ionized calcium concentration [( Ca2+]i) has been studied in ferret papillary muscle using the photoprotein aequorin to measure [Ca2+]i. Elevating [Ca2+]o produced an initial rapid increase of [Ca2+]i and tension which then decayed to a steady level. This secondary fall of [Ca2+]i is attributed to a secondary decrease of Ca entry on Na-Ca exchange produced by the known fall of [Na+]i. Replacing external Na by K produced a large transient increase of both [Ca2+]i and tension which then decayed spontaneously to near the resting level. If Na was removed after metabolic inhibition with cyanide and deoxyglucose then neither tension nor [Ca2+]i recovered. The addition of the mitochondrial uncoupler FCCP to a muscle in Na-free solution produced a gradual rise of tension but only elevated [Ca2+]i after a delay of many minutes. Similarly caffeine did not elevate [Ca2+]i. These experiments do not support the hypothesis that the regulation of resting [Ca2+]i in Na-free solutions depends solely on intracellular sequestration of [Ca2+]i. The first twitch elicited in Na-containing solutions after exposure to Na-free solution was much larger than control and was associated with a large Ca transient attributed to increased loading of the sarcoplasmic reticulum with Ca in the Na-free solution. The elevation of [Ca2+]i in Na-free solutions was accompanied by spontaneous fluctuations of both [Ca2+]i and tension with a frequency of about 3 Hz. These fluctuations were abolished by drugs such as caffeine or ryanodine which interfere with sarcoplasmic reticulum function. These results provide direct evidence for the spontaneous release of Ca from the sarcoplasmic reticulum inferred from previous, less direct, work.
J Mol Cell Cardiol 1984 Feb
PMID:Control of intracellular ionized calcium concentration by sarcolemmal and intracellular mechanisms. 671 90

Dialysed extracts of Tritrichomonas foetus were found to have superoxide dismutase at substantially higher levels than those found in trypanosomatids and mouse red blood cells. The activity was sensitive to inhibition by H2O2 but not by cyanide, suggesting that this organism has iron-containing superoxide dismutase(s). Three isozymes were seen by isoelectric focusing which appeared to be sensitive to inhibition by H2O2.
Mol Biochem Parasitol 1984 May
PMID:An iron-containing superoxide dismutase in Tritrichomonas foetus. 674 88


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