Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.14 (ATP synthase)
 7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

F1-ATPase is the major enzyme for ATP synthesis, and its beta subunit is the catalytic site. To date, no full-length cDNA for the eukaryotic F1 gene has been reported. Human F1 was studied because of its importance in medicine and cell biology. Here we report molecular cloning of a full-length cDNA for the human F1 beta subunit and purification of the human F1 beta subunit. The HeLa cell cDNA library constructed in an expression vector gamma gt11 was screened with antiserum against the yeast F1 beta subunit. One of the positive phage DNAs containing the human F1 beta gene and its flanking regions (1.8 kilobase pairs) was sequenced by the dideoxy chain termination method. The open reading frame started from a putative signal presequence, which was rich in both serine and arginine. There was a homologous segment in the signal presequence of human ornithine transcarbamoylase and that of F1 beta. The precursor of F1 beta was expressed in E. coli harboring a plasmid which had been constructed with T5 promotor and the F1 beta cDNA. Both the precursor and mature form of F1 beta were detected in HeLa cells in a pulse-chase experiment. The amino acid sequence of 480 residues (51,568.3 daltons) following the presequence was highly homologous with that of mature beef heart F1 beta (97.5%) and E. coli F1 beta (71.7%), but the codon usage in the human gene was very different from those of reported genes coding for F1 beta of other species.
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PMID:Human F1-ATPase: molecular cloning of cDNA for the beta subunit. 287 59

We have measured the uptake of arginine into vacuolar membrane vesicles from Neurospora crassa. Arginine transport was found to be dependent on ATP hydrolysis, Mg2+, time, and vesicle protein with transported arginine remaining unmodified after entry into the vesicles. The Mg2+ concentration required for optimal arginine transport varied with the ATP concentration so that maximal transport occurred when the MgATP2- concentration was at a maximum and the concentrations of free ATP and Mg2+ were at a minimum. Arginine transport exhibited Michaelis-Menten kinetics when the arginine concentration was varied (Km = 0.4 mM). In contrast, arginine transport did not follow Michaelis-Menten kinetics when the MgATP2-concentration was varied (S0.5 = 0.12 mM). There was no inhibition of arginine transport when glutamine, ornithine, or lysine were included in the assay mixture. In contrast, arginine transport was inhibited 43% when D-arginine was present at a concentration 16-fold higher than that of L-arginine. Measurements of the internal vesicle volume established that arginine is concentrated 14-fold relative to the external concentration. Arginine transport was inhibited by dicyclohexylcarbodiimide, carbonyl cyanide m-chlorophenyl-hydrazone, and potassium nitrate (an inhibitor of vacuolar ATPase activity). Inhibitors of the plasma membrane or mitochondrial ATPase such as sodium vanadate or sodium azide did not affect arginine transport activity. In addition, arginine transport had a nucleoside triphosphate specificity similar to that of the vacuolar ATPase. These results suggest that arginine transport is dependent on vacuolar ATPase activity and an intact proton channel and proton gradient.
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PMID:The properties of arginine transport in vacuolar membrane vesicles of Neurospora crassa. 294 21

The effect of ATP synthesis on delta mu H in rat liver mitochondria has been analyzed by separating the steps of adenine nucleotide translocation and ATP synthesis in the matrix. Either exchange of ATP, synthesized by substrate level phosphorylation in the matrix of oligomycin-treated mitochondria, for external ADP, or activity of the membrane-bound ATP synthase complex results in delta mu H depression with respect to resting state levels. This depression appears to be more pronounced, under strictly comparable conditions, when arsenate is used to stimulate ATP synthase activity than when the ornithine-citrulline conversion reaction is used for the same purpose.
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PMID:Studies on the relationship between ATP synthesis and transport and the proton electrochemical gradient in rat liver mitochondria. 621 98

The energetics of flux through carbamyl phosphate synthetase and of citrulline formation from added ammonia, bicarbonate, and ornithine have been investigated in liver mitochondria from rats fed a high protein diet. In the presence of an oxidizable substrate, but in the absence of ornithine, carbamyl phosphate accumulated as a function of the medium phosphate concentration (K'm approximately 1.5 mM) up to values of 30 nmol/mg of protein. Upon addition of ornithine, citrulline was produced at the rate of 70 nmol/mg/min, and the carbamyl phosphate content fell to below 1 nmol/mg. The intramitochondrial ATP/ADP ratio decreased after ornithine addition, indicating that release of inhibition of carbamyl phosphate synthetase by carbamyl phosphate predominated over the expected inhibition due to the fall of the ATP/ADP ratio. Under partially uncoupled conditions in the presence of ornithine, citrulline formation decreased linearly with a fall of the calculated intramitochondrial MgATP/MgADP ratio. Changes of the thermodynamic parameters of mitochondrial phosphorylation potential, delta Gp(m), proton electrochemical gradient, delta mu H+, and oxidation-reduction potential difference between NAD+ and cytochrome c, delta Eh, were measured under conditions of enhanced respiration induced by citrulline synthesis and compared with ADP-stimulated respiration. Under both conditions, delta Gp(m) decreased and delta Eh also decreased due to a net oxidation of NADH and reduction of cytochrome c. However, delta mu H+ showed no change after citrulline addition although it decreased during ADP-stimulated respiration. The average H+/2e stoichiometry over the first two phosphorylation sites calculated from the delta Eh/delta mu H+ ratio ranged from 3.0 to 3.5, while the H+/ATP stoichiometry calculated from the delta Gp(m)/delta mu H+ ratio ranged from 2.0 to 2.5. The calculated ratios of H+/2e and H+/ATP both increased as delta mu H+ was lowered by addition of an uncoupling agent. The overall data are apparently not in accordance with the commonly held view that delta mu H+ is an obligatory intermediate between the oxidation-reduction pumps of the respiratory chain and ATP synthase.
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PMID:Energetics of citrulline synthesis by rat liver mitochondria. 725 98