Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Novocaine
segregation zones in frog's erythrocytes, isolated by differential centrifugation, were shown to be ATPase active. The enzyme displays half of its maximum activity at 0.18 Mm ATP concentration to be inhibited by high concentrations of ATP. ATPase is activated by both Mg2+ and Ca2+ (in a lesser degree), with the maximum activity being at pH 7.5. A 5 minutes heating without the substrate results in decreasing the enzyme activity at 30 degrees, and in the total inhibition at 50 degrees C. Along with ATP, the enzyme can hydrolyse GTP and, in a lesser degree, ADP and sodium pyrophosphate. The ATPase activity is not effected with oligomycin (0.5-1.5 mkg/ml) or ouabaine (0.1 mM). Oligomycin in concentration 5 micrograms/ml induced non-specific inhibition of ATPase. Uncouplers, like 2,4-dinitrophenol and carbonyl cyanid p-trifluorometoxyphenylhydrazone, stimulate the enzyme activity. The lack in the ATP-ase sensitivity to oligomycin (specific inhibitor of mitochondrial
F1-ATPase
) and ouabaine (specific inhibitor of Na+, K+-ATPase) may suggest that the ATPase activity of novocaine segregation zones in frog's erythrocytes is not associated with a random contamination with mitochondria or cytoplasmic membranes. The ATPase under study has much in common with the lysosomal +H-ATPase. The results obtained support a hypothesis that +H-ATPase may function as a course of protones for maintaining acidic medium in segregation zones and promote accumulation of weak bases by means of their protonation.
...
PMID:[ATPase activity of the novocaine segregation zones isolated from the erythrocytes of the common frog]. 298 28
We have measured the inhibitory potencies of local anesthetics (procaine, lidocaine, tetracaine and dibucaine) on ATP-mediated H+-translocation, Ca2+-transport and ATPase activity in membrane vesicles from Mycobacterium phlei.
Procaine
and lidocaine up to 1 mM concentration did not inhibit ATP-dependent H+-translocation, Ca2+-transport and ATPase activity. However, tetracaine and dibucaine at 0.2 mM concentration caused dissipation of the proton gradient, measured by the reversal of the quenching of fluorescence of quinacrine, and inhibition of active Ca2+-transport. Tetracaine (1 mM) inhibited membrane-bound ATPase activity without affecting solubilized
F1-ATPase
activity. Studies show that these local anesthetics do not prevent the inactivation of F0-F1 ATPase by dicyclohexylcarbodiimide (DCCD). Binding of [14C]DCCD to F0-proteolipid component remained unchanged in the presence of tetracaine indicating that DCCD and tetracaine do not share common binding sites on the F0-proteolipid sector. The inhibition of H+-translocation and membrane-bound ATPase activity by tetracaine was substantially additive in the presence of vanadate.
...
PMID:Studies on the mechanism of action of local anesthetics on proton translocating ATPase from Mycobacterium phlei. 623 Oct 50
