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)

The catalytic sites of beef heart mitochondrial F1-ATPase were studied by electron spin echo envelope modulation (ESEEM) spectroscopy, using Mn(II) as a paramagnetic probe, which replaces the naturally occurring Mg(II), maintaining the enzyme catalytic activity. F1-ATPase was purified from beef heart mitochondria. A protein still containing three endogenous nucleotides, named MF1(1,2), is obtained under milder conditions, whereas a harsher treatment gives a fully depleted F1, named MF1(0,0). Several samples were prepared, loading MF1(0,0) or MF1(1,2) with Mn(II) or MnIIADP in both substoichiometric and excess amounts. When MF1(1,2) is loaded with Mn(II) in a 1:0.8 ratio, the FT-ESEEM spectrum shows evidence of a nitrogen interacting with the metal, while this interaction is not present in MF1(0,0) + Mn(II) in a 1:0.8 ratio. However, when MF1(0,0) is loaded with 2.4 Mn(II), the FT-ESEEM spectrum shows a metal-nitrogen interaction resembling that present in MF1(1,2) + Mn(II) in a 1:0.8 ratio. These results strongly support the role of the metal alone in shaping and structuring the catalytic sites of the enzyme. When substoichiometric ADP is added to MF1(1,2) preloaded with 0.8 equiv of Mn(II), the ESEEM spectra show evidence of a phosphorus nucleus coupled to the metal, indicating that the nucleotide phosphate binding to Mn(II) occurs in a catalytic site. Generally, 14N coordination to the metal is clearly identified in the ESEEM spectra of all the samples containing more than one metal equivalent. One point of note is that the relevant nitrogen-containing ligand(s), responsible for the signals in the ESEEM spectra, has not yet been identified in the available X-ray structures.
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PMID:Conformational role of the divalent metal in bovine heart mitochondrial F1-ATPase: an electron spin echo envelope modulation study. 1796 Sep 12

Melittin, a cationic, amphiphilic polypeptide, has been reported to inhibit the ATPase activity of the catalytic portions of the mitochondrial (MF1) and chloroplast (CF1) ATP synthases. Gledhill and Walker [J.R. Gledhill, J.E. Walker. Inhibition sites in F1-ATPase from bovine heart mitochondria, Biochem. J. 386 (2005) 591-598.] suggested that melittin bound to the same site on MF1 as IF1, the endogenous inhibitor polypeptide. We have studied the inhibition of the ATPase activity of CF1 and of F1 from Escherichia coli (ECF1) by melittin and the cationic detergent, cetyltrimethylammonium bromide (CTAB). The Ca2+- and Mg2+-ATPase activities of CF1 deficient in its inhibitory epsilon subunit (CF1-epsilon) are sensitive to inhibition by melittin and by CTAB. The inhibition of Ca2+-ATPase activity by CTAB is irreversible. The Ca2+-ATPase activity of F1 from E. coli (ECF1) is inhibited by melittin and the detergent, but Mg2+-ATPase activity is much less sensitive to both reagents. The addition of CTAB or melittin to a solution of CF1-epsilon or ECF1 caused a large increase in the fluorescence of the hydrophobic probe, N-phenyl-1-naphthylamine, indicating that the detergent and melittin cause at least partial dissociation of the enzymes. ATP partially protects CF1-epsilon from inhibition by CTAB. We also show that ATP can cause the aggregation of melittin. This result complicates the interpretation of experiments in which ATP is shown to protect enzyme activity from inhibition by melittin. It is concluded that melittin and CTAB cause at least partial dissociation of the alpha/beta heterohexamer.
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PMID:Inhibition of the ATPase activity of the catalytic portion of ATP synthases by cationic amphiphiles. 1829 42


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