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)

[32P]Azidonitrophenyl phosphate [( 32P]ANPP) is a photoactivatable analogue of Pi. It competes efficiently with Pi for binding to the F1 sector of beef heart mitochondrial ATPase and photolabels the Pi binding site located in the beta subunit of F1 [Lauquin, G. J. M., Pougeois, R., & Vignais, P. V. (1980) Biochemistry 19, 4620-4626]. By cleavage of the photolabeled beta subunit of F1 with cyanogen bromide, trypsin, and chymotrypsin, bound [32P]ANPP was localized in a fragment spanning Thr 299-Phe 326. By Edman degradation of the radiolabeled tryptic peptide spanning Ile 296-Arg 337, [32P]ANPP was found to be attached covalently by its photoreactive group to Ile 304, Gln 308, and Tyr 311. These results are discussed in terms of a model in which the phosphate group of [32P]ANPP interacts with a glycine-rich sequence of the beta subunit, spanning Gly 156-Lys 162, which is spatially close to the photolabeled Ile 304-Tyr 311 segment of the same subunit.
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PMID:Photolabeling of the phosphate binding site of mitochondrial F1-ATPase by [32P]azidonitrophenyl phosphate. Identification of the photolabeled amino acid residues. 252 9

Limited trypsin and chymotrypsin digestions were performed on the latent F1-ATPase from M. lysodeikticus, and subsequent analysis on SDS-polyacrylamide gels revealed subunit profiles with degraded alpha and delta subunits similar to those of ATPase preparations with spontaneously occurring lower degrees of latency. The ATPase obtained from M. lysodeikticus membranes after n-butanol extraction was also non-latent with similar SDS-gel patterns to the aforementioned ATPases. In addition, the sensitive technique of crossed immunoelectrophoresis was used to show that all of the above ATPases contained alpha, beta, gamma, delta and epsilon subunits but some of them were in degraded forms. Although the delta subunit was the first to be cleaved, the loss of latency can be attributed to the degradation of the alpha subunit.
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PMID:Subunit analysis of latent and non-latent F1-ATPase from Micrococcus lysodeikticus (luteus). 287 Apr 11

The exposure to trypsinolysis of subunits of F1F0-ATPase and of its F0 domain have been compared in everted inner membrane vesicles (submitochondrial particles) made from bovine mitochondria. Treatment of submitochondrial particles with guanidine hydrochloride removed the subunits of F1-ATPase and the oligomycin-sensitivity conferral protein (OSCP), and exposed sites that were occluded in the intact F1F0-ATPase complex. These sites were identified by purifying the subunits from the isolated F0 and F1F0-ATPase complexes before and after proteolysis of the vesicles, and by characterizing them by N-terminal sequencing and electrospray-ionization mass spectrometry. In the stripped vesicles, subunit F6 was completely digested away by either trypsin or chymotrypsin. Trypsin also cleaved subunit b, first at the bond arginine-166-glutamine-167, and then at the consecutive linkages, lysine-120-arginine-121 and arginine-121-histidine-122. Chymotrypsin-sensitive sites were observed after the adjacent methionines 164 and 165. Trypsin also removed amino acids 1-3 of subunit d, and minor cleavage sites were observed in subunit d between amino acids 24 and 25, in subunit g between amino acids 5 and 6, and after amino acid 40 in subunit e. The other subunits remained protected from proteolysis. In membrane-bound F1F0-ATPase, the N-terminus of subunit d was also accessible to trypsin, and subunit e was more susceptible to proteolysis than in F0. Otherwise the F0 subunits and the OSCP were protected. Subunits alpha and beta were cleaved by trypsin at the same sites in their N-terminal regions as in purified F1-ATPase. The trypsinized F0 was incapable of binding F1-ATPase in the presence of the OSCP. These experiments and in vitro re-assembly experiments described elsewehere, that were guided by the results of the proteolysis experiments, have helped to establish a central role for subunit b in the formation of the stalk connecting the F1 and F0 domains of the F1F0-ATPase complex.
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PMID:ATP synthase from bovine heart mitochondria: identification by proteolysis of sites in F0 exposed by removal of F1 and the oligomycin-sensitivity conferral protein. 798 Apr 27

In earlier work, we [McCormick, K. A., et al. (1993) J. Biol. Chem. 268, 24683-24691] observed that mutations at Ala-79 of the b subunit affect assembly of F1F0 ATP synthase. Polypeptides modeled on the soluble portion of the b subunit (bsol) with substitutions at the position corresponding to Ala-79 have been used to investigate secondary structure and dimerization of the b subunit. Circular dichroism spectra and chymotrypsin digestion experiments suggested that the recombinant polypeptides with Ala-79 substitutions assumed conformations similar to the bsol polypeptide. However, cross-linking studies of the Ala-79 substitution bsol polypeptides revealed defects in dimerization. The efficiency of dimer formation appeared to be related to the capacity of the altered bsol polypeptides for competing with F1-ATPase for binding to F1-depleted membrane vesicles. Ala-79 substitution polypeptides displaying limited dimerization, such as bsol Ala-79-->Leu, were shown to elute with F1-ATPase during size exclusion chromatography, suggesting a specific interaction. Sedimentation equilibrium studies indicated that 8% of the bsol Ala-79-->Leu polypeptide was in the form of a 30.6 kDa dimer and 92% a 15.3 kDa monomer. When the dimer concentration of bsol Ala-79-->Leu was normalized to the concentration of bsol, both had virtually identical capacities for competing with F1-depleted membrane vesicles for binding F1-ATPase. The result indicated that the amount of dimer formed is directly proportional to its ability to bind F1-ATPase. This suggests that formation of the b subunit dimer may be a necessary step preceding F1-ATPase binding in the assembly of the enzyme complex.
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PMID:Formation of the b subunit dimer is necessary for interaction with F1-ATPase. 945 82