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)

Studies with a synthetic presequence peptide, F1 beta 1-20, corresponding to the NH2-terminal 20 amino acids of the F1-ATPase beta-subunit precursor (pF1 beta) show that although this peptide binds avidly to phospholipid bi-layers it does not efficiently compete for import of full-length precursor into mitochondria, Ki approximately 100 microM (Hoyt, D.W., Cyr, D.M., Gierasch, L.M., and Douglas, M.G. (1991) J. Biol. Chem. 266, 21693-21699). Herein we report that longer F1 beta presequence peptides F1 beta 1-32 + 2, F1 beta 1-32SQ + 2, and F1 beta 21-51 + 3 compete for mitochondrial import at 1000-, 250-, and 25-fold lower concentrations, respectively, than F1 beta 1-20. A longer peptide, F1 beta 1-51 + 3, was no more effective as an import competitor than F1 beta 1-32 + 2. Both minimal length and amphiphilic character appear required in order for F1 beta peptides to block mitochondrial import. Import competition by longer F1 beta peptides seems to occur at a step common to all precursors since they blocked import of precursors to F1-ATPase alpha- and beta-subunits and the ADP/ATP carrier protein. Dissipation of membrane potential (delta psi) across the inner mitochondrial membrane is observed in the presence of F1 beta-peptides, but this mechanism alone does not account for the observed import inhibition. F1 beta 1-32 + 2 and 21-51 + 3 block import of pF1 beta 100% at peptide concentrations which dissipate delta psi less than 25%. In contrast, experiments with valinomycin demonstrate that when mitochondrial delta psi is reduced 25% import of pF1 beta is inhibited only 25%. Therefore, at least 75% of maximal import inhibition observed in the presence of F1 beta 1-32 + 2 and F1 beta 21-51 + 3 does not result from dissipation of delta psi. Import inhibition by F1 beta-peptides is reversible and can be overcome by increasing the amount of full-length precursor in import reactions. F1 beta presequence peptides and full-length precursor are therefore likely to compete for a common import step. Presequence dependent binding of pF1 beta to trypsin-sensitive elements on the outer mitochondrial membrane is insensitive to inhibitory concentrations of F1 beta presequence peptide. We conclude that import inhibition by F1 beta presequence peptides is competitive and occurs at a site beyond initial interaction of precursor proteins with mitochondria.
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PMID:Early events in the transport of proteins into mitochondria. Import competition by a mitochondrial presequence. 183 61

The ADP/ATP carrier of beef heart mitochondria is able to bind 2-azido-[alpha-32P]ADP in the dark with a Kd value of congruent to 8 microM. 2-Azido ADP is not transported and it inhibits ADP transport and ADP binding. Photoirradiation of beef heart mitochondria with 2-azido-[alpha-32P]ADP results mainly in photolabeling of the ADP/ATP carrier protein; photolabeling is prevented by carboxyatractyloside, a specific inhibitor of ADP/ATP transport. Upon photoirradiation of inside-out submitochondrial particles with 2-azido-[alpha-32P]ADP, both the ADP/ATP carrier and the beta subunit of the membrane-bound F1-ATPase are covalently labeled. The binding specificity of 2-azido-[alpha-32P]ADP for the beta subunit of F1-ATPase is ascertained by prevention of photolabeling of isolated F1 by preincubation with an excess of ADP.
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PMID:Exploration of nucleotide binding sites in the mitochondrial membrane by 2-azido-[alpha-32P]ADP. 285 35

Thyroid hormone (T3) modulates the mRNA levels for cytochrome c and the adenine nucleotide translocator-2 (ANT2) in adult rat liver. Here we show that T3 activates expression of a reporter gene driven from the human cytochrome c1 and ANT2 promoters transfected into human choriocarcinoma JEG3 cells. By contrast, the human F1-ATPase beta-subunit promoter responded marginally, thus providing a pattern of differential expression similar to that earlier observed in rats in vivo. T3-activation is dependent on co-expression of the thyroid hormone receptor (TR alpha1). Co-expression of both the TR and RXR receptors had no additional effect. Transient transfection of deletion constructs showed that T3 activation is retained by the proximal regions of the cytochrome c1 and ANT2 promoters, and, in the case of cytochrome c1, is lost upon removal of a fragment containing the transcription initiator ((nucleotides) (nt) + 1 to + 100). The promoter regions supporting T3-activation of the reporter genes appear to lack strong DNA binding sites for TR and retinoid X receptor (RXR).
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PMID:Thyroid hormone activates transcription from the promoter regions of some human nuclear-encoded genes of the oxidative phosphorylation system. 914 77

To gain insight into the role of the general transcription factor, Sp1, in the expression of nuclear genes involved in mitochondrial biogenesis, we investigated Sp1 activation of the adenine nucleotide translocator 2, cytochrome c1, F1-ATPase beta subunit, and the mitochondria transcription factor (mtTFA) promoters transfected into Drosophila cell lines. The numbers and organization of GC elements vary in the four promoters, but the magnitude of activation by coexpressed human Sp1 was similar. A feature common to the four promoters is the presence of multiple, proximal Sp1-activating elements that account for 50% or more of the transcription activation by Sp1. The distribution and function of individual distal Sp1 elements is less defined and appear to be more promoter-specific. Finally, data from transfected Drosophila cells provide the first direct proof for the involvement of Sp1 in the negative regulation of the ANT2 promoter and as a possible participant in repression of the beta-subunit promoter. The role of Sp1 in both the positive and negative regulation of OXPHOS promoters is unique.
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PMID:On the role of the general transcription factor Sp1 in the activation and repression of diverse mammalian oxidative phosphorylation genes. 1044 39