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 membrane-bound coupling factor from Mycobacterium phlei was solubilized from membrane vesicles by washing with low ionic strength buffer or 0.25 M sucrose. The solubilized enzyme exhibited coupling factor, latent ATPase, and succinate oxidation-stimulating activity. Purification by affinity chromatography using Sepharose coupled to ADP yielded a homogeneous preparation of latent ATPase which was purified about 200-fold with an 84% yield in a single step. Purified latent ATPase exhibited coupling factor activity but no succinate oxidation-stimulating activity. The molecular weight of latent ATPase was determined to be 250,000 +/- 10,000 by Sephadex G-200 chromatography. The ATPase was unmasked by trypsin treatment and activated by Mg2+ ion. However, trypsin treatment inactivated the coupling factor activity in the purified enzyme, indicating that the catalytic sites for ATPase and coupling activity are different. Unlike mitochondrial ATPase, latent ATPase from M. phlei was not cold-labile. Of the nucleoside triphosphates, UTP, ITP, and epsilon-ATP (1-N6-ethenoadenosine triphosphate) were hydrolyzed to a lesser extent compared to ATP. Kinetic data showed that ADP acted as a competitive inhibitor of latent ATPase activity with a Ki of 5 x 10(-3) M. Uncouplers of oxidative phosphorylation and respiratory inhibitors did not affect the latent ATPase activity, while sodium azide (0.1 mM) inhibited the latent ATPase activity.
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PMID:Energy-transducing membrane-bound coupling factor-ATPase from Mycobacterium phlei. I. Purification, homogeneity, and properties. 12 54

The electron-transport particles from Mycobacterium phlei exhibit low levels of phosphorylation unless supplemented with soluble coupling proteins. Heat treatment of the electron transport particles for 15 min at 50 degrees C was found to result in a slight loss of oxidation and an activation of phosphorylation with NADH as substrate, while with succinate as substrate both activities increased. The heat-activated particles do not require the addition of soluble coupling factors and their level of oxidative phosphorylation is similar to that of the regular particles supplemented with the soluble coupling factors. In contrast to the lack of a requirement for the soluble coupling factors after heat activation, the heat-treated electron-transport particles require the presence of a particulate-bound coupling factor for phosphorylation. The heat-activated system, like the untreated system, was found to be sensitive to uncoupling agents.
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PMID:Effects of heat treatment of electron-transport particles on bacterial oxidative phosphorylation. 431 78

Electron transport particles prepared from Mycobacterium phlei were depleted of bound coupling factors by washing with water in the absence of inorganic ions. The depleted electron transport particles were void of latent ATPase activity and were capable of oxidation, but were unable to support coupled phosphorylation. Nevertheless, the depleted electron transport particles were capable of substrate-induced active transport of proline. Changes in pH in response to substrate oxidation were measured in normal and depleted electron particles with bromthymol blue. A bromthymol blue response upon substrate oxidation was not observed with depleted electron transport particles. The level of oxidative phosphorylation with succinate or NADH oxidation was not reduced in the presence of proline, and proline did not have an effect upon the proton gradients formed by the oxidation of either succinate or NADH.
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PMID:Relationship of a proton gradient to the active transport of proline with membrane vesicles from Mycobacterium phlei. 436 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.
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PMID:Studies on the mechanism of action of local anesthetics on proton translocating ATPase from Mycobacterium phlei. 623 Oct 50

The optimal pH range was from 7.0 to 7.5 in oxidative phosphorylation coupled to nitrate reduction. A cell-free extract of Escherichia coli showed weak myokinase activity. Oxidative phosphorylation coupled to nitrate reduction occurred with fractions of cell-free extracts of Mycobacterium avium. Soluble and particulate fractions separated from the cell-free extract of the organism were necessary for oxidative phosphorylation coupled to nitrate reduction. Each soluble fraction could be replaced by that obtained from another organism, e.g. Escherichia coli, Pseudomonas aeruginosa, and Mycobacterium avium. This suggests the existence of coupling factors common to these soluble fractions, and the possibility that the coupling factors are ATPase and components of the ATP-Pi exchange reaction. The P/NO3- ratio depended more on soluble fractions than on particulate fractions. Both phosphorylation and nitrate reduction activity were reduced by washing particulate fractions of Escherichia coli with 0.1 M KCl, while the P/NO3- ratio slightly increased.
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PMID:Oxidative phosphorylation coupled with nitrate respiration. IV. Replacement of soluble fraction from Escherichia coli, Pseudomonas aeruginosa and Mycobacterium avium. 677 36

We report that stationary phase Mycobacterium smegmatis is more sensitive than exponential phase cells to the nitric oxide donor S-Nitrosoglutathione (GSNO). This finding was used to select for both spontaneous and transposon mutants of M. smegmatis with increased resistance to GSNO in stationary phase. Some of these mutants were also defective in stationary phase survival, demonstrating a link between sensitivity to GSNO and stationary phase survival. Transduction of the disrupted region from seven selected mutants indicated that the transposon insertion was linked to the GSNO-resistance and stationary phase survival phenotypes. For five mutants, the disrupted genes were identified. Three were homologous to genes with possible roles in nutrient scavenging, including: (i) a putative amino acid efflux pump, (ii) a putative thioesterase and (iii) an enoyl-CoA-hydratase. One mutant was disrupted in the atpD gene, encoding the beta chain of F1 F0 ATP synthase. We independently isolated a stationary phase survival mutant disrupted in the atpA gene (encoding the alpha chain) of the F1 F0 ATP synthase of the same operon, suggesting an important role for efficient ATP synthesis in stationary phase survival.
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PMID:S-Nitrosoglutathione cytotoxicity to Mycobacterium smegmatis and its use to isolate stationary phase survival mutants. 1547 69

Protein profiles of Mycobacterium vanbaalenii PYR-1 grown in the presence of high-molecular-weight polycyclic aromatic hydrocarbons (HMW PAHs) were examined by two-dimensional gel electrophoresis (2-DE). Cultures of M. vanbaalenii PYR-1 were incubated with pyrene, pyrene-4,5-quinone (PQ), phenanthrene, anthracene, and fluoranthene. Soluble cellular protein fractions were analyzed and compared, using immobilized pH gradient (IPG) strips. More than 1000 gel-separated proteins were detected using a 2-DE analysis program within the window of isoelectric point (pI) 4-7 and a molecular mass range of 10-100 kDa. We observed variations in the protein composition showing the upregulation of multiple proteins for the five PAH treatments compared with the uninduced control sample. By N-terminal sequencing or mass spectrometry, we further analyzed the proteins separated by 2-DE. Due to the lack of genome sequence information for this species, protein identification provided an analytical challenge. Several PAH-induced proteins were identified including a catalase-peroxidase, a putative monooxygenase, a dioxygenase small subunit, a small subunit of naphthalene-inducible dioxygenase, and aldehyde dehydrogenase. We also identified proteins related to carbohydrate metabolism (enolase, 6-phosphogluconate dehydrogenase, indole-3-glycerol phosphate synthase, and fumarase), DNA translation (probable elongation factor Tsf), heat shock proteins, and energy production (ATP synthase). Many proteins from M. vanbaalenii PYR-1 showed similarity with protein sequences from M. tuberculosis and M. leprae. Some proteins were detected uniquely upon exposure to a specific PAH whereas others were common to more than one PAH, which indicates that induction triggers not only specific responses but a common response in this strain.
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PMID:Identification of proteins induced by polycyclic aromatic hydrocarbon in Mycobacterium vanbaalenii PYR-1 using two-dimensional polyacrylamide gel electrophoresis and de novo sequencing methods. 1554 Feb 8

The F(1)F(o)-ATP synthase plays an important role in a number of vital cellular processes in plants, animals, and microorganisms. In this study, we constructed a DeltaatpD mutant of Mycobacterium smegmatis and demonstrated that atpD encoding the beta subunit of the F(1)F(o)-ATP synthase is an essential gene in M. smegmatis during growth on nonfermentable and fermentable carbon sources.
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PMID:The F1Fo-ATP synthase of Mycobacterium smegmatis is essential for growth. 1599 21

The atpE gene encoding the subunit c of the ATP synthase of Mycobacterium tuberculosis, the target of the new diarylquinoline drug R207910, has been sequenced from in vitro mutants resistant to the drug. The previously reported mutation A63P and a new mutation, I66M, were found. The genetic diversity of atpE in 13 mycobacterial species was also investigated, revealing that the region involved in resistance to R207910 is conserved, except in Mycobacterium xenopi in which the highly conserved residue Ala63 is replaced by Met, a modification that may be associated with the natural resistance of M. xenopi to R207910.
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PMID:Genetic basis for natural and acquired resistance to the diarylquinoline R207910 in mycobacteria. 1687 Jul 85

We determined the global protein turnover profiles for Mycobacterium smegmatis under acid shock and iron starvation conditions using a simple (15)N isotope doping technique and a complete medium replacement method for chasing. We used a high-resolution hybrid-linear ion trap-Fourier transform mass spectrometer coupled with nanoliquid chromatography separation to measure protein turnover values for 151 proteins over a dynamic range of 3 orders of magnitude ranging from about 0.2 to 500. Of these 151 proteins, 31 had significant protein turnover changes (p <0.05) at both stress conditions and had protein turnover values increased or decreased by more than 2-fold under at least one stress condition. Protein turnover increased under acid shock for 28 of the 31 proteins but decreased under iron starvation for all the 31 proteins. Only two proteins had protein turnover lowered by more than 2-fold (p <0.05) under both stress conditions, including an ATP synthase F1 beta subunit (MSMEG4921; AtpD) and a catalase/peroxidase (MSMEG6346; KatG). KatG is required for in vivo activation of isoniazid to be bacterialcidal. Decrease of KatG protein turnover under both stress conditions supports the view that isoniazid may induce a dormancy program in mycobacteria, which in turn limits the efficacy of this drug against dormant subpopulation of mycobacteria. Thus, measuring protein turnover in stressed Mycobacterium cells has implications in understanding drug action and resistance mechanisms.
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PMID:Determination of global protein turnover in stressed mycobacterium cells using hybrid-linear ion trap-fourier transform mass spectrometry. 1808 50


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