EC:3.6.3.14 - FACTA Search

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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)

Ceroid lipofuscinosis protein (CLP), the major accumulating protein in several forms of ceroid lipofuscinosis, has an amino acid sequence that is identical to that of the F0 subunit c of normal bovine ATP synthase. Electrospray ionization mass spectrometry (ESI-MS) has shown that ovine CLP and normal bovine F0 subunit c are identical, including a 42 mass unit post-translational modification. Although the identity and the location of this modification have not been fully established in both species, CLP can be used as a convenient and a unique source of subunit c for studies of F0 inhibitor interactions by ESI-MS analysis. Analysis of mixtures of CLP incubated with several known F0 inhibitors showed that N, N'-dicyclohexylcarbodiimide and organotins bind covalently to CLP but interactions with oligomycin and venturicidin were not observed. The sulphydryl inhibitors, 2,3-dimethoxy-5-methyl-1,4,-benzoquinone (UQ0) and N-ethyl maleimide (NEM) were also shown to bind covalently to the protein. The binding stoichiometry and the relative rate of reaction were then determined for each inhibitor. Tandem mass spectrometry experiments performed on the [M+5H]5+ ion of the intact CLP and of the complexes UQ0-CLP and NEM-CLP allowed the identification of 80% of the CLP sequence and revealed that UQ0 and NEM are both bound to cysteine-64. This work shows the exceptional utility of ESI-MS in studies of the interaction of CLP with a range of inhibitors which are applicable to studies of the F0 component of ATP synthase.
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PMID:Use of electrospray ionization mass spectrometry and tandem mass spectrometry to study binding of F0 inhibitors to ceroid lipofuscinosis protein, a model system for subunit c of mitochondrial ATP synthase. 901 34

Thiobacillus ferrooxidans is one of the most important bacterium used in bioleaching, and can utilize Fe2+ or sulphide as energy source. Growth curves for Thiobacillus ferrooxidans have been tested, which show lag, logarithmic, stationary and aging phases as seen in other bacteria. The logarithmic phases were from 10 to 32 hours for Thiobacillus ferrooxidans cultivated with Fe2+ and from 4 to 12 days for Thiobacillus ferrooxidans cultivated with elemental sulphur. Differences of protein patterns of Thiobacillus ferrooxidans growing on elemental sulphur and Fe2+ separately were investigated after cultivation at 30 degrees C by the analysis of two-dimensional gel electrophoresis (2-DE), matrix-assisted laser desorption/ ionization (MALDI)-Mass spectrometry and ESI-MS/MS. From the 17 identified protein spots, 11 spots were found more abundant when growing on elemental sulphur. By contrast 6 protein spots were found decreased at elemental cultivation condition. Among the proteins identified, cytochrome C have been previously identified as necessary elements of electron-transferring pathway for Thiobacillus ferrooxidans to oxidize Fe2+; ATP synthase alpha chain and beta are expressed increased when Thiobacillus ferrooxidans cultivated with Fe2+ as energy source. ATP synthase Beta chain is the catalytic subunit, and ATP synthase alpha chain is a regulatory subunit. The function of ATPase produces ATP from ADP in the presence of a proton gradient across the membrane.
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PMID:Preliminary proteomic analysis of Thiobacillus ferrooxidans growing on elemental sulphur and Fe2+ separately. 1594 6

Nitrate as one of the two main nitrogen source compounds, acts also as a potent signal substance in plant growth and development. It is increasingly interesting to determine whether nitrate itself or the derived metabolites acts as a signal during the regulation. Rice seedlings were treated with different nitrogen forms (NO(-)(3) vs. NH(+)(4)) and total proteins extracted either from nitrate-fed or ammonium-fed leaves were separated by two-dimensional gel electrophoresis (2-DE), and then the differentially-expressed proteins were identified by MALDI-TOF-MS or ESI-Q-TOF-MS. Twenty-six proteins were up-regulated with NO(-)(3) as the nitrogen source while 6 were up-regulated with NH(+)(4) as the nitrogen source. MS analysis, in combination with database searching, allowed for only a total of 11 proteins identified with significant probability. Among them 7 nitrate-up-regulated proteins were identified, i.e., a PSII oxygen-evolving complex protein 1 (N1), a putative CC-NBS-LRR resistance protein MLA13 (N2), a 23-kD polypeptide of PSII (N3), a translation initiation factor eIF-5A (N5), a putative PSII oxygen-evolving complex protein 2 precursor (N8), an unknown protein (N17), and the ubiquitin carrier protein UBC7 (N18). Four ammonium-up-regulated proteins were identified as the ATP synthase beta subunit (A1), the putative aminotransferase (A3), a hypothetical protein (A5), and OSJNBb0032K15.22 (A6). These results give some new insights into both the biochemical adaptation of plant to different nitrogen forms (NO(-)(3)/NH(+)(4)) and the differences in responses signaled by NO(-)(3)/NH(+)(4) in rice.
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PMID:Differential expression of proteins in rice leaves cultivated with different forms of nitrogen nutrients. 1695 90

Myocardial ischemia-reperfusion injury can be related to complement activation with generation of chemotactic mediators, release of cytokines, leukocyte accumulation, and subsequent severe tissue injury. In this regard, activation of transcription factors (i.e., NFkappaB) and de novo protein synthesis or inflammatory protein degradation seems to play an important role. In the present study, we analyzed the cardiac protein expression following myocardial ischemia (60 min) and reperfusion (180 min) in a rabbit model utilizing two-dimensional electrophoresis and nanoHPLC/ESI-MS/MS for biochemical protein identification. To achieve cardioprotective effects, we used a novel highly selective small molecule C1s inhibitor administered 5 min prior to reperfusion. The reduction of myocardial injury was observed as diminished plasma creatine kinase activity in C1s-INH-248-treated animals (65.2+/-3 vs. 38.5+/-3 U/g protein after 3 h of reperfusion, P<0.05). With proteome analysis we were able to detect 509+/-21 protein spots on the gels of the 3 groups. A pattern of 480 spots with identical positions was found on every gel of myocardial tissue of sham animals, vehicle and C1s-INH-248-treated animals. We analyzed 11 spots, which were identified by mass spectrometry: Superoxide dismutase, alpha-crystallin-chain-B, mitochondrial stress protein, Mn SOD, ATP synthase A chain heart isoform, creatine kinase, and troponin T. All of these proteins were significantly decreased in the vehicle group when we compared to sham-treated animals. Treatment with C1s-INH-248 preserved levels of these proteins. Thus, blocking the classical complement pathway with a highly specific and potent synthetic inhibitor of the activated C1 complex archives cardio-protection by altering and preserving different anti-inflammatory and cytoprotective cascades.
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PMID:Proteome analysis of myocardial tissue following ischemia and reperfusion--effects of complement inhibition. 1704 55

The pathogenesis of severe acute respiratory syndrome coronavirus (SARS CoV) is an important issue for treatment and prevention of SARS. Previously, SARS CoV 3C-like protease (3CLpro) has been demonstrated to induce apoptosis via the activation of caspase-3 and caspase-9 (Lin, C. W., Lin, K. H., Hsieh, T. H., Shiu, S. Y. et al., FEMS Immunol. Med. Microbiol. 2006, 46, 375-380). In this study, proteome analysis of the human promonocyte HL-CZ cells expressing SARS CoV 3CLpro was performed using 2-DE and nanoscale capillary LC/ESI quadrupole-TOF MS. Functional classification of identified up-regulated proteins indicated that protein metabolism and modification, particularly in the ubiquitin proteasome pathway, was the main biological process occurring in SARS CoV 3CLpro-expressing cells. Thirty-six percent of identified up-regulated proteins were located in the mitochondria, including apoptosis-inducing factor, ATP synthase beta chain and cytochrome c oxidase. Interestingly, heat shock cognate 71-kDa protein (HSP70), which antagonizes apoptosis-inducing factor was shown to down-regulate and had a 5.29-fold decrease. In addition, confocal image analysis has shown release of mitochondrial apoptogenic apoptosis-inducing factor and cytochrome c into the cytosol. Our results revealed that SARS CoV 3CLpro could be considered to induce mitochondrial-mediated apoptosis. The study provides system-level insights into the interaction of SARS CoV 3CLpro with host cells, which will be helpful in elucidating the molecular basis of SARS CoV pathogenesis.
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PMID:Proteomic analysis of up-regulated proteins in human promonocyte cells expressing severe acute respiratory syndrome coronavirus 3C-like protease. 1740 83

The NaGSL1 gene has been proposed to encode the callose synthase (CalS) enzyme from Nicotiana alata pollen tubes based on its similarity to fungal 1,3-beta-glucan synthases and its high expression in pollen and pollen tubes. We have used a biochemical approach to link the NaGSL1 protein with CalS enzymic activity. The CalS enzyme from N. alata pollen tubes was enriched over 100-fold using membrane fractionation and product entrapment. A 220 kDa polypeptide, the correct molecular weight to be NaGSL1, was specifically detected by anti-GSL antibodies, was specifically enriched with CalS activity, and was the most abundant polypeptide in the CalS-enriched fraction. This polypeptide was positively identified as NaGSL1 using both MALDI-TOF MS and LC-ESI-MS/MS analysis of tryptic peptides. Other low-abundance polypeptides in the CalS-enriched fractions were identified by MALDI-TOF MS as deriving from a 103 kDa plasma membrane H+-ATPase and a 60 kDa beta-subunit of mitochondrial ATPase, both of which were deduced to be contaminants in the product-entrapped material. These analyses thus suggest that NaGSL1 is required for CalS activity, although other smaller (<30 kDa) or low-abundance proteins could also be involved.
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PMID:Proteomic and biochemical evidence links the callose synthase in Nicotiana alata pollen tubes to the product of the NaGSL1 gene. 1766 22

A comparative proteomic analysis was employed to identify altered proteins in the yellow head virus (YHV) infected lymphoid organ (LO) of Penaeus monodon. At 24 h post-infection, the infected shrimps showed obvious signs of infection, while the control shrimps remained healthy. Two-dimensional electrophoresis of proteins extracted from the LO revealed significant alterations in abundance of several proteins in the infected group. Protein identification by MALDI-TOF MS and nanoLC-ESI-MS/MS revealed significant increase of transglutaminase, protein disulfide isomerase, ATP synthase beta subunit, V-ATPase subunit A, and hemocyanin fragments. A significant decrease was also identified for Rab GDP-dissociation inhibitor, 6-phosphogluconate dehydrogenase, actin, fast tropomyosin isoform, and hemolymph clottable protein. Some of these altered proteins were further investigated at the mRNA level using real-time RT-PCR, which confirmed the proteomic data. Identification of these altered proteins in the YHV-infected shrimps may provide novel insights into the molecular responses of P. monodon to YHV infection.
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PMID:Proteomic analysis of altered proteins in lymphoid organ of yellow head virus infected Penaeus monodon. 1820 30

Chronic hemodynamic overload on the heart results in pathological myocardial hypertrophy, eventually followed by heart failure. Phosphatase calcineurin is a crucial mediator of this response. Little is known, however, about the role of calcineurin in response to acute alterations in loading conditions of the heart, where it could be mediating beneficial adaptational processes. We therefore analyzed proteome changes following a short-term increase in preload in rabbit myocardium in the absence or presence of the calcineurin inhibitor cyclosporine A. Rabbit right ventricular isolated papillary muscles were cultivated in a muscle chamber system under physiological conditions and remained either completely unloaded or were stretched to a preload of 3 mN/mm(2), while performing isotonic contractions (zero afterload). After 6 h, proteome changes were detected by two-dimensional gel electrophoresis and ESI-MS/MS. We identified 28 proteins that were upregulated by preload compared to the unloaded group (at least 1.75-fold regulation, all P < 0.05). Specifically, mechanical load upregulated a variety of enzymes involved in energy metabolism (i.e., aconitase, pyruvate kinase, fructose bisphosphate aldolase, ATP synthase alpha chain, acetyl-CoA acetyltransferase, NADH ubiquinone oxidoreductase, ubiquinol cytochrome c reductase, hydroxyacyl-CoA dehydrogenase). Cyclosporine A treatment (1 micromol/l) abolished the preload-induced upregulation of these proteins. We demonstrate for the first time that an acute increase in the myocardial preload causes upregulation of metabolic enzymes, thereby increasing the capacity of the myocardium to generate ATP production. This short-term adaptation to enhanced mechanical load appears to critically depend on calcineurin phosphatase activity.
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PMID:Myocardial adaptation of energy metabolism to elevated preload depends on calcineurin activity : a proteomic approach. 1827 99

Cytochrome c (Cyt c) is part of the mitochondrial electron transport chain (ETC), accepting electrons from bc(1) complex and transferring them to cytochrome c oxidase (CcO). The ETC generates the mitochondrial membrane potential, which is used by ATP synthase to produce ATP. In addition, the release of Cyt c from the mitochondria often commits a cell to undergo apoptosis. Considering its central role in life (respiration) and death (apoptosis) decisions one would expect tight regulation of Cyt c function. Reversible phosphorylation is a main cellular regulatory mechanism, but the effect of cell signaling targeting the mitochondrial oxidative phosphorylation system is not well understood, and only a small number of proteins that can be phosphorylated have been identified to date. We have recently shown that Cyt c isolated from cow heart tissue is phosphorylated on tyrosine 97 in vivo, which leads to inhibition of respiration in the reaction with CcO. In this study we isolated Cyt c from a different organ, cow liver, under conditions preserving the physiological phosphorylation state. Western analysis with a phosphotyrosine specific antibody suggested that liver Cyt c is phosphorylated. Surprisingly, the phosphorylation site was unambiguously assigned to Tyr-48 by immobilized metal affinity chromatography/nano-liquid chromatography/electrospray ionization mass spectrometry (IMAC/nano-LC/ESI-MS), and not to the previously identified phospho-Tyr-97 in cow heart. As is true of Tyr-97, Tyr-48 is conserved in eukaryotes. As one possible consequence of Tyr-48 phosphorylation we analyzed the in vitro reaction kinetics with isolated cow liver CcO revealing striking differences. Maximal turnover of Tyr-48 phosphorylated Cyt c was 3.7 s(-1) whereas dephosphorylation resulted in a 2.2 fold increase in activity to 8.2 s(-1). Effects of Tyr-48 phosphorylation based on the Cyt c crystal structure are discussed.
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PMID:Mammalian liver cytochrome c is tyrosine-48 phosphorylated in vivo, inhibiting mitochondrial respiration. 1847 88

The initial events of vision at low light take place in vertebrate retinal rods. The rod outer segment consists of a stack of flattened disks surrounded by the plasma membrane. A list of the proteins that reside in disks has not been achieved yet. We present the first comprehensive proteomic analysis of purified rod disks, obtained by combining the results of two-dimensional gel electrophoresis separation of disk proteins to MALDI-TOF or nLC-ESI-MS/MS mass spectrometry techniques. Intact disks were isolated from bovine retinal rod outer segments by a method that minimizes contamination from inner segment. Out of a total of 187 excised spots, 148 proteins were unambiguously identified. An additional set of 61 proteins (partially overlapping with the previous ones) was generated by one-dimensional (1D) gel nLC-ESI-MS/MS method. Proteins involved in vision as well as in aerobic metabolism were found, among which are the five complexes of oxidative phosphorylation. Results from biochemical, Western blot, and confocal laser scanning microscopy immunochemistry experiments suggest that F 1F o-ATP synthase is located and catalytically active in ROS disk membranes. This study represents a step toward a global physiological characterization of the disk proteome and provides information necessary for future studies on energy supply for phototransduction.
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PMID:Proteomic analysis of the retinal rod outer segment disks. 1848 31

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