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)

Juvenile neuronal ceroid lipofuscinosis (Batten disease) is a childhood neurodegenerative disease that is caused by mutations in the CLN3 gene. The protein encoded by CLN3 has no homology with any proteins of known function and its cellular role remains elusive. In order to investigate the role played by the CLN3 protein we aimed to identify interacting proteins. Here, we describe the yeast two-hybrid system as the approach taken to investigate such protein-protein interactions. CLN3 was expressed as a fusion protein with a DNA-binding domain and used to screen a library of human fetal brain cDNAs fused to a transcriptional activation domain. Owing to low level expression of the full length CLN3 fusion protein, truncated regions corresponding to the predicted hydrophilic regions were also tested. No proteins that interact with CLN3 were detected, nor was there any evidence for CLN3-CLN3 interactions. Potential interaction of CLN3 with subunit c of mitochondrial ATP synthase, the major component of the storage material that accumulates in Batten disease patients, was also tested. No interaction was detected suggesting that the accumulation of subunit c does not result from loss of a process that requires a direct interaction with CLN3. We conclude that either CLN3 does not interact with other proteins or such interactions cannot be detected using the two-hybrid system.
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PMID:Analysis of CLN3-protein interactions using the yeast two-hybrid system. 1158 15

A biotinylation signal has been fused to the C terminus of the oligomycin sensitivity conferral protein (OSCP) of the ATP synthase complex from Saccharomyces cerevisiae. The signal is biotinylated in vivo and the biotinylated complex binds avidin in vitro. By electron microscopy of negatively stained particles of the ATP synthase-avidin complex, the bound avidin has been localised close to the F(1) domain. The images were subjected to multi-reference alignment and classification. Because of the presence of a flexible linker between the OSCP and the biotinylation signal, the class-averages differ in the position of the avidin relative to the F(1) domain. These positions lie on an arc, and its centre indicates the position of the C terminus of the OSCP on the surface of the F(1) domain. Since the N-terminal region of the OSCP is known to interact with the N-terminal regions of alpha-subunits, which are on top of the F(1) domain distal from the F(o) membrane domain, the OSCP extends almost 10nm along the surface of F(1) down towards F(o) where it interacts with the C terminus of the b subunit, which extends up from F(o). The labelling technique has also allowed a reliable 2D projection map to be developed for the intact ATP synthase from S.cerevisiae. The map reveals a marked asymmetry in the F(o) part of the complex that can be attributed to subunits in the F(o) domain.
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PMID:ATP synthase from Saccharomyces cerevisiae: location of the OSCP subunit in the peripheral stalk region. 1220 77

Although the physiological role of plant mitochondria is thought to vary in different tissues at progressive stages of development, there has been little documentation that the complement of mitochondrial proteins is altered in different plant organs. Because the phenomenon of cytoplasmic male sterility suggests an unusual function for mitochondria in floral buds, we examined the tissue-specific expression of mitochondrial proteins in petunia buds at several stages of development, using both fertile and cytoplasmic male sterile plants. On tissue prints of cryostat-sectioned buds, antibodies recognizing subunit A of the mitochondrial ATPase (ATPA) localized very differently from antibodies recognizing subunit II of the cytochrome oxidase (COXII), which indicated that mitochondria in the same tissue could differentially express mitochondrially encoded proteins. The petunia cytoplasmic male sterility-associated fused (pcf) gene encodes a protein that colocalized with ATPA and the nuclear-encoded mitochondrial alternative oxidase (AOA) in sporogenous tissues, where little COXII protein was found. These overlapping and differential localization patterns may provide clues to the molecular mechanism of cytoplasmic male sterility.
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PMID:Tissue-Specific Protein Expression in Plant Mitochondria. 1224 22

We have investigated the question of the presence of a cap structure located at the top of the F(1) alpha(3)beta(3) hexamer of the yeast mitochondrial F(1)F(0)-ATP synthase complex. Specifically, we sought to determine whether the putative cap has a rigid structure and occludes the central shaft space formed by the alpha(3)beta(3) hexamer or alternatively whether the cap is more flexible permitting access to the central shaft space under certain conditions. Thus, we sought to establish whether subunit gamma, an essential component of the F(1) central stalk housed within the central shaft space and whose N and C termini would both lie beneath a putative cap, could be fused at its C terminus to green fluorescent protein (GFP) without loss of enzyme function. The GFP moiety serves to report on the integrity and location of fusion proteins containing different length polypeptide linkers between GFP and subunit gamma, as well as being a potential occluding structure in itself. Functional incorporation of subunit gamma-GFP fusions into ATP synthase of yeast cells lacking native subunit gamma was demonstrated by the ability of intact complexes to hydrolyze ATP and retain sensitivity to oligomycin. Our conclusion is that the putative cap structure cannot be an inflexible structure, but must be of a more flexible nature consistent with the accommodation of subunit gamma-GFP fusions within functional ATP synthase complexes.
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PMID:Subunit gamma-green fluorescent protein fusions are functionally incorporated into mitochondrial F1F0-ATP synthase, arguing against a rigid cap structure at the top of F1. 1241 11

Oligomerisation of the red fluorescent protein, DsRed, can interfere with the localisation and function of proteins to which it is fused. We demonstrate an approach that may help to reduce significantly the impact of oligomerisation on the biology of the protein fusion partner. Growth of yeast (Saccharomyces cerevisiae) cells expressing ATP synthase containing subunit gamma-DsRed fusion was compromised relative to control cells. Furthermore, ATP synthase was found to exist as oligomeric structures when isolated under conditions where monomers would normally be present. The compromised growth phenotype was partially reversed and the oligomerisation of the ATP synthase reduced when a non-fluorescent variant of DsRed not fused to another protein was targeted to the mitochondrion in addition to the gamma-DsRed fusion protein. This strategy may also be applicable to the reduction of unwanted interactions between fusion proteins that contain the normally dimeric fluorescent proteins HcRed or Renilla GFP.
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PMID:An approach for reducing unwanted oligomerisation of DsRed fusion proteins. 1241 11

A stator is proposed as necessary to prevent futile rotation of the F(1) catalytic sector of mitochondrial ATP synthase (mtATPase) during periods of ATP synthesis or ATP hydrolysis. Although the second stalk of mtATPase is generally believed to fulfil the role of a stator capable of withstanding the stress produced by rotation of the central rotor, there is little evidence to directly support this view. We show that interaction between two candidate proteins of the second stalk, OSCP and subunit b, fused at their C-termini to GFP variants and assembled into functional mtATPase can be monitored in mitochondria using fluorescence resonance energy transfer (FRET). Substitution of native OSCP with a variant containing a glycine 166 to asparagine (G166N) substitution yielded a metastable complex. In contrast to the enzyme containing native OSCP, FRET could be irreversibly lowered for the enzyme containing G166N at a rate that correlated closely with the rate of enzyme activity (ATP hydrolysis). The non-hydrolysable ATP analogue, AMP-PCP did not have this effect. We conclude that two candidate proteins of the stator stalk, OSCP and b, are subject to stresses during enzyme catalytic activity commensurate with their role as a part of a stator stalk.
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PMID:FRET reveals changes in the F1-stator stalk interaction during activity of F1F0-ATP synthase. 1467 Jun 7

Structural information on membrane proteins lags far behind that on soluble proteins, in large part due to difficulties producing homogeneous, stable, structurally relevant samples in a membrane-like environment. In this study 25 membrane mimetics were screened using 2D (1)H-(15)N heteronuclear single quantum correlation NMR experiments to establish sample homogeneity and predict fitness for structure determination. A single detergent, 1-palmitoyl-2-hydroxy-sn-glycero-3-[phospho-RAC-(1-glycerol)] (LPPG), yielded high quality NMR spectra with sample lifetimes greater than one month for the five proteins tested - R. sphaeroides LH1 alpha and beta subunits, E. coli and B. pseudofirmus OF4 ATP synthase c subunits, and S. aureus small multidrug resistance transporter - with 1, 2, or 4 membrane spanning alpha-helices, respectively. Site-specific spin labeling established interhelical distances in the drug transporter and genetically fused dimers of c subunits in LPPG consistent with in vivo distances. Optical spectroscopy showed that LH1 beta subunits form native-like complexes with bacteriochlorophyll a in LPPG. All the protein/micelle complexes were estimated to exceed 100 kDaltons by translational diffusion measurements. However, analysis of (15)N transverse, longitudinal and (15)N[(1)H] nuclear Overhauser effect relaxation measurements yielded overall rotational correlation times of 8 to 12 nsec, similar to a 15-20 kDalton protein tumbling isotropically in solution, and consistent with the high quality NMR data observed.
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PMID:An evaluation of detergents for NMR structural studies of membrane proteins. 1473 38

In a rotary motor F(o)F(1)-ATP synthase that couples H(+) transport with ATP synthesis/hydrolysis, it is thought that an F(o)c subunit oligomer ring (c-ring) in the membrane rotates as protons pass through F(o) and a 120 degrees rotation produces one ATP at F(1). Despite several structural studies, the copy number of F(o)c subunits in the c-ring has not been determined for any functional F(o)F(1). Here, we have generated and isolated thermophilic Bacillus F(o)F(1), each containing genetically fused 2-mer-14-mer c (c(2)-c(14)). Among them, F(o)F(1) containing c(2), c(5), or c(10) showed ATP-synthesis and other activities. When F(1) was removed, F(o) containing c(10) worked as an H(+) channel but F(o)s containing c(9), c(11) or c(12) did not. Thus, the c-ring of functional F(o)F(1) of this organism is a decamer. The inevitable consequence of this finding is noninteger ratios of rotation step sizes of F(1)/F(o) (120 degrees /36 degrees ) and of H(+)/ATP (10:3). This step-mismatch necessitates elastic twisting of the rotor shaft (and/or the side stalk) during rotation and permissive coupling between unit rotations by H(+) transport at F(o) and elementary events in catalysis at F(1).
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PMID:Thermophilic ATP synthase has a decamer c-ring: indication of noninteger 10:3 H+/ATP ratio and permissive elastic coupling. 1530 27

The gamma subunit of the ATP synthase F(1) sector rotates at the center of the alpha(3)beta(3) hexamer during ATP hydrolysis. A gold bead (40-200 nm diameter) was attached to the gamma subunit of Escherichia coli F(1), and then its ATP hydrolysis-dependent rotation was studied. The rotation speeds were variable, showing stochastic fluctuation. The high-speed rates of 40- and 60-nm beads were essentially similar: 721 and 671 rps (revolutions/s), respectively. The average rate of 60-nm beads was 381 rps, which is approximately 13-fold faster than that expected from the steady-state ATPase turnover number. These results indicate that the F(1) sector rotates much faster than expected from the bulk of ATPase activity, and that approximately 10% of the F(1) molecules are active on the millisecond time scale. Furthermore, the real ATP turnover number (number of ATP molecules converted to ADP and phosphate/s), as a single molecule, is variable during a short period. The epsilon subunit inhibited rotation and ATPase, whereas epsilon fused through its carboxyl terminus to cytochrome b(562) showed no effect. The epsilon subunit significantly increased the pausing time during rotation. Stochastic fluctuation of catalysis may be a general property of an enzyme, although its understanding requires combining studies of steady-state kinetics and single molecule observation.
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PMID:Stochastic high-speed rotation of Escherichia coli ATP synthase F1 sector: the epsilon subunit-sensitive rotation. 1635 12

The large subunit of ribulose bisphosphate carboxylase from Anacystis nidulans 6301, and the beta subunit of chloroplast ATP synthase from maize, were fused to the transit peptide of the small subunit of ribulose bisphosphate carboxylase from soybean. These proteins were assayed for post-translational import into isolated pea chloroplasts. Both proteins were imported into chloroplasts. Imported large subunits were associated with two distinct macromolecular structures. The smaller of these structures was a hybrid ribulose bisphosphate carboxylase holoenzyme, and the larger was the binding protein oligomer. Time-course experiments following import of the large subunit revealed that the amount of large subunit associated with the binding protein oligomer decreased over time, and that the amount of large subunit present in the assembled holoenzyme increased. We also observed that imported small subunits of ribulose bisphosphate carboxylase, although predominantly present in the holoenzyme, were also found associated with the binding protein oligomer. In contrast, the imported beta subunit of chloroplast ATP synthase did not assemble into a thylakoid-bound coupling factor complex.
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PMID:Imported large subunits of ribulose bisphosphate carboxylase/oxygenase, but not imported beta-ATP synthase subunits, are assembled into holoenzyme in isolated chloroplasts. 1645 42

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