EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The structure of the spinach thylakoid outer surface has been examined by deepetching, a technique which exposes the true surfaces of biological membranes by sublimination of frozen dilute buffer. The membrane surface is covered with large (150 A average diameter) and small (90 A average diameter) particles. Approximately 30% of the large particles can be removed under conditions reported to selectively remove carboxydismutase from the membrane surface. The remaining large particles can be removed only under conditions which cause a loss of coupling factor activity. When purified coupling factor is readded to membranes from which all coupling factor activity has been removed, large particles reappear, indicating that they represent coupling factor molecules. Since the number of particles and the amount of ATPase activity in the reconstituted and control membranes were the same, coupling factor molecules may be attached to specific binding sites. Analysis of antibody labeling experiments, enzyme assays, and experiments involving the unstacking and restacking of thylakoid membranes indicate that coupling factor is excluded from regions of membrane stacking (grana) and is present only in unstacked membrane regions. The exclusion of coupling factor from grana, which are known to be centers of intense photosynthetic activity, strongly suggests that the mechanism coupling electron transport to photophosphorylation is indirect. In addition to the large and small particles, in some cases regularly spaced ridges are visible on the outer surface after unstacking. Coupling factor binding sites seem to be excluded from regions where these structures occur.
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PMID:Analysis of the thylakoid outer surface. Coupling factor is limited to unstacked membrane regions. 81 74

GroEL140, a mutant Escherichia coli chaperonin unable to support bacteriophage lambda head assembly, was purified to near homogeneity and compared to wild type GroEL (cpn60). GroEL140 exhibited a 1.5-fold lower ATPase activity relative to the wild type protein. The hydrolysis of ATP by both polypeptides was fully inhibited by an excess of ATP gamma S and partially inhibited by ADP and 5'-adenylylimidodiphosphate, suggesting that adenine nucleotides display different affinities for the ATP binding site of chaperonins. GroEL140 was more sensitive to trypsin digestion compared to wild type GroEL indicating that the mutation destabilized the conformation of the mutant. The proteolytic susceptibility of both chaperonins was similarly enhanced upon addition of ATP, ADP or non-hydrolyzable ATP analogs, providing evidence (i) of a conformational change in the chaperonin structure which is likely to drive the protein discharge process, and (ii) that hydrolysis of ATP is not required to achieve topological modifications. GroEL140 retained its ability to bind non-native ribulose bisphosphate carboxylase/oxygenase (Rbu-P2-carboxylase), but released bound proteins upon addition of ATP and GroES (cpn 10) 6-7-fold less efficiently compared to GroEL. This functional defect was shown to be related to a suboptimal, but not an absence of, interaction with GroES since (i) GroEL140 and GroES were unable to form a complex isolatable by size exclusion chromatography, and (ii) increasing the incubation time or the concentration of GroES enhanced the amount of refolded Rbu-P2-carboxylase discharged from GroEL140-Rbu-P2-carboxylase binary complexes. Pulse-chase experiments involving a double immunoabsorption technique confirmed that Rbu-P2-carboxylase remained associated two times longer with GroEL140 than with GroEL in vivo.
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PMID:A mutation in GroEL interferes with protein folding by reducing the rate of discharge of sequestered polypeptides. 135 Jul 86

Symbionin, that is selectively produced by an intracellular symbiont harbored by the aphid bacteriocyte, is structurally homologous to the Escherichia coli groEL protein, a heat shock protein functioning as a molecular chaperon. It was shown that symbionin has ATPase activity and, in the presence of Mg-ATP, is converted into lower molecular mass species. Like the groEL protein, symbionin was able to reconstitute dimeric ribulose 1,5-bisphosphate carboxylase/oxygenase holoenzyme from its unfolded subunits in vitro, suggesting that this protein functions as a molecular chaperon in the endosymbiont. The groES-homologous protein did exist in the endosymbiont, but its amount was small relative to that of symbionin.
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PMID:Molecular chaperon produced by an intracellular symbiont. 168 35

The two isoforms of ribulose 1,2-bisphosphate carboxylase activase (Rbu-P2 carboxylase) from spinach (Spinacea oleracea L.) were individually purified from Escherichia coli transformed with expression vectors for the appropriate cDNAs. Both isoforms catalyzed activation of Rbu-P2 carboxylase (ribulose 1,5-bisphosphate carboxylase/oxygenase, EC 4.1.1.39) and ATP hydrolysis. The kinetics of the two isoforms with respect to ATP concentration were different, in that the 45-kDa polypeptide exhibited a sigmoidal response while a rectangular response was observed with the 41-kDa isoform. These observations suggest that the additional domain at the C terminus of the 45-kDa isoform modulates the ATP regulation of activity. Lysine 169, at the putative ATP-binding site of the 41-kDa form of Rbu-P2 carboxylase activase, was changed to arginine, isoleucine, and threonine by directed mutagenesis. These mutations abolished Rbu-P2 carboxylase activase and ATPase activities, as well as the capability of the protein to bind ATP. These results confirm that lysine 169 is an essential residue.
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PMID:Expression of the two isoforms of spinach ribulose 1,5-bisphosphate carboxylase activase and essentiality of the conserved lysine in the consensus nucleotide-binding domain. 182 41

Spinach chloroplast RNA polymerase has been shown to efficiently terminate transcription at the threonine attenuator (thra) from Escherichia coli. In this study, efficient transcription termination by the chloroplast RNA polymerase was observed at a second prokaryotic terminator, the histidine attenuator (hisa) from Salmonella typhimurium. Termination occurred regardless of the orientation of either attenuator. In higher-plant chloroplast DNA, the genes for the beta subunit of the ATPase (atpB) and the large subunit of ribulose 1,5-bisphosphate carboxylase/oxygenase (rbcL) are adjacent and divergently transcribed. Bidirectional transcription vectors, containing the histidine and threonine terminators, were constructed to analyze the divergently oriented atpB and rbcL promotors. One plasmid construction, pRTT7, contained two tandem copies of the threonine attenuator (pRTT7). Two additional constructs, pRHT1 and pRHT2, each contained oppositely oriented copies of thra and hisa. A DNA fragment containing the rbcL and atpB promoters was inserted between the two terminators present in the pRTT7, pRHT1, and pRHT2 plasmids. Transcription of these recombinant DNAs by spinach chloroplast RNA polymerase resulted in discretely sized rbcL and atpB transcripts. In addition, these bidirectional transcription vectors were used to identify previously uncharacterized chloroplast promoters.
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PMID:Analysis of chloroplast promoters using bidirectional transcription vectors. 215 32

Activation of ribulose bisphosphate carboxylase/oxygenase (rubisco) in vivo is mediated by a specific protein, rubisco activase. In vitro, activation of rubisco by rubisco activase is dependent on ATP and is inhibited by ADP. Purified rubisco activase hydrolyzed ATP with a specific activity of 1.5 mumol min-1 mg-1 protein, releasing approximately stoichiometric amounts of ADP and Pi. Hydrolysis was highly specific for ATP-Mg and had a broad pH optimum, with maximum activity at pH 8.0-8.5. ATPase activity was inhibited by ADP but not by molybdate, vanadate, azide, nitrate, or fluoride. Addition of rubisco in either the inactive or activated form had no significant effect on ATPase activity. Incubation of rubisco activase in the absence of ATP resulted in loss of both ATPase and rubisco activation activities. Both activities were also heat labile, with 50% loss in activity after 5 min at 38 degrees C and complete inhibition following treatment at 43 degrees C. Both activities showed a sigmoidal response to ATP concentration, with half-maximal activity at 0.053 mM ATP. Rubisco activation activity was dependent on the concentrations of both ATP and ADP. The results suggest that ATPase activity is an intrinsic property of rubisco activase.
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PMID:Adenosine triphosphate hydrolysis by purified rubisco activase. 291 85

Fluorescence lifetimes and fluorescence anisotropy decays of the voltage-sensitive styryl-pyridinium dye RH421 have been measured in the presence of dimyristoylphosphatidylcholine vesicles, the water soluble enzyme ribulose 1,5-bisphosphate carboxylase/oxygenase (rubisco), and Na+,K(+)-ATPase-containing membrane fragments. The effect of an intramembrane electric field on the photophysical properties of the dye was investigated by the binding of the hydrophobic ion tetraphenylborate (TPB) to the membrane. TPB was found to significantly increase the average fluorescence lifetime and the order of membrane-bound dye. The increase in fluorescence lifetime is consistent with reorientation of the dye further into the membrane interior. The increase in order may be attributed to an electric field-induced alignment of the dye molecules. From the values of the rotational diffusion constant experimentally determined, the expected response time of the dye to an applied electric field can be calculated for a reorientational mechanism to be on the order of tens of nanoseconds. Experiments with rubisco showed that the dye interacts strongly with the protein. In this case, the dye is so tightly bound that it has almost no independent motion and rotates virtually solely with the protein. The rate of rotational motion of the dye in the presence of Na+,K(+)-ATPase-containing membrane fragments is similar to that in pure lipid membranes. The order parameter of the dye in the Na+,K(+)-ATPase membrane fragments is close to the maximum value. This is most probably due to the high density of protein molecules, which restricts the range of motion of the dye.
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PMID:Time-resolved fluorescence investigations of the interaction of the voltage-sensitive probe RH421 with lipid membranes and proteins. 754 10

Natural rubber, cis-1,4-polyisoprene, is obtained from a colloidal fluid called latex, which represents the cytoplasmic content of the laticifers of the rubber tree (Hevea brasiliensis). We have developed a method of extracting translatable mRNA from freshly tapped latex. Analysis of in vitro translation products of latex mRNA showed that the encoded polypeptides are very different from those of leaf mRNA and these differences are visible in the protein profiles of latex and leaf as well. Northern blot analysis demonstrated that laticifer RNA is 20- to 100-fold enriched in transcripts encoding enzymes involved in rubber biosynthesis. Plant defense genes encoding chitinases, pathogenesis-related protein, phenylalanine ammonia-lyase, chalcone synthase, chalcone isomerase, cinnamyl alcohol dehydrogenase, and 5-enolpyruvylshikimate-3-phosphate synthase show a 10- to 50-fold higher expression in laticifers than in leaves, indicating the probable response of rubber trees to tapping and ethylene treatment. Photosynthetic genes encoding ribulose-bisphosphate carboxylase small subunit and chlorophyll a/b-binding protein are not expressed at a detectable level in laticifers. In contrast, genes encoding two hydrolytic enzymes, cellulase and polygalacturonase, are more highly expressed in laticifers than in leaves. Transcripts for the cytoplasmic form of glutamine synthase are preferentially expressed in laticifers, whereas those for the chloroplastic form of the same enzyme are present mainly in leaves. Control experiments demonstrated that beta-ATPase, actin, and ubiquitin are equally expressed in laticifers and leaves. Therefore, the differences in specific transcript abundance between laticifers and leaves are due to differential expression of the genes for these transcripts in the laticifers.
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PMID:Laticifer-specific gene expression in Hevea brasiliensis (rubber tree). 1160 69

Luciferase reporter genes have been successfully used in a variety of organisms to examine gene expression in living cells, but are yet to be successfully developed for use in chloroplast. Green fluorescent protein (gfp) has been used as a reporter of chloroplast gene expression, but because of high auto-fluorescence, very high levels of GFP accumulation are required for visualization in vivo. We have developed a luciferase reporter for chloroplast by synthesizing the two-subunit bacterial luciferase (lux)AB, as a single fusion protein in Chlamydomonas reinhardtii chloroplast codon bias. We expressed a chloroplast luciferase gene, luxCt, in C. reinhardtii chloroplasts under the control of the ATPase alpha subunit (atpA) or psbA promoter and 5' untranslated regions (UTRs) and the rubisco large subunit (rbcL) 3' UTR. We show that luxCt is a sensitive reporter of chloroplast gene expression, and that luciferase activity can be measured in vivo using a charge coupled device (CCD) camera or in vitro using a luminometer. We further demonstrate that luxCt protein accumulation, as measured by Western blot analysis, is proportional to luminescence, as determined both in vivo and in vitro, and that luxCt is capable of reporting changes in chloroplast gene expression during a dark to light shift. These data demonstrate the utility of the luxCt gene as a versatile and sensitive reporter of chloroplast gene expression in living cells.
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PMID:Development of a luciferase reporter gene, luxCt, for Chlamydomonas reinhardtii chloroplast. 1473 Dec 63

A pulse of red light acting through phytochrome accelerates the formation of chlorophyll upon subsequent transfer of dark-grown seedlings to continuous white light. Specific antibodies were used to follow the accumulation of representative subunits of the major photosynthetic complexes during greening of seedlings of tomato (Lycopersicon esculentum). The time course for accumulation of the various subunits was compared in seedlings that received a red light pulse 4 h prior to transfer to continuous white light and parallel controls that did not receive a red light pulse. The light-harvesting chlorophyll-binding proteins of photosystem II (LHC II), the 33-kD extrinsic polypeptide of the oxygen-evolving complex (OEC1), and subunit II of photosystem I (psaD gene product) all increased in the light, and did so much faster in seedlings that received the inductive red light pulse. The red light pulse had no significant effect on the abundance of the small subunit of ribulose 1,5-bisphosphate carboxylase/oxygenase (Rubisco), nor on several plastid-encoded polypeptides: the large subunit of Rubisco, the beta subunit of the CF(1) complex of plastid ATPase, and the 43- and 47-kD subunits of photosystem II (CP43, CP47). Subunits I (cytochrome b(6)f) and III (Rieske Fe-S protein) of the cytochrome b(6)f complex showed a small or no increase as a result of the red pulse. The potentiation of greening by a pulse of red light, therefore, is not expressed uniformly in the abundance of all the photosynthetic complexes and their subunits.
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PMID:Photocontrol of the Accumulation of Plastid Polypeptides during Greening of Tomato Cotyledons : Potentiation by a Pulse of Red Light. 1665 20

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