UNIPROT:P00790 - FACTA Search

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Query: UNIPROT:P00790 (PGA)
2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphoenolpyruvate carboxylase (PEPC) was characterized in extracts from C4 mesophyll protoplasts isolated from Digitaria sanguinalis leaves and shown to display the structural, functional, and regulatory properties typical of a C4 PEPC. In situ increases in the apparent phosphorylation state of the enzyme and the activity of its Ca2+-independent protein-serine kinase were induced by light plus NH4Cl or methylamine. The photosynthesis-related metabolite 3-phosphoglycerate (3-PGA) was used as a substitute for the weak base in these experiments. The early effects of light plus the weak base or 3-PGA treatment were alkalinization of protoplast cytosolic pH, shown by fluorescence cytometry, and calcium mobilization from vacuoles, as suggested by the use of the calcium channel blockers TMB-8 and verapamil. The increases in PEPC kinase activity and the apparent phosphorylation state of PEPC also were blocked in situ by the electron transport and ATP synthesis inhibitors DCMU and gramicidin, respectively, the calcium/calmodulin antagonists W7, W5, and compound 48/80, and the cytosolic protein synthesis inhibitor cycloheximide. These results suggest that the production of ATP and/or NADPH by the illuminated mesophyll chloroplast is required for the activation of the transduction pathway, which presumably includes an upstream Ca2+-dependent protein kinase and a cytosolic protein synthesis event. The collective data support the view that the C4 PEPC light transduction pathway is contained entirely within the mesophyll cell and imply cross-talk between the mesophyll and bundle sheath cells in the form of the photosynthetic metabolite 3-PGA.
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PMID:The Light-Dependent Transduction Pathway Controlling the Regulatory Phosphorylation of C4 Phosphoenolpyruvate Carboxylase in Protoplasts from Digitaria sanguinalis. 1223 93

Activities of Calvin-Benson cycle enzymes were found in protoplasts of guard cells from Vicia faba L. The activities of NADP-glyceraldehyde-3-phosphate dehydrogenase (NADP-GAPD) and ribulose-1,5-bisphosphate carboxylase (RuBPC) were 2670 and 52 micromoles per milligrams chlorophyll per hour, respectively. Activities of NADP-GAPD and RuBPC in guard cells were increased by red light illumination, and the light activations were inhibited completely by 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), an inhibitor of photosystem II. Enzymes related to the Calvin-Benson cycle such as 3-phosphoglycerate kinase (PGAK), triose phosphate (TP) isomerase, and fructose-1,6-bisphosphatase (FBPase) were shown to be present in guard-cell chloroplasts. From these results, we conclude that the photosynthetic carbon reduction pathway is present in guard-cell chloroplasts of Vicia faba. We compared these enzyme activities in guard cells with those in mesophyll cells. The activities of NADP-GAPD and PGAK were more than several-fold higher and that of TP isomerase was much higher in guard-cell chloroplasts than in mesophyll chloroplasts. In contrast, activities of RuBPC and FBPase were estimated to be roughly half of those in mesophyll chloroplasts. High activities of PGAK, NAD-GAPD, and TP isomerase were found in fractions enriched in cytosol of guard cells. Illumination of guard-cell protoplasts with red light increased the cellular ATP/ADP ratio from 5 to 14. These results support the interpretation that guard cells utilize a shuttle system (e.g. phosphoglycerate [PGA]/dihydroxyacetone phosphate [DHAP] shuttle) for an indirect transfer of ATP and reducing equivalents from chloroplasts to the cytosol.
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PMID:Calvin-Benson Cycle Enzymes in Guard-Cell Protoplasts from Vicia faba L: Implications for the Greater Utilization of Phosphoglycerate/Dihydroxyacetone Phosphate Shuttle between Chloroplasts and the Cytosol. 1666 51

1. The photoreduction of K3[Fe(CN)6] by isolated and sonicated spinach chloroplasts is increased by SO 3 (--) (concentrations tested: 0.25-5 mM). This stimulation increases with SO 3 (--) concentrations from 0.25-3 mM. The ferricyanide-reduction with SO 3 (--) is inhibited by DCMU (10(-6)M) to about 90%. Inhibition of the photoreduction by pretreatment of the chloroplasts with Tris-buffer is compensated by increasing concentrations of SO 3 (--) (tested up to 3 mM). 2. The photoreduction of NADP in isolated chloroplasts is also enhanced by SO 3 (--) (concentrations tested: 0.25-3.0 mM). It is completely inhibited by DCMU (10(-6)M). In contrast to the results with ferricyanide as electron acceptor, SO 3 (--) does not overcome the inhibition of NADP reduction caused by pretreatment of the chloroplasts with Tris-buffer. 3. In illuminated isolated chloroplasts SO 3 (--) concentrations <1 mM do not alter the ATP-concentration, concentrations>1 mM decrease it. 4. The photosynthetic fixation of (14)CO2 by isolated chloroplasts is increased by SO 3 (--) concentrations <1 mM, but decreased by concentrations>1 mM. In total (14)CO2 fixed, at stimulating concentrations (0.25 and 0.5 mM SO 3 (--) ), the relative amount of sugar-monophosphates is increased, whereas that of sugardiphosphates and of PGA is decreased. 5. It is proposed that these specific effects on photosynthetic processes help to explain the well known fact that photosynthetic gas exchange and the yield of plants are stimulated by low doses of SO2.
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PMID:[Stimulation of hill-reaction and CO2 fixation in isolated spinach chloroplasts by low concentrations of SO 3 (--)]. 2447 59

Oxygen was taken up by both intact and broken chloroplasts when catalase was posioned. In confirmation of other work we found that oxygen enters the electron transport chain of isolated chloroplasts by oxidizing the primary photoreductant of system I. In isolated intact chloroplasts this reaction proceeds in addition to oxygen evolution by PGA reduction. The reductant produced by photosystem II does not react with oxygen at a significant rate.In normal leaves oxygen depresses chlorophyll fluorescence. However, this depression does not take place in DCMU poisoned leaves or in a mutant having a nonfunctional photosystem II; furthermore, another mutant with a weakly functioning photosystem I gave only a very small fluorescence depression with oxygen. This shows that the site of interaction of oxygen is at the reducing end of the electron transport chain. This view is supported by the extent of the fluorescence depression in leaves as a function of oxygen concentration which is very similar to the oxygen dependence of oxygen uptake by isolated chloroplasts.An oxygen requirement of isolated intact chloroplasts reducing PGA and nitrate was indicated by lower reaction rates and faster decay of activity under nitrogen than under air.
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PMID:Effects of oxygen on the electron transport chain of photosynthesis. 2452 48