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)

The effect of increasing assay medium sorbitol concentration from 0.33 to 1.0 molar on the photosynthetic reactions of intact and broken spinach (Spinacia oleracea L. var. Long Standing Bloomsdale) chloroplasts was investigated by monitoring O(2) evolution supported by the addition of glyceric acid 3-phosphate (PGA), oxaloacetic acid (OAA), 2,5-dimethyl-p-benzoquinone, and 2,6-dichlorophenolindophenol or as O(2) uptake with methyl viologen as acceptor.Uncoupled 2,6-dichlorophenolindophenol-supported whole chain electron transport (photosystems I and II) was inhibited from the 0.33 molar rate by 14% and 48.6% at 0.67 and 1.0 molar sorbitol in the intact chloroplast and by only 0.4% and 25.0% in the broken chloroplast preparation. Whole chain electron flow from water to other oxidants (OAA, methyl viologen) was also inhibited at increased osmoticum in intact preparations while electron flow from water to methyl viologen, ferricyanide, and NADP in broken preparations did not demonstrate the osmotic response. Electron transport to 2,5-dimethyl-p-benzoquinone (photosystem II) from H(2)O and to methyl viologen (photosystem I) from 3,3'-diaminobenzidine were found to be unaffected by osmolarity in both intact and broken preparations.The stress response was more pronounced (26-38%) with PGA as substrate in the presence of 0.67 molar sorbitol than the inhibition found with uncoupled and coupled linear electron flow. In addition, substrate availability and ATP generated by cyclic photophosphorylation evaluated by addition of Antimycin A were found not to be mediating the full osmotic inhibition of PGA-supported O(2) evolution. In a reconstituted (thylakoids plus stromal protein) chloroplast system to which a substrate level of PGA was added, O(2) evolution was only slightly (7.8%) inhibited by increased osmolarity (0.33-0.67 molar sorbitol) indicating that the level of osmotic inhibition above that contributed by adverse effects on electron flow can be attributed to the functioning of the photosynthetic carbon reduction cycle within the intact chloroplasts.
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PMID:Effect of osmotic stress on photosynthesis studied with the isolated spinach chloroplast : generation and use of reducing power. 1666 29

Photoassimilation of (14)CO(2) by intact chloroplasts from the Crassulacean acid metabolism plant Sedum praealtum was investigated. The main water-soluble, photosynthetic products were dihydroxyacetone phosphate (DHAP), glycerate 3-phosphate (PGA), and a neutral saccharide fraction. Only a minor amount of glycolate was produced. A portion of neutral saccharide synthesis was shown to result from extrachloroplastic contamination, and the nature of this contamination was investigated with light and electron microscopy. The amount of photoassimilated carbon partitioned into starch increased at both very low and high concentrations of orthophosphate. High concentrations of exogenous PGA also stimulated starch synthesis.DHAP and PGA were the preferred forms of carbon exported to the medium, although indirect evidence suported hexose monophosphate export. The export of PGA and DHAP to the medium was stimulated by high exogenous orthophosphate, but depletion of chloroplastic reductive pentose phosphate intermediates did not occur. As a result only a relatively small inhibition in the rate of CO(2) assimilation occurred.The rate of photoassimilation was stimulated by exogenous PGA, ribose 5-phosphate, fructose 1,6-bisphosphate, fructose 6-phosphate, and glucose 6-phosphate. Inhibition occurred with phosphoenolpyruvate and high concentrations of PGA and ribose 5-phosphate. PGA inhibition did not result from depletion of chloroplastic orthophosphate or from inhibition of ribulose 1,5-bisphosphate carboxylase. Exogenous PGA and phosphoenolpyruvate were shown to interact with the orthophosphate translocator.
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PMID:Characterization of the Formation and Distribution of Photosynthetic Products by Sedum praealtum Chloroplasts. 1666 56

(14)CO(2) photoassimilation in the presence of MgATP, MgADP, and MgAMP was investigated using intact chloroplasts from Sedum praealtum, a Crassulacean acid metabolism plant, and two C(3) plants: spinach and peas. Inasmuch as free ATP, ADP, AMP, and uncomplexed Mg(2+) were present in the assays, their influence upon CO(2) assimilation was also examined. Free Mg(2+) was inhibitory with all chloroplasts, as were ADP and AMP in chloroplasts from Sedum and peas. With Sedum chloroplasts in the presence of ADP, the time course of assimilation was linear. However, with pea chloroplasts, ADP inhibition became progressively more severe, resulting in a curved time course. ATP stimulated assimilation only in pea chloroplasts. MgATP and MgADP stimulated assimilation in all chloroplasts. ADP inhibition of CO(2) assimilation was maximal at optimum orthophosphate concentrations in Sedum chloroplasts, while MgATP stimulation was maximal at optimum or below optimum concentrations of orthophosphate. MgATP stimulation in peas and Sedum and ADP inhibition in Sedum were not sensitive to the addition of glycerate 3-phosphate (PGA).PGA-supported O(2) evolution by pea chloroplasts was not inhibited immediately by ADP; the rate of O(2) evolution slowed as time passed, corresponding to the effect of ADP on CO(2) assimilation, and indicating that glycerate 3-phosphate kinase was a site of inhibition. Likewise, upon the addition of AMP, inhibition of PGA-dependent O(2) evolution became more severe with time. This did not mirror CO(2) assimilation, which was inhibited immediately by AMP. In Sedum chloroplasts, PGA-dependent O(2) evolution was not inhibited by ADP and AMP. In chloroplasts from peas and Sedum, the magnitude of MgADP and MgATP stimulation of PGA-dependent O(2) evolution was not much larger than that given by ATP, and it was much smaller than MgATP stimulation of CO(2) assimilation. Analysis of stromal metabolite levels by anion exchange chromatography indicated that ribulose 1,5-bisphosphate carboxylase was inhibited by ADP and stimulated by MgADP in Sedum chloroplasts.The appearance of label in the medium was measured when [U-(14)C] ADP-loaded Sedum chloroplasts were challenged with ATP, ADP, or AMP and their Mg(2+) complexes. The rate of back exchange was stimulated by the presence of Mg(2+). This suggests that ATP, ADP, and AMP penetrate the chloroplast slower than their Mg(2+) complexes. A portion of the CO(2) assimilation and O(2) evolution data could be explained by differential penetration rates, and other proposals were made to explain the remainder of the observations.
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PMID:Influence of adenosine phosphates and magnesium on photosynthesis in chloroplasts from peas, sedum, and spinach. 1666 88

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

Cytosolic ATP-dependent phosphofructokinase (PFK) from spinach leaves (Spinacia oleracea L.) was enriched 2600-fold by (NH(4))(2)SO(4) fractionation, DEAE anion exchange chromatography, Blue Sepharose CL-6B, and ATP agarose type 3-affinity chromatography. The final preparation had a specific activity of 417 nkat per milligram protein and exhibited four bands between 50 and 70 kilodaltons following denaturing electrophoresis. Only one band of ATP- and fructose 6-phosphate (F-6-P)-dependent, Pistimulated activity was detected following isoelectric focusing PAGE and nondenaturing discontinuous PAGE of the final preparation. Crude extracts contained, in addition to the band observed in the final preparation, a second band that was inhibited by Pi. The latter band is presumably chloroplastic PFK. PFK was stimulated by the anions Pi(2-), Cl(-), SO(4) (2-), NO(3) (-), HAsO(4) (2-), and HCO(3) (-) but was not affected by NH(4) (+). Pi and Mg(2+) changed the response of PFK toward pH and affected the saturation kinetics of F-6-P. In general, activity was highest when Pi was high and (or) Mg(2+) was low. Phosphoenolpyruvate (PEP), 2-PGA, and PPi, but not 3-PGA, inhibited PFK. Although the inhibition by PEP and 2-PGA was reduced or relieved by Pi, the inhibition by PPi was not affected by Pi. F-2, 6-P(2) had no effect upon the activity of PFK. It is proposed that, in the cytosol of spinach leaves, PFK is likely to be more active during the dark, when cytosolic Pi levels are high, than in the light.
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PMID:Cytosolic phosphofructokinase from spinach leaves : I. Purification, characteristics, and regulation. 1666 57

Oxidative events that target the sugar-phosphate backbone of DNA can lead to reactive fragments that interfere with DNA repair, transcription and translation by the formation of cross-links and adducts of proteins and nucleobases. Here we report the formation of several such lesions through the aerobic degradation of an independently generated C-3'-thymidinyl radical in 2'-deoxyoligonucleotides. Individual fragments were identified by independent synthesis and comparison of retention times in high-performance liquid chromatography (HPLC) and/or matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-ToF MS) along with gel electrophoresis. The formation of this reactive intermediate in the presence of oxygen was found to produce 3'-phosphoglycolaldehyde (3'-PGA) as well as 3'-ketoenolether (3'-KEE), 3'-phosphoglycolate (3'-PG), and 5'-aldehyde terminated oligonucleotide fragments. Additionally, a significant outcome of C-3'-thymidinyl radical formation in DNA oligomers is a strand break resulting in one 3'- and two 5'-phosphate-terminated oligomers. These results suggest the involvement of several sugar derived reactive species upon C-3'-radical initiated scission of single-stranded DNA under aerobic conditions. The electrophilic nature of several of these products as well as their formation through a single oxidative event can make the presence of a C-3'-DNA radical more detrimental to the cell than products derived from more frequently occurring DNA sugar radicals.
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PMID:Aerobic fate of the C-3'-thymidinyl radical in single-stranded DNA. 1717 76

Four phenotypically wild-type seeds were obtained from separate Activator-induced events in the Dissociation-inhibited allele sh2-ml (shrunken-2, mutable-1). Endosperm adenosine diphosphoglucose pyrophosphorylase, the enzyme controlled by sh2, was extracted and partially purified from the four revertants and was compared to enzyme produced by the progenitor Sh2 allele and the sh2-m allele.The revertants contained 50 to 140% of the activity conditioned by the progenitor allele. Each of the revertants appears to be unique as judged by differences in Km(glucose-1-PO(4)), 3-phosphoglycerate(3-PGA) activation, and phosphate-inhibition. In one case the reversion event apparently increased the sensitivity of ADP-glucose pyrophosphorylate to 3-PGA activation.
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PMID:Altered Maize Endosperm Adp-Glucose Pyrophosphorylases from Revertants of a SHRUNKEN-2-DISSOCIATION ALLELE. 1724 59

The enzyme triosephosphate isomerase (TIM) is a model of catalytic efficiency. The 11 residue loop 6 at the TIM active site plays a major role in this enzymatic prowess. The loop moves between open and closed states, which facilitate substrate access and catalysis, respectively. The N and C-terminal hinges of loop 6 control this motion. Here, we detail flexibility requirements for hinges in a comparative solution NMR study of wild-type (WT) TIM and a quintuple mutant (PGG/GGG). The latter contained glycine substitutions in the N-terminal hinge at Val167 and Trp168, which follow the essential Pro166, and in the C-terminal hinge at Lys174, Thr175, and Ala176. Previous work demonstrated that PGG/GGG has a tenfold higher Km value and 10(3)-fold reduced k(cat) relative to WT with either d-glyceraldehyde 3-phosphate or dihyrdroxyacetone phosphate as substrate. Our NMR results explain this in terms of altered loop-6 dynamics in PGG/GGG. In the mutant, loop 6 exhibits conformational heterogeneity with corresponding motional rates <750 s(-1) that are an order of magnitude slower than the natural WT loop 6 motion. At the same time, nanosecond timescale motions of loop 6 are greatly enhanced in the mutant relative to WT. These differences from WT behavior occur in both apo PGG/GGG and in the form bound to the reaction-intermediate analog, 2-phosphoglycolate (2-PGA). In addition, as indicated by 1H, 15N and 13CO chemical-shifts, the glycine substitutions diminished the enzyme's response to ligand, and induced structural perturbations in apo and 2-PGA-bound forms of TIM that are atypical of WT. These data show that PGG/GGG exists in multiple conformations that are not fully competent for ligand binding or catalysis. These experiments elucidate an important principle of catalytic hinge design in proteins: structural rigidity is essential for focused motional freedom of active-site loops.
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PMID:Dynamic requirements for a functional protein hinge. 1733 27

The selection of an appropriate scaffold represents one major key to success in tissue engineering. In cardiovascular applications, where a load-bearing structure is required, scaffolds need to demonstrate sufficient mechanical properties and importantly, reliable retention of these properties during the developmental phase of the tissue engineered construct. The effect of in vitro culture conditions, time and mechanical loading on the retention of mechanical properties of two scaffold types was investigated. First candidate tested was a poly-glycolic acid non-woven fiber mesh, coated with poly-4-hydroxybutyrate (PGA/P4HB), the standard scaffold used successfully in cardiovascular tissue engineering applications. As an alternative, an electrospun poly-epsilon-caprolactone (PCL) scaffold was used. A 15-day dynamic loading protocol was applied to the scaffolds. Additionally, control scaffolds were incubated statically. All studies were performed in a simulated physiological environment (phosphate-buffered saline solution, T=37 degrees C). PGA/P4HB scaffolds showed a dramatic decrease in mechanical properties as a function of incubation time and straining. Mechanical loading had a significant effect on PCL scaffold properties. Degradation as well as fiber fatigue caused by loading promote loss of mechanical properties in PGA/P4HB scaffolds. For PCL, fiber reorganization due to straining seems to be the main reason behind the brittle behavior that was pronounced in these scaffolds. It is suggested that those changes in scaffolds' mechanical properties must be considered at the application of in vitro tissue engineering protocols and should ideally be taken over by tissue formation to maintain mechanically stable tissue constructs.
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PMID:Effect of biomimetic conditions on mechanical and structural integrity of PGA/P4HB and electrospun PCL scaffolds. 1770 17

The aqueous solution behaviour of polyethyleneimine (a cationic synthetic polymer) in the presence of anions (such as citrate and phosphate) was studied by means of turbidimetry. The variation of the absorbance at 420 nm of dilute mixture with pH, the polymer concentration and the ionic strength were examined. The mixture of polyethyleneinine citrate or polyethyleneinine phosphate behaves as a pseudo polyampholyte with an isoelectric point of 5.5 and 6.2 for phosphate and citrate respectively and a precipitation pH range between 3.5 and 8.0. Pepsin was completely precipitated with the polymer anion complex within this pH interval. Citrate showed a better precipitation effect than phosphate did. The precipitate was reversibly dissolved in NaCl (for concentrations higher than 0.2 M) and pepsin kept its biological activity. Studies of pepsin thermal stability (by differential scanning calorimetry) revealed that the polyethyleneimine presence increased the enzyme denaturation temperature. The circular dichroism spectrum of pepsin showed a non-significant loss of secondary and tertiary enzyme structure by the polyethyleneimine. However, the polymer presence increased the biological activity of pepsin.
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PMID:Polyethyleneimine phosphate and citrate systems act like pseudo polyampholytes as a starting method to isolate pepsin. 1798 Nov 1

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