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Phosphoenol pyruvate

Step 2 of Figure 29.13 Decarboxylation and Phosphorylation Decarboxylation of oxaloacetate, a jB-keto acid, occurs by the typical retro-aldol mechanism like that in step 3 in the citric acid cycle (Figure 29.12), and phosphorylation of the resultant pyruvate enolate ion by GTP occurs concurrently to give phosphoenol-pyruvate. The reaction is catalyzed by phosphoenolpyruvate carboxykinase. [Pg.1162]

An intriguing stress-induced alteration in gene expression occurs in a succulent plant, Mesembryanthemum crystallinum, which switches its primary photosynthetic CO2 fixation pathway from C3 type to CAM (Crassulacean acid metabolism) type upon salt or drought stress (Winter, 1974 Chapter 8). Ostrem et al. (1987) have shown that the pathway switching involves an increase in the level of mRNA encoding phosphoenol-pyruvate carboxylase, a key enzyme in CAM photosynthesis. [Pg.165]

A. Phosphoenolpyruvate.—The mechanisms of hydrolysis of phosphate esters of phosphoenol pyruvic acid (33) have been described in detail, and 0 studies confirm an earlier postulate that attack by water on the cyclic acyl phosphate (34) occurs at phosphorus and not at carbon. In the enolase reaction, the reversible interconversion of 2-phosphoglyceric acid(35)... [Pg.134]

The Enzymes II of the phosphoenol-pyruvate-dependent carbohydrate transport... [Pg.135]

Figure 5 Model of phosphorus (P) deficiency-induced physiological changes associated with the release of P-mobilizing root exudates in cluster roots of white lupin. Solid lines indicate stimulation and dotted lines inhibition of biochemical reaction sequences or mclaholic pathways in response to P deliciency. For a detailed description see Sec. 4.1. Abbreviations SS = sucrose synthase FK = fructokinase PGM = phosphoglueomutase PEP = phosphoenol pyruvate PE PC = PEP-carboxylase MDH = malate dehydrogenase ME = malic enzyme CS = citrate synthase PDC = pyruvate decarboxylase ALDH — alcohol dehydrogenase E-4-P = erythrosc-4-phosphate DAMP = dihydraxyaceConephos-phate APase = acid phosphatase. Figure 5 Model of phosphorus (P) deficiency-induced physiological changes associated with the release of P-mobilizing root exudates in cluster roots of white lupin. Solid lines indicate stimulation and dotted lines inhibition of biochemical reaction sequences or mclaholic pathways in response to P deliciency. For a detailed description see Sec. 4.1. Abbreviations SS = sucrose synthase FK = fructokinase PGM = phosphoglueomutase PEP = phosphoenol pyruvate PE PC = PEP-carboxylase MDH = malate dehydrogenase ME = malic enzyme CS = citrate synthase PDC = pyruvate decarboxylase ALDH — alcohol dehydrogenase E-4-P = erythrosc-4-phosphate DAMP = dihydraxyaceConephos-phate APase = acid phosphatase.
J. F. Johnson, C. P. Vance, and D. L. Allan, Phosphorus deficiency in Lupinus aUms altered lateral root development and enhanced expression of phosphoenol-pyruvate carboxylase. Plant Physiol. 112 31 (1996). [Pg.83]

The highly electrophilic character of the POf ion would suggest a very unselective phosphorylation behavior. For example, the ratio of alkyl phosphate to inorganic phosphate obtained in hydrolyses of phosphoric esters in water/alcohol mixtures should reflect the molar ratio of water and alcohol. This is indeed found in numerous cases, e.g. in the hydrolysis of phenyl and 4-nitrophenyl phosphate monoanions 97) or of 4-nitrophenyl phosphate dianions 65) at 100 °C in methanol/ water mixtures of various compositions, as also in the solvolysis of the acetyl phosphate dianion at 37 °C 97) or of phosphoenol pyruvate monoanions 82). Calculations of the free energy of the addition reactions of water and ethanol to the POf ion support the energetic similarity of the two reactions 98) (Table 4). [Pg.106]

It is interesting to note that the dihydroxybenzoyl nucleus arises from chorismic acid which, in turn, is derived from erythrose phosphate and phosphoenol pyruvate, both of these substances being intermediates in the anaerobic metabolism of carbohydrate (74). Accordingly, the biogenesis of the catechol type ligand is independent of the presence of oxygen gas. [Pg.161]

Creatine phosphate Phosphoenol pyruvate Pyridoxal phosphate... [Pg.115]

I, 7-diphosphate.170 1 (f> This tetrose phosphate is involved with phosphoenol pyruvate in the formation of shikimic acid via 3-deoxy-2-keto-D-ara6ino-heptonic acid 7-phosphate and, hence, of aromatic compounds.170(d) A synthesis of the tetrose phosphate has been described.170 1 Aldolase shows a high affinity for the heptulose diphosphate and, compared with that for D-fructose 1,6-diphosphate, the rate of reaction is about 60 %. The enzyme transaldolase, purified 400-fold from yeast, catalyzes the following reversible reaction by transfer of the dihydroxyacetonyl group.l70(o>... [Pg.218]

Deoxy-araWno-heptulosonic acid 7-phosphate (10) is a metabolic intermediate before shikimic acid in the biosynthetic pathway to aromatic amino-acids in bacteria and plants. While (10) is formed enzymically from erythrose 4-phosphate (11) and phosphoenol pyruvate, a one-step chemical synthesis from (11) and oxalacetate has now been published.36 The synthesis takes place at room temperature and neutral pH... [Pg.137]

Feed-forward control is more likely to be focused on a reaction occurring at or near the end of a pathway. Compounds produced early in the pathway act to enhance the activity of the control enzyme and so prevent a back log of accumulated intermediates just before the control point. An example of feed-forward control is the action of glucose-6-phosphate, fructose-1,6-bisphosphate (F-l,6bisP) and phosphoenol pyruvate (PEP), all of which activate the enzyme pyruvate kinase in glycolysis in the liver. [Pg.63]

The oxidative decarboxylation reaction above is part of the TCA cycle and leads to the formation of oxaloacetate, which maybe used to synthesize citrate (with acetyl-CoA) or may be used as a substrate by phosphoenol pyruvate carboxykinase, PEPCK. It should be noted that the phosphoenolpyruvate generated by PEPCK reaction shown above is... [Pg.269]

I Hepatic phosphoenol-pyruvate carboy- (iii) kinase (PEPCK) activity... [Pg.263]

Hydroxycyclopropanecarboxylic acid phosphate HCP 34 is an analogue of phosphoenolpyruvate (PEP) 35 which is metabolized by various enzymes. HCP 34 is a potent competitive inhibitor of enzymes utilizing PEP 35, such as PEP carboxylase, enolase, pyruvate kinase, and probably other enzymes. It is a substantially better inhibitor than phospholactate 36 or phosphoglycolate 37, presumably because of the similarity of its geometric and electronic structures with phosphoenol pyruvate,Eq. 12 [28]. [Pg.8]

Glucose-6-phosphatase defect Fructose-1,6-biphosphatase defect Phosphoenol pyruvate carboxykinase defect... [Pg.47]

The ADP produced by the hydrolysis of ATP is continuously used up by added purified pyruvate kinase, which in the presence of phosphoenol pyruvate produces pyruvate and ATP (Fig. 3.8.6). Pyruvate is then utilized by added lactate dehydrogenase, which in the presence of NADH produces lactate and NAD+. Complex V activity is estimated from the rate of NADH oxidation at 340 nm (e 4870-M 1-cm 1 isosbestic point 380 nm), after subtracting the oligomycin-resistant activity. It should be kept in mind that oligomicyn sensitivity requires the preserved attachment of the Fr component of the enzyme to the membranous F0 component. The attachment is readily lost upon freeze-thaw cycles. Consequently, it is reasonable to measure the activity on fresh material only. [Pg.280]

Fig. 3.8.6 Spectrophotometric assays of complexes V, I III, II—III, and citrate synthase activity. DTNB Dithio-nitrobenzoic acid, LDH lactic dehydrogenase, ME medium E, MF medium F, MG medium G, MH medium H, PEP phosphoenol pyruvate, PK Pyruvate kinase, TNB thio-nitrobenzoic acid... Fig. 3.8.6 Spectrophotometric assays of complexes V, I III, II—III, and citrate synthase activity. DTNB Dithio-nitrobenzoic acid, LDH lactic dehydrogenase, ME medium E, MF medium F, MG medium G, MH medium H, PEP phosphoenol pyruvate, PK Pyruvate kinase, TNB thio-nitrobenzoic acid...

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A Phosphoenol Pyruvate

Biosynthesis phosphoenol pyruvate

Carboxylation of phosphoenol-pyruvate

Enzymes phosphoenol pyruvate carboxylase

PEPCK (phosphoenol pyruvate

Phosphoenol pyruvate carboxykinase

Phosphoenol pyruvate synthetase

Phosphoenol pyruvic acid

Phosphoenol-pyruvate carboxylase

Pyruvate/pyruvic acid phosphoenol

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