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Query: EC:4.1.1.32 (
phosphoenolpyruvate carboxykinase
)
4,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Determination of whether CO2 or HCO3- is the substrate for an enzymatic carboxylation has generally been accomplished by taking advantage of the fact that equilibration of these two compounds requires more than a minute at temperatures below 15 degrees C; thus different kinetics of carboxylation are obtained depending on whether CO2 or HCO3- is used to initiate the reaction. We report a new method using 13C18O2 as substrate for determining the CO2/HCO3- specificity of carboxylases. If CO2 is the substrate, then the 18O content of the 13C-containing product is the same as that of the 13CO2 used, whereas if HCO3- is the substrate, the 18O content is 2/3 that of the starting material. The method is independent of the detailed kinetics of the CO2/HCO3- interconversion and independent of the presence of contaminating unlabeled CO2 or HCO3-. Isotopic analysis is accomplished by 13C NMR. The method has been used to confirm that HCO3- is the substrate for
phosphoenolpyruvate carboxylase
. Studies of oxygen-18 isotope shifts in
phosphorus
NMR spectra have permitted confirmation of the observation that label is transferred from HC18O3- into Pi during the carboxylation of phosphoenolpyruvate.
...
PMID:Determination of substrate specificity of carboxylases by nuclear magnetic resonance. 311 Dec 98
The interactions of nucleotide substrates with the enzyme
phosphoenolpyruvate carboxykinase
and its Mn2+ complex were investigated by several methods. Direct binding shows the formation of stoichiometric complexes. The presence of Mn2+ increases the affinity of the enzyme for nucleotide. A higher affinity for GTP (Kd less than 2 microM) than for GDP (Kd = 15 microM) was determined. Solvent proton relaxation rate studies indicate no substantial difference in titration curves for free nucleotide or for Mg-nucleotide to the enzyme-Mn complex. The effect of Mn2+ on the 31P relaxation rates of IDP and of ITP in the binary Mn-nucleotide complex indicates the formation of direct coordination complexes. The distances of the alpha- and beta-31P of IDP to Mn2+ are identical (3.5 A). The Mn2+ distance to the beta- and gamma-31P of ITP is also identical (3.7 A) and is 0.2 A further from the alpha-
phosphorus
. In the presence of P-enolpyruvate carboxykinase, the effect of Mn2+ on the 31P relaxation rates was measured at 40.5 MHz and at 121.5 MHz. The dipolar correlation time was calculated to be 0.6-5.4 ns, depending upon assumptions made. The Mn2+ to
phosphorus
distances indicate the nucleotide substrates form a second sphere complex to the bound Mn2+. From 1/T2 measurements, electron delocalization from Mn2+ to the
phosphorus
atoms is indicated; this effect occurs although direct coordination does not take place. The exchange rate of GTP from the enzyme-Mn complex (koff = 4 X 10(4) s-1) is rapid compared to kcat with a lower energy of activation (9.2 kcal/mol) than for catalytic turnover.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Phosphorus-31 nuclear relaxation rate studies of the nucleotides on phosphoenolpyruvate carboxykinase. 652 66
[(S)-16O,17O]Thiophosphoenolpyruvate has been used as a substrate in H218O for the reaction catalyzed by
phosphoenolpyruvate carboxylase
, and the absolute configuration of the product, inorganic [16O,17O,18O]thiophosphate, has been determined. The reaction proceeds with inversion of configuration at
phosphorus
, thus ruling out the cyclic mechanism that has been proposed for this enzyme. The stereochemical result is consistent with a stepwise mechanism involving the intermediate formation of carboxyphosphate.
...
PMID:The stereochemical course at phosphorus of the reaction catalyzed by phosphoenolpyruvate carboxylase. 717 66
The quantitative structure-activity relationships (QSAR) of all known competitive inhibitors of the enzyme
phosphoenolpyruvate carboxylase
from C4 plants were investigated by means of molecular mechanics, the semiempirical quantum chemical methods MNDO and AM1, and the Hansch approach. In the case of phosphoenolpyruvate analogues, the hydrophobicity and steric impediment of the combined cis and trans substituents, the bond distance to the cis substituent along with its volume, dipole moment, the distance between the
phosphorus
and the carbonyl carbon, and the net electric charges on the phosphate and substituent groups are the main factors that govern their binding to the active site. For the phosphoglycolate analogues, the difference in the HOMO-LUMO energies, the magnitudes of their dipole moments and their non-polar surfaces, and the distance between the
phosphorus
and the carbonyl carbon are the variables that control their binding to the active site. These results, in conjunction with a discriminant analysis, also suggest that these inhibitors can actually be divided into two groups, according to the way they presumably interact with the active site.
...
PMID:Quantitative structure-activity relationships of competitive inhibitors of phosphoenolpyruvate carboxylase. 760 83
White lupin (Lupinus albus L.) was grown in hydroponic culture with 1 &mgr;M
phosphorus
to enable the development of proteoid roots to be observed in conjunction with organic acid exudation. Discrete regions of closely spaced, determinate secondary laterals (proteoid rootlets) emerged in near synchrony on the same plant. One day after reaching their final length (4 mm), citrate exudation occurred over a 3-d pulse. The rate of exudation varied diurnally, with maximal rates during the photoperiod. At the onset of citrate efflux, rootlets had exhausted their apical meristems and had differentiated root hairs and vascular tissues along their lengths. Neither in vitro
phosphoenolpyruvate carboxylase
nor citrate synthase activity was correlated with the rate of citrate exudation. We suggest that an unidentified transport process, presumably at the plasma membrane, regulates citrate efflux. Growth with elevated (700 &mgr;L L-1) atmospheric [CO2] promoted earlier onset of rootlet determinacy by 1 d, resulting in shorter rootlets and citrate export beginning 1 d earlier as a 2-d diurnal pulse. Citrate was the dominant organic acid exported, and neither the rate of exudation per unit length of root nor the composition of exudate was altered by atmospheric [CO2].
...
PMID:Linking development and determinacy with organic acid efflux from proteoid roots of white lupin grown with low phosphorus and ambient or elevated atmospheric CO2 concentration 1039 5
Exudation of organic anions is believed to be a common tolerance mechanism for both aluminium toxicity and
phosphorus
deficiency. Nevertheless, which of these stresses that actually elicit the exudation of organic anions from rape (Brassica napus L) remains unknown, and the combined effects of Al toxicity and P deficiency on rape have not been reported before. Therefore, in the current study, Brassica napus var. Natane nourin plants grown with or without 0.25 mM P were exposed to 0 or 50 micro M AlCl(3) and several parameters related to the exudation of organic anions from the roots were investigated. Eight days of P deficiency resulted in a significant growth reduction, but P deficiency alone did not induce exudation of organic anions. In contrast, Al strongly induced organic acid exudation, while simultaneously inhibiting root growth. Increased in-vitro activity of citrate synthase (CS, EC 4.1.3.7), malate dehydrogenase (MDH, EC 1.1.1.37) and
phosphoenolpyruvate carboxylase
(PEPC, EC 4.1.1.31), together with reduced root respiration, indicated that the Al-induced accumulation and subsequent exudation of citrate and malate were associated with both increased biosynthesis and reduced metabolism of citric and malic acid.
Phosphorus
-sufficient plants showed more pronounced aluminium-induced accumulation and exudation of organic anions than P-deficient plants. A divided root chamber experiment showed the necessity of direct contact between Al and roots to elicit exudation of organic anions. Prolonged exposure (10 days) to Al resulted in a decrease in the net exudation of citrate and malate, and the rate of decrease was much more rapid in P-deficient plants than in P-sufficient plants. It is concluded that P nutrition affects the level of Al-induced synthesis and exudation of organic anions. However, the mechanism needs further investigation.
...
PMID:The role of phosphorus in aluminium-induced citrate and malate exudation from rape (Brassica napus). 1503 19
Harsh hakea (Hakea prostrata R.Br.) is a member of the Proteaceae family, which is highly represented on the extremely nutrient-impoverished soils in southwest Australia. When
phosphorus
is limiting, harsh hakea develops proteoid or cluster roots that release carboxylates that mobilize sparingly soluble phosphate in the rhizosphere. To investigate the physiology underlying the synthesis and exudation of carboxylates from cluster roots in Proteaceae, we measured O2 consumption, CO2 release, internal carboxylate concentrations and carboxylate exudation, and the abundance of the enzymes
phosphoenolpyruvate carboxylase
and alternative oxidase (AOX) over a 3-week time course of cluster-root development. Peak rates of citrate and malate exudation were observed from 12- to 13-d-old cluster roots, preceded by a reduction in cluster-root total protein levels and a reduced rate of O2 consumption. In harsh hakea,
phosphoenolpyruvate carboxylase
expression was relatively constant in cluster roots, regardless of developmental stage. During cluster-root maturation, however, the expression of AOX protein increased prior to the time when citrate and malate exudation peaked. This increase in AOX protein levels is presumably needed to allow a greater flow of electrons through the mitochondrial electron transport chain in the absence of rapid ATP turnover. Citrate and isocitrate synthesis and accumulation contributed in a major way to the subsequent burst of citrate and malate exudation.
Phosphorus
accumulated by harsh hakea cluster roots was remobilized during senescence as part of their efficient P cycling strategy for growth on nutrient impoverished soils.
...
PMID:Developmental physiology of cluster-root carboxylate synthesis and exudation in harsh hakea. Expression of phosphoenolpyruvate carboxylase and the alternative oxidase. 1512 30
Here, nodulated lupins (Lupinus angustifolius (cv Wonga)) were hydroponically grown at low phosphate (LP) or adequate phosphate (HP). Routes of pyruvate synthesis were assessed in
phosphorus
(P)-starved roots and nodules, because P-starvation can enhance metabolism of phosphoenolpyruvate (PEP) via the nonadenylate-requiring
PEP carboxylase
(PEPc) route. Since nodules and roots may not experience the same degree of P stress, it was postulated that decreases in metabolic inorganic
phosphorus
(Pi) of either organ, should favour more pyruvate being synthesized from PEPc-derived malate. Compared with HP roots, the LP roots had a 50% decline in Pi concentrations and 55% higher ADP : ATP ratios. However, LP nodules maintained constant Pi levels and unchanged ADP : ATP ratios, relative to HP nodules. The LP roots had greater PEP metabolism via PEPc and synthesized more pyruvate from PEPc-derived malate. In nodules, P supply did not influence PEPc activities or levels of malate-derived pyruvate. These results indicate that nodules were more efficient than roots in maintaining optimal metabolic Pi and adenylate levels during LP supply. This caused an increase in PEPc-derived pyruvate synthesis in LP roots, but not in LP nodules.
...
PMID:Routes of pyruvate synthesis in phosphorus-deficient lupin roots and nodules. 1641 42
The effects of glycine, alanine, serine, and various phosphorylated metabolites on the activity of phosphoenolpyruvate (PEP) carboxylase from Zea mays and Crassula argentea were studied. The maize enzyme was found to be activated by amino acids at a site that is separate from the glucose 6-phosphate binding site. The combination of glycine and glucose 6-phosphate synergistically reduced the apparent K(m) of the enzyme for PEP and increased the apparent V(max). Of the amino acids tested, glycine showed the lowest apparent K(a) and caused the greatest activation. d-Isomers of alanine and serine were more effective activators than the l-isomers. Unlike the maize enzyme, the Crassula enzyme was not activated by amino acids. Activation of either the Crassula or maize enzyme by glucose 6-phosphate occurred without dephosphorylation of the activator molecule. Furthermore, the Crassula enzyme was activated by two compounds containing phosphonate groups whose carbon-
phosphorus
bonds were not cleaved by the enzyme. A study of analogs of glucose 6-phosphate with Crassula
PEP carboxylase
revealed that the identity of the ring heteroatom was a significant structural feature affecting activation. Activation was not highly sensitive to the orientation of the hydroxyl group at the second or fourth carbon positions or to the presence of a hydroxyl group at the second position. However, the position of the phosphate group was found to be a significant factor.
...
PMID:Metabolite activation of crassulacean Acid metabolism and c(4) phosphoenolpyruvate carboxylase. 1665 39
The effects of
phosphorus
nutrition on several physiological and biochemical parameters of the green alga, Selenastrum minutum, have been examined. Algal cells were cultured in chemostats under conditions of either Pi limitation or nutrient sufficiency. Pi limitation resulted in: (a) a 5-fold lower rate of respiration, (b) a 3-fold decline in rates of photosynthetic carbon dioxide fixation and oxygen evolution, (c) a 3-fold higher rate of dark carbon dioxide fixation, (d) significant increases in activities of phosphoenolpyruvate (PEP) carboxylase and PEP phosphatase (128% and 158% of nutrient sufficient activities, respectively), (e) significant reductions in activities of nonphosphorylating NADP-glyceraldehyde-3-phosphate dehydrogenase and NAD malic enzyme, and (f) no change in levels of ATP:fructose-6-phosphate 1-phosphotransferase, phosphorylating NAD-glyceraldehyde-3-phosphate dehydrogenase, 3-phosphoglycerate kinase, and pyruvate kinase. The intracellular concentrations of Pi, ATP, AMP, soluble protein, and chlorophyll were also significantly reduced in response to Pi limitation. As well, the level of ADP was about 11-fold lower in the Pi-limited cells as compared to the nutrient sufficient controls. It was predicted that because of this low level of ADP, pyruvate kinase catalyzed conversion of PEP to pyruvate may be restricted in Pi-limited cells. During Pi limitation,
PEP carboxylase
and PEP phosphatase may function to "bypass" the ADP dependent pyruvate kinase, as well as to recycle Pi for its reassimilation into cellular metabolism.
...
PMID:Effects of Phosphorus Limitation on Respiratory Metabolism in the Green Alga Selenastrum minutum. 1666 95
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