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Query: HUMANGGP:013609 (
Phosphoglycerate mutase
)
126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Phosphoglycerate mutase
has been purified from methanol-grown Hyphomicrobium X and Pseudomonas AMI by acid precipitation, heat treatment, ammonium sulphate fractionation, Sephadex G-50 gel filtration and DEAE-cellulose column chromatography. The purification attained using the Hyphomicrobium X extract was 72-fold, and using the Pseudomonas AMI extract, 140-fold. The enzyme purity, as shown by analytical polyacrylamide gel electrophoresis, was 50% from Hyphomicrobium X and 40% from Pseudomonas AMI. The enzyme activity was associated with one band. The purified preparations did not contain detectable amounts of
phosphoglycerate kinase
, phosphopyruvate hydratase, phosphoglycerate dehydrogenase or glycerate kinase activity. The molecular weight of the enzymic preparation was 32000 +/- 3000. The enzyme from both organisms was stable at low temperatures and, in the presence of 2,3-diphosphoglyceric acid, could withstand exposure to high temperatures. The enzyme from Pseudomonas AMI has a broad pH optimum at 7-0 to 7-6 whilst the enzyme from Hyphomicrobium X has an optimal activity at pH 7-3. The cofactor 2,3-diphosphoglyceric acid was required for maximum enzyme activity and high concentrations of 2-phosphoglyceric acid were inhibitory. The Km values for the Hyphomicrobium X enzyme were: 3-phosphoglyceric acid, 6-0 X 10(-3) M: 2-phosphoglyceric acid, 6-9 X 10(-4) M; 2,3-diphosphoglyceric acid, 8-0 X 10(-6) M; and for the Pseudomonas AMI ENzyme: 3-4 X 10(-3) M, 3-7 X 10(-4) M and 10 X 10(-6) M respectively. The equilibrium constant for the reaction was 11-3 +/- 2-5 in the direction of 2-phosphoglyceric acid to 3-phosphoglyceric acid and 0-09 +/- 0-02 in the reverse direction. The standard free energy for the reaction proceeding from 2-phosphoglyceric acid to 3-phosphoglyceric acid was -5-84 kJ mol(-1) and in the reverse direction +5-81 kJ mol(-1).
...
PMID:Purification and characterization of phosphoglycerate mutase from methanol-grown Hyphomicrobium X and Pseudomonas AM1. 1 Mar 46
The erythrocytes of 350 pigtailed macaques (Macaca nemestrina) were examined for electrophoretic variation of hemoglobin and 26 enzymes. Seven enzymes showed variation in more than 1% of individuals: phosphoglucose isomerase, phosphoglucomutase-1, soluble NADP-dependent isocitric dehydrogenase, peptidase A, peptidase C,
2,3-diphosphoglycerate mutase
, and acid phosphatase. Variation with lesser frequency was found in soluble glutamic-oxalacetic transaminase,
phosphoglycerate kinase
, lactic dehydrogenase, and hemoglobin. Only eight samples were tested for esterase D, and one of these had a variant phenotype. Enzymes with no clear variation were adenylate kinase, adenosine deaminase, phosphofructokinase, hexokinase, pyruvate kinase, glyceraldehyde 3-phosphate dehydrogenase, aldolase, phosphoglycerate mutase, phosphopyruvate hydratase (enolase), phosphoglucomutase-3, and superoxide dismutase. There was father-to-son transmission of PGI, PGM-1, peptidase C, 6PGD, 2,3-DPGAM, NADP-ICD, and acid phosphatase variants, suggesting that these loci are autosomal as in man.
...
PMID:Intraspecific red cell enzyme variation in the pigtailed macaque (Macaca nemestrina). 114 87
The five glycolytic enzymes glyceraldehyde-3-phosphate dehydrogenase,
phosphoglycerate kinase
, phosphoglycerate mutase, enolase and pyruvate kinase were each purified from extracts of Zymomonas mobilis cells, by using dye-ligand chromatography as the principal step. Two procedures, producing three and two of the enzymes respectively, are described in detail. Z. mobilis glyceraldehyde-phosphate dehydrogenase was found to be similar in most respects to the enzyme from other sources, except for having a slightly larger subunit size. Phosphoglycerate kinase has properties typical for this enzyme; however, it did not show the sulphate activation effects characteristic of this enzyme from most other sources.
Phosphoglycerate mutase
is a dimer, partially independent of 2,3-bisphosphoglycerate, and has a high specific activity. Enolase was found to be octameric; otherwise its properties were very similar to those of the yeast enzyme. Pyruvate kinase is unusual in being dimeric, and not requiring K+ for activity. It is not allosterically activated by sugar phosphates, having a high activity in the absence of any effectors. Some quantitative differences in the relative amounts of these enzymes, compared with eukaryotic species, are ascribed to the fact that Z. mobilis utilizes the Entner-Doudoroff pathway rather than the more common Embden-Meyerhoff glycolytic route.
...
PMID:Isolation and properties of the glycolytic enzymes from Zymomonas mobilis. The five enzymes from glyceraldehyde-3-phosphate dehydrogenase through to pyruvate kinase. 302 43
Metabolic myopathies comprise a clinically and etiologically diverse group of disorders caused by defects in cellular energy metabolism, including the breakdown of carbohydrates and fatty acids to generate adenosine triphosphate, predominantly through mitochondrial oxidative phosphorylation. Accordingly, the three main categories of metabolic myopathies are glycogen storage diseases, fatty acid oxidation defects, and mitochondrial disorders due to respiratory chain impairment. The wide clinical spectrum of metabolic myopathies ranges from severe infantile-onset multisystemic diseases to adult-onset isolated myopathies with exertional cramps. Diagnosing these diverse disorders often is challenging because clinical features such as recurrent myoglobinuria and exercise intolerance are common to all three types of metabolic myopathy. Nevertheless, distinct clinical manifestations are important to recognize as they can guide diagnostic testing and lead to the correct diagnosis. This article briefly reviews general clinical aspects of metabolic myopathies and highlights approaches to diagnosing the relatively more frequent subtypes (Fig. 1). Fig. 1 Clinical algorithm for patients with exercise intolerance in whom a metabolic myopathy is suspected. CK-creatine kinase; COX-cytochrome c oxidase; CPT-carnitine palmitoyl transferase; cyt b-cytochrome b; mtDNA-mitochondrial DNA; nDNA-nuclear DNA; PFK-phosphofructokinase;
PGAM
-phosphoglycerate mutase; PGK-
phosphoglycerate kinase
; PPL-myophosphorylase; RRF-ragged red fibers; TFP-trifunctional protein deficiency; VLCAD-very long-chain acyl-coenzyme A dehydrogenase.
...
PMID:A diagnostic algorithm for metabolic myopathies. 2042 36
Echinocytosis of erythrocytes by glucose depletion is attributed to adenosine triphosphate depletion, but its process still remains unknown. A mechanism of control of the erythrocyte shape has been previously proposed in which the anion exchanger Band 3, linked to flexible membrane skeleton, has a pivotal role. Recruitments of its inward facing (Band 3(i) ) and outward facing (Band 3(o) ) conformations contract and relax the membrane skeleton, thus promoting echinocytosis and stomatocytosis, respectively. The Band 3(o) /Band 3(i) equilibrium ratio increases with the increase of the Donnan equilibrium ratio, and preferential inward and outward transport by Band 3 of substrates slowly transported are echinocytogenic and stomatocytogenic, respectively. The mechanism suggests the following process. The major organic phosphate 2,3-bisphosphoglycerate is catabolized to lactate to form inorganic phosphate, 3-phosphoglycerate, and adenosine triphosphate. The last two products can be reversibly transformed into 1,3-bisphosphoglycerate and adenosine diphosphate by the glycolytic enzyme
phosphoglycerate kinase
, thus allowing 2,3-bisphosphoglycerate formation by
2,3-bisphosphoglycerate synthase
/phosphatase. The catabolic and cyclic processes initially oppose echinocytosis by increasing the Donnan ratio and outward transport of slowly transported inorganic phosphate by Band 3 (its basic form is transported with a hydrogen ion). Echinocytosis occurs when inward transport of this product becomes predominant. This process can rationalize direct and indirect observations.
...
PMID:The basis of echinocytosis of the erythrocyte by glucose depletion. 2200 6
