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)

1. The high oxygen affinity of fetal blood in rabbits is due to a very low concentration of 2,3-diphosphoglycerate (2,3-DPG) in the red cells. In order to gather informations on the factors responsible for this characteristic we have studied synthesis and break-down of 2,3-DPG in fetal and adult rabbit red cells in vitro and examined possible regulative pathways which may lead to the low 2,3-DPG concentration in vivo. 2. Under conditions where 2,3-DPG and 3-phosphoglycerate (3-PGA) accumulate in adult erythrocytes, i.e. in a solution containing inosine, pyruvate and inorganic phosphate, the amount of 2,3-DPG synthetized in fetal red cells was only 40% of the adult value and 3-PGA was not measurable. Upon inhibition of enolase by NaF, however, both 2,3-DPG and 3-PGA increased to a similar extent in fetal and adult red cells. These findings point towards differences in the pyruvate kinase (PK) reaction which is one of the rate limiting steps of glycolysis. Direct measurements revealed an over tenfold higher PK activity in fetal compared to adult red cells. This higher activity of PK will lead to a decreased concentration of 3-PGA with a consecutive fall in 2,3-DPG concentration. 3. Other factors, like a decreased glucose utilization, a decreased activity of 2,3-DPG mutase or an increased 2,3-DPG phosphatase activity could be excluded as a cause for the low 2,3-DPG concentration in fetal red blood cells. The same holds for extraerythrocytic factors like glucose concentration or pH value in fetal blood. 4. During the postnatal development of rabbits the PK activity decreased. 50 days after birth, PK activity was 20% of the fetal value but still somewhat higher than in adult erythrocytes. This change is paralleled by an increase in 2,3-DPG concentration and half saturation oxygen pressure. With respect to the synthesis of 2,3-DPG and ATP, the fetal rabbit red cell is comparable to hereditary high PK activity in human erythrocytes.
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PMID:High pyruvate kinase activity causes low concentration of 2,3-diphosphoglycerate in fetal rabbit red cells. 2 78

It may be concluded that the conversion of PGA to DPGA plays a key role in induction and in the regulation of cycle activity. The high concentrations of PGA in actively photosynthesizing chloroplasts reflect this role and the control exerted by adenylate ratios. Thus the cycle can operate at its maximum rate only in the presence of high PGA and low ribulose 5-phosphate concentrations. Once induction is complete, the reductive pentose phosphate pathway will continue to function at its maximum rate if sink activity within the cytoplasm makes available sufficient Pi to support rapid export of triose phosphate. If triose phosphate tends to build up in the straoma, it will favor pentose monophosphate accumulation. A relative excess of ribulose 5-phosphate would, in turn, inhibit PGA reduction (and hence its own formation) by drawing too heavily on the available ATP.
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PMID:Regulation of photosynthetic carbon assimilation. 74 10

Human nucleus pulposus and annulus fibrosus, obtained at autopsy from patients 7-30 years of age, were extracted with 2 M guanidine-HCl (pH 5.82) to remove proteoglycans, then stirred with pepsin in 0.5 M acetic acid, followed by three 24-h extractions with 1 M NaCl (pH 7.5) and one 24-h extraction with 2 M KSCN (potassium thiocyanate) (pH 7.2). Pepsin and NaCl solubilized an average of about 30% of nucleus pulposus collagen and 18% of annulus fibrosus collagen. KSCN extracted a further 34% of nucleus pulposus collagen and only 4% of annulus fibrosus collagen. CM-cellulose chromatography of nucleus and annulus collagen purified from the pepsin, NaCl and KSCN supernatants consistently revealed only one peak, always appearing slightly ahead of the alpha1 position for rat tail tendon type I collagen. Polyacrylamide and SDS-gel electrophoresis consistently revealed only one band with the mobility of alpha1 chains. Amino acid composition of collagen from nucleus and annulus is comparable to those of mammalian and avian cartilage type II collagen, and distinctly different from those of rat tail tendonand guinea pig skin type I collagens. Periodate oxidation of nucleus and annulus collagens showed that 81% and 67%, respectively, of the hydroxylysine residues survive treatment, compared to 71% for bovine articular cartilage collagen and 17% for guinea pig skin collagen. Total hexose analysis revealed 1.8 muM and 2.0 muM hexose per muM periodate-stable hydroxylysine in nucleus and annulus collagens, respectively. Ion exchange chromatography showed the presence of glucose and galactose in a ratio of 0.92:1 in nucleas collagen and 1.07:1 in annulus collagen. Pepsin-solubilized, NaCl-extracted collagen from nucleus and annulus formed native-type fibrils in vitro. The banding patterns of ATP-induced segment-long-spacing precipitates of nucleus and annulus collagens were identical to each other and indistinguishable from those of cartilage (type II) collagen, but distinctly different from those of rat tail tendon (type I) collagen. These data suggest that the collagen which can be extracted after limited pepsin attack of human nucleus and annulus is of the form [alpha1 (II)]3.
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PMID:Pepsin-solubilized collagen of human nucleus pulposus and annulus fibrosus. 78 25

Exchange-inert beta, gamma-bidentate Cr(H2O)x(NH3)y ATP complexes inactivate yeast phosphoglycerate kinase (PGK) by forming a coordination complex at the enzyme active site. The observed inactivation rates ranged from 0.019 min-1 to 0.118 min-1 for Cr(NH3)4ATP and Cr(H2O)4ATP, respectively. Incorporation of one mol of Cr-ATP to the enzyme was sufficient for complete inactivation of the enzyme. The presence of Mg-ATP protected the enzyme against inactivation by Cr-ATP. The other substrate 3-phosphoglycerate (3-PGA), when present, reduced the observed inactivation rates. The reduction of the k(obs) by 3-PGA was proportional to the number of NH3 ligands present in the coordination sphere of Cr3+ in the Cr-ATP complex, suggesting that in the ternary enzyme-Cr-ATP-3-PGA complex 3-PGA may be coordinated to the metal ion. When the effector sulfate ion was present, the presence of 3-PGA did not cause any further effects on the observed inactivation rates. This suggests that bound substrates are in a different arrangement at the active site when sulfate is present and therefore 3-PGA may not need to displace a ligand from Cr3+. Additionally, PGK exhibited a stereoselectivity for the binding of Cr(H2O)4ATP. delta diastereomer of Cr(H2O)4ATP yielded an order of magnitude smaller Ki value compared to the value observed with the lambda isomer. The recovery of enzyme activity was observed over a period of a few hours upon removal of excess Cr-ATP. The presence of substrates and/or effector ion sulfate did not alter the observed reactivation rate. There was no difference in the reactivation rates of the enzyme which was inactivated with Cr(H2O)4ATP or Cr(NH3)4ATP with and without 3-PGA. Increasing the ligand exchange rates of Cr3+ of Cr-ATP by increasing the pH value of the recovery medium from 5.9 to 6.8 increased the rate of recovery by a factor of 8. The pH dependence of the reactivation indicated that one hydroxyl group is involved in the recovery of the enzyme activity in enzyme CrATP and enzyme.CrATP.3-PGA complexes.
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PMID:Inactivation of yeast phosphoglycerate kinase by Cr-ATP complexes and its implications on the conformation of the enzyme active site. 144 68

In situ hybridization was carried out on metaphase-prometaphase chromosomes of PGA-stimulated lymphocytes and bone marrow cells obtained from laboratory rats and mice. Plasmid cloned sequences of human apolipoprotein A-1 (Apo A-1) and ceruloplasmin (CP) cDNA fragments have been used as specific probes labelled in nick-translation reaction with 3HdTTP and 3Hd ATP. The data of our study suggest that Apo A-1 is localized in 11q14-22, 9 A2-4 and 5q36 areas in men, mice and rats, respectively. The DNA sequences of human CP cDNA most probably occupy 3q23-25, 13q24-26 and 15q13-20 areas. Heterologous in situ hybridization of other species with DNA probes does not always give reliable results in gene mapping. Thus, the data of heterologous hybridization should be considered with caution.
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PMID:[Mapping of apolipoprotein A-1 and ceruloplasmin genes on human, rat and mouse chromosomes by hybridization in situ with specific human DNA probes]. 313 94

The effects of ATP, vanadate, and molybdate on cathepsin D-catalyzed hydrolysis of proteins and peptides were examined. Hydrolysis of bovine serum albumin, hemoglobin, parathyroid hormone, and a synthetic octapeptide was activated by ATP. Degradation of the protein substrates all had similar ATP concentration dependence, but the magnitude of the activation varied. Kinetic constants for ATP activation were obtained with a synthetic substrate. ATP increased kcat from 0.4 to 2 s-1 but did not change KM. Kact for ATP was 800 microM. Studies with pepstatin-Sepharose confirm that ATP does not alter the substrate binding site on cathepsin D. Pepsin, a homologous aspartate protease, was not activated by ATP. It was also found that vanadate and molybdate inhibit cathepsin D-catalyzed proteolysis. However, this inhibition was dramatically dependent on substrate concentration and was eliminated at high substrate. Hydrolysis of the synthetic peptide was not inhibited at concentrations of molybdate below 50 microM, and above this concentration the peptide precipitated. Protein substrates were also found to precipitate in the presence of molybdate. The ATP dependence of the enzyme was not altered by molybdate or vanadate. These results suggest that inhibition by vanadate and molybdate is related to interactions with the substrate rather than with cathepsin D. It is concluded that ATP activation of cathepsin D may play a physiological role in regulation of proteolysis in lysosomes, but that vanadate and molybdate inhibition of lysosomal proteolysis does not establish ATP dependence.
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PMID:Effects of ATP, vanadate, and molybdate on cathepsin D-catalyzed proteolysis. 389 55

Crude extracts of starchy endosperm from barley (Hordeum vulgare cv Bomi) contained high pyrophosphorolytic activity (up to 0.5 mumol of glucose-1-P formed min-1 mg-1 of protein) of ADP-glucose pyrophosphorylase (AGP) when assayed in the absence of 3-phosphoglycerate (3-PGA). This high activity was observed regardless of whether AGP had been extracted in the presence or absence of various protease inhibitors or other protectants. Western blot analysis using antibodies specific for either the small or large subunit of the enzyme demonstrated that the large, 60-kD subunit was prone to proteolysis in crude extracts, with a half-time of degradation at 4 degrees C (from 60 to 53 to 51 kD) on the order of minutes. The presence of high concentrations of protease inhibitors decreased, but did not prevent this proteolysis. The small, 51-kD subunit of barley endosperm AGP was relatively resistant to proteolysis, both in the presence or absence of protease inhibitors. For the crude, nonproteolyzed enzyme, 3-PGA acted as a weak activator of the ADP-glucose synthetic reaction (about 25% activation), whereas in the reverse reaction (pyrophosphorolysis) it served as an inhibitor rather than an activator. For both the synthetic and pyrophosphorolytic reactions, inorganic phosphate (Pi) acted as a weak competitive or mixed inhibitor of AGP. The relative insensitivity to 3-PGA/Pi regulation has been observed with both the nonproteolyzed crude enzyme and partially purified (over 60-fold) AGP, the latter characterized by two bands for the large subunit (molecular masses of 53 and 51 kD) and one band for the small subunit (51 kD). Addition of 3-PGA to assays of the partially purified, proteolyzed enzyme had little or no effect on the Km values of all substrates of AGP, but it reduced the Hill coefficient for ATP (from 2.1 to 1.0). These findings are discussed with respect to previous reports on the structure and regulation of higher plant AGP.
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PMID:Insensitivity of barley endosperm ADP-glucose pyrophosphorylase to 3-phosphoglycerate and orthophosphate regulation. 827 93

As part of a structure-function analysis of the higher-plant ADP-glucose pyrophosphorylase (AGP), we used a random mutagenesis approach in combination with a novel bacterial complementation system to isolate over 100 mutants that were defective in glycogen production (T.W. Greene, S.E. Chantler, M.L. Khan, G.F. Barry, J. Preiss, T.W. Okita [1996] Proc Natl Acad Sci USA 93: 1509-1513). One mutant of the large subunit M27 was identified by its capacity to only partially complement a mutation in the structural gene for the bacterial AGP (glg C), as determined by its light-staining phenotype when cells were exposed to l3 vapors. Enzyme-linked immunosorbent assay and enzymatic pyrophosphorylysis assays of M27 cell extracts showed that the level of expression and AGP activity was comparable to those of cells that expressed the wild-type recombinant enzyme. Kinetic analysis indicated that the M27 AGP displays normal Michaelis constant values for the substrates glucose-1-phosphate and ATP but requires 6- to 10-fold greater levels of 3-phosphoglycerate (3-PGA) than the wild-type recombinant enzyme for maximum activation. DNA sequence analysis showed that M27 contains a single point mutation that resulted in the replacement of aspartic acid 413 to alanine. Substitution of a lysine residue at this site almost completely abolished activation by 3-PGA. Aspartic acid 413 is adjacent to a lysine residue that was previously identified by chemical modification studies to be important in the binding of 3-PGA (K. Ball, J. Preiss [1994] J Biol Chem 269: 24706-24711). The kinetic properties of M27 corroborate the importance of this region in the allosteric regulation of a higher-plant AGP.
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PMID:Aspartic acid 413 is important for the normal allosteric functioning of ADP-glucose pyrophosphorylase. 893 21

We isolated a full-length cDNA that encodes ATP-dependent phosphoenolpyruvate carboxykinase (EC 4.1.1.49, PCK) from leaves of maize, an NADP-malic enzyme type C4 plant. The mRNA was specifically and rather abundantly expressed in bundle sheath cells in accordance with the recent finding of cell-type-specific localization of PCK protein in maize, which has been detected with antibodies against cucumber PCK protein. The predicted protein had an N-terminal extension, which is characteristic of plant PCKs. The transcript level was much higher in the daytime than at night in 14-day old seedlings. However, in 42-day old plants the extent of diurnal change decreased. The maize PCK was expressed in Escherichia coli with the pET32 plasmid and purified to homogeneity. Through digestion with enterokinase, two types of enzyme were prepared; one with an intact N-terminus and the other lacking its N-terminal 77 amino acid residues due to over-digestion. The truncated protein had about 2-fold higher specific activity than the intact one, and was inhibited by 3-phosphoglycerate (3-PGA) with an I0.5 of 17.5 mM. In contrast, the intact protein was almost insensitive to 3-PGA. These results strongly suggest that the intact N-terminal extension may be involved in the regulation of PCK activity in vivo through some modification such as reversible phosphorylation.
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PMID:cDNA cloning and characterization of maize phosphoenolpyruvate carboxykinase, a bundle sheath cell-specific enzyme. 1059 98

Cytosolic pyruvate kinase (ATP: Pyruvate phosphotransferase, EC 2.7.1.40; PKc) was purified to apparent homogeneity with about 22% recovery from developing seeds of Brassica campestris using (NH4)2SO4 fractionation, DEAE-cellulose chromatography, gel filtration through Sepharose-CL-6B and affinity chromatography through reactive Blue Sepharose-CL-6B. The purified enzyme with molecular mass of about 214 kDa was a heterotetramer with subunit molecular mass of 55 and 57 kDa. The enzyme showed maximum activity at pH 6.8 and absolute requirement for a divalent (Mg2+) and a monovalent (K+) cation for activity. Typical Michaelis-Menten kinetics was obtained for both the substrates with Km values of 0.10 and 0.11 mM for PEP and ADP, respectively. The enzyme could also use UDP or GDP as alternative nucleotides, but with lower Vmax and lesser affinities. The enzyme was inhibited by glutamate, glutamine, fumarate, citrate, isocitrate, oxalate, 2-PGA, ATP, UTP and GTP and activated by glucose-6-phosphate, fructose-1,6-bisphosphate and Pi, suggesting its regulation mainly by TCA cycle intermediates and the cellular need for carbon skeletons for amino acid biosynthesis. ATP inhibition was of competitive type with respect to PEP and non-competitive with respect to ADP. Similarly, oxalate inhibition was also of competitive type with respect to PEP and non-competitive with respect to ADP. Initial velocity and product inhibition studies except for pyruvate inhibition were consistent for a compulsory-ordered tri-bi mechanism.
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PMID:Purification and characterization of cytosolic pyruvate kinase from developing seeds of Brassica campestris L. 1098 13

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