EC:3.1.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A lysozyme-detergent method was developed for the fractionation of sporulating cells of B. subtilis 168 wild type into mother cell and forespore fractions. The method is very mild and is reproducible with optimum concentrations of Brij-58, deoxycholic acid and sucrose. The results were confirmed by application of the method to temperature sensitive mutants. Ts-1 and Ts-3. The amounts of proteins, and the activities of protease, alkaline phosphatase and glucose dehydrogenase were about 55, 56, 91, and 40%, respectively, in the mother cell fraction, and about 45, 44, 9, and 60%, respectively, in the forespore fraction, taking the totals for the combined fractions as 100%. Slab gel electrophoretic patterns indicated that many species of proteins with different molecular weights were present in the two fractions. Pulse-labeling with [3H]UTP was carried out in vivo at stage III, and 35.2 and 64.8% of the [3H]UMP incorporated into RNAs were distributed in the mother cell and forespore fractions, respectively. The results indicate that more RNA synthesis occurs in the forespores than in the mother cells of sporulating cells.
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PMID:Fractionation and biochemical properties of the mother cell and forespore functions from sporulating cells of Bacillus subtilis. 677 67

When sporulation is initiated by nutrient limitation, e.g., at the end of growth, certain biochemical processes occur in sequence. To determine which of these processes occur, even when the cells sporulate in the presence of a rapidly metabolizable carbon source, we induced sporulation of Bacillus subtilis by deprivation of guanine nucleotides, in a synthetic medium containing excess glucose, ammonium ions, and phosphate. The deprivation was produced either by decoyinine addition to a standard strain or by guanosin limitation of a guanine auxotroph. At 1 h after the onset of this deprivation, an extensive turnover of proteins began whose appearance was chloramphenicol sensitive. At least one enzyme (aspartate transcarbamylase) lost 70% of its activity within 15 min, indicating its rapid destruction. Whereas the magnitude of the above two changes was similar to that observed during sporulation at the end of growth in nutrient sporulation medium, protease (intracellular and extracellular) increased to less than one-tenth of the specific activity in nutrient sporulation medium, and alkaline phosphatase increased to less than one-half. However, glucose dehydrogenase, an enzyme made only in forespores, increased to the same specific activity under both conditions, presumably because the forespore compartment is protected from media (e.g., glucose) influences by the double membrane (two bilayers with opposite polarity).
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PMID:Enzyme changes during Bacillus subtilis sporulation caused by deprivation of guanine nucleotides. 677 66

The measured (apparent) specific activities of immobilized lactate dehydrogenase, malate dehydrogenase, glucose dehydrogenase, alkaline phosphatase and chymotrypsin decrease with increasing activity loading and increase with decreasing particle diameter and with increasing substrate concentration. The observed inactivation is therefore concluded to be due to diffusional limitation. Real specific activities are not greatly affected by the immobilization, as has been demonstrated after enzymic digestion of the matrix. In the case of lactate dehydrogenase and of malate dehydrogenase real specific activities are not altered by a variation of the number of bonds to the carrier.
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PMID:Factors affecting the activity of immobilized enzymes, I. Diffusional limitation. 742 23

Topological structure of quinoprotein glucose dehydrogenase in the inner membrane of Escherichia coli was determined by constructing protein fusions with alkaline phosphatase or beta-galactosidase. Analysis of the fusions revealed that the dehydrogenase possesses five membrane-spanning segments, and the N-terminal and C-terminal portions resided at the cytoplasmic and periplasmic side of the membrane, respectively. These results agreed with the hydropathy profile based on its primary structure. The topological structure suggests that the predicted binding site of the prosthetic group pyrroloquinoline quinone is located at the periplasmic side and that the amino acid residues corresponding to those that were presumed to interact with ubiquinone in one subunit of mitochondrial NADH dehydrogenase also occur at the periplasmic side. When the purified glucose dehydrogenase and cytochrome o ubiquinol oxidase were reconstituted together with ubiquinone into liposomes, a membrane potential could be generated by the electron transfer at the site of the ubiquinol oxidase but not of the dehydrogenase. These results suggest that glucose dehydrogenase has a ubiquinone reacting site close to the periplasmic side of the membrane, and thus its electron transfer to ubiquinone appears to be incapable of forming a proton electrochemical gradient across the inner membrane of E. coli.
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PMID:Topological analysis of quinoprotein glucose dehydrogenase in Escherichia coli and its ubiquinone-binding site. 850 15

A bienzyme substrate-recycling biosensor in a flow injection analysis system is described for the sensitive measurement of alkaline phosphatase (ALP) and applied to the fast readout of a competitive immunoassay for the widely used pesticide 2,4-dichlorophenoxyacetic acid (2,4-D). The phenol-indicating biosensor consists of a Clark-type electrode covered by a membrane with coentrapped tyrosinase and quinoprotein glucose dehydrogenase. ALP dephosphorylates phenyl phosphate to phenol (K(m) = 36 microM) outside the flow system. Phenol is oxidized in the sensor membrane by the oxygen-consuming tyrosinase via catechol to o-quinone. The quinone is reconverted to catechol by glucose dehydrogenase. This substrate cycling results in a 350-fold amplified sensor response to phenol. The oxygen consumption of the enzyme couple in the presence of phenol is monitored as a decrease in current. A total of 3.2 fM ALP (320 zmol/ 100 microL) has been detected after a 57.5 min incubation with phenyl phosphate. All involved reagents are stable over the time of measurement. The sensor does not produce any measurable blank signals. The immunoassay detects 0.1 microgram/L 2,4-D, the maximum concentration for pesticides allowed in drinking water by European Community regulations. The applicability of this biosensor for fast immunoassay readout is demonstrated by a 2 min incubation. By comparison, a standard photometric method (p-nitrophenyl phosphate) requires overnight incubation.
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PMID:Zeptomole-detecting biosensor for alkaline phosphatase in an electrochemical immunoassay for 2,4-dichlorophenoxyacetic acid. 869 55

Bacterial alkaline phosphatases (APases), except those isolated from Bacillus licheniformis, are approximately 45-kDa proteins while eucaryotic alkaline phosphatases are 60 kDa. To answer the question of whether the apparent 60-kDa alkaline phosphatase from Bacillus licheniformis accurately reflected the size of the protein, the entire gene was analyzed. DNA sequence analysis of the alkaline phosphatase I (APaseI) gene of B. licheniformis MC14 indicated that the gene could code for a 60-kDa protein of 553 amino acids. The deduced protein sequence of APaseI showed about 32% identity to those of B. subtilis APase III and IV and had apparent sequence homologies in the core structure and active sites that are conserved among APases of various sources. The extra carboxy-terminal sequence of APaseI, which made the enzyme bigger than other procaryotic APases, was not homologous to those of eucaryotic APases. The amino acid composition of APaseI was most similar to that of salt-dependent APase among the isozymes of B. licheniformis MC14. Another open reading frame of 261 amino acids was present 142 nucleotide upstream of the APaseI gene and its predicted amino acid sequence showed 68% identity to that of glucose dehydrogenase of B. megaterium.
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PMID:Bacillus licheniformis MC14 alkaline phosphatase I gene with an extended COOH-terminus. 948 94

An amplified flow immunoassay (AFIA) was developed for cocaine, which combines a noncompetitive immunoenzymometric assay (IEMA) with an on-line detection of the enzyme label alkaline phosphatase (ALP) by a substrate-recycling biosensor. In the IEMA, the analyte cocaine first binds to a labeled polyclonal anti-cocaine antibody. Then, the excess labeled antibody is separated on an affinity column that contains a perfusion chromatography carrier modified by immobilized cocaine. The unbound complexes of the analyte cocaine with the ALP-labeled antibody are detected postcolumn. The detector senses phenol produced by ALP from phenyl phosphate. As detector, an amperometric substrate-recycling biosensor was used, which consists of a Clark-type oxygen electrode covered by tyrosinase and pyrroloquinoline quinone-dependent glucose dehydrogenase. The lower limit of detection is 380 pM (38 fmol) for cocaine. The sampling rate is 26/h. Cocaine could be detected from "real samples" with an imprecision of +/- 10% (n = 3) and with a recovery of 49 +/- 3% for various concentrations. AFIA is generally important as a new approach for the fast detection of picomolar concentrations of haptens.
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PMID:Automated amplified flow immunoassay for cocaine. 982 22

The effect of cytochrome c550 encoded by cccA in Bacillus subtilis during the event of sporulation was investigated. The sporulation of cccA-overexpressing mutant was significantly accelerated, while disruptant strain showed delayed sporulation in spite of the same growth rate. Activity of sporulation stage-0-specific enzyme, extracellular alpha-amylase of mutant strains was similar to that of the control strain, but cccA-overexpressing mutant exhibited higher activity of stage-II-specific alkaline phosphatase and stage-III-specific glucose dehydrogenase when compared to deletion mutant and control strain. Northern blot analysis also revealed that cccA-overexpressing mutant showed high level of spo0A transcripts, while the disruptant rarely expressed spo0A. These results suggested that although cytochrome c550 is dispensable for growth and sporulation, expression of cccA may play an important role for initiation of sporulation through regulation of spo0A expression.
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PMID:Cytochrome c550 is related to initiation of sporulation in Bacillus subtilis. 1599 41

A Mg(2+)-dependent, alkaline phosphatase has been isolated from mature pollen of Lilium longiflorum Thunb., cv. Ace and partially purified. It hydrolyzes 1l- and 1d-myo-inositol 1-phosphate, myo-inositol 2-phosphate, and beta-glycerophosphate at rates decreasing in the order named. The affinity of the enzyme for 1l- and 1d-myo-inositol 1-phosphate is approximately 10-fold greater than its affinity for myo-inositol 2-phosphate. Little or no activity is found with phytate, d-glucose 6-phosphate, d-glucose 1-phosphate, d-fructose 1-phosphate, d-fructose 6-phosphate, d-mannose 6-phosphate, or p-nitrophenyl phosphate. 3-Phosphosphoglycerate is a weak competitive inhibitor. myo-Inositol does not inhibit the reaction. Optimal activity is obtained at pH 8.5 and requires the presence of Mg(2+). At 4 millimolar, Co(2+), Fe(2+) or Mn(2+) are less effective. Substantial inhibition is obtained with 0.25 molar Li(+). With beta-glycerophosphate as substrate the K(m) is 0.06 millimolar and the reaction remains linear at least 2 hours. In 0.1 molar Tris, beta-glycerophosphate yields equivalent amounts of glycerol and inorganic phosphate, evidence that transphosphorylation does not occur.In higher plants this myo-inositol-1-phosphatase links myo-inositol biosynthesis to the myo-inositol oxidation pathway to produce an alternative path from d-glucose 6-phosphate to UDP-d-glucuronate that bypasses UDP-d-glucose dehydrogenase. myo-Inositol-1-phosphatase also furnishes free myo-inositol for reactions that lead to other cyclitols and cyclitol-containing compounds of biosynthetic and/or regulatory significance in plant growth and development.
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PMID:myo-Inositol-1-Phosphatase from the Pollen of Lilium longiflorum Thunb. 1666 72

As the population of chronic kidney disease (CKD) and end-stage renal disease (ESRD) grows at an alarming rate, primary care physicians will increasingly be involved in the management of these patients. Early recognition of CKD and timely referral to a nephrologist when glomerular filtration rate approaches 30 mL/min/1.73 m(2) is extremely important to improve ESRD outcome and appropriate selection of dialysis modality. Peritoneal dialysis (PD) remains a viable treatment option for ESRD patients. PD is less expensive dialysis modality and may provide a survival advantages over hemodialysis in first 2 to 4 years of treatment. Preserving residual renal function (RRF) is of paramount importance to prolong the survival outcomes in PD patients. Thus preservation of RRF is an important goal in the management of PD patients. Every effort should be made to avoid nephrotoxic drugs like aminoglycosides and nonsteroidal anti-inflammatory drugs, and limit the use of radiocontrast agents in PD patients with RRF. Judicious use of prophylactic antibiotics to prevent peritonitis would further help to reduce morbidity from PD. Protecting peritoneal membrane from long-term toxic and metabolic effects of the conventional glucose-based solutions is another objective to further improve PD outcome. Development of new, more biocompatible PD solutions holds promise for the future. One such solution, icodextrin, is now approved for use in the United States. Although extremely safe to use, it is associated with unique metabolic effects that may concern primary care physicians. They include false elevation of blood glucose, a reversible increase in serum alkaline phosphatase and a false decline in serum amylase. Monitoring of glycemia by assays that use glucose dehydrogenase pyrroloquinoline quinone enzymes should be avoided and serum amylase alone should not be relied on in diagnosing pancreatitis in patients on icodextrin.
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PMID:Peritoneal dialysis: a primary care perspective. 1680 53

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