EC:3.1.3.1 - FACTA Search

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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)

The location of the protein bound to bacteriophage phi29 DNA has been studied with restriction endonucleases, exonucleases, and polynucleotide kinase. The protein is invariably associated with the two terminal DNA fragments generated by restriction endonucleases. The phi29 DNA prepared with or without proteinase K treatment is resistant to the action of the 5'-terminal-specific exonucleases, lambda-exonuclease and T7 exonuclease. The phi29 DNA is also inaccessible to phosphorylation by polynucleotide kinase even after treatment with alkaline phosphatase. On the other hand, phi29 DNA is sensitive to exonuclease III, and the 3' termini of the DNA can be labeled by incubating with alpha-[32P]ATP and terminal deoxynucleotidyl transferase. The protein remains associated with the phi29 DNA after treatment with various chaotropic agents, including 8 M urea, 6 M guanidine-hydrochloride, 4 M sodium perchlorate, 2 M sodium thiocyanate, and 2 M LiCl. These results are consistent with the notion that the protein is linked covalently to the 5' termini of the phi29 DNA.
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PMID:Bacteriophage phi29 terminal protein: its association with the 5' termini of the phi29 genome. 73 97

Rat intestinal alkaline phosphatase is an heterogeneous glycoprotein that contains three protein sub-forms separable by electrophoresis. The molecular weight for the glycoprotein (i.e. the average for the three sub-forms) is 157 000-160 000. Three protein sub-forms are detectable on sodium dodecyl sulphate-polyacrylamide gel electrophoresis that migrate at rates corresponding with molecular weights of 64 000, 79 000 and 92 000. Treatment of native alkaline phosphatase with 6 M guanidine - HC1 or buffer at pH 3.0 results in a product with a molecular weight of 78 000 and 70 000, respectively. Thus it is concluded that each of the three sub-forms is a dimer of identical or closely similar subunits. Limited proteolysis results in the production of new enzymically active sub-forms separable by electrophoresis. Using a bacterial protease it is possible to convert intestinal alkaline phosphatase into a form with a molecular weight of 132 000 without causing any significant change in kinetic properties. Electrophoresis of this new form on sodium dodecyl sulphate polyacrylamide gel suggests that it is composed of 66 000-dalton subunits. The native enzyme contains at least 20% by weight of carbohydrate that probably contributes to microheterogeneity of a second degree superimposed on that stemming from the presence of three protein sub-forms. Treatment with various glycosidases has no effect on electrophoretic behaviour, however. It is suggested that the three sub-forms possibly represent different stages of a maturation process that operates by limited proteolysis of a single parent protein.
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PMID:Molecular properties of rat intestinal alkaline phosphatase. 97 5

Kidney alkaline phosphatase was purified to homogeneity. It is a glycoprotein of about 172,000 molecular weight. Analyses of the subunit structure by sedimentation equilibrium in 6 M guanidine hydrochloride and by gel electrophoresis in sodium dodecyl sulfate indicate that the alkaline phosphatase is a dimer comprising two very similar or identical subunits of about 87,000 molecular weight. The native enzyme contains 4.5 +/- 0.2 g atoms of zinc per mol of protein. Reconstitution experiments from the apophosphatase show that binding of 4 Zn2+ per mol of dimer is essential for full activity. The kinetic data of Zn2+ binding to the apoprotein require at least a two-step mechanism, in which one of the steps corresponds to a conformational change within the enzyme. This paper also presents data concerning amino acid composition, sugar content, enzyme stability, absorbance index, and sedimentation velocity.
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PMID:Bovine kidney alkaline phosphatase. Purification, subunit structure, and metalloenzyme properties. 115 Jun 70

The collagenous extracellular matrix of bone obtained after dissociative extraction with 4 M guanidine-HCl is an optimal substratum for bone induction by osteogenin, a bone morphogenetic protein. As a proteinaceous substratum, this matrix and other collagen-based materials may be immunogenic. Thus, the search and discovery of a non-immunogenic substratum is a necessary prerequisite for the therapeutic application of the principle of bone induction to skeletal repair. Bovine osteogenin, purified greater than 50,000-fold and with an apparent molecular mass of 28-42 kilodaltons, was delivered into nonresorbable porous hydroxyapatite in granular and disc configuration. A total of 328 preparations were bioassayed for osteogenic activity by subcutaneous implantation into 164 Long-Evans rats. Specimens were harvested at day 7, 11 and 21 after implantation and subjected to alkaline phosphatase activity determination and histologic analysis. Osteogenin combined with discs of porous hydroxyapatite induced in vivo differentiation of the osteogenic phenotype in mesenchymal cells invading the three-dimensional porous space of the inorganic substratum. The geometry of the substratum had a profound influence on bone induction, since the expression of the osteogenic phenotype was solely confined in porous hydroxyapatite with disc configuration. Osteogenin did not induce bone differentiation when combined with granules of porous hydroxyapatite with identical pore dimensions. The finding that the biological activity of osteogenin can be restored and delivered by a substratum with defined geometry other than the insoluble collagenous matrix may form the basis of the potential therapeutic application of bone morphogenetic proteins.
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PMID:The critical role of geometry of porous hydroxyapatite delivery system in induction of bone by osteogenin, a bone morphogenetic protein. 132 28

To determine whether alkaline phosphatase (ALP) can cause the mineralization of collagenous matrices in vivo, bovine intestinal ALP was covalently bound to slices of guanidine-extracted demineralized bovine dentin (DDS). The preparations were implanted subcutaneously over the right half of the rat skull. Control slices not treated with the enzyme were implanted over the left half of the skull of the same animals. Specimens were harvested after periods varying from 1 to 4 wk. It was shown that ALP-coupled DDS rapidly accumulated hydroxyapatite crystals. 4 wk after implantation, the content of calcium and phosphate per microgram of hydroxyproline amounted up to 80 and 60%, respectively, of that found in normal bovine dentin. Our observations present direct evidence that ALP may play a crucial role in the induction of hydroxyapatite deposition in collagenous matrices in vivo.
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PMID:Alkaline phosphatase induces the mineralization of sheets of collagen implanted subcutaneously in the rat. 160 3

To avoid extensive manipulation for the purification of RNA from cells, several methods were evaluated for the direct release of RNA from influenza virus infected cells and supernatants using slot blot hybridization and non-radioactive probes. Treatment with an equal volume of 10 M aqueous guanidine hydrochloride produced the best hybridization signal. Less, but significant amounts of RNA were also released using the following treatments: dilute alkali (final concentration of 0.16 M NaOH) or 100 degrees C/5 min or RNA sample buffer containing formamide/formaldehyde, then heating at 65 degrees C/10 min. Despite the presence of large amounts of cell debris, RNA from guanidine hydrochloride treated whole cell extracts bound quantitatively to the positively charged nylon membranes. The sensitivity of RNA detection when whole cell extracts treated with guanidine hydrochloride were probed with a digoxigenin labelled cDNA probe was similar to the detection of RNA in highly purified, protein free samples. Three positively charged membranes were tested (from Amersham, ICN and Boehringer Mannheim) using two alkaline phosphatase substrates, NBT-X phos, and a chemiluminescent substrate, 3-(2'-spiroadamantane)-4-methoxy-4-(3'-phosphoyloxy)-phenyl- 1-1,2-dioextane (AMPPD) and a peroxidase substrate, tetramethylbenzidine (TMB). The Boehringer Mannheim membrane had the highest sensitivity for the alkaline phosphatase substrates, but the peroxidase reaction with the TMB substrate was the most consistently sensitive, irrespective of which membrane was used. The ability to quantitatively detect RNA from whole cells without any purification will allow the rapid screening of large numbers of samples for specific RNA species in research or diagnostic laboratories.
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PMID:Rapid treatment of whole cells and RNA viruses for analysis of RNA by slot blot hybridization. 162 16

Study was undertaken to identify polypeptide factors in the commercially available ossein-mineral-compound and to see if they are present in a biologically relevant quantity. Using the guanidine-EDTA extraction, 35.7 +/- 0.1 mg proteins were obtained from 1 g of the ossein-mineral-compound. At concentration 1 micrograms/ml, guanidine-EDTA-extractable proteins stimulated the incorporation of thymidine into DNA by human bone cells to 581 +/- 122% (p less than 0.001) of that by bovine serum albumin-treated control cells, decreasing thereafter. Similarly, it stimulated the activity of alkaline phosphatase in the human bone cells. Growth factors IGF-I, IGF-II, and TGF-beta were identified in the ossein-mineral-compound. This leads to speculation regarding possible role of growth factors in explaining the beneficial effects of the compound in retarding bone loss in patients with osteoporosis.
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PMID:Quantitation of growth factors in ossein-mineral-compound. 165 84

Heterotopic bone formation in skeletal muscle induced by compacted demineralized bone matrix gelatin (BMG) was studied histologically and biochemically. BMG was obtained by dehydrating diaphyseal shafts of femora and tibiae of 4-week-old male Sprague-Dawley rats, cutting the bone into chips, and demineralizing and extracting the chips with various solutions. The BMG was treated with 4 M guanidine-HCl, and compacted BMG was prepared by centrifugation. The compacted BMG was implanted into the rectus abdominis muscle of 5-week-old male Sprague-Dawley rats. The resulting specimens were examined histologically, and their alkaline phosphatase activity and the calcium content of the tissues were measured 3, 5, 7, 10, and 15 days after implantation. The BMG (separated BMG) with 75- to 500-microns particle sizes were implanted into control rats. The results showed that calcification, alkaline phosphatase activity, and bone formation were suppressed by implantation of the compacted BMG and that scarcely any vascularization occurred. Calcification, vascularization, and alkaline phosphatase activity were related and were indispensable for bone formation. In the control group, bone formation was observed at sites of high activity of alkaline phosphatase and well-developed vascularization. These results suggested that compacting of BMG suppressed vascularization, decreased calcification, and consequently reduced the induction of bone formation.
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PMID:Architecture of implanted bone matrix gelatin influences heterotopic calcification and new bone formation. 206 27

We have purified to homogeneity the regions derived by chymotryptic digestion of the ox neurofilament polypeptides NFH and NFM; the regions, called M1 and M2, are thought to form part of the projecting sidearms of mammalian neurofilaments [Chin, Eagles & Maggs (1983) Biochem. J. 215, 239-252]. They were isolated and purified under non-denaturing conditions and showed no tendency to interact with each other in solution. The Mr values obtained by sedimentation are approx. 61,000 for M1 and 42,000 for M2, considerably lower than the values obtained by SDS/polyacrylamide-gel electrophoresis. These Mr values were unchanged in the presence of 6 M-guanidine hydrochloride, suggesting that the regions exist as monomers in solution. Both M1 and M2 are highly phosphorylated, and there is only a slight change in the sedimentation value upon dephosphorylation. Dephosphorylation of M1 with alkaline phosphatase was more than 90% efficient but was never absolute. Dephosphorylation of M2 was complete. Both M1 and M2 bind Ca2+; in the case of M1, this binding is phosphorylation-dependent. M1 also binds cytochrome c, and dephosphorylation affects binding. In similar conditions, neurofilaments bind at least twice their own mass of cytochrome c, owing to their opposite net charges. No interactions were observed between native or dephosphorylated M1 and M2, and intact neurofilaments under a wide variety of conditions. These results are discussed in terms of the possible roles that neurofilament sidearms might play and throw doubt upon their supposed function of rigidly cross-linking neurofilaments together within the axoplasm of neurons.
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PMID:Characterization of two proteolytically derived soluble polypeptides from the neurofilament triplet components NFM and NFH. 255 34

Elevated alkaline phosphatase activity in serum suggests bone or liver disease or a neoplasm but can also indicate pregnancy or another benign condition. A family with benign hyperphosphatasemia was studied to elucidate the genetics and enzyme defect. Serum total alkaline phosphatase activity was greater than the population mean in all six family members, and more than 7 SDs above the mean in two of four offspring. Monoclonal antibodies to three alkaline phosphatase isoenzymes, intestinal, placental, and tissue nonspecific (liver/bone/kidney), demonstrated markedly increased intestinal alkaline phosphatase levels (29% to 44% of total) in all family members and significantly elevated liver/bone/kidney activity in the two offspring. Guanidine hydrochloride denaturation of the liver/bone/kidney component showed high alkaline phosphatase activity from liver in both siblings and from bone in one. The mode of inheritance in this family is obscure, but a complex regulation of the products of two different alkaline phosphatase genes seems likely. Steps toward diagnosis are suggested. Early recognition of this benign biochemical abnormality should help to avoid unnecessary diagnostic tests.
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PMID:Benign familial hyperphosphatasemia. 291 57

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