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)

Different patterns of isozymes were obtained by starch-gel electrophoresis of alkaline phosphatase from Escherichia coli strains differing only by strA or ram mutations, or both, in the 30S ribosomal subunit. The isozyme spread was reduced in strA and increased in ram strains; this strictly parallels the restriction and enhancement of translational ambiguity produced by these mutations. Streptomycin present during growth had an effect similar to ram on both isozymes and ambiguity. The three isozymes analyzed have different N-terminal residues: aspartic acid, valine, and threonine. Different patterns of isozymes were also obtained in a wild-type strain through the specific action of exogenous arginine. A link between the mechanism of the effect of arginine and that of the ribosome is not obvious. The possibility is discussed that in both cases, although by different mechanisms, N-terminals are formed with different sensitivity to limited degradative attack.
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PMID:Ribosomal alterations controlling alkaline phosphatase isozymes in Escherichia coli. 455 93

Histochemical procedures for PMN granule enzymes were carried out on smears prepared from normal rabbit bone marrow, and the smears were examined by light microscopy. For each of the enzymes tested, azo dye and heavy metal techniques were utilized when possible. The distribution and intensity of each reaction were compared to the distribution of azurophil and specific granules in developing PMN. The distribution of peroxidase and six lysosomal enzymes (acid phosphatase, arylsulfatase, beta-galactosidase, beta-glucuronidase, esterase, and 5'-nucleotidase) corresponded to that of azurophil granules. Progranulocytes contained numerous reactive granules, and later stages contained only a few. The distribution of one enzyme, alkaline phosphatase, corresponded to that of specific granules. Reaction product first appeared in myelocytes, and later stages contained numerous reactive granules. The results of tests for lipase and thiolacetic acid esterase were negative at all developmental stages. Both types of granules stained for basic protein and arginine. It is concluded that azurophil and specific granules differ in their enzyme content. Moreover, a given enzyme appears to be restricted to one of the granules. The findings further indicate that azurophil granules are primary lysosomes, since they contain numerous lysosomal, hydrolytic enzymes, but the nature of specific granules is uncertain since, except for alkaline phosphatase, their contents remain unknown.
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PMID:Differences in enzyme content of azurophil and specific granules of polymorphonuclear leukocytes. I. Histochemical staining of bone marrow smears. 487 49

A diagonal-electrophoresis method for the selective purification of serine phosphate peptides was applied to tryptic, chymotryptic and peptic digests of oxidized ovalbumin. This method is based on the release of the phosphate group bound to serine by treatment with alkaline phosphatase on paper. The identified serine phosphate peptides were purified by paper electrophoresis at pH6.5 and 2.0, dephosphorylation with bacterial alkaline phosphatase, and paper electrophoresis at pH2.0 again, in that order. The presence of two groups of serine phosphate peptides was apparent from the amino acid composition. One group contained no lysine, cysteic acid, proline, leucine or isoleucine (sequence 1) and the other had all those amino acids (sequence 2). Further degradation with subtilisin of those peptides and ;dansyl'-Edman sequence analysis established their partial sequences. The proposed sequences are as follows (with ;SerP' representing serine phosphate): sequence 1, -Ala-Gly-Arg-Glu-Val-Val-Gly-SerP-Ala-Glu-Ala-Gly-Asp-Val-Ala-Ala-Ser-(Val,Glx(2),Ser,Phe)-Arg-; sequence 2, -Asp-Lys-Leu-Pro-Gly-Phe-Gly-Asp-SerP-Ile-Glx-Ala-Glx-CySO(3)H-Gly-(Thr,Ser,Val)-(Asp,His,Val)-. The partial sequence of one of the phosphopeptides, Asp-(Glu,Ile,SerP), reported by Flavin (1954) was used to establish the proposed sequence 2.
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PMID:An application of diagonal electrophoresis to the selective purification of serine phosphate peptides. Serine phosphate peptides from ovalbumin. 488 Nov 41

1. Rat kidneys which were perfused with saline contained both kininogenase (KGA) and kininase activity. These activities were separated by gel filtration on a Sephadex G-100 column. The kininase activity was excluded from the column whereas the KGA activity was retained. Kidney KGA activity was primarily found in the sedimentable fraction of the homogenate.2. The kidney KGA activity was compared with the urinary KGA activity, and the following properties were found to be the same: molecular dimension, pH optimum, effect of inhibitors, and ability to liberate kinins from kininogens.3. A urinary sample collected over 24 h contained about 8 times the KGA activity found in the corresponding kidneys at the end of the collection period. The urine: kidney ratio for alkaline phosphatase was about 0.01.4. The ability of kidney and urinary samples to hydrolyse N-alpha-benzoyl-L-arginine ethyl ester (BAEE) at pH 8.5 paralleled the KGA activity.
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PMID:The relationship between kidney and urinary kininogenase. 542 Jan 47

An organ-specific alkaline phosphatase inhibitor, L-homoarginine, at 44.5 mM concentration inhibited [3H]thymidine uptake by C3H/He mouse osteosarcoma (OS) cells, while L-arginine, L-phenylalanine, and glycine had little effect on the uptake. This inhibitory effect of L-homoarginine persisted even after the cells were washed free of the amino acid with fresh media. L-Homoarginine did not affect [3H]thymidine uptake by mouse myeloma MOPC 104E cells. In long-term culture, 22.3 mM L-homoarginine inhibited proliferation of OS cells. L-Arginine at the same concentration inhibited the proliferation to a lesser extent. On the other hand, L-phenylalanine and glycine did not affect in vitro proliferation of OS cells. When the same number of viable OS cells was inoculated s.c. after culturing the 24 hr with 44.5 mM L-homoarginine or L-arginine, the tumor growth in mice given injections of L-homoarginine (but not L-arginine)-treated cells was delayed markedly. Electron microscopic studies indicated that the inhibiting effect on OS cell proliferation was associated with a marked increase in lysosomal granules and a decrease in virus-like structures. Similarly, biochemical assay for acid phosphatase of cell homogenates demonstrated a 2-fold increase of activity in L-homoarginine-treated cells when compared to controls and L-arginine-treated cells. Thus, L-homoarginine inhibits proliferation and alkaline phosphatase activity of mouse OS cells and appears to increase acid phosphatase activity in synthesis of lysosomal granules.
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PMID:Inhibitory effect of L-homoarginine on murine osteosarcoma cell proliferation. 617 11

An organ-specific alkaline phosphatase (AIP) inhibitor, L-homoarginine at 44.5 mM concentration inhibited 3H-thymidine uptake by mouse C3H/He osteosarcoma (OS) cells, while L-arginine, L-phenylalanine and L-glycine had little effect on the uptake. This inhibitory effect by L-homoarginine persisted even after the cells were washed free of the amino acid with fresh media. L-homoarginine did not affect 3H-thymidine uptake by mouse myeloma MOPC 104E cells. In the long-term culture, 22.3 mM L-homoarginine inhibited proliferation of OS cells. L-Arginine at the same concentration inhibited the proliferation to a lesser extent. On the other hand, L-phenylalanine and L-glycine did not affect in vitro proliferation of OS cells. When similar numbers of viable OS cells were inoculated s. c. after culturing with 44.5 mM L-homoarginine or L-arginine for 24 hr, the tumor growth in mice injected with L-homoarginine (but not L-arginine) treated cells was delayed markedly. Electron microscopic studies indicated that the inhibitory effect on OS cell proliferation was associated with a marked increase in lysosomal granules and a decrease in virus-like structures. Similarly, a biochemical assay of acid phosphatase (AcP) of the cell homogenates demonstrated two-fold increase of the activity in L-homoarginine treated cells when compared to the controls and L-arginine treated cells. Thus, L-homoarginine inhibits proliferation and AIP activity of mouse OS cells and appears to promote cell differentiation as evidenced by the increased synthesis of cytoplasmic granules and acid phosphatase activity.
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PMID:[Inhibitory effect of L-homoarginine on murine osteosarcoma cell proliferation]. 619 5

D- and L-amino acids (arginine, lysine) and hydroxylated molecules (sorbitol, ethyl-ethanolamine), all of which increase the intestinal transfer of calcium, are phosphorylated by jejunal and ileal microvilli. All these molecules inhibit the endogenous phosphorylation of microvilli proteins. D- and L-valine, which are not phosphorylated in the same conditions, have no effect on the phosphorylation of microvilli proteins. These observations are in good agreement with the scheme previously proposed for the increase of calcium intestinal transfer by L-lysine: phosphorylation of L-lysine by mucous membrane may interfere with that of membrane proteins, the phosphorylation of which would lower the permeability to that cation. Autoradiographies of the electrophoretogram show that the principal phosphorylable microvilli proteins have the same electrophoretic properties as those of the dimer and the monomer of alkaline phosphatase from the same intestinal loci. The ability of the enzyme to be phosphorylated and its well-known transphosphorylating activity upon hydroxylated molecules suggest that it could, in different ways, affect intestinal transfer of calcium.
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PMID:Enterocyte microvillus can phosphorylate molecules which inhibit endogenous phosphorylation of its proteins. 620 86

The synthetic phosphohexapeptides Arg-Arg-Ala-Thr(35P)-Val-Ala and Arg-Arg-Ala-Ser(32P)-Val-Ala, phosphorylated by the cAMP-dependent protein kinase and differing only in the nature of the phosphorylated residue, have been used as substrates of a partially purified rat liver protein phosphatase-T, distinct from the multifunctional protein phosphatase-1. While the phosphothreonyl hexapeptide is readily dephosphorylated (exhibiting a Km = 15 microM), the phosphoseryl one is almost unaffected. Such a behavior is not shared by protein phosphatase-1, calf intestine alkaline phosphatase, and potato acid phosphatase, all of which are more active on the phosphoseryl hexapeptide. The NH2-terminal basic residues critical for cAMP-dependent phosphorylation are not required in the dephosphorylation reaction, as both Arg can be removed without impairing the efficiency of protein phosphatase-T toward the phosphothreonyl peptide. On the other hand, the replacement of 2 Pro for the Ala and Val flanking Thr(32P), to give a new phosphohexapeptide reproducing the phosphorylated site of protein phosphatase inhibitor-1, prevents the protein phosphatase-T activity. Moreover, IgG heavy chain 32P labeled in tyrosine is not affected by protein phosphatase-T, while it is dephosphorylated by alkaline phosphatase. These results would indicate that protein phosphatase(s)-T represent a distinct class of protein phosphatases specifically involved in the dephosphorylation of phosphothreonyl residues fulfilling definite structural requirements.
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PMID:Dephosphorylation of synthetic phosphopeptides by protein phosphatase-T, a phosphothreonyl protein phosphatase. 628 35

In Escherichia coli three major alkaline phosphatase isozymes are formed by molecular conversions depending on physiological conditions. A chromosomal gene, iap, is responsible for alkaline phosphatase isozyme conversion and is assumed to code for a proteolytic enzyme removing the arginine residue(s) from the N-terminal position of alkaline phosphatase subunits. A chromosomal fragment which complemented the Iap- phenotype was cloned into pBR322 by a shotgun method. Transducing phage lambda iap was constructed in vitro from the chromosomal fragment containing the iap gene and lambda tna DNA. The integration site of the phage on chromosome was identified as the iap locus by P1 transduction, which meant that the cloned chromosomal DNA contained authentic iap gene. The restriction map of the hybrid plasmid was constructed. Based upon this information, several iap deletion plasmids as well as smaller iap+ plasmids were constructed. Analysis of the phenotypes conferred by these plasmids enabled us to locate iap gene within a 2-kb segment of the cloned DNA. The cells carrying the iap+ plasmid showed very efficient isozyme conversion even in medium containing arginine, an inhibitor for the isozyme conversion. This indicates overproduction of the iap gene product.
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PMID:Cloning of alkaline phosphatase isozyme gene (iap) of Escherichia coli. 629 83

Diffraction analysis reveals three metal ion binding sites, M1, M2 and M3, in each of two symmetric active centers 32 A apart in alkaline phosphatase from Escherichia coli with intermediate distances within the center of 4, 5 and 7 A for M1-M2, M2-M3 and M1-M3, respectively. A fourth site, M4, has been reported 25 A away. Arsenate, a product analog, binds adjacent to M1 and M2. The active serine residue, 102, which is phosphorylated during normal enzymatic turnover, is also adjacent to M1 and M2 and arginine 166 is adjacent to the arsenate. The implication with respect to the mechanism is that M1, M2 and Arg 166 neutralize and redistribute charges within the phosphate group, activate the serine hydroxyl, and stabilize transition states during bond formation and breakage. Three sites, A, B and C, have been deduced from solution studies and defined specifically on the basis of nuclear magnetic resonance data, binding studies and activity data. The evidence suggests correspondence of A to M1, B to M2, and C to M3. Strong antagonism between binding at M1 and M2 is evidenced crystallographically by a pseudo-saturation, which is relieved by phosphate binding. Local destabilization of the protein, particularly residues 323 through 333, is produced by removal of metals from the crystal.
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PMID:Crystallographic observations of the metal ion triple in the active site region of alkaline phosphatase. 635 87

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