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 poly(A) polymerase with a molecular weight of approximately 80,000 containing 51,000 and 35,000 molecular weight subunits, was purified by affinity chromatography from vaccinia virus cores. The enzyme had a pH optimum of about 8.6, was dependent on divalent cations, and had considerably more activity with Mn-2+ than Mg-2+. At equimolar concentrations, other ribonucleoside triphosphates inhibited poly(A) polymerase activity by less than 10%; NaCl was extremely inhibitory at concentrations above 0.1 M. Under standard assay conditions, poly(A) polymerase activity was stimulated more than 10-fold by poly(C), but to small extent or not at all by other homopolyribonucleotides or natural RNA species unless they were first subjected to partial hydrolysis and alkaline phosphatase treatment. The ineffectiveness of most long polyribonucleotides was attributed to enzyme binding to internal regions. Short poly- or oligoribonucleotides prepared from natural or synthetic RNAs, except poly(G), exhibited similar priming abilities, and isotope transfer experiments indicated the covalent attachment of poly(A) to cytidylate, uridylate, and inosinate residues. Experiments with a series of uridylate oligomers indicated that the minimum effective primer length was four to six nucleotides. Partially digested DNA and short poly- and oligodeoxyribonucleotides of dT, dC, and dI, but not of dA and dG, also acted as effective primers for the poly(A) polymerase.
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PMID:Characterization of a polyriboadenylate polymerase from vaccinia virions. 23 10

We investigated whether phosphorylation of the essential components involved in the 3' end processing of mRNAs was required for mRNA polyadenylation. The proteins in HeLa nuclear extract were dephosphorylated with alkaline phosphatase, which is known to remove the phosphate moieties from serine and tyrosine. The dephosphorylated extract was used for analyzing cleavage-dependent polyadenylation of SV40 late pre-mRNA. The phosphatase treatment of the extract completely blocked the polyadenylation reaction, whereas dephosphorylation of the extract did not inhibit the cleavage reaction. Since the cleavage depends upon functional integrity of the specificity factor, it is unlikely that the phosphorylated state of the latter factor is required for the 3' end processing. Sodium vanadate, a potent inhibitor of alkaline phosphatase, markedly reduced the inhibitory effect of the phosphatase on the polyadenylation reaction. Dephosphorylation of the extract also prevented formation of the polyadenylation-specific complex with pre-mRNA, whereas the cleavage-specific complexes were formed under this condition. The Mn-dependent polyadenylation, which is largely poly(A) extension reaction, was relatively resistant to the phosphatase treatment. These data indicate that phosphorylation of a key factor is essential for the 3' end processing of pre-mRNA, and suggest that the factor may be poly(A) polymerase.
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PMID:Polyadenylation of SV40 late pre-mRNA is dependent on phosphorylation of an essential component associated with the 3' end processing machinery. 166 46

The capacity of Escherichia coli poly(A) polymerase to adenylylate the 3'-OH residue of a variety of nucleosides, nucleoside 5'-phosphates and dinucleotides of the type nucleoside(5')oligophospho(5')nucleoside is described here for the first time. Using micromolar concentrations of [alpha-32P]ATP, the following nucleosides/nucleotides were found to be substrates of the reaction: guanosine, AMP, CMP, GMP, IMP, GDP, CTP, dGTP, GTP, XTP, adenosine(5')diphospho(5')adenosine (Ap2A), adenosine (5')triphospho(5')adenosine (Ap3A), adenosine(5')tetraphospho(5')adenosine (Ap4A), adenosine(5')pentaphospho(5')adenosine (Ap5A), guanosine(5')diphospho(5') guanosine (Gp2G), guanosine(5')triphospho(5')guanosine (Gp3G), guanosine(5')tetraphospho(5')guanosine (Gp4G), and guanosine(5')pentaphospho(5')guanosine (Gp5G). The synthesized products were analysed by TLC or HPLC and characterized by their UV spectra, and by treatment with alkaline phosphatase and snake venom phosphodiesterase. The presence of 1 mM GMP inhibited competitively the polyadenylylation of tRNA. We hypothesize that the type of methods used to measure polyadenylation of RNA is the reason why this novel property of E. coli poly(A) polymerase has not been observed previously.
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PMID:Poly(A) polymerase from Escherichia coli adenylylates the 3'-hydroxyl residue of nucleosides, nucleoside 5'-phosphates and nucleoside(5')oligophospho(5')nucleosides (NpnN). 1142 92

Two forms of poly(A) polymerase (PAPI and PAPII) from germinated wheat embryos have been resolved on DEAE-cellulose ion-exchange chromatography by a linear gradient of 0-500 mM (NH(4))(2)SO(4). Further purification shows that both forms are monomeric in nature with an identical molecular weight, approximately 65 kDa. The phosphoprotein nature of PAPI and PAPII has been established by in vivo labelling with (32)P-orthophosphate. Acid hydrolysis of both (32)P-labelled purified PAPI and PAPII has revealed that phosphorylations generally take place in serine and threonine residues. PAPI and PAPII have also been characterised with respect to V(max) and K(m) for poly(A). The V(max) and K(m) values of PAPI are 28.57 and 11.37 microg, respectively, whereas 34.48 and 7.04 microg of PAPII. In vitro dephosphorylation of the purified enzyme by alkaline phosphatase leads to a significant loss of the enzyme activity, which is regained upon phosphorylation by a 65 kDa protein kinase (PK) purified from wheat embryos. The extent of phosphorylation by protein kinase shows that PK has similar affinity towards both PAPI and PAPII, whereas the phosphate incorporation in PAPII is twofold higher than PAPI suggesting their distinct chemical nature.
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PMID:Evidence of two forms of poly(A) polymerase in germinated wheat embryos and their regulation by a novel protein kinase. 1205 14