Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.8 (polynucleotide phosphorylase)
 723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of "surface" enzymes of Escherichia coli (i.e., among those selectively released by osmotic shock) all displayed higher specific activities in extracts of minicells than in extracts of typical rod forms; these enzymes included alkaline phosphatase, cyclic phosphodiesterase, acid hexose monophosphatase, 5'-nucleotidase, and ribonuclease I. In addition, alkaline phosphatase, cyclic phosphodiesterase, and acid hexose monophosphatase were cytochemically localized to regions of minicell periplasm that resembled reactive polar enlargements of the periplasm in rod forms. In contrast, a number of "internal" cytoplasmic enzymes (inorganic pyrophosphatase, beta-galactosidase, glutamine synthetase, polynucleotide phosphorylase, and ribonuclease II) showed elevated or similar specific activities in extracts of rod forms versus extracts of minicells. A specific heat-labile inhibitor for 5'-nucleotidase, known to occur in the cytoplasm, also showed no enrichment in minicells. These findings indicate that the "surface" enzymes are segregated in vivo into the terminal minicell buds, possibly because these enzymes are concentrated in the polar enlargements of the periplasm in typical rod forms.
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PMID:Biochemical and cytochemical evidence for the polar concentration of periplasmic enzymes in a "minicell" strain of Escherichia coli. 431 25

For the simultaneous determining of several enzymes of nucleic acid metabolism during polynucleotide phosphorylase isolation TLC was used. It was found that using TLC one can simultaneously detect six and more enzymes, e. g. polynucleotide phosphorylase, 5'-nucleotidase, exoribonuclease together with nucleosidediphosphatase, desaminase etc. The method is simple and accessible.
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PMID:[Use of a TLC method for the simultaneous determination of an enzyme complex of nucleic acid metabolism during the isolation of polynucleotide phosphorylase]. 620 91

A new route for the synthesis of 1-(beta-D-allofuranosyl)uracil ("allo-uridine") and the corresponding 6'-deoxy-derivative ("6'-deoxy-allo-uridine") as well as for 1-(beta-D-altrofuranosyl) uracil ("altro-uridine") is described. NMR studies of allo-uridine revealed a preferred conformation with the base in anti-position, C-2'-endo-pucker of the sugar moiety, the 5'-OH-group above the furanose ring and the 5'-CH2OH-group in a gt position with the OH-group in the plane of the furanose ring. The same conformation is found for the 5'- and 6'-phosphate, indicated by the influence of the phosphate group on the H-6 signal. Allo-uridine is phosphorylated by the phosphotransferases from carrot and from malt sprouts only in the 6'-position. The phosphate ester is hydrolysed by unspecific phosphatases but not by 5'-nucleotidase. A (3' leads to 6')-dinucleoside phosphate is formed by pancreatic ribonuclease with 2',3'-cyclic cytidylic acid and allo-uridine. It is split by nuclease S1, but not by snake-venom phosphodiesterase. It has no primer activity for polynucleotide phosphorylase. All-uridine 6'-diphosphate could not be prepared enzymatically by nucleotide kinase or by chemical methods, where 5',6'-cyclic phosphates are formed, which are hydrolysed exclusively to 6'-monophosphates.
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PMID:Synthesis, conformation and enzymatic properties of 1-(beta-D-allofuranosyl)uracil and some derivatives. 631 65

Remarkable activity of various enzymes involved in adenine nucleotide degradation has been revealed in the endothelium recently. Using the highly sensitive radiochromatographic methods, the activities of 5'-nucleotidase, EC: 3.1.3.5. (5'-Nase), adenine deaminase, EC: 3.5.4.4. (ADase), and purine nucleoside phosphorylase, EC: 2.4.2.5. (PN-Pase) were estimated in the endothelium from normal human aortas characterized by a regular arrangement of cells and in the endothelium from atherosclerotic aortas characterized by different size and often multinucleated cells. Activities of 5'-Nase and ADase in the endothelial cells of atherosclerotic aortas were significantly higher than activities in normal ones. However, the activity of PNPase was approximately on the same level in both aortas. The above findings indicate a shift in the activity of 5'-Nase and ADase, which might be a result of the atherosclerotic process as well as the aggregation of platelets.
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PMID:Activity of some adenine nucleotide degradation enzymes in human atherosclerotic aorta endothelium. 818 97