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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Processing of RNA in the toad bladder was analyzed by polyacrylamide-gel electrophoresis to determine whether aldosterone causes any changes in the 1 hr before it potentiates transport of sodium ion. No change was found in the quantity or in the specific activity of bulk RNA labeled with
uridine
-5-(3)H. In vivo and in vitro with either
uridine
-5-(3)H or with methionine-(methyl)-(3)H as precursors, processing of RNA was extremely slow. Heterodisperse RNA was obvious after 30 min of continuous labeling, but labeling of the 40S precursor of ribosomal RNA was not apparent for 60 min. Labeling of mature 28S and 18S RNA first became apparent after 8 hr. approximately 7S RNA was the principal fastmigrating species labeled at 30 min, and 4S RNA was not heavily labeled until 1 hr. Aldosterone (5 x 10(-7)
mole
/liter) produced no changes. If care were not taken to inhibit metabolism of native bacteria colonizing the bladder, bacterial RNA of high specific activity predominated. We conclude that RNA metabolism in the toad bladder is extraordinarily slow, that a major acceleration of de novo synthesis in response to physiologic doses of aldosterone was not demonstrable, and that some reports to the contrary may have been influenced by artifacts from bacterial RNA metabolism. Earlier evidence for obligatory alterations in RNA metabolism during the latent period is not strong.
...
PMID:Kinetics of RNA synthesis in toad bladder epithelium: action of aldosterone during the latent period. 554 20
When actinomycin D-treated chick fibroblasts were labeled with (3)H-
uridine
for varying periods during the log phase of Semliki Forest virus infection, radioactivity was found associated with different cytoplasmic fractions. After a 1-min period of labeling, it appeared in a large cytoplasmic structure which was seen in electron micrographs of infected cells. Sediments of sucrose density gradients of cytoplasmic extracts of these cells also contained these structures. Three forms of viral ribonucleic acid (RNA) were associated with this cytoplasmic structure: a ribonuclease-sensitive 42S form identical to the RNA of the mature virus, a ribonuclease-sensitive 26S form, and a ribonuclease-resistant 20S form. After a 5- to 10-min labeling period, radioactivity was associated with a ribonuclease-sensitive 65S cytoplasmic fraction which contained only the 26S RNA form. Finally, after a 1-hr labeling period, a 140S ribonuclease-resistant particle was the most prominent radioactive structure in the cytoplasm. This particle contained only 42S viral RNA. Negative-contrast electron micrographs of the 140S particle and the virion demonstrated structural differences between them. The base compositions of the 42S and 26S viral RNA forms were not significantly different. The base composition of the 20S form differed significantly from that of the other two viral RNA forms, but the values obtained for the
mole
fractions of the bases present in the 20S form differed, and depended on the period during the virus growth cycle in which (32)P was present. These results suggested that viral RNA originated in the large cytoplasmic body. The 20S RNA appeared to be a structure engaged in viral RNA replication and the 140S particle appeared to be a virus precursor.
...
PMID:Cytoplasmic fractions associated with Semliki Forest virus ribonucleic acid replication. 563 Mar 81
1. Evidence has been produced for the formation of 5-phosphomevalonate from potassium dl-mevalonate by the latex of Hevea brasiliensis and by reconstituted freeze-dried serum obtained from this latex. 2. The enzyme, mevalonate kinase, catalysing the formation of 5-phosphomevalonate from potassium dl-mevalonate and ATP has been partially purified. 3. 5-Phosphomevalonate formed by the purified mevalonate kinase from potassium [2-(14)C]mevalonate has been shown to be incorporated by latex into rubber to about 2.4 times the extent of dl-mevalonate. 4. The enzyme can utilize inosine triphosphate as effectively as adenosine triphosphate as a phosphate donor and is also slightly active with
uridine
triphosphate. 5. The enzyme was fairly stable to a range of pH values and temperatures, the activity being optimum at pH7.5 and 60-70 degrees . The energy of activation was 10.7kcal./
mole
. The K(m) values were 0.13mm for potassium dl-mevalonate and 2.0mm for ATP at 30 degrees . 6. The enzyme required the presence of Mn(2+) (1mm) for maximum activity; this could be replaced by Mg(2+) (4mm), which was less effective, and by Ca(2+), which was far less effective. 6. Although the enzyme did not require cysteine or reduced glutathione for activation in aerobic conditions, it was inhibited by reagents known to react with thiol groups.
...
PMID:The formation of 5-phosphomevalonate by mevalonate kinase in Hevea brasiliensis latex. 586 23
Bilirubin diglucuronide, the major pigment in human bile is formed in two steps. Bilirubin is converted to bilirubin monoglucuronide by transfer of the glucuronosyl moiety of
uridine
diphosphoglucuronic acid catalyzed by the microsomal enzyme,
uridine
diphosphoglucuronate glucuraonosyl transferase (UDP glucuronyl transferase, EC 2.4.1.17). Bilirubin monoglucuaronide is converted to bilirubin diglucuronide in vitro by two enzymatic mechanisms: (a) UDP glucuronyl transferase-mediated transfer of a second
mole
of glucuronic acid form UDP-glucuronic acid to bilirubin monoglucuronide; (b) dismutation of 2 moles of bilirubin monoglucuronide to 1
mole
of bilirubin diglucuronide and 1
mole
of unconjugated bilirubin, catalyzed by bilirubin monoglucuronide dismutase (bilirubin glucuronoside glucuronosyl transferase EC 2.4.1.95). Assay methods for the three enzymatic mechanisms in human liver homogenate by high-pressure liquid chromatography analysis of underivatized bilirubin tetrapyrroles have been developed. UDP glucuronyl transferase was activated in five human liver homogenates with digitonin, Triton X-100, or UDP-N-acetylglucosamine. Greatest activation was observed with Triton X-100. The pH optimum for conversion of bilirubin to bilirubin monoglucuronide was 7.4, and UDP glucuronyl transferase activity was 625 +/- 51 nmoles per 20 min per gm liver. At high initial bilirubin concentrations (342 microM), the product of UDP glucuronyl transferase assay with bilirubin as substrate was predominantly bilirubin monoglucuronide. At lower initial bilirubin concentrations (6.5 to 34 microM), up to 15% bilirubin diglucuronide was formed. Glucuronyl transferase-mediated UDP glucuronic acid-dependent conversion of bilirubin monoglucuronide to diglucuronide was assayed using UDP-14-C-glucuronic acid. The pH optimum was 7.4, and the rate was 21 +/- 7 nmoles per gm liver per 20 min. The rate of bilirubin diglucuronide formation by enzymatic dismutation of bilirubin monoglucuronide was 470 +/- 112 nmoles per gm liver per min. The pH optimum was 6.6. The products of enzymatic dismutation were of the IX alpha configuration.
...
PMID:Bilirubin mono- and diglucuronide formation by human liver in vitro: assay by high-pressure liquid chromatography. 679 86
The solution conformations of a set of
uridine
2',3'-dideoxynucleosides, where each of the hydrogens at the 2'- and 3'-positions of the sugar ring were individually replaced with a fluorine atom, were studied by nuclear magnetic resonance spectroscopy and pseudorotational analysis. The distribution of the north/south (N/S) puckering equilibrium for each compound was calculated by coupling constant analysis aided by the program PSEUROT. The data confirmed that the pseudorotational equilibrium of the fluorinated glycones is governed by the position of the fluorine atom. The preferred rotamer populations about the C4'-C5' (gamma) and C1'-N1' (chi) bonds calculated from coupling constant and NOE analysis, respectively, were also influenced by the presence of fluorine. Proton coupling to the fluorine atom was also used to qualitatively estimate the N/S equilibrium population. Through space, long range 1H-19F coupling constants were observed in compounds where the fluorine atom was above the plane of the ring ('up'). The pseudorotational parameters of the compounds described were tempered by the anomeric effect which drives the pseudorotational equilibrium towards the 2'-exo/3'-endo (northern) pucker. Ab initio calculations using the 3-21 G* basis set yielded a measure of the energy differences between the N and S local minima in each compound. These results agree with previous conformational studies of other fluorinated nucleoside analogues and prove that the furanose ring pucker is governed by the highly electronegative fluorine atom. However, the competing anomeric effect plays a major role in determining the
mole
fraction of the minor conformer of these compounds in solution.
...
PMID:Conformational analysis of the complete series of 2' and 3' monofluorinated dideoxyuridines. 908 81
This contribution presents a neutron diffraction investigation of anionic lamellar phases composed of mixtures of 1-palmitoyl, 2-oleoyl phosphatidyl-nucleosides (POPN, where N is either adenosine or
uridine
), and POPC (1-palmitoyl,2-oleoyl-phosphatidyl-choline). Their behavior is studied for two different
mole
ratios and in the presence of nucleic acids. The samples are formed by the evaporation of liposomal dispersions prepared in water or in solutions containing single-strand oligonucleotides. Previous small angle X-ray scattering (SAXS) experiments on the system POPA/polyU (polyuridylic acid, high degree of polymerization, synthetic ribonucleic acid) proved that the insertion and ordering of the biopolymer in the phospholipid lamellae were driven by molecular recognition. In the present study, we extend the previous investigation to single-strand monodisperse oligonucleotides (50-mers). Structural details of the membranes were obtained from the analysis of the neutron diffraction scattering length density profiles. The evidence of direct and specific interactions, driven by molecular recognition between the nucleic polar heads of the nucleolipid and the single-strand nucleic acid, is strengthened by the comparison with identically charged bilayers formed by POPG/POPC. These results contribute to the understanding of the parameters governing the interactions between nucleolipid membranes and oligonucleotides, providing a novel strategy for the design of lipid-based vehicles for nucleic acids.
...
PMID:Intercalation of single-strand oligonucleotides between nucleolipid anionic membranes: a neutron diffraction study. 1971 93
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