UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
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Temperature-sensitive "leaky" mutants of phage MS2 having white dense ring around negative colonies are described. As these mutants are used for quantitative genetic studies, the white ring presents interest. Typical mutant 40 is used as a model for investigation. Light microscopy has shown, that cells from white ring zone have spore-like inclusions, which determine the characteristic structure of surrounding mutant negative colonies. Cytochemical reactions for the presence of glicogen, lipids, volutin, nuclear material and spores were negative. Electrone microscopy of negatively stained samples and ultrathin sections has revealed that cells from white ring zone, unlike phage-infected wild type cells, have two types of electron dense inclusions: 1) crystalline structures formed with great number of closely packed mature phage particles, and 2) large amorphic bodies. Electrone microscope-cytochemical data showed that inclusions remain intact under treatment of ultrathin sections of white zone ring with DNase and perchloric acid, while nuclear material was completely destroyed. Amorphic bodied were completely destructed after the treatment with RNase, while nuclear material and crystalline phage aggregated remained unchanged. Therefore, amorphic bodies consist of RNA, which has not been used to form virions. Single cycle of the development of mutant 40 at 37 degrees and 43 degrees C and under the temperature of incubation 37 degrees leads to 43 degrees C and 43 degrees leads to 37 degrees C in the course of intracellular reproduction is investigated. Influence of the phage on growth on infected culture is studied. The data obtained draw to a conclusion that the impaired function belongs to cystron protein of the phage membrane. As certain mutations in this cystrone of RNA-containing phage result in the depression of cystrone RNA polymerase, it is supposed that the formation of RNA containing bodies in infected cells, determining the formation of white rings in NA, together with cristalline aggregates of cells, is a result of mutation damage of cystrone protein of the phage MS2 membrane.
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PMID:[Effect of mutagens on RNA-containing phages and its infectious RNA. VII. Genetic nature of morphologic mutants of RNA-containing phage MS2]. 99 65

Under conditions unfavorable to growth, the nematode Caenorhabditis elegans enters a developmentally arrested stage, the dauer larva. We have examined gene expression in the dauer larva and during recovery from the dauer stage. Run-on transcription assays with isolated nuclei reveal a depression of general RNA polymerase II transcription to 11-17% of that in other stages. Transcription of individual gene families (including actin, collagen, hsp70, and histone) is similarly depressed relative to actively growing stages. Dauer larvae are, however, capable of being induced for heat shock messages, indicating that they are competent to initiate and elongate transcripts. For most genes surveyed, reduced transcription in dauer larvae correlates with a decrease in message abundance. Hsp70 mRNA, however, is transcribed at lower rates but accumulates at levels comparable to those in other stages. Interestingly, dauer larvae are 15-fold enriched in a mRNA for a C. elegans hsp90 gene. Hsp90 mRNA accumulation is regulated at least in part by differential stability. Dauer larvae thus appear to have a unique pattern of gene expression. Upon placement in food, dauer larvae reenter the developmental pathway as late-stage larvae. Dauer recovery is accompanied by a temporally regulated sequence of gene expression. At least four distinct patterns of gene expression can be distinguished during exit from the dauer stage. Steady-state levels of hsp70 and polyubiquitin mRNA rise sharply within 75 min of recovery before declining by the fourth hour. Actin and histone mRNAs increase steadily following 2-4 hr of recovery, whereas myosin mRNA increases after 10 hr. In contrast, hsp90 mRNA declines sharply within the first 75 min of recovery. Changes in mRNA populations during dauer formation and exit may be physiologically relevant.
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PMID:Gene expression in the Caenorhabditis elegans dauer larva: developmental regulation of Hsp90 and other genes. 157 99

The rates of synthesis of phage-coded RNA polymerase upon infection of Escherichia coli by bacteriophages T3 or T7 were measured at different MOIs under permissive and non-permissive conditions. At MOIs from 1 to 15, these rates did not vary appreciably, at MOIs of about 20 there was a slight depression in the synthesis rate. The reason for this absence of a positive gene dosage effect is unknown.
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PMID:Absence of a gene dosage effect during bacteriophage T3- and T7-coded RNA polymerase synthesis. 174 Mar 85

Plagemann, Peter G. W. (Western Reserve University, Cleveland, Ohio), and H. Earle Swim. Replication of mengovirus. I. Effect on synthesis of macromolecules by host cell. J. Bacteriol. 91:2317-2326. 1966.-The replication of mengovirus was studied in two strains of Novikoff (rat) hepatoma cells propagated in vitro. The replicative cycle in both strains required 6.5 to 7 hr. Infection resulted in a marked depression of ribonucleic acid (RNA) and protein synthesis by strain N1S1-63. Inhibition of RNA synthesis was reflected by a decrease in the deoxyribonucleic acid (DNA)-dependent RNA polymerase activity of isolated nuclei. Mengovirus had no effect on either protein or RNA synthesis or on the DNA-dependent RNA polymerase activity of a second strain, N1S1-67. The time course of viral-induced synthesis of RNA by cells was studied in cells treated with actinomycin D. It was first detectable between 2.5 and 3 hr after infection and continued until 6.5 to 7 hr. The formation of mature virus was estimated biochemically by measuring the amount of RNA synthesized as a result of viral infection which was resistant to degradation by ribonuclease in the presence of deoxycholate. Approximately 70% of the deoxycholate-ribonuclease-resistant RNA was located in mature virus, and the remainder was double-stranded. The formation of mature virus began about 45 min after viral-directed (actinomycin-resistant) synthesis of RNA was detectable in the cell, and only about 18 to 20% of the total RNA synthesized was incorporated into virus. Release of virus from cells began about 1 hr after maturation was first detectable. Release of virus from cells was accompanied by a loss of a large proportion of their cytoplasmic RNA and protein.
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PMID:Replication of mengovirus. I. Effect on synthesis of macromolecules by host cell. 428 85

When mouse lymphoma cells (L-1210) are treated with methylnitrosourea, a DNA-damaging agent, polyadenosine diphosphoribose (poly(ADP-ribose)) synthetase activity increases 5-8-fold in 2-3 h, while RNA polymerase activity remains constant for an initial 2 h and then gradually decreases to 25-30% of the control level in 5 h. Both alpha-amanitin-sensitive and -resistant RNA polymerase activities are depressed to the same degree by the treatment with methylnitrosourea. The depression in RNA synthesis is virtually prevented when the treated cells are cultured in the presence of 3-aminobenzamide, a specific inhibitor of poly(ADP-ribose) synthetase. Analyses of the RNA extracted from the cells labeled with [3H]uridine by agarose gel electrophoresis and by poly(U)-Sepharose column chromatography show that the contents of ribosomal precursor RNA and poly(A)-containing RNA are both low in the methylnitrosourea-treated cells as compared with those in the untreated cells and that the reduction in the contents of these kinds of RNA is almost completely prevented by the addition of 3-aminobenzamide to the culture medium. These results suggest that the enhancement of poly(ADP-ribosyl)ation causes the decrease in both synthesis of ribosomal RNA and messenger RNA.
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PMID:Participation of poly(ADP-ribosyl)ation in the depression of RNA synthesis caused by treatment of mouse lymphoma cells with methylnitrosourea. 617 37

Coliphage BA14 was isolated from sewage and shown to be related to phages T7 and T3. It is similar to T3 in that it directs the synthesis of an S-adenosyl-methionine-cleaving enzyme (SAMase) early upon infection. However, it differs from all other known T7-related coliphages by the inability of its RNA polymerase (gene 1 product) to transcribe T7 DNA or T3 DNA. BA14, T7 and T3 also show marked differences in autoradiographic patterns of their gel-electrophoretically separated 35S-labelled intracellular phage proteins, restriction endonuclease HpaI cleavage patterns of their DNAs, and serological specificities of their infectious particles. Other distinctive features became apparent upon simultaneous mixed infection with BA14 and T7 or T3: inability of BA14 to produce genetic recombinants with either T7 or T3; lack of functional complementation between amber mutants of BA14 and T7 or T3; mutual exclusion and depression of the burst size of the mixedly infected cells.
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PMID:Coliphage BA14: a new relative of phage T7. 629 54

Biochemical studies on a new antitumor antibiotic, CI-920, have been directed toward understanding its mode of action. The most striking effect brought on by CI-920 was a marked inhibition of macromolecular synthesis. L1210 leukemia cells exposed to 10 microM CI-920 exhibited a decreased rate of DNA, RNA, and protein synthesis within 45 min, and maximal inhibition occurred within 60 min. The reduction in nucleic acid synthesis was not due to precursor depletion, since ribonucleoside and deoxyribonucleoside triphosphate levels in cells exposed to 10 microM CI-920 for 2 h either remained unchanged relative to control cells or were elevated, suggesting a block more directly at the level of nucleotide incorporation. Nevertheless, CI-920 (50 microM) had no effect on DNA or RNA polymerase activity as assessed in permeabilized L1210 cells. However, if viable cells were exposed to 20 microM CI-920 for 1 h prior to permeabilization and then the polymerases assayed in the absence of drug, there was a 60% depression in enzyme activity. The inhibition of RNA polymerase appears to result from an effect on the enzyme rather than the template, since inhibition of RNA polymerase activity in cell-free systems from drug-treated cells could not be restored by addition of excess DNA template. DNA polymerase, however, was at least partially restored by addition of template and therefore was inconclusive in this respect. The data, then, suggest that CI-920 inhibits nucleic acid synthesis directly at the level of nucleotide incorporation, either by direct inhibition of DNA or RNA polymerase or by inactivation of an essential component of these enzyme systems. Since the drug in its parent form did not inhibit nucleic acid synthesis in cell-free systems the effects may possibly be mediated through conversion of this agent to another chemical form within viable cells.
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PMID:Studies on the biochemical mechanism of the novel antitumor agent, CI-920. 654 19

The human placenta is an organ with a long period of growth in cell number later succeeded by cessation of cell division but some continued growth in cell size. The RNA concentration and content per cell (RNA/DNA ratio) are reduced between the end of the first trimester and the end of pregnancy, and there is a change in availability of placental chromatin for transcription when incubated in vitro with RNA polymerase II. Synthesis and secretion of placental peptide hormones on membrane-bound polyribosomes also undergo changes during pregnancy. During early pregnancy, levels of human chorionic gonadotropin are maximal, declining in later pregnancy, levels of human chorionic gonadotropin are maximal, declining in later pregnancy. The messenger RNA for this hormone undergoes similar changes in relative amount in the placenta. In contrast, the plasma level of placenta lactogen increases progressively during pregnancy, and in parallel with this, the placenta content of mRNA for this hormone increases throughout later pregnancy. It is concluded that placental programing regulates the relative amounts of mRNA for each hormone, and this in turn determines the amounts secreted at any stage of pregnancy. Nutritional status of the mother can affect placental RNA content, most clearly established in studies on rats in which a diet low in protein or with added alcohol results in a reduced capacity to form and secrete placental lactogen. The extent of this depression parallels the reduction in placental RNA content. It is suggested that underproduction of placental lactogen may be a factor in reducing flow of nutrients from the maternal tissues to the fetus in later pregnancy, under conditions of malnutrition.
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PMID:Placental protein and peptide hormone synthesis: impact of maternal nutrition. 735 83

The ability of phosphorothioate (POS) oligonucleotides to recognise and bind to homopurine-homopyrimidine DNA double-stranded sites via triple helix formation has been investigated. It has been found that the homologous pyrimidine POS sequences Y11-Si (i = 0, 1,2,3,4,10), which have been obtained by an increasing sulphur substitution in the sugar-phosphate backbone of d(CTTCCTCCTCT) (Y11), and the target hairpin duplex d(GAAGGAGGAGA-T4-TCTCCTCCTTC) (h26) can form stable triple helices, as indicated by PAGE, CD and UV melting experiments. The thermal stability of the triple helices depends on the number of POS linkages in the third Y11 strand, varying from 48 degrees C (Y11, with only phosphate groups, PO2) to 31 degrees C (Y11-S10 containing exclusively thioate groups). On average, a Tm depression of about 2 degrees C per POS linkage introduced in Y11 was observed. CD data indicate that the sulphurization of the third strand results in minimal changes of triple-stranded structures. The energetics of the triplex-to-hairpin plus single-strand transition has been determined by van't Hoff analyses of the melting curves. In free energy terms, the POS triplexes h26.Y11-Si are less stable than the normal PO2 h26.Y11 triplex by values between 2.7 and 5.4 kcal/mol, depending on the number of POS linkages contained in the third strand. Phosphorothioate oligonucleotides being resistant towards several nucleases offer an interesting choice as gene blockers in antisense strategy. Thus, their ability to inhibit transcription via triple helix formation has been examined in vitro. We found that triplex-forming POS oligonucleotides of 20 bases in length (with a cytosine contents of 45%), containing either 10% or 26% thioate groups, strongly repress the transcription activity of the bacteriophage T7 RNA polymerase at pH 6.9, when used in excess compared to the target (mol oligo/mol template = 125). The here reported data are useful for designing phosphorothioate oligonucleotides targeted to genomic DNA in antigene strategy.
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PMID:Pyrimidine phosphorothioate oligonucleotides form triple-stranded helices and promote transcription inhibition. 807 67

Altered biogenic amine metabolism and function are believed to underlie certain of the neuropsychiatric symptoms, e.g., depression, mania, and anxiety, encountered in clinical hepatic encephalopathy (HE). We therefore investigated the activity of the degradative enzyme monoamine oxidase (MAO) and its binding parameters using [3H]Ro 41-1049 (defining MAO-A) and [3H]Ro 19-6327 (Lazabemide; defining MAO-B) in autopsied brain tissue from male cirrhotic patients with HE. The MAO-B parameters in HE patient tissue were not significantly different from those determined for control tissue. In contrast, increases in MAO-A activities in HE patient frontocortical (by approximately 50%) and cerebellar (by approximately 145%) tissues were observed, confirming our previous findings using comparable tissues. Increases in the abundance of the active MAO-A protein were of the same order of magnitude, e.g., in frontal cortex by approximately 85% and in cerebellum by approximately 225%. Reverse transcriptase-polymerase chain reaction indicated an increase in the level of gene expression (by approximately 155%) and thus offers some of the first evidence of a transcriptional event potentially mediating MAO-A function in human brain tissue. The levels of biogenic amine acid metabolites were increased as expected. As HE patients are most often treated for their hepatic symptoms rather than their neuropsychiatric manifestations, they represent an important "untreated" psychiatric population. The present findings are therefore not only important for our understanding of the pathophysiology of HE but also extremely relevant to our understanding of the pharmacotherapy of other neuropsychiatric disorders in which biogenic amine and MAO-A dysfunction is indicated.
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PMID:Increased density of catalytic sites and expression of brain monoamine oxidase A in humans with hepatic encephalopathy. 904 67

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