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1.
V. Raghavan 《Planta》1990,181(1):62-70
The origin of the quiescent center in the embryonic radicle of Capsella bursa-pastoris was investigated by in-situ hybridization to cellular polyadenylic-acid-containing RNA using [3H]polyuridylic acid as a probe. In the globular embryo, autoradiographic silver grains were localized in all cells of the presumptive root apex except in the hypophysis. As the inner cell formed by a transverse division of the hypophysis cut off new cells toward the central procambial cylinder of the embryo, these cells remained characteristically unlabeled, in contrast to the labeled cells of the rest of the embryo. In the embryonic radicles of mature seeds and of seedlings, cells derived from the hypophysis appeared as a nonmeristematic, unlabeled, hemispherical group, bounded by the procambium to the inside and the root epidermis to the outside. When root tips excised from 2-d-old seedlings were incubated in [methyl-3H]thymidine, sectioned, and autoradiographed, cells derived from the inner cell of the hypophysis were found to be unlabeled, thus showing that they constitute the specific cells of the quiescent center. These results present evidence for the single-cell origin of the quiescent center in an angiosperm root and a role for the hypophysis in it.Abbreviations poly(A)+RNA polyadenylicacid-containing RNA - [3H]poly(U) [3H]polyuridylic acid - QC quiescent center This work was supported in part by National Science Foundation grants PCM-7902898 and DCB-8709092.  相似文献   

2.
3.
Javed Iqbal 《Planta》1977,134(1):1-3
The vegetative prothalli (1–3 weeks old) of Anemia were incubated for 24 h in [14C]adenine. The RNA was phenol extracted from whole cells and the poly (A) sequences were isolated by nuclease digestion followed by poly (U)-sepharose chromatography. About 2–3% of the total radioactivity was retained on the column. The base composition of the nuclease resistant RNA was: C, 1.4; G, 3.6; A, 93.3; and U, 1.7. It is concluded that Anemia RNA contains poly adenylate sequences.Part of a post-doctoral work. Fellowship awarded by Alexander von Humboldt-Stiftung, Federal Republic of Germany  相似文献   

4.
The binding properties of [RuL2(mip)]2+ {where L is 1,10-phenanthroline (phen) or 4,7-dimethyl-1,10-phenanthrollne (4,7-dmp) and mip is 2′-(3″,4″-methylenedioxyphenyl)imidazo[4′,5′-f][1,10]phenanthroline} with regard to the triplex RNA poly(U)·poly(A)*poly(U) were investigated using various biophysical techniques and quantum chemistry calculations. In comparison with [Ru(4,7-dmp)2(mip)]2+, remarkably higher binding affinity of [Ru(phen)2(mip)]2+ for the triplex RNA poly(U)·poly(A)*poly(U) was achieved by changing the ancillary ligands. The stabilization of the Hoogsteen-base-paired third strand was improved by about 10.9 °C by [Ru(phen)2(mip)]2+ against 6.6 °C by [Ru(4,7-dmp)2(mip)]2+. To the best of our knowledge, [Ru(phen)2(mip)]2+ is the first metal complex able to raise the third-strand stabilization of poly(U)·poly(A)*poly(U) from 37.5 to 48.4 °C. The results reveal that the ancillary ligands have an important effect on third-strand stabilization of the triplex RNA poly(U)·poly(A)*poly(U) when metal complexes contain the same intercalative ligands.  相似文献   

5.
The distribution of poly(A)-containing RNA in the tapetal cells of Hyoscyamus niger during microsporogenesis was followed by in situ hybridization with [3H]poly(U) as a probe. Although no poly(A)-containing RNA accumulated in the premeiotic tapetum, [3H]poly(U) binding sites were detected in the tapetum as meiosis was completed in the microsporocytes. Accumulation of poly(A)-containing RNA in the tapetal cells reached a peak before the first haploid mitosis in the pollen grains. With the onset of tapetal senescence at the late uninucleate stage of the pollen grain, [3H]poly(U) binding sites gradually decreased and they completely disappeared in the tapetum at the binucleate pollen stage. The significance of the results is discussed, particularly with regard to the possible role of tapetum in the synthesis of informational macromolecules during microsporogenesis.  相似文献   

6.
7.
Cytoplasmic monoribosomes from freshly cut and ‘aged’ carrot root disks were characterized relative to the Mg2+ optima for poly U (polyuridylic acid)-directed phenylalanine incorporation, the ease of dissociation by KCl in the presence of Mg2+, the ability to bind 3H-poly U, and acrylamide gel fractionation of the ribosomal proteins. The differences in in vitro amino acid incorporation by ribosomes and supernatant from fresh and ‘aged’ disks were confined to the ribosome fraction. The Mg2+ optima for poly U-directed 14C-phenylalanine incorporation was 16 mM for ribosomes from ‘aged’ disks compared to 20 mM for ribosomes from fresh disks. Monoribosomes from the fresh disks were easily dissociated into subunits (0·2 M KCl in 5 mM Mg2+) while the ribosomes from ‘aged’ disks were not completely dissociated even in 0·5 M KCl. Ribosomes from ‘aged’ disks were more effective in binding 3H-poly U than ribosomes from fresh disks. When the disks were subjected to an anaerobic environment prior to ribosome extraction (to strip monoribosomes of peptidyl-t RNA) the above effects of ‘aging’ were reversed. These results suggest that increased monoribosome activity associated with ‘aging’ may be related in part to an increase in the level of peptidyl-tRNA associated with the ribosomes. Acrylamide gel electrophoresis profiles of ribosomal proteins extracted from ribosomes of fresh and ‘aged’ tissue suggest that a change in the protein complement may also be important to the observed changes in ribosomal activity. The ribosomes from ‘aged’ disks contained at least two components not associated with ribosomes from fresh disks.  相似文献   

8.
In the subapical region of dark-grown pea epicotyls about 40% of the total polysomes are associated with membranes. The presence of poly(A) in polysomal mRNA was detected by hybridization of unlabeled RNA with (3)H-poly(U). Both free mRNA and messenger ribonucleoprotein particles in polysomes hybridize with (3)H-poly(U) quantitatively. The binding of (3)H-poly(U) to polysomes is increased by treatment with the detergent sodium dodecyl sulfate. Since detergent influenced the (3)H-poly(U) binding more in membrane-bound polysomes than in free, there may be more protein(s) associated with the poly(A) portion of the mRNA in membrane-bound polysomes. Analysis of the poly(A) segments isolated from the mRNA of these two classes of polysomes indicates that there are discrete classes of poly(A) and they appear to be differentially associated with free and membrane-bound polysomes. Mean size distribution of poly(A) in free polysomes is larger than in membrane-bound polysomes.Following treatment (2 days) with the plant growth hormone indoleacetic acid, there is a gradual decrease in the mean length of total poly(A), which appears to correspond to a decrease in the size of the polysomes and their associated mRNA.  相似文献   

9.
H Krakauer 《Biopolymers》1971,10(12):2459-2490
The binding of Mg ++ to polyadenylate (poly A), Polyuridylate(poly U), and their complexes, poly (A + U) and poly (A + 2U), was studied by means of a technique in which the dye eriochrome black T is used to measure the concentration of free Mg?. The apparent binding constant KX = [MgN]/[Mg++][N], N = site for Mg++ binding (the phosphate group of the nucleotide), was found to decrease rapidly as the extent of binding increased and, at low extents of binding, as the concentration of Na? increased in poly A, poly (A + U), and poly (A + 2U), and somewhat less so in poly U. Kx is generally in the range 104 > KX > 102. The cause of these dependences is apparently, primarily, the displacement of Na+ by Mg++ in poly U and poly (A + U) on the basis of the similarity of extents of displacement measured in this work and those measured potentiometrically. was calculated and was found to approach zero as the concentration of Na+ increased. In poly U, poly (A + U), and poly (A + 2U) at low ΔH′ v.H. > 0, about + 2 kcal/“mole.” In poly A, also at low salt, ΔH′ v.H. ≈ ?4 kcal/“mol” for the initial binding of Mg++, and increases to +2 kcal/“mol” at saturation. This enthalpic variation probably accounts for the anticooperativity in the binding of Mg++ not ascribable to the displacement of Na++.  相似文献   

10.
The regional distribution of poly(A)+ RNA was examined in sections of Styela oocytes and fertilized eggs by in situ hybridization with [3H]poly(U). The nucleus and cytoplasm of previtellogenic oocytes contain equivalent densities of [3H]poly(U) binding sites. The concentration of these sites is reduced in the cytoplasm, but not the nucleus, during vitellogenesis. Consequently, the germinal vesicle (GV) plasm of mature oocytes is characterized by an eightfold elevation in [3H]poly(U) binding activity relative to the surrounding cytoplasm. The distinctive cytoplasmic regions of the mature oocyte do not exhibit differential concentrations of [3H]poly(U) binding sites. Following fertilization which triggers GV breakdown, meiosis, and ooplasmic segregation, the high density of [3H]poly(U) binding sites characteristic of the GV plasm is conserved in the basophilic cytoplasm during its extensive migration and eventual accumulation in the animal hemisphere of the egg. The insensitivity of the [3H]poly(U) binding sites of the basophilic cytoplasm to actinomycin D suggests that they are of maternal origin. It is concluded that maternal poly(A)+ RNA is subject to differential accumulation in the GV plasm and its derivative ooplasm during the early development of Styela.  相似文献   

11.
Moloney murine leukemia virus 35S RNA (molecular weight 3 to 3.4 × 106) is cleaved by nuclease activity present in microsomal fractions from MLV infected or uninfected mouse embryo cells to two RNA species of approximate molecular weights 1.8 × 106 and 1.5 × 106. Microsomal fractions from MLV infected and uninfected cells also contained nucleolytic activity that solubilized [3H]poly(A)·poly(U) but not [3H]poly(C) or [3H]poly(U); the cleavage of poly(A)·poly(U) was inhibited by ethidium bromide. The cleavage of MLV RNA was also inhibited by ethidium bromide, suggesting double stranded regions in 35S RNA as the site of cleavage.  相似文献   

12.
Ascites cells of the 13762 rat mammary adenocarcinoma bind poly(U) in a reaction that is complete within 5 min at 0°C. Poly(U) binding is saturable; the capacity of these cells is 5×107 UMP residues/cell (approx. 2×105 chains/cell). Most [3H]poly(U) bound in the rapid reaction can be recovered in an undergraded state. However, it is rapidly degraded by low concentrations of exogenous pancreatic ribonuclease. The magnitude of binding is independent of temperature and ionic conditions, and is unaffected by metabolic inhibitors or concanavalin A (ConA). Radioactivity presented as [3H]poly(U) tends to co-fractionate with 5′-nucleotidase after homogenization of cells in the media of low ionic strength, but is efficiently released from cells exposed to protein denaturants that effectively fix cellular RNA in situ. Cells pretreated with proteolytic enzymes have sharply reduced capacities to bind poly(U). Autoradiography of cells bearing [3H]poly(U) demonstrates a uniform distribution of radioactivity through the cell population and is consistent with binding to the plasma membrane. These and other results imply that binding of poly(U) to 13762 ascites cells is mediated by protein receptors on the cell surface.  相似文献   

13.
Interaction between polyamines and nucleic acids or phospholipids   总被引:10,自引:0,他引:10  
The binding of polyamines to DNA, RNA, and phospholipids has been studied by gel filtration and sucrose density gradient centrifugation. Spermine was found to bind more to a GC-rich DNA. Among RNAs containing double-stranded region [poly(AU), poly(GC), and ribosomal RNA], the binding of spermine was nearly equal. Among the single-stranded RNAs, the binding of spermine was in the order poly(U) > poly(C) > poly(A). An increase in K+ or Mg2+ concentration resulted in a great decrease in spermine binding to DNA and in a slight decrease in spermine binding to RNA. Therefore, in the presence of more than 2 mm Mg2+ and 100 mm K+, the binding of spermine to RNA was greater than that to DNA. No significant difference in spermine binding was observed between 16 S ribosomal RNA and 30 S ribosomal subunits, suggesting that ribosomal proteins did not affect significantly the binding of spermine to ribosomal RNA. The binding of spermine to microsomes was dependent on phospholipids. The binding strength was in the order phosphatidylinositol > phosphatidylethanolamine > phosphatidylcholine.  相似文献   

14.
Ten ribonucleic acid (RNA) tumor viruses grown in five different host cell species and three non-oncogenic viruses from three different virus groups have been examined for ribonuclease H content. Three different substrates were used to assay ribonuclease H: calf thymus [(3)H]RNA-deoxyribonucleic acid (DNA) hybrid prepared with denatured calf thymus DNA and Escherichia coli DNA-directed RNA polymerase, (3)H-polydenylic acid [(3)H-poly(A)] complexed to polydeoxythymidylic acid [poly(dT)], and (3)H-polyuridylic acid [(3)H-poly(U)] complexed to polydeoxyadenylic acid [poly(dA)]. All ten RNA tumor viruses contained ribonuclease H activity which degraded the RNA of both the calf thymus hybrid and poly(A)-poly(dT), whereas only the ribonuclease H in the Moloney strain of murine sarcoma-leukemia virus and in RD-feline leukemia virus hydrolyzed the RNA strand of poly(U)-poly(dA). No appreciable ribonuclease H activity was detected in influenza, Sendai, or vesicular stomatitis virus. The ribonuclease H and RNA-directed DNA polymerase activities in Moloney murine sarcoma-leukemia virus were inseparable by phosphocellulose chromatography or glycerol gradient centrifugation, but appeared to be partially separated by diethylaminoethyl-cellulose chromatography.  相似文献   

15.
S Higuchi  M Tsuboi 《Biopolymers》1966,4(8):837-854
The optical density–temperature profile of double-stranded poly(A + U), triple stranded poly(A + 2U), and double-stranded RNA from rice dwarf virus in solutions with and without poly-L -lysine has been examined. When poly-L -lysine is added, more than one melting temperature Tm is observed for poly(A + U) and poly(A + 2U). One of them is considered to correspond to the melting of the polynucleotide molecule free from poly-L -lysine, and another to the melting of a polynucleotide–poly-L -lysine complex. For rice dwarf virus RNA, the Tm assignable to the complex is not found to be lower than 99°C. In every case, however, the hyperchromicity observed at the Tm of the free poly-nucleotide molecule is lowered linearly as the amount of poly-L -lysine added to the solution increases. This fact is taken as indicating that there is a stoichiometric complex formed. The stoichiometric ratio lysine/nucleotide in each complex is determined by examining the relation between the amount of poly-L -lysine added to the solution and the percentage of hyperchromicity remaining at Tm of the free polynucleotide molecule. The ratio is found to be 2/3 for all of the three complexes. A discussion is given on the molecular conformations of four types of polynucleotide–polylysine complex hitherto found: (A) double-stranded DNA plus poly-L -lysine in which the lyslne/nucleotide ratio is 1, (B) three-stranded RNA [poly(A + 2U)] plus poly-L -lysine in which the ratio is 2/3, (C) double-stranded RNA [poly (A + U) or rice dwarf virus RNA] plus poly-L -lysine in which the ratio is 2/3, and (D) double-stranded RNA [poly(I + C)] plus poly-L -lysine in which the ratio is 1/2.  相似文献   

16.
A procedure is described for the detection of opiate binding sites synthesized during in vitro translation of various mRNA preparations. RNA were isolated from membrane bound polysomes which were prepared from NG 108-15 hybridoma, C6BU1 glioma cells, as well as from N18TG2, NB2aAg and NB41A3 neuroblastoma cells. Polyadenylated [poly(A)+] RNA were purified, translated in vitro in a rabbit reticulocyte lysate and the translation products assayed for their ability to bind [3H] bremazocine. Bound and free ligands were separated by column chromatography. After translation of poly(A)+ RNA obtained from NG 108-15 cells we demonstrated a stereospecific, saturable binding of [3H]bremazocine (displaced by levorphanol and not by dextrorphan) with a Kd of 2.4 ± 1.0 nM. The total amount of opiate binding sites synthesized was 6.2 ± 0.5 fmol per μg of poly(A)+ RNA. Opiate binding sites were undetectable at zero time and a plateau was reached after translation had proceeded for 20 min. Five time less opiate binding sites were synthesized when the poly(A)+ RNA purified from N18TG2 neuroblastoma cells were used under the same experimental conditions. There was no detectable binding of opiate ligands with poly(A)+ RNA obtained from C6BU1 glioma cells, NB2aAg or NB41A3 neuroblastoma cells.  相似文献   

17.
Buchwald  I.  Bialdiga  M.  Traub  U.  Traub  P. 《Molecular biology reports》1978,4(1):9-13
The distribution of poly(A)+ mRNA among polysomes, monosomes, and ribosome-free supernatant fractions after mengovirus infection of Ehrlich ascites tumor (EAT) cells was investigated employing sucrose gradient centrifugation of their corresponding postnuclear supernatants. Poly(A)+ mRNA was isolated from sucrose gradient fractions and quantitated in a cell-free protein synthesizing system from uninfected EAT cells. It was also localized by annealing [3H]-poly(U) to the poly(A)-tracts of mRNA present in the sucrose gradient fractions. Both experiments revealed a gradual shift of host poly(A)+ mRNA from large to small polysomes and monosomes, respectively, with the time postinfection. The greatest part of host template RNA appears to remain ribosome-bound and only a fraction seems to be detached from the ribosomes in the course of mengovirus infection. At the end of the infectious cycle, 8 h postinfection, approximately 70% of the poly(A)+ mRNA detected in uninfected cells is still biologically active, but not translated in vivo, in agreement with data from the [3H] poly(U) hybridization experiment.  相似文献   

18.
The size range of poly(A)-containing RNA from Drosophila melanogaster embryos has been estimated by hybridization with 3H-labeled poly(U) and subsequent fractionation on sucrose gradients. The median size of nuclear poly(A)-containing RNA is about 30 S (6000 nucleotides), and the median size of cytoplasmic poly(A)-containing RNA is about 17 S (1800 nucleotides). The relationship of these sizes to messenger RNA needed to code for protein and to the length of DNA contained in a chromomere is discussed.Research grant support was provided by NIH (6M35558; HD-00266) and NSF (GB-30600).  相似文献   

19.
Poly(A) polymerase activity is induced during vaccinia virus infection of HeLa cells. The enzyme is maximally induced at 3.5 h postinfection. Partial purification frees the preparation of RNase activity and RNA polymerase activity. ATP is the substrate for poly(A) synthesis. A small amount of poly(A) is produced from added adenosine diphosphate due to the production of ATP by an adenylate kinase present in the preparation. The incorporation of ATP into poly(A) is dependent on divalent cations (Mg2+ or Mn2+) and is not inhibited by UTP, CTP, or GTP. Poly(U) stimulates ATP incorporation; poly(A) and poly(C) have little effect on ATP incorporation, and poly(dT) is extremely inhibitory. RNA prepared from HeLa cells and from the partially purified poly(A) polymerase (the enzyme preparation contains endogenous RNA [Brakel and Kates]) stimulates ATP incorporation by poly(A) polymerase which was subjected to DEAE-cellulose chromatography. RNase's, pancreatic and T1, inhibit the production of poly(A). DNase has little effect. Poly(U) is able to stimulate poly(A) production in the presence of T1 RNase.  相似文献   

20.
Summary Saturation hybridisation of polyadenylic acid with [3H]polyuridylic acid is described. Under conditions of [3H]poly(U) excess, poly(A) is detected in the RNA of a number of higher plants. The ribonuclease resistant hybrids melt sharply when subjected to thermal denaturation. Plant RNA which contains poly(A) sequences detected by [3H]poly(U) hybridisation is polydisperse in molecular weight. Data presented shows that the amount of poly(A) in plant RNA is variable. This technique is useful for the qualitative and quantitative detection of poly(A) sequences in higher plant RNA.Abbreviations A.R. Analar Reagent - Poly(A) Polyadenylic acid - Poly(U) Polyuridylic acid - Oligo(dT)-cellulose oligo(deoxythymidylate)-cellulose - Tm melting temperature - SSC standard saline citrate  相似文献   

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