首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
Cultured sycamore cells rapidly incorporate [3H]uridine or [32P]orthophosphate into rRNA precursors and polydisperse RNA. Mature rRNA accumulates only after a lag period of approximately 40 min. Fractionation of pulse-labelled cells and analysis of the RNA shows that after 30 min the rRNA precursors, together with some polydisperse RNA, are confined to the nucleus. In consequence radioactive polydisperse RNA can be isolated from polyribosomes in the complete absence of labelled rRNA. Approximately 40% of this RNA is retained by an oligo(dT)-cellulose column and by this criterion is judged to contain poly(A) sequences. A smaller proportion of nuclear polydisperse RNA also contains poly(A). The tendency for poly(A)-containing RNA to aggregate complicates molecular weight determinations. Denaturation of poly(A)-containing RNA in 8 M urea prior to gel electrophoresis produces a broad peak of RNA with an average Mr = 10(6). Analysis of the nucleotide composition of total cell poly(A)-containing RNA shows that it contains 41% AMP. Roughly 6% of this RNA is resistant to digestion by ribonuclease A and T1. AMP is the only nucleotide detectable in these fragments. From their mobility during electrophoresis in 8 M urea at 60 degrees C with 5.8-S, 5-S and tRNA as molecular weight markers it is concluded that the poly(A) regions contain an average of 160 nucleotides.  相似文献   

2.
Key JL  Silflow C 《Plant physiology》1975,56(3):364-369
The occurrence and distribution of poly(A) sequences in the RNA of soybean (Glycine max var. Wayne) have been studied. Only one of the two species of AMP-rich RNA contains poly(A). D-RNA does not contain detectable poly(A) sequences. The TB-RNA is the poly(A) RNA in this system. At least a part (up to 50% or more) of the mRNA in polyribosomes contains a poly(A) sequence. The poly(A) RNA is heterodisperse in size but has a mean size of approximately 18S (2,000 nucleotides) in urea and formamide gels. The poly(A) fragment resulting from ribonuclease A and T1 digestion migrates as a broad band overlapping the 4 to 5.8S regions of the gels with a mean size of somewhat greater than 5S. No evidence was found for the occurrence of a discrete oligo(A) fragment in the poly(A) RNA; however, oligonucleotides which migrate faster than the poly(A) fraction were observed in preparations which were not bound to oligo(dT) cellulose prior to electrophoresis. This oligonucleotide region was enriched in AMP (up to about 65%) as would be expected after ribonuclease A and T1 digestion.  相似文献   

3.
C Hashimoto  J A Steitz 《Cell》1986,45(4):581-591
RNAs containing the polyadenylation sites for adenovirus L3 or E2a mRNA or for SV40 early or late mRNA are substrates for cleavage and poly(A) addition in an extract of HeLa cell nuclei. When polyadenylation reactions are probed with ribonuclease T1 and antibodies directed against either the Sm protein determinant or the trimethylguanosine cap structure at the 5' end of U RNAs in small nuclear ribonucleoproteins, RNA fragments containing the AAUAAA polyadenylation signal are immunoprecipitated. The RNA cleavage step that occurs prior to poly(A) addition is inhibited by micrococcal nuclease digestion of the nuclear extract. The immunoprecipitation of fragments containing the AAUAAA sequence can be altered, but not always abolished, by pretreatment with micrococcal nuclease. We discuss the involvement of small nuclear ribonucleoproteins in the cleavage and poly(A) addition reactions that form the 3' ends of most eukaryotic mRNAs.  相似文献   

4.
Free and membrane-bound polyribosomes were isolated from the forebrain of actively myelinating 24-day-old rats. The poly(A)+ RNA (polyadenylated RNA) extracted from both fractions was translated in vitro in reticulocyte lysates [Hall & Lim (1981) Biochem. J. 196. 327-336] in the presence or absence of a heterologous microsomal membrane fraction from dog pancreas. The rat myelin basic proteins synthesized in vitro were isolated by CM-cellulose chromatography and by immunoprecipitation with purified anti-(myelin basic protein) antibody. The large (mol.wt. 18 500) and small (mol.wt. 16 000) myelin basic proteins were translational products of poly(A)+ RNA from both free and membrane-bound polyribosomes. The identity of the myelin basic proteins was verified by analysis of peptides generated by the cathepsin D digestion of the immunoprecipitated proteins synthesized in vitro, in comparison with authentic rat myelin basic proteins. Although several other translational products of membrane-bound polyribosomal poly(A)+ RNA were modified when microsomal membranes were present during translation, molecular weights of the myelin basic proteins themselves were unchanged. The myelin basic proteins synthesized in vitro also did not differ significantly in size from the authentic myelin basic proteins, indicating that these membrane proteins are unlikely to be synthesized as substantially larger precursor molecules. The presence of the specific mRNA species on both free and membrane-bound polyribosomes is compatible with the extrinsic location of the myelin basic proteins on the cytoplasmic surface of the myelin membrane.  相似文献   

5.
Polyadenylic acid of membrane-bound polyribosomes is shown to be associated with rapidly sedimenting membrane structures. Most of this poly(A) remains attached to membranes after extensive degradation of polyribosomal messenger RNA with pancreatic ribonuclease. Previously, it was shown that exposure to EDTA removes up to 40% of the membrane-associated mRNA. In our experiments, 57% of the membrane-associated poly(A) still sediments with membrane structures after treatment with pancreatic ribonuclease followed by the addition of EDTA. This indicates that the association of about 60% of the membrane-bound poly(A) is EDTA-resistant, while the remainder is labile after removal of magnesium ions. Reconstruction experiments suggest that poly(A) from detergent-treated, membrane-derived polyribosomes is not trapped by other membrane structures. The poly(A)-containing RNA fragment that remains associated with the membranes after pancreatic ribonuclease treatment is shown to be a single peak at about 7 S, or about the size of cellular poly(A). Thus, the attachment site is almost pure poly(A). The poly(A)-containing, membrane-bound mRNA appears to be of a larger average size than total cellular poly(A)-containing RNA, as judged by its greater sedimentation value.  相似文献   

6.
《Experimental mycology》1987,11(3):176-186
The poly(A) RNA in zoospores ofBlastocladiella emersonii contains RNA synthesized during the growth phase (GP poly(A) RNA) and late sporulation (LS poly(A) RNA). LS poly(A) RNA synthesized during the final 30 minutes of sporulation is bound exclusively to polyribosomes which comprise approximately 50% of the total zoospore ribosome population. In contrast, GP poly(A) RNA is bound to zoospore monoribosomes. During the final 30 minutes of sporulation, GP poly(A) RNA which is bound to polyribosomes makes a transition to monoribosomes. Zoospore monoribosomes and RNA extracted from zoospore monoribosomes are inactivein vitro while both zoospore polyribosomes and RNA extracted from zoospore polyribosomes stimulate protein synthesis in the wheat germin vitro system. Sedimentation of poly(A) RNA from zoospore monoribosomes on dimethyl sulfoxide gradients revealed that the GP poly(A) RNA was of sufficiently high molecular weight to code for average-sized proteins. These denaturing gradients failed to activate the zoospore monoribosome RNA. The results suggest that the inability to translate zoospore monoribosomesin vitro is due to some property or modification of the zoospore monoribosome poly(A) RNA. Zoospore monoribosomes bound to poly(A) RNA contain an average of two tRNA molecules while zoospore polyribosomes have an average of less than one tRNA bound. This suggests the two classes of ribosomes are blocked at different steps in the elongation process.  相似文献   

7.
Summary The pattern of appearance of ribosomes, newly synthesized mRNA, and poly(A)-containing mRNA in polyribosomes has been examined in sand dollar embryos. From early blastula until shortly before hatching small polyribosomes engaged in histone synthesis predominate. At the time of hatching, when the rate of cell increase is maximal, the proportion of poly(A)-containing RNA in polyribosomes is low. After hatching a new class of large polyribosomes appears and the amount of poly(A)-containing polyribosomal RNA increases. Cordycepin, an inhibitor of RNA adenylylation, prevents the appearance of the large polyribosomes after hatching as well as the increase in poly(A)-containing polyribosomal RNA.  相似文献   

8.
RNA molecules from nuclear and cytoplasmic polyribosomes of adenovirus-infected HeLa cells were compared by hybridization to analyse the sequence content. Nuclear polyribosomes were released by exposure of intact detergent-washed nuclei to poly(U) and purified. Cytoplasmic polyribosomes were also purified from the same cells. To show that nuclear polyribosomes contain ribosomes linked by mRNA, polyribosomes were labelled with methionine and uridine in the presence of actinomycin D in adenovirus-infected cells. Purified nuclear polyribosomes were treated with EDTA under conditions which dissociate polyribosomes into ribosomes and subunits with a simultaneous release of mRNA, and sedimented. The treatment dissociated these polyribosomes, releasing the mRNA from them. Radiolabelled total RNA from each polyribosome population was fractionated in sucrose gradients into several pools or hybridized to intact adenovirus DNA to select virus-specific RNA. Sucrose-gradient-fractionated pool-3 RNA (about 28S) and virus-specific RNA were then hybridized to fragments of adenovirus DNA cleaved by restriction endonucleases SmaI, HindIII and EcoRI by the Southern-blot technique and by filter hybridization. The results showed that nuclear RNA contained sequences, from about 0 to 18 map units, which were essentially absent from cytoplasmic RNA. Furthermore, the amount of virus-specific RNA for a particular sequence was also different in the two populations.  相似文献   

9.
Total nuclear RNA extracted from nuclei of rat liver cells by phenol/chloroform in the presence of sodium dodecyl sulphate was separated by combined gel filtration on Sepharose 4 B and affinity chromatography on poly(U) Sepharose into fractions differing in their molecular weights and contents of poly(A) sequences. The poly(A)-containing 45-S RNA became labelled most rapidly if rats were administered [3H] orotic acid. This fraction showed a high template activity when added to postmitochondrial supernatants of the Krebs ascites tumour. Fractions of nRNA, free of poly(A) sequences, had no stimulating effect on protein synthesis in this system. The 45-S RNA-containing poly(A) was readily bound to crude polyribosomes from rat liver at 0 degrees C and both ATP and GTP were necessary for this reaction. Sucrose gradient analyses provided evidence that this RNA species is bound predominantly to 80-S ribosomes. No binding was obtained with polyribosomes washed with 0.5 M KCl. The binding ability of washed polyribosomes was restored by the addition of the ribosomal wash fraction or rat liver cytosol. Crude polyribosomes bound significantly lower quantities of nRNA species free of poly(A) when compared with poly(A)-45-S RNA. The label was scattered through the whole ribosomal sedimentation pattern with no predominant peaks and the binding reaction required neither soluble factors nor nucleotide cofactors. The labelling kinetics and high template activity of poly(A)-45-S nRNA indicate that this fraction contains precursors of cytoplasmic mRNA. Requirements for soluble factors and nucleotide cofactors in the binding of this RNA species to 80-S ribosomes suggest that this binding, unlike that of other nRNA species, has a specific mechanism resembling that of mRNA binding during peptide initiation.  相似文献   

10.
11.
Purified vaccinia virus rapidly inhibited HeLa cell protein synthesis in the presence of actinomycin D. Under these conditions host polyribosomes were extensively degraded but the mRNA was stable as indicated by a greater than 90% recovery of prelabeled polyadenylylated RNA. Although actinomycin D prevented the synthesis of host mRNA and poly(A) in uninfected cells, incorporation of adenosine into poly(A) was inhibited by less than 50% in infected cells. Further analysis indicated that there was little or no normal size viral mRNA but that a unique class of small poly(A)-rich RNA was made in the presence of actinomycin D. From measurements of the RNase resistance and base composition of the RNA, approximately 40% of the nucleotide sequence was estimated to be poly(A). The poly(A)-rich RNA was found associated with small polyribosomes and monoribosomes that were inactive in protein synthesis. It was suggested that the poly(A) segment of the RNA is formed by the poly(A) polymerase previously found in vaccinia virus cores and that the inactive RNA, by competing with host mRNA, may contribute to the virus-mediated inhibition of host protein synthesis observed in the presence of actinomycin D.  相似文献   

12.
Poly(A) can be cross-linked to E. coli 70S ribosomes in the presence of tRNALys by mild ultraviolet irradiation. The cross-linking reaction is exclusively with the 30S subunit, and involves primarily the RNA moiety. Following a partial nuclease digestion, cross-linked complexes containing poly(A) and fragments of the 16S RNA were isolated by affinity chromatography on oligo(dT)-cellulose. The complexes were purified by gel electrophoresis and subjected to oligonucleotide analysis, which revealed a single cross-link site within positions 1394-1399 of the 16S RNA. The same pattern of cross-linking, at about one-fifth of the intensity, was observed in the absence of tRNALys. The cross-link site to poly(A), together with other sites in the 16S RNA that have been implicated in ribosomal function, is discussed in the framework of our recent model for the three-dimensional structure of 16S RNA; all of the functional sites are clustered together in two distinct groups in the model.  相似文献   

13.
Poly(A)-containing messenger RNA isolated from rabbit reticulocytes as estimated by periodate oxidation and condensation with [3H]isoniazid has two oxidizable end groups per molecule of mol. wt. 220000. When the mRNA is subjected to stepwise degradation by beta-elimination, only one oxidizable end-group is found. This indicates that one of the 2',3' hydroxyl end-groups is linked through the normal 3'--5' phosphodiester bond, but that the other is linked in such a way that after stepwise degradation no new 2',3 hydroxyl group is revealed. This structure could be a 5'-linked 5'-phospho di- or tri-ester. On digestion with ribonuclease the isoniazid-labelled RNA produced oligonucleotide hydrazones consistent with a poly(A) sequence at the 3' end plus fragments that are not found after stepwise degradation. These fragments have a charge of --6 and --8 from pancreatic ribonuclease or --7 from ribonuclease T1 digestion. These charges are changed to --3.4 and --4.1 after pancreatic ribonuclease, ribonuclease T2 and alkaline phosphatase digestion. methyl-3H-labelled-poly(A)-containing RNA isolated from late erythroid cells contain a methyl-labelled fragment resistant to endonuclease and phosphodiesterase II digestion. After digestion with phosphodiesterase I this fragment produces methyl-3 H-labelled nucleotides with the electrophoretic mobility of pm7G and pAm. It is concluded that globin mRNA has the 5' sequences m7G(5')ppp'AmpYpGp ... and m7G(5')pppAmpApGpYp.  相似文献   

14.
15.
The appearance of newly formed messenger RNA in polyribosomes of HeLa cells Is inhibited by over 85% by 3′deoxyadenosine (Penman, Rosbash &; Penman, 1970) probably due to the failure of normal attachment of poly(A) to heterogeneous nuclear RNA in the presence of this drug (Darnell, Philipson, Wall &; Adesnik, 1971). Results presented here show that the labeled RNA which does reach polysomes in the presence of 3′deoxyadenosine can be characterized as messenger RNA which contains smaller poly(A) segments than normal messenger RNA. The results of the present experiments suggest that all, or almost all, HeLa cell messenger RNA molecules (except for histone messenger RNA) are derived from nuclear RNA molecules which contain poly (A).  相似文献   

16.
Synthesis of rat liver microsomal cytochrome b5 by free ribosomes   总被引:16,自引:9,他引:7       下载免费PDF全文
Free and membrane-bound polyribosomes were separated from liver homogenates and characterized by electron microscopy. Using the wheat germ cell-free translation system, total translation products of poly A+RNA extracted from free polyribosomes (poly A+RNAf) showed some correlation to total liver cytosol proteins. In contrast, translation products of poly A+RNA from membrane-bound polyribosomes (poly A+RNAmb) showed some similarity to rat serum. Antibody to purified rat serum albumin immunoprecipitated from only the translation products of poly A+RNAmb a single polypeptide of mol wt 68,000. i.e., 3,000 greater than secreted serum albumin. In contrast, antibody to detergent-extracted cytochrome b5 immunoprecipitated from only the translation products of poly A+RNAf a single polypeptide of mol wt 17,500, identical to that of microsomal cytochrome b5. A consideration of the known properties of cytochrome b5 is consistent with an exclusive site of synthesis on free ribosomes.  相似文献   

17.
When NIH/3T3 mouse fibroblasts were infected with the Moloney strain of murine leukemia virus, part of the viral genome RNA molecules were detected in polyribosomes of the infected cells early in the infectious cycle. The binding appears to be specific, since we could demonstrate the release of viral RNA from polyribosomes with EDTA. Moreover, when infection occurred in the presence of cycloheximide, most viral RNA molecules were detected in the free cytoplasm. Size analysis on polyribosomal viral RNA molecules indicated that two size class molecules, 38S and 23S, are present in polyribosomes at 3 h after infection. Analysis of the polyriboadenylate [poly(rA)] content of viral RNA extracted from infected polyribosomes demonstrated that such molecules bind with greatest abundance at 3 h after infection, as has been detected with total viral RNA. No molecules lacking poly(rA) stretches could be detected in polyribosomes. Furthermore, when a similar analysis was performed on unbound molecules present in the free cytoplasm, identical results were obtained. We conclude that no selection towards poly(rA)-containing viral molecules is evident on binding to polyribosomes. These findings suggest that the incoming viral genome of the Moloney strain of murine leukemia virus may serve as a messenger for the synthesis of one or more virus-specific proteins early after infection of mouse fibroblasts.  相似文献   

18.
A. B. Giles  D. Grierson  H. Smith 《Planta》1977,136(1):31-36
Poly(A)-containing messenger RNA was purified from polyribosomes isolated from the primary leaves of 7-day-old dark-grown seedlings of Phaseolus vulgaris var. Masterpiece. Analysis of the messenger RNA on 2.4% polyacrylamide gels showed that it consists of a heterogeneous population of molecules with an average molecular weight of 500,000. The nucleotide composition of the RNA was 16.0% cytidylic acid, 39.4% adenylic acid, 21.3% guanylic acid and 23.2% uridylic acid. Based on the degree of resistance of the RNA to digestion with ribonucleases A and T1 the average length of the poly(A) sequence was calculated to be 120 nucleotides. No significant differences in mobility in polyacrylamide gels, nucleotide composition or polyadenylic acid content were found between the poly(A)-containing mRNA from polyribosomes of primary leaves of dark-grown plants and those given a 16 h white light treatment. Purified poly(A)-containing mRNA was shown to direct the incorporation of [35S]methionine into proteins in an in vitro protein-synthesising system from wheat germ. The protein products were fractionated according to molecular size by electrophoresis in 15% polyacrylamide/urea/SDS gels and the protein bands were detected by fluorography. Messenger RNAs directing the synthesis of three polypeptides with molecular weights of 34,000, 32,000 and 25,000 were detected in polyribosomes of plants following white light treatment. These messenger RNAs were absent, or present in much lower amounts, in polyribosomal messenger RNA from leaves of dark-grown plants, although they were present in total cell poly(A)-containing RNA. This indicates that certain messenger RNAs may be stored in the dark and that light stimulates these RNAs to engage in polyribosome formation. Continuous far-red (730 nm) irradiation for 4 h also caused the appearance of these messenger RNAs in the polyribosomes although 5 min red light followed by 4 h darkness had little effect. This suggests that phytochrome acting in the high energy mode, may be the photoreceptor responsible for initiating the response.Abbreviations mRNA messenger-RNA - rRNA ribosomal RNA - oligo (dT) oligo (deoxythymidylic acid) - poly(A) polyadenylic acid - EDTA ethylenediamine-tetra-acetic acid - HEPES N-2-hydroxyethylpiperazine-N-2-ethane-sulphonic acid - SDS sodium dodecyl sulphate  相似文献   

19.
1. Free and membrane-bound polyribosomes were isolated and the associated mRNA species characterized by cell-free protein synthesis, RNA-complexity analysis and polyribosome run-off in vitro. 2. Of the recovered polyribosomal RNA 85% was associated with membrane-bound polyribosomes and contained 87--93% of the total milk-protein mRNA species as assessed by cell-free protein synthesis or RNA-complexity analysis. 3. RNA-complexity analysis showed that the abundant (milk-protein mRNA assumed) species constituted 55% of the post-nuclear poly(A)-containing RNA population, the remainder consisting of a moderately abundant population (18%) and a low abundance population (27%). Calculations suggest that each population contained up to 2, 48 and 5000 different species respectively. 4. RNA-complexity analysis of the free polyribosomal poly(A)-containing RNA demonstrated that all the species in the post-nuclear fraction were present, though in different proportions, the abundant, moderately abundant and low-abundance groups representing 38, 30 and 32% of this population. 5. RNA-complexity analysis of the membrane-bound polyribosomal poly(A)-containing RNA revealed a more limited population, 72% consisting of the abundant (milk-protein mRNA) species, and 28% a population of up to 900 RNA species. 6. Polyribosome run-off confirmed that milk-protein mRNA was associated with the membrane-bound and free polyribosomes, but represented only a small fraction of the total protein synthesized by the latter. 7. Comparative analysis of milk proteins synthesized in mRNA-directed cell-free systems, or by run-off of free and of membrane-bound polyribosomes, is consistent with the interpretation that in vivo the initiation of protein synthesis occurs on free polyribosomes, followed by the attachment of a limited population to the endoplasmic reticulum. After attachment, but before completion of peptide synthesis, the detachable N-terminal peptide sequence of one of these(pre-alpha-lactalbumin) is removed. 8. The results are discussed in terms of the mechanisms involved in the intracellular segregation of mRNA species in the lactating guinea-pig mammary gland.  相似文献   

20.
Analysis of terminal structures of RNA from potato virus X.   总被引:10,自引:3,他引:7       下载免费PDF全文
The 5'-end structure of potato virus X RNA was determined following enzymatic methylation in vitro. A single 3H-methyl group was introduced into the 2'-position of the 5'-penultimate residue and the end structure was determined as m7GpppG(m)pAp(Xp)3G. This part of the RNA apparently is involved in binding to ribosomes since it can be partially protected against RNase digestion by wheat germ 40S ribosomes. PVX RNA was not retained by poly(U)-sepharose, indicating that it does not contain a 3'-terminal poly(A) tract.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号