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1.
Nascent DNA in nucleosome like structures from chromatin   总被引:17,自引:0,他引:17  
A Levy  K M Jakob 《Cell》1978,14(2):259-267
We have used chromatin sensitivity to cleavage by micrococcal nuclease as a probe for differences between chromatin containing nascent DNA and that containing bulk DNA. Micrococcal nuclease digested the nascent DNA in chromatin of swimming blastulae of sea urchins more rapidly to acid-soluble nucleotides than the DNA of bulk chromatin. A part of the nascent DNA occurred in micrococcal nuclease-resistant structures which were either different from, or temporary modifications of, the bulk nucleosomes. This was inferred from the size differences between bulk and nascent DNA fragments in 10% polyacrylamide gels after micrococcal nuclease digestion of nuclei from a mixture of 14C-thymidine long- and 3H-thymidine pulse-labeled embryos. Bulk monomer and dimer DNA fragments contained about 170 and 410 base pairs (bp), respectively, when 18% of the bulk DNA had been rendered acid-soluble. At this level of digestion, “nascent monomer DNA” fragments of about 150 bp as well as 305 bp “large nascent DNA fragments” were observed. Increasing levels of digestion indicated that the large nascent DNA fragment was derived from a chromatin structure which was more resistant to micrococcal nuclease cleavage than bulk dimer chromatin subunits. Peaks of 3H-thymidine-labeled DNA fragments from embryos which had been pulse-labeled and then chased or labeled for several minutes overlapped those of 14C-thymidine long-labeled monomer, dimer and trimer fragments. This indicated that the chromatin organization at or near the replication fork which had temporarily changed during replication had returned to the organization of its nonreplicating state.  相似文献   

2.
W A Scott  D J Wigmore 《Cell》1978,15(4):1511-1518
Simian virus 40 (SV40) chromatin isolated from infected BSC-1 cell nuclei was incubated with deoxyribonuclease I, staphylococcal nuclease or an endonuclease endogenous to BSC-1 cells under conditions selected to introduce one doublestrand break into the viral DNA. Full-length linear DNA was isolated, and the distribution of sites of initial cleavage by each endonuclease was determined by restriction enzyme mapping. Initial cleavage of SV40 chromatin by deoxyribonuclease I or by endogenous nuclease reduced the recovery of Hind III fragment C by comparison with the other Hind III fragments. Similarly, Hpa I fragment B recovery was reduced by comparison with the other Hpa I fragments. When isolated SV40 DNA rather than SV40 chromatin was the substrate for an initial cut by deoxyribonuclease I or endogenous nuclease, the recovery of all Hind III or Hpa I fragments was approximately that expected for random cleavage. Initial cleavage by staphylococcal nuclease of either SV40 DNA or SV40 chromatin occurred randomly as judged by recovery of Hind III or Hpa I fragments. These results suggest that, in at least a portion of the SV40 chromatin population, a region located in Hind III fragment C and Hpa I fragment B is preferentially cleaved by deoxyribonuclease I or by endogenous nuclease but not by staphylococcal nuclease.Complementary information about this nuclease-sensitive region was provided by the appearance of clusters of new DNA fragments after restriction enzyme digestion of DNA from viral chromatin initially cleaved by endogenous nuclease. From the sizes of new fragments produced by different restriction enzymes, preferential endonucleolytic cleavage of SV40 chromatin has been located between map positions 0.67 and 0.73 on the viral genome.  相似文献   

3.
The susceptibility of the DNA in chromatin to single strand-specific nucleases was examined using nuclease P1, mung bean nuclease, and venom phosphodiesterase. A stage in the reaction exists where the size range of the solubilized products is similar for each of the three nucleases and is nearly independent of incubation time. During this stage, the chromatin fragments sediment in the range of 30 to 100 S and contain duplex DNA ranging from 1 to 10 million daltons. Starting with chromatin depleted of histones H1 and H5 similar fragments are generated. In both cases these nucleoprotein fragments are reduced to nucleosomes and their multimers by micrococcal nuclease. Thus, chromatin contains a limited number of DNA sites which are susceptible to single strand-specific nucleases. These sites occur at intervals of 8 to 80 nucleosomes and are distributed throughout the chromatin. Nucleosome monomers, dimers, or trimers were not observed at any stage of single strand-specific nuclease digestion of nuclei, H1- and H5-depleted chromatin, or micrococcal nuclease-generated oligonucleosomes. Each of the three nucleases converted mononucleosomes (approximately 160 base pairs) to nucleosome cores (approximately 140 base pairs) probably by exonucleolytic action that was facilitated by the prior removal of H1 and H5. The minichromosome of SV40 is highly resistant to digestion by nuclease P1.  相似文献   

4.
The structures of DNAs present in various intracellular forms of simian virus 40 (SV40) nucleoprotein complexes were analyzed by micrococcal nuclease digestion. The results showed that the 70S SV40 chromatin was completely sensitive to nuclease digestion, whereas CsCl gradient-purified mature virion was completely resistant. Virion assembly intermediates with different degrees of virion maturation showed intermediate resistance, and three products were found: nucleosomal DNA fragments, representing the fraction of intermediates that were sensitive to nuclease; linear SV40 genome-sized DNA, representing the more mature intermediates that contained one or limited defects in the capsid shell; and supercoiled SV40, which was derived from mature virions. These digestion products, however, remained associated with capsid shells after nuclease digestion. These results were consistent with the model in which maturation of the SV40 virion is achieved through the organization of capsid proteins that accumulate around SV40 chromatin. Mild digestion of SV40 nucleoprotein complexes with micrococcal nuclease revealed the difference in nucleosome repeat length between SV40 chromatin and virion assembly intermediates. A novel DNA fragment of about 75 nucleotides was observed early in nuclease digestion.  相似文献   

5.
6.
We have assessed the ability of nucleosomes to influence the formation of mammalian topoisomerase II-DNA complexes by mapping the sites of cleavage induced by four unrelated topoisomerase II inhibitors in naked versus nucleosome-reconstituted SV40 DNA. DNA fragments were reconstituted with histone octamers from HeLa cells by the histone exchange method. Nucleosome positions were determined by comparing micrococcal nuclease cleavage patterns of nucleosome-reconstituted and naked DNA. Three types of DNA regions were defined: 1) regions with fixed nucleosome positioning; 2) regions lacking regular nucleosome phasing; and 3) a region around the replication origin (from position 5100 to 600) with no detectable nucleosomes. Topoisomerase II cleavage sites were suppressed in nucleosomes and persisted or were enhanced in linker DNA and in the nucleosome-free region around the replication origin. Incubation of reconstituted chromatin with topoisomerase II protected nucleosome-free regions from micrococcal nuclease cleavage without changing the overall micrococcal nuclease cleavage pattern. Thus, the present results indicate that topoisomerase II binds preferentially to nucleosome-free DNA and that the presence of nucleosomes at preferred DNA sequences influences drug-induced DNA breaks by topoisomerase II inhibitors.  相似文献   

7.
Maturation of newly replicated chromatin of simian virus 40 and its host cell   总被引:13,自引:0,他引:13  
The DNA in replicating simian virus 40 chromatin and cellular chromatin was labeled with short pulses of [3H]thymidine. The structure of pulse-labeled nucleoprotein complexes was studied by micrococcal nuclease digestion. It was found that in both newly replicated viral and cellular chromatin, a structural state appears which is characterized by an increased sensitivity to nuclease and a faster than usual rate of cleavage to DNA fragments of monomeric nucleosome size and smaller. Pulse-chase experiments show that each of these effects requires a characteristic time to disappear in both systems, suggesting the existence of different sub-processes of chromatin maturation. One of these processes, detectable by the reversion of the unusually fast production of subnucleosomal fragments, is delayed in SV40 chromatin replication.  相似文献   

8.
9.
Micrococcal nuclease digestion of nuclei from sea urchin embryos revealed transient changes in chromatin structure which resulted in a reduction in the repeat length of nascent chromatin DNA as compared with bulk DNA. This was considered to be entirely the consequence of in vivo events at the replication fork (Cell 14, 259, 1978). However, a micrococcal nuclease-generated sliding of nucleosome cores relative to nascent DNA, which might account for the smaller DNA fragments, was not excluded. In vivo [3H]thymidine pulse-labeled nuclei were fixed with a formaldehyde prior to micrococcal nuclease digestion. This linked chromatin proteins to DNA and thus prevented any in vitro sliding of histone cores. All the nascent DNAs exhibiting shorter repeat lengths after micrococcal nuclease digestion, were resolved at identical mobilities in polyacrylamide gels of DNA from fixed and unfixed nuclei. We conclude that these differences in repeat lengths between nascent and bulk DNA was generated in vivo by changes in chromatin structure during replication, rather than by micrococcal nuclease-induced sliding of histone cores in vitro.  相似文献   

10.
Assembly of SV40 chromatin in a cell-free system from Xenopus eggs.   总被引:67,自引:0,他引:67  
R A Laskey  A D Mills  N R Morris 《Cell》1977,10(2):237-243
A cell-free system is described which assembles chromatin from purified DNA in 1 hr under physiological incubation conditions. It consists of a 145,000 x g (maximum) supernatant fraction from eggs of Xenopus laevis. It converts SV40 DNA to a nucleoprotein which co-sediments with naturally occurring SV40 chromatin and which can be cleaved by micrococcal nuclease to a highly ordered pattern of DNA fragments resembling those from digestion of liver chromatin. It inserts superhelical turns into relaxed, covalently closed DNA. The assembly process is not cooperative. Under limiting conditions, each DNA molecule becomes partially assembled. Assembly does not require replication of the DNA or protein synthesis, but occurs from a stored histone pool of at least 40 ng per egg. Under conditions of DNA excess, assembly becomes dependent upon the amount of exogenous histones added to the incubation. Apart from histones and a nicking-closing activity, chromatin assembly requires an additonal thermolabile factor which is present in the egg supernatant.  相似文献   

11.
12.
The chromatin structure of the ribosomal DNA in Xenopus laevis was studied by micrococcal nuclease digestions of blood, liver and embryonic cell nuclei. We have found that BglI-restricted DNA from micrococcal nuclease-digested blood cell nuclei has an increased electrophoretic mobility compared to the undigested control. Micrococcal nuclease digestion of liver cell nuclei causes a very slight shift in mobility, only in the region of the spacer containing the "Bam Islands". In contrast, the mobility of ribosomal DNA in chromatin of embryonic cells, under identical digestion conditions, remains unaffected by the nuclease activity. Denaturing gels or ligase action on the nuclease-treated DNA abolishes the differences in the electrophoretic mobility. Ionic strength and ethidium bromide influence the relative electrophoretic migration of the two DNA fragment populations, suggesting that secondary structure may play an important role in the observed phenomena. In addition, restriction analysis under native electrophoretic conditions of DNA prepared from blood, liver and embryonic cells shows that blood cell DNA restriction fragments always have a faster mobility than the corresponding fragments of liver and embryo cell DNA. We therefore propose that nicking activity by micrococcal nuclease modifies the electrophoretic mobility of an unusual DNA conformation, present in blood cell, and to a lesser extent, in liver cell ribosomal chromatin. A possible function for these structures is discussed. The differences of the ribosomal chromatin structures in adult and embryonic tissues may reflect the potential of the genes to be expressed.  相似文献   

13.
Cross-linking of DNA with trimethylpsoralen is a probe for chromatin structure   总被引:19,自引:0,他引:19  
T Cech  M L Pardue 《Cell》1977,11(3):631-640
  相似文献   

14.
Jean O. Thomas  R.J. Thompson 《Cell》1977,10(4):633-640
We have used micrococcal nuclease as a probe of the repeating structure of chromatin in four nuclear populations from three tissues of the rabbit. Neuronal nuclei isolated from the cerebral cortex contain about 160 base pairs of DNA in the chromatin repeat unit, as compared with about 200 base pairs for nonastrocytic glial cell nuclei from the same tissue, neuronal nuclei from the cerebellum and liver nuclei. All four types of nuclei show the same features of nucleosomal organization as other eucaryotic nuclei so far studied: nucleosomes liberated by digestion with micrococcal nuclease give a “core particle” containing 140 base pairs as a metastable intermediate on further digestion and a series of single-strand DNA fragments which are mutiples of 10 bases after digestion with DNAase I. Nuclei from cerebral cortex neurons, which have a short repeat, are distinct from the others in being larger, in having a higher proportion of euchromatin (dispersed chromatin) as judged by microscopy and in being more active in RNA synthesis in vitro.  相似文献   

15.
Summary The action of micrococcal nuclease, DNase I and DNase II on mouse TLT hepatoma chromatin revealing the periodicity of its structure as visualized by denaturing and nondenaturing gel electrophoresis, was consistent with the action of these enzymes on other chromatins. Micrococcal nuclease showed a complex subnucleosome fragment pattern based on multiples of 10 base pairs with a prominant couplet at 140/160 base pairs and the absence of the 80 base pair fragment. This couplet of the core and minimal nucleosome fragments was conspicuously present in the mononucleosomes found in the 11S fractions of a glycerol gradient centrifugation. DNase I and II produced a fairly even distribution of a 10 base pair increasing series of fragments to about 180 base pairs, a pattern also repeated in the DNA of nucleosome glycerol-gradient fractions. In limited digestions by these nucleases multinucleosomic DNA fragments are pronounced. These fragment lengths are multiples of an estimated average repeat length of nucleosome DNA of 180 base pairs. The action of the endogenous Mg/Ca-stimulated endonuclease produced only limited cuts in the hepatoma chromatin resulting primarily in multi-nucleosommc DNA fragment lengths and only upon lengthy digestion limited subnucleosomic, 10-base-pair multiple fragments are produced. The putative euchromatin-enriched fractions (50–75S) of the glycerol gradient centrifugation of autodigested chromatin, similarly, contained primarily the multinucleosomic DNA fragment lengths. These results are consistent with our previous electron microscopic demonstration that autodigested chromatin as well as the putative euchromatin-enriched fractions were composed of multinucleosomic chromatin segments containing a full complement of histones.  相似文献   

16.
Location of nucleosomes in simian virus 40 chromatin   总被引:5,自引:0,他引:5  
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17.
DNA isolated from (a) liver chromatin digested in situ with endogenous Ca2+, Mg2+-dependent endonuclease, (b) prostate chromatin digested in situ with micrococcal nuclease or pancreatic DNAase I, and (c) isolated liver chromatin digested with micrococcal nuclease or pancreatic DNAase I has been analyzed electrophoretically on polyacrylamide gels. The electrophoretic patterns of DNA prepared from chromatin digested in situ with either endogenous endonuclease (liver nuclei) or micrococcal nuclease (prostate nuclei) are virtually identical. Each pattern consists of a series of discrete bands representing multiples of the smallest fragment of DNA 200 +/- 20 base pairs in length. The smallest DNA fragment (monomer) accumulates during prolonged digestion of chromatin in situ until it accounts for nearly all of the DNA on the gel; approx. 20% of the DNA of chromatin is rendered acid soluble during this period. Digestion of liver chromatin in situ in the presence of micrococcal nuclease results initially in the reduction of the size of the monomer from 200 to 170 base pairs of DNA and subsequently results in its conversion to as many as eight smaller fragments. The electrophoretic pattern obtained with DNA prepared from micrococcal nuclease digests of isolated liver chromatin is similar, but not identical, to that obtained with liver chromatin in situ. These preparations are more heterogeneous and contain DNA fragments smaller than 200 base pairs in length. These results suggest that not all of the chromatin isolated from liver nuclei retains its native structure. In contrast to endogenous endonuclease and micrococcal nuclease digests of chromatin, pancreatic DNAase I digests of isolated chromatin and of chromatin in situ consist of an extremely heterogeneous population of DNA fragments which migrates as a continuum on gels. A similar electrophoretic pattern is obtained with purified DNA digested by micrococcal nuclease. The presence of spermine (0.15 mM) and spermidine (0.5 mM) in preparative and incubation buffers decreases the rate of digestion of chromatin by endogenous endonuclease in situ approx. 10-fold, without affecting the size of the resulting DNA fragments. The rates of production of the smallest DNA fragments, monomer, dimer, and trimer, are nearly identical when high molecular weight DNA is present in excess, indicating that all of the chromatin multimers are equally susceptible to endogenous endonuclease. These observations points out the effects of various experimental conditions on the digestion of chromatin by nucleases.  相似文献   

18.
19.
Chromatin prepared by micrococcal nuclease digestion of nuclei and fractionated by sucrose density gradient ultracentrifugation selfredigests to a higher percentage of monomer DNA at a rate which depends on the enzyme concentration in the initial digestion. Thus, micrococcal nuclease becomes part of the native chromatin structure. A degree of caution should therefore be exercised when handling material prepared by this technique.  相似文献   

20.
Chimeric SV40 DNA containing only the early region, or plasmid DNA harboring the origin-promoter-enhancer region of SV40, when introduced into CV-1 or Cos-1 monkey cells by DEAE-dextran mediated transfer are rapidly assembled in a typical chromatin structure revealed by the generation of a regular 190 bp repeat ladder after micrococcal nuclease digestion. DNA replication is not required for this assembly process. Chromatin-specific DNase I hypersensitive sites are observed in the enhancer region of these minichromosomes. The pattern of the sites differs between non-replicating and post-replicated chromatin. The latter is identical to that observed in the lytic cycle. The presence of large T antigen is not sufficient for the shift in the structure of the chromatin. These experiments suggest that replication can modulate protein-DNA interactions during viral infection or upon cell differentiation.  相似文献   

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