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1.
The experiments on the investigation of pesticide fluometuron (cotoran) influence on nuclease sensitivity and template activity of rat liver chromatin were carried out. Cotoran was found to bind specifically with non-histone proteins of chromatin. It was shown that this pesticide considerably decreases template activity of chromatin and its sensitivity to the action of nucleases. It suggests, that certain conformation changes occur in chromatin upon the action of cotoran.  相似文献   

2.
K W Adolph  M K Song 《Biochemistry》1985,24(2):345-352
Variations for non-histones in the ADP-ribosylating activities of interphase and metaphase cells were investigated. 32P-Labeled nicotinamide adenine dinucleotide ([32P]NAD), the specific precursor for the modification, was used to radioactively label proteins. Permeabilized interphase and mitotic cells, as well as isolated nuclei and chromosomes, were incubated with the label. One-dimensional and two-dimensional gels of the proteins of total nuclei and chromatin labeled with [32P]NAD showed more than 100 modified species. Changing the labeling conditions resulted in generally similar patterns of modified proteins, though the overall levels of incorporation and the distributions of label among species were significantly affected. A less complex pattern was found for nuclear scaffolds. The major ADP-ribosylated proteins included the lamins and poly(ADP-ribose) polymerase. Inhibitors of ADP-ribosylation were effective in preventing the incorporation of label by most non-histones. Snake venom phosphodiesterase readily removed protein-bound 32P radioactivity. A fundamentally different distribution of label from that of interphase nuclei and chromatin was found for metaphase chromosome non-histones. Instead of 100 or more species, the only major acceptor of label was poly(ADP-ribose) polymerase. This profound change during mitosis may indicate a structural role for ADP-ribosylation of non-histone proteins.  相似文献   

3.
The pattern of staining for DNA, histone, and nonhistone protein has been studied in whole cells and in nuclei and chromosomes isolated by surface spreading. In whole interphase cells from bovine kidney tissue culture, nuclear staining for DNA and histones reveals numerous small, intensely stained clumps, surrounded by more diffusely stained material. Nuclei in whole cells stained for nonhistone proteins also contain intensely stained regions surrounded by diffuse stain. These intensely stained regions also stain for RNA, indicating that the regions contain nucleolar material. Electron microscopy of kidney cells confirms that multiple nucleoli are present. Kidney nuclei isolated by surface spreading show an even distribution of stain for DNA, histones, and nonhistone proteins, indicating that the surface forces disperse both condensed chromatin and nucleoli. DNA and protein staining was also studied in metaphase chromosomes from testes of the milkweed bug, Oncopeltus fasciatus. Staining for DNA and histones in metaphase chromosomes is essentially the same in sections of fixed and embedded testes as in preparations isolated by surface spreading. However, striking differences are noted in the distribution of nonhistone proteins. In sections, nonhistone stain is concentrated in extrachromosomal areas; metaphase chromosomes do not stain for nonhistone proteins. Chromosomes isolated by surface spreading, however, stain intensely for nonhistone proteins. This suggests that nonhistone proteins are bound to the chromosomes as a contaminant during the isolation procedure. The relationship of these findings to current work with chromosomes isolated for electron microscopy is discussed.  相似文献   

4.
The pattern of staining for DNA, histone, and nonhistone protein has been studied in whole cells and in nuclei and chromosomes isolated by surface spreading. In whole interphase cells from bovine kidney tissue culture, nuclear staining for DNA and histones reveals numerous small, intensely stained clumps, surrounded by more diffusely stained material. Nuclei in whole cells stained for nonhistone proteins also contain intensely stained regions surrounded by diffuse stain. These intensely stained regions also stain for RNA, indicating that the regions contain nucleolar material. Electron microscopy of kidney cells confirms that multiple nucleoli are present. Kidney nuclei isolated by surface spreading show an even distribution of stain for DNA, histones, and nonhistone proteins, indicating that the surface forces disperse both condensed chromatin and nucleoli. DNA and protein staining was also studied in metaphase chromosomes from testes of the milkweed bug, Oncopeltus fasciatus. Staining for DNA and histones in metaphase chromosomes is essentially the same in sections of fixed and embedded testes as in preparations isolated by surface spreading. However, striking differences are noted in the distribution of nonhistone proteins. In sections, nonhistone stain is concentrated in extrachromosomal areas; metaphase chromosomes do not stain for nonhistone proteins. Chromosomes isolated by surface spreading, however, stain intensely for nonhistone proteins. This suggests that nonhistone proteins are bound to the chromosomes as a contaminant during the isolation procedure. The relationship of these findings to current work with chromosomes isolated for electron microscopy is discussed.  相似文献   

5.
We have analyzed the fate of several integral membrane proteins of the nuclear envelope during mitosis in cultured mammalian cells to determine whether nuclear membrane proteins are present in a vesicle population distinct from bulk ER membranes after mitotic nuclear envelope disassembly or are dispersed throughout the ER. Using immunofluorescence staining and confocal microscopy, we compared the localization of two inner nuclear membrane proteins (laminaassociated polypeptides 1 and 2 [LAP1 and LAP2]) and a nuclear pore membrane protein (gp210) to the distribution of bulk ER membranes, which was determined with lipid dyes (DiOC6 and R6) and polyclonal antibodies. We found that at the resolution of this technique, the three nuclear envelope markers become completely dispersed throughout ER membranes during mitosis. In agreement with these results, we detected LAP1 in most membranes containing ER markers by immunogold electron microscopy of metaphase cells. Together, these findings indicate that nuclear membranes lose their identity as a subcompartment of the ER during mitosis. We found that nuclear lamins begin to reassemble around chromosomes at the end of mitosis at the same time as LAP1 and LAP2 and propose that reassembly of the nuclear envelope at the end of mitosis involves sorting of integral membrane proteins to chromosome surfaces by binding interactions with lamins and chromatin.  相似文献   

6.
In a previous report [2] we have described a non-histone protein core which could be isolated from Chinese hamster metaphase chromosomes. This core structure maintained the overall morphology of the metaphase chromosome even after removal of all of the histones, together with many of the non-histone proteins and the bulk of the DNA. As part of our work on the characterization of these core structures, we have developed a novel procedure for the isolation of metaphase chromosomes which avoids the use of high pH buffers and hexylene glycol, as well as eliminating the numerous centrifugation and resuspension steps previously employed. Chromosome cores prepared by 2 M NaCl extraction and DNase I digestion from metaphase chromosomes isolated under these more gentle, quasi-physiological conditions, are shown to contain a relatively simple subset of non-histone proteins. One-dimensional SDS-polyacrylamide gel electrophoresis shows two major groups of polypeptides having molecular weights 48 000-52 000 and 65 000-72 000 D respectively, with similarities in mobilities to the nuclear pore complex-lamina polypeptides and tubulins. However, more detailed analysis by two-dimensional gel electrophoresis and peptide mapping has failed to detect these proteins. A 52 000 D polypeptide component of the core is tentatively identified as the intermediate filament protein vimentin. The in vivo significance of chromosome cores is discussed.  相似文献   

7.
A monoclonal antibody (3C5) isolated from a mouse immunized with human chromatin stained the nuclei of all cultured cell types tested by indirect immunofluorescence. Experiments with HeLa and PtK1 cells demonstrated striking cell-cycle-related changes in the staining properties of the target antigen. A rapid increase in nuclear fluorescence was seen in prophase, with antigen located between the condensing chromosomes. In metaphase and anaphase cells antigen was present throughout the cytoplasm with the chromosomes apparently unstained. However, isolated metaphase chromosomes showed intense, peripheral staining. In telophase cells immunofluorescent staining was most intense among the decondensing chromosomes and by early G1 staining was predominantly nuclear. Nuclear fluorescence faded as cells progressed through interphase. By protein blotting and immunostaining, 3C5 recognized protein bands with subunit molecular weights of 130, 73, 50, 38, 32 and 22 to 25 kDa. These bands were present in all human and rodent cultured cell types tested. All bands were extracted by 6 M urea or 1% sodium dodecyl sulfate (SDS) but not by Triton X-100. Our results provide evidence against the involvement of a common carbohydrate moiety, in vitro proteolysis or non-specific cross reaction in this multi-banded pattern. The same family of proteins was detected in mitotic and interphase cells, suggesting that the changes in immunofluorescent staining through mitosis are due to changes in antigen accessibility. Subcellular fractionation experiments showed that all major bands were present in the nuclear fraction. Only two (50 and 32 kDa) were detected also in the post-nuclear membrane fraction and none were present in the soluble cytoplasmic fraction.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

8.
The interaction of nuclear sap proteins and chromatin non-histone proteins with DNA was studied by two methods: membrane filter technique and chromatography of 32P-labelled proteins on DNA-containing columns. Irradiated DNA binds a slightly greater amount of these proteins and much more firmly than the native DNA. The effect is caused by the appearance of the locally denatured sites in irradiated DNA. Irradiation of non-histone proteins disturbs their specific interaction with DNA more easily than the non-specific binding.  相似文献   

9.
The data from earlier cytochemical studies, in which the metachromatic fluorochrome acridine orange (AO) was used to differentially stain single vs double-stranded DNA, suggested that DNA in situ in intact metaphase chromosomes or in condensed chromatin of G0 cells is more sensitive to denaturation, induced by heat or acid, than DNA in decondensed chromatin of interphase nuclei. Present studies show that, indeed, DNA in permeabilized metaphase cells, in contrast to cells in interphase, when exposed to buffers of low pH (1.5-2.8) becomes digestible with the single-strand-specific S1 or mung bean nucleases. A variety of extraction procedures and enzymatic treatments provided evidence that the presence of histones, HMG proteins, and S-S bonds in chromatin, as well as phosphorylation or poly(ADP)ribosylation of chromatin proteins, can be excluded as a factor responsible for the differential sensitivity of metaphase vs interphase DNA to denaturation. Cell treatment with NaCl at a concentration of 1.2 N and above abolished the difference between interphase and mitotic cells, rendering DNA in mitotic cells less sensitive to denaturation; such treatment also resulted in decondensation of chromatin visible by microscopy. The present data indicate that structural proteins extractable with greater than or equal to 1.2 N NaCl may be involved in anchoring DNA to the nuclear matrix or chromosome scaffold and may be responsible for maintaining a high degree of chromatin compaction in situ, such as that observed in metaphase chromosomes or in G0 cells. Following dissociation of histones, the high spatial density of the charged DNA polymer may induce topological strain on the double helix, thus decreasing its local stability; this can be detected by metachromatic staining of DNA with AO or digestion with single-strand-specific nucleases.  相似文献   

10.
11.
The N banding technique to define the location of nucleolus organiser in mammalian and marsupial chromosomes was applied to the Xenopus laevis chromosomes. Results obtained are: 1. The N bands coincide with the location of all the clustered ribosomal cistrons including the 18S + 28S RNA genes as well as the 5S RNA genes. 2. The N bands are consistently detected in both metabolically active (interphase) and metabolically inactive (metaphase) nuclei. 3. Cytochemical and chemical extraction tests indicate that the N bands show typical biochemical properties requested for non-histone (residual) chromosomal proteins. 4. Proteins associated with the 5S RNA genes differ, in their acid-solubility, from those for the 18S+28S RNA genes. 5. The N banding proteins comprise a small portion of a total nuclear protein. These findings strongly suggest the existence of ribosomal gene-specific non-histone proteins which probably represent the structural chromatin element rather than the primary gene product. The possible role of N banding proteins in eukaryotes is discussed.  相似文献   

12.
The binding of [3H]chlorambucil to nuclear proteins, extracted from Yoshida ascites sarcoma cells at 6 h and 24 h after administration of 3H-labelled drug to tumour-bearing animals, has been examined. Both covalent and non-covalent binding was detected. Considerably more drug was found associated with the proteins isolated from the tumour sensitive to the effects of the drug compared with similar proteins isolated from the tumour with an acquired resistance to the effects of alkylating agents. The two-fold difference in binding to total cell protein is attributed to a higher intranuclear protein binding in sensitive cells. In particular the soluble nuclear sap fraction from sensitive cells bound at least five times as much drug as the corresponding fraction from resistant cells. Low levels of binding to histones were demonstrated compared with that to the non-histone chromatin proteins. Binding to the nuclear sap and non-histone chromatin proteins was principally to high molecular weight protein species; these did not appear to represent aggregation products as scans of stained polyacrylamide gels of the extracted protein fractions were unaltered by the treatment of tumour-bearing animals with chlorambucil. Binding to the nuclear proteins from sensitive cells tended to persist over a 24-h period, whereas it was considerably reduced in resistant cells.  相似文献   

13.
In the present paper the interaction of metaphase chromosomes and chromatin with model and natural lipid membranes was studied. It was shown that chromatin and chromosomes are able to form complexes with membranes in the presence of divalent cations. In such complexes, the typical structure of chromosomes is altered. The character of this alteration in chromosomal structure was investigated with the use of electron microscopy and chemical modification with dimethylsulphate (DMS). The latter is possible because, according to the presented data, the condensation of chromatin into chromosomes is associated with a decrease in accessibility of N-3 in adenine (the protection of the minor groove of DNA) to modifications, and with an increased methylation of N-1 in adenine (the disarrangement of the secondary structure of DNA). It was shown that the interaction of chromosomes with liposomes provides various levels of unfolding up to the appearance of chromatin-like structures. The secondary DNA structure of decondensed chromosomes coincides with the secondary structure of chromosomal but not chromatin DNA, whereas the extent of shielding of the minor groove of DNA in such decondensed structures typical for chromatin DNA. It is possible to suggest that the chromosomal decondensation in telophase of mitosis is initiated by the action of a membrane component of the developing nuclear envelope.  相似文献   

14.
王晓光  曾宪录 《菌物学报》2002,21(4):585-591
电镜原位观察结合图象分析研究了多头绒泡菌Physarum polycephalum Schw间期细胞核和中期染色体中银染蛋白的形状、大小和分布。结果看到,银染蛋白主要呈颗粒状存在于间期细胞核和中期染色体中。银粒的大小不一,分布不均匀。间期细胞核中存在众多直径在5~15nm的银粒,其中10nm以上的较大银粒主要分布于核仁,集缩染色质和核基质部分10nm以上银粒不多。中期细胞核内10nm以上的较大银粒主要分布于染色体中。染色体中除含有一些较大银粒外,多数银粒的直径为5~10nm。本文结果提示,构成染色体骨架的嗜银蛋白可能来自间期细胞核的染色质、核基质和核仁。  相似文献   

15.
A N Stroud  R Nathan  S Harami 《In vitro》1975,11(2):61-68
Early chromatin condensation in interphase cells (G1) of human peripheral blood lymphocytes has been induced without virus or cell fusion by exposure to allogeneic or xenogeneic mitotic cells. The event, although similar in some ways to the phenomenon described as "premature chromosome condensation," "chromosome pulverization," and "prophasing," differs in that it does not require the presence of viruses and cell fusion before mitosis proceeds in the G1 cell. Early chromatin condensation in interphase cells induced by mitotic cells only, consists of chromatids in the early or late G1 phase of the cell cycle that are not pulverized or fragmented at mitosis. Some of the chromosomes are twice as long as the metaphase chromosomes and exhibit natural bands. Almost twice as many of these bands are produced as by trypsin treatment of metaphase chromosomes. The nuclear membrane is intact and nucleoli are present, to which some chromosomes are attached. The DNA content of the precocious chromosomes in G1 is half the amount of the metaphase complement.  相似文献   

16.
We examined the ability of NaCl (at 0.15 to 3 M) to release non-histone proteins from chromatin of cultured rat hepatoma cells. The percentage of the non-histones released increased with increasing NaCl concentrations up to 0.75 M; 1 and 3 M NaCl were not significantly more effective. A maximum of 50% of the non-histone protein was recovered free of DNA. The release of non-histones from sheared and unsheared chromatin was similar. The electrophoretic patterns of the non-histone proteins released by NaCl resembled that of the non-histones released by sodium dodecyl sulfate, which indicates that many of the detectable components were at least partially released by NaCl. Some non-histones (especially low molecular weight polypeptides) were fully released by NaCl and other proteins were relatively resistant to NaCl release. Higher recoveries of NaCl-dissociated non-histones were obtained with sucrose gradient centrifugation than with centrifugation in the absence of sucrose.  相似文献   

17.
Nuclear translocation of cAMP-dependent protein kinase   总被引:2,自引:0,他引:2  
A study was made of nuclear translocation of cAMP-dependent protein kinase and its subunits, as well as of the binding of these proteins to metaphase chromosomes. The CHO cell cultures were treated with 3H-labelled protein kinase and its subunits. The results indicate that cAMP-dependent protein kinase became translocated into the nucleus in a dissociated state and that the subunits have specific binding sites on chromatin. Transformation of normal mouse fibroblasts by virus SV40 interferes with the nuclear translocation of the regulatory subunit. The process is restored when the level of cAMP in the system is increased. Binding of the regulatory subunit to metaphase chromosomes of cells transformed by virus SV40 does not change. In the case of spontaneous cancer (KB cells) translocation of the regulatory subunit remains unaffected, whereas acceptance of the protein by the metaphase chromosomes is impeded. The results of this work suggest that compartmentalization of cAMP-dependent protein kinase—and particularly of its regulatory subunit—in the cell is highly significant for cellular processes. Disorders arising as a result of neoplastic transformation involve changes in nuclear translocation of the regulatory subunit and in its binding to the structural elements of the genome.  相似文献   

18.
The phosphorylation of non-histone chromatin proteins in synchronized HeLa S3 cells was studied in 5 phases of the cell cycle: mitosis, G1, early and late S, and G2. The rate of non-histone chromatin protein phosphorylation was found to be maximal during G1 and G2, somewhat decreased during S phase, and almost 90% depressed during mitosis. Analysis of the phosphorylated non-histone chromatin proteins by SDS-acrylamide gel electrophoresis showed a heterogeneous pattern of phosphorylation as measured by labeling with 32P. Significant variations in the labeling pattern were seen during different stages of the cell cycle, and particular unique species appeared to be phosphorylated selectively during certain stages of the cycle.  相似文献   

19.
We present evidence that T3 can alter the ADP-ribosylation of chromatin associated proteins. Nuclei from GH1 cells were incubated with [adenylate-32P]NAD and the radioactivity incorporated into histone and non-histone proteins was quantitated and analyzed by gel electrophoresis and autoradiography. Incubation of GH1 cells for 24 h with T3 lowered by 40-70% the [32P]ADP-ribose incorporated into nuclear proteins. However, incubation for 3 h with T3 resulted in a stimulation instead of a decrease of in vitro [32P]ADP-ribose incorporation. The major ADP-ribosylated component electrophoresed as a 120,000 molecular mass non-histone protein, and radiolabeled histones were also observed. The same protein species were observed for all the experimental groups and T3 affected the extent of ADP-ribosylation but did not alter the sedimentation of the [32P]ADP-ribosylated components excised from chromatin after micrococcal nuclease digestion.  相似文献   

20.
In this study we addressed the question of whether scaffold structures produced from purified mitotic chromosomes are an artefact of dehistonization, and whether the integrity of the chromatin fibres is necessary for the maintenance of the well-known shape of mitotic chromosomes. Purified mitotic chromosomes from Friend erythroleukemia cells were treated either with increasing NaCl concentrations up to 500 mM, or with 6 M urea in the presence or absence of 10 mM 2-mercaptoethanol. The main criterion for the intactness of the overall chromosome shape as seen by electron microscopy was the characteristic X-or U-like appearance with clearly discernable chromatid axes. Histone H1 is known to be essential for the integrity of chromatin fibres. Its removal in sucrose gradients containing 500 mM NaCl did not lead to loss of the overall chromosome shape. However, treatment of chromosomes in sucrose gradients containing 10 mM 2-mercaptoethanol and 6 M urea led to loss of the structure probably due to dissociation (or denaturation) of shape-determining (scaffolding) components. Under these conditions most of the histones remained bound to the chromosomes, and the fibres in this chromatin material, after removal of excess urea and 2-mercaptoethanol, still showed condensation of the nucleosome filaments into the characteristic fibre structures upon increasing ionic strength. Our observations are compatible with the model that specific non-histone components, independently of histone-DNA interactions, organize or stabilize the structure of metaphase chromosomes.  相似文献   

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