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1.
Electron microscopic study of chromatin organization in isolated macronuclei of a ciliate Bursaria truncatella showed macronuclear chromatin to be organized in compact clumps 120--180 nm in diameter linked with each other by one or several chromatin fibres. Macronucleus being dispersed in a solution of low ionic strength, radial loops basically of nucleosomal structure start appearing around chromatin clumps. Long-time dispersing of macronuclear chromatin brings complete decompactization of chromatin clumps into a set of nucleosome fibres. The way the fibres of interphase chromatin are packed in a chromatin clump is discussed.  相似文献   

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When mouse brain nuclei are optimally digested with micrococcal nuclease, most of the chromatin is soluble in a 180 mM salt/1 mM EDTA buffer [1]. At this ionic concentration, chromatin maintains its native structure [2]. In an attempt to selectively extract different fractions of chromatin from digested nuclei, we have examined the differential solubility of chromatin in the 180 mM salt buffer containing concentrations of MgCl2 ranging from 2 to 0 mM. The results suggest that digested chromatin may be fractionated into specific soluble chromatin fractions which correspond to nuclease-sensitive chromatin, bulk chromatin, and heterochromatin. These soluble fractions have a high molecular weight (up to 20 kbp), and contain a full complement of histones as well as a complex assortment of non-histone proteins. The residual insoluble fraction may be equivalent to a native, nuclear matrix-bound chromatin fraction.  相似文献   

5.
Chromatin organization in relation to the nuclear periphery   总被引:1,自引:0,他引:1  
Kalverda B  Röling MD  Fornerod M 《FEBS letters》2008,582(14):2017-2022
In the limited space of the nucleus, chromatin is organized in a dynamic and non-random manner. Three ways of chromatin organization are compaction, formation of loops and localization within the nucleus. To study chromatin localization it is most convenient to use the nuclear envelope as a fixed viewpoint. Peripheral chromatin has both been described as silent chromatin, interacting with the nuclear lamina, and active chromatin, interacting with nuclear pore proteins. Current data indicate that the nuclear envelope is a reader as well as a writer of chromatin state, and that its influence is not limited to the nuclear periphery.  相似文献   

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Chromatin is the driver of gene regulation, yet understanding the molecular interactions underlying chromatin factor combinatorial patterns (or the “chromatin codes”) remains a fundamental challenge in chromatin biology. Here we developed a global modeling framework that leverages chromatin profiling data to produce a systems-level view of the macromolecular complex of chromatin. Our model ultilizes maximum entropy modeling with regularization-based structure learning to statistically dissect dependencies between chromatin factors and produce an accurate probability distribution of chromatin code. Our unsupervised quantitative model, trained on genome-wide chromatin profiles of 73 histone marks and chromatin proteins from modENCODE, enabled making various data-driven inferences about chromatin profiles and interactions. We provided a highly accurate predictor of chromatin factor pairwise interactions validated by known experimental evidence, and for the first time enabled higher-order interaction prediction. Our predictions can thus help guide future experimental studies. The model can also serve as an inference engine for predicting unknown chromatin profiles — we demonstrated that with this approach we can leverage data from well-characterized cell types to help understand less-studied cell type or conditions.  相似文献   

8.
Endo M  Sugai T 《Zoological science》2011,28(7):482-490
The macronucleus of the ciliate Tetrahymena cell contains euchromatin and numerous heterochromatins called chromatin bodies. During cell division, a chromatin aggregate larger than chromatin body appears in the macronucleus. We observed chromatin aggregates in the dividing macronucleus in a living T. thermophila cell, and found that these were globular in morphology and homogeneous in size. To observe globular chromatin clearly, optimal conditions for making it compact were studied. Addition of Mg ion, benomyl and oryzalin, microtubule inhibitors, to cell suspension was effective. Globular chromatin appeared when the micronuclear anaphase began at the cell cortex, and disappeared long after cell separation. Using living cells with a small macronucleus at early log phase, we counted the number of globular chromatin per nucleus and measured the DNA content of globular chromatin in the macronucleus which was stained with Hoechst 33342 by using ImageJ. The number of globular chromatin per nucleus was reduced by half after division, indicating the globular chromatin is a distribution unit of DNA. A globular chromatin contained similar DNA content as that of the macronuclear genome. We developed methods for inducing and isolating a cell with an extremely small macronucleus with a DNA amount of one globular chromatin. These cells grew, divided, and give clones, suggesting that the macronuclear genome is not dispersed within the macronucleus and the globular chromatin may be a macronuclear genome. We named this globular chromatin "macronuclear genome unit" (MGU).  相似文献   

9.
Fu H  Freedman BS  Lim CT  Heald R  Yan J 《Chromosoma》2011,120(3):245-254
Gaps persist in our understanding of chromatin lower- and higher-order structures. Xenopus egg extracts provide a way to study essential chromatin components which are difficult to manipulate in living cells, but nanoscale imaging of chromatin assembled in extracts poses a challenge. We describe a method for preparing chromatin assembled in extracts for atomic force microscopy (AFM) utilizing restriction enzyme digestion followed by transferring to a mica surface. Using this method, we find that buffer dilution of the chromatin assembly extract or incubation of chromatin in solutions of low ionic strength results in loosely compacted chromatin fibers that are prone to unraveling into naked DNA. We also describe a method for direct AFM imaging of chromatin which does not utilize restriction enzymes and reveals higher-order fibers of varying widths. Due to the capability of controlling chromatin assembly conditions, we believe these methods have broad potential for studying physiologically relevant chromatin structures.  相似文献   

10.
Methylation of chromatin DNA.   总被引:6,自引:4,他引:2       下载免费PDF全文
E. coli DNA methylase has been used to methylate chromatin DNA in vitro. At saturation only 50% of the chromatin DNA becomes methylated. The methylated regions of chromatin correspond to that fraction of the chromatin which is sensitive to staphylococcal nuclease. Using in vitro methylated chromatin followed by nuclease digestion movement of chromatin proteins along the DNA can be detected. By this criterion, sonication of chromatin or precipitation with MnCl2 causes 10% of the previously uncovered methylated regions to become covered by protein. Reconstitution of methylated chromatin results in the randomization of the chromatin proteins. Using nuclei which were methylated in vitro we have demonstrated that a small degree of protein sliding does occur during the preparation of chromatin from nuclei. Finally, we have prepared open region DNA by polylysine titration. This procedure does not cause displacement of chromatin proteins.  相似文献   

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Changes in chromatin structure regulate gene expression and genome maintenance. Molecules that bind to the nucleosome, the complex of DNA and histone proteins, are key modulators of chromatin structure. Previous work indicated that cholesterol, a ubiquitous cellular lipid, may bind to chromatin in vivo, suggesting a potential function for lipids in modulating chromatin architecture. However, the molecular mechanisms of cholesterol's action on chromatin structure have remained unclear. Here, we explored the biophysical impact of cholesterol on nucleosome and chromatin fibers reconstituted in vitro and characterized in silico the cholesterol binding to the nucleosome. Our findings support that cholesterol assists 10 and 30 nm chromatin formation and induces folding of long chromatin fibers as a result of direct interaction of the cholesterol to six nucleosomal binding sites.  相似文献   

12.
The organization of chromatin in macronuclei of Bursaria truncatella cells that completed their growth and differentiation was electron microscopically studied. The data obtained showed that (1) inactive macronuclear chromatin was organized in compact chromatin clumps 120 to 180 nm in diameter linked by one or several chromatin fibres, and (2) in low salt buffer the chromatin clumps gradually unraveled, radial loops of supranucleosomal or, more often, nucleosomal structure appearing around chromatin clumps. Upon prolonged incubation in low salt buffer chromatin clumps were completely transformed into nucleosomal fibres. The data obtained evidenced in favour of a loop-packed structure of chromatin clumps.  相似文献   

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Summary Specific antisera were produced against chicken reticulocyte dehistonized chromatin. The antisera reacts strongly with chicken reticulocyte chromatin, but only marginally with chicken erythrocyte chromatin. There is no reticulocyte antigen detected in chicken liver. Reticulocyte maturation is accompanied by a gradual decrease in the chromatin immunological activity and template capacity. The reduction of immunological activity is due to the change of chromatin conformation during erythrocyte maturation. Dehistonization and sonication of erythrocyte chromatin raises the erythrocyte chromatin immunological activity to levels similar to those of reticulocyte chromatin. The erythrocyte nuclear antigens are class specific, not being found in frog erythroid cell or murine Friend leukemia cell chromatins.  相似文献   

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Histone-deficient SV40 chromatin, selectively radiolabeled in the DNA following the addition of cycloheximide to infected monkey cells, was compared with the normal 55S viral chromatin for its ability to serve as a template for a subsequent round of replication. After the removal of cycloheximide, the 26S histone-deficient SV40 chromatin was converted to apparently normal 55S chromatin. During this conversion, the chromatin which sedimented at 26-40S failed to replicate whereas the 44-55S chromatin contained a large fraction (28%) of newly replicated DNA molecules. Thus, the DNA in the 26S histone-deficient 40S chromatin cannot replicate without the prior and/or concommitant addition of protein which increases its sedimentation rate to 41-55S. Nevertheless, when compared with normal 55S viral chromatin, the histone-deficient SV40 chromatin had nearly a 3-fold greater probability of functioning as a template for a subsequent round of replication.  相似文献   

16.
W H Str?tling 《Biochemistry》1987,26(24):7893-7899
Rat liver chromatin was separated into a solubilized portion and insoluble nuclear material, and the solubilized portion was fractionated by sucrose gradient sedimentation. The chromatin encompassing three transcribed genes (albumin, tryptophan oxygenase, and alpha-fetoprotein), which are expressed at very different levels, partitions preferentially with insoluble nuclear material and possesses a disrupted nucleosome structure. On the contrary, the chromatin encompassing three inactive genes fractionates into the solubilized chromatin portion and exhibits a canonical nucleosome repeat structure. By sucrose gradient sedimentation, all size classes of inactive chromatin particles are found to contain internal cleavages in the linker region between nucleosomes; they are probably held together by histone H1 and mono- and divalent cations. When the chromatin encompassing two flanking sequences of the tyrosine aminotransferase gene is studied, the 0.35-kilobase upstream-located chromatin exhibits features of active genes, while the 2.55-kilobase upstream-located chromatin partitions preferentially with solubilized chromatin and sediments in internally cleaved particles.  相似文献   

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The histone chaperone Asf1p mediates global chromatin disassembly in vivo   总被引:1,自引:0,他引:1  
The packaging of the eukaryotic genome into chromatin is likely to be mediated by chromatin assembly factors, including histone chaperones. We investigated the function of the histone H3/H4 chaperones anti-silencing function 1 (Asf1p) and chromatin assembly factor 1 (CAF-1) in vivo. Analysis of chromatin structure by accessibility to micrococcal nuclease and DNase I digestion demonstrated that the chromatin from CAF-1 mutant yeast has increased accessibility to these enzymes. In agreement, the supercoiling of the endogenous 2mu plasmid is reduced in yeast lacking CAF-1. These results indicate that CAF-1 mutant yeast globally under-assemble their genome into chromatin, consistent with a role for CAF-1 in chromatin assembly in vivo. By contrast, asf1 mutants globally over-assemble their genome into chromatin, as suggested by decreased accessibility of their chromatin to micrococcal nuclease and DNase I digestion and increased supercoiling of the endogenous 2mu plasmid. Deletion of ASF1 causes a striking loss of acetylation on histone H3 lysine 9, but this is not responsible for the altered chromatin structure in asf1 mutants. These data indicate that Asf1p may have a global role in chromatin disassembly and an unexpected role in histone acetylation in vivo.  相似文献   

19.
Effects of shearing on chromatin structure   总被引:3,自引:0,他引:3  
R A Maciewicz  H J Li 《Biochemistry》1978,17(6):962-967
The effects of mechanical shearing on chromatin structure were investigated by using thermal denaturation and circular dichroism (CD) spectroscopy. Under ordinary conditions of mechanical shearing used for preparation of soluble chromatin, we observed only minor changes (less than 10%) of chromatin properties with respect to (a) absorption melting curves, (b) CD spectra, (c) CD melting curves and (d) histone transfer from chromatin to exogenous DNA. Such small pertubation of structural properties could be due to the generation of free ends when a large chromatin was cut into smaller fragments and by weakening the binding of histones to DNA near these free ends. In addition to mechanical shearing, sonication was used to shear some samples of chromatin. The effect of sonication on chromatin structure was investigated by the same physical methods used for mechanically sheared chromatin. The results indicate that sonication only slightly changes the chromatin properties with respect to CD spectra, similar to the results obtained by mechanical shearing, but sonication at high settings has a greater effect on the thermal denaturation property of chromatin as contrasted to our results from mechanically sheared chromatin.  相似文献   

20.
Many regions of chromatin are subject to dynamic changes. We have developed a rapid method for isolation of small chromatin templates from yeast which will facilitate biochemical analysis of chromatin composition. Using the PHO5 promoter we show that templates prepared from cells grown in inducing or repressing conditions show native chromatin structures. This method may be widely applicable as the chromatin structures at a centromere, at ARS1 and at part of the lacZ region on two other plasmids are preserved after chromatin isolation.  相似文献   

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