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1.
S Y Lan  M J Smerdon 《Biochemistry》1985,24(26):7771-7783
We have investigated the distribution in nucleosome core DNA of nucleotides incorporated by excision repair synthesis occurring immediately after UV irradiation in human cells. We show that the differences previously observed for whole nuclei between the DNase I digestion profiles of repaired DNA (following its refolding into a nucleosome structure) and bulk DNA are obtained for isolated nucleosome core particles. Analysis of the differences obtained indicates that they could reflect a significant difference in the level of repair-incorporated nucleotides at different sites within the core DNA region. To test this possibility directly, we have used exonuclease III digestion of very homogeneous sized core particle DNA to "map" the distribution of repair synthesis in these regions. Our results indicate that in a significant fraction of the nucleosomes the 5' and 3' ends of the core DNA are markedly enhanced in repair-incorporated nucleotides relative to the central region of the core particle. A best fit analysis indicates that a good approximation of the data is obtained for a distribution where the core DNA is uniformly labeled from the 5' end to position 62 and from position 114 to the 3' end, with the 52-base central region being devoid of repair-incorporated nucleotides. This distribution accounts for all of the quantitative differences observed previously between repaired DNA and bulk DNA following the rapid phase of nucleosome rearrangement when it is assumed that linker DNA and the core DNA ends are repaired with equal efficiency and the nucleosome structure of newly repaired DNA is identical with that of bulk chromatin. Furthermore, the 52-base central region that is devoid of repair synthesis contains the lowest frequency cutting sites for DNase I in vitro, as well as the only "internal" locations where two (rather than one) histones interact with a 10-base segment of each DNA strand.  相似文献   

2.
DNA fragments containing either one or both of the 72-base pair (bp) elements which constitute the SV40 enhancer and the three adjacent 21-bp repeats were associated with histone octomers from chicken erythrocytes in vitro. Both fragments formed complexes with electrophoretic mobilities of nucleosomes containing the appropriate length of DNA. Analysis of DNase I cutting of uniquely end-labeled complexes suggests that the fragment containing a single 72-bp element forms a positioned core particle. Control experiments show that positioning is not due to the 21-bp repeats or to end effects. The fragment with a tandem repeat of the 72-bp element also does not associate randomly with histones. The data are consistent with formation of a core particle on one or the other of the repeated enhancer sequences. We discuss possible functional consequences of such nucleosome positioning.  相似文献   

3.
Nucleosome and chromatin structure/function relationships of histone acetylations are not understood. To address these questions we have developed chromatographic procedures that separate subtypes of H3 and the acetylated states of histone H3 and H4 in exceptionally pure forms. The sites of acetylation of the intermediately acetylated states of H3 have been determined and show a specific pattern of acetylation. An unexpected finding was the identification of a fifth site of acetylation in H3 at lysine 27. Nucleosome particles with fully acetylated H3 and H4 have been assembled on the Lytechinus variegatus 5 S rRNA DNA phasing sequence and characterized. These defined acetylated H3 and H4 particles migrate more slowly in polyacrylamide nucleoprotein particle gels than the control particles indicating a subtle effect of acetylation in nucleosome structure. However, DNA footprinting of these particles using DNase I show only small changes when compared to control particles over the core particle DNA length. It is shown further that H3 cysteines in the particle containing fully acetylated H3 and H4 were not accessible to iodoacetamide indicating that protein factors additional to H3 and H4 acetylation are required to make H3 cysteines accessible to the label. These findings are consistent with the proposal that histones H3, H4 acetylations exert their major effects outside of the core particle 146-base pair DNA, either on the DNA segment entering and leaving the nucleosome or possibly on the internucleosome interactions that involve the amino-terminal domains of the core histones in organization and stability of higher order chromatin structures.  相似文献   

4.
X Y Zhang  F Fittler    W Hrz 《Nucleic acids research》1983,11(13):4287-4306
The question of nucleosome phasing on African Green Monkey (AGM) alpha-satellite DNA has been addressed by employing a new approach. Nucleosome cores were prepared from AGM nuclei with micrococcal nuclease, exonuclease III and nuclease S1. The core DNA population derived from alpha-satellite DNA containing chromatin was purified from total core DNA by denaturation of the DNA, reassociation to a low Cot value, and hydroxyapatite chromatography to separate the renatured satellite fraction. After end-labeling the termini of the alpha-satellite containing core DNA fragments were mapped by high resolution gel electrophoresis relative to known restriction sites along the 172 bp repeat unit of the satellite DNA. The results show that nucleosomes occupy eight strictly defined positions on the alpha-satellite DNA which could be determined with an accuracy of +/- 1 base pair. Approximately 35% of all nucleosomes are organized in one of these frames while the other seven registers contribute about 10% each.  相似文献   

5.
Nucleosome phasing on highly repetitive DNA was investigated using a novel strategy. Nucleosome cores were prepared from mouse liver nuclei with micrococcal nuclease, exonuclease III and nuclease S1. The core DNA population that contains satellite sequences was then purified from total core DNA by denaturation of the DNA, reassociation to a low Cot value and hydroxyapatite chromatography to separate the renatured satellite fraction. After end-labeling, the termini of the satellite core DNA fragments were mapped with an accuracy of +/- 1 base-pair relative to known restriction sites on the satellite DNA. Sixteen dominant nucleosome positions were detected. There is a striking correlation between these nucleosome frames and an internal highly diverged 9 base-pair subrepeat of the satellite DNA. The results are consistent with a sequence-dependent association of histone octamers with the satellite DNA. Our finding that histone octamers can interact with a given DNA in a number of different defined frames has important implications for the possible biological significance of nucleosome phasing.  相似文献   

6.
On the occurrence of nucleosome phasing in chromatin.   总被引:15,自引:0,他引:15  
D Lohr  K Tatchell  K E Van Holde 《Cell》1977,12(3):829-836
We have found that DNAase I digestion of yeast, HeLa and chicken erythrocyte nuclei produces a pattern of DNA fragments spaced 10 bases apart and extending to at least 300 bases. This "extended ladder" of DNA fragments is most clearly seen with yeast, and least clearly with chicken erythrocytes. The appearance of regular and discrete bands at sizes much larger than the repeat size shows that the core particles (140 bp of DNA + H2A, H2B, H3 H4) in at least some fraction of chromatin are spaced in a particular fashion, by discrete lengths of spacer DNA, and not randomly. Based on the abundance of small repeats in yeast and from experiments with nucleosome oligomers, we conclude that the extended ladder and nucleosomal phasing probably arise mainly from regions in the chromatin in which nucleosome cores are closely packed or closely spaced (140-160 bp X n). Contributions from less closely packed but still accurately phased nucleosomes, however, cannot be entirely excluded.  相似文献   

7.
A direct end label method was used to study the positioning of nucleosome arrays on several long (greater than 2200 base pairs) SV40 DNA fragments reconstituted in vitro with core histones. Comparison of micrococcal nuclease cutting sites in reconstituted and naked DNA fragments revealed substantial differences in one DNA region. When sufficient core histones were annealed with the DNA to form closely spaced nucleosomes over most of the molecule, a uniquely positioned array of four nucleosomes could be assigned, by strict criteria, to a 610-base pair portion of the SV40 "late region," with a precision of about +/- 20 base pairs. In some other DNA regions, a number of alternative nucleosome positions were indicated. The uniquely positioned four-nucleosome array spanned the same 610 nucleotides on two different DNA fragments that possessed different ends. Removal of a DNA region that had contained a terminal nucleosome of the array, by truncation of the fragment before reconstitution, did not affect the positioning of the other three nucleosomes. As the core histone to DNA ratio was lowered, evidence for specific positioning of nucleosomes diminished, except within the region where the four uniquely positioned nucleosomes formed. This region, however, does not appear to have a higher affinity for core histones than other regions of the DNA.  相似文献   

8.
In this study 1H NMR has been used to investigate the conformational state of DNA in nucleosome core particles. The nucleosome core particles exhibit partially resolved low field (10-15 ppm) spectra due to imino protons in Watson-Crick base pairs (one resonance per GC or AT base pair). To a first approximation, the spectrum is virtually identical with that of protein-free 140 base pair DNA, and from this observation we draw two important conclusions: (i) Since the low field spectra of DNA are known to be sensitive to conformation, the conformation of DNA in the core particles is essentially the same as that of free DNA (presumably B-form), (ii) since kinks occurring at a frequency at 1 in 10 or 1 in 20 base pairs would result in a core particle spectrum different from that of free DNA we find no NMR evidence supporting either the Crick-Klug or the Sobell models for kinking DNA around the core histones. Linewidth considerations indicate that the rotational correlation time for the core particles is approximately 1.5 X 10(-7) sec, whereas the end-over-end tumbling time of the free 140 base pair DNA is 3 X 10(-7) sec.  相似文献   

9.
An oligonucleosome 12-mer was reconstituted in the absence of linker histones, onto a DNA template consisting of 12 tandemly arranged 208-base pair fragments of the 5 S rRNA gene from the sea urchin Ly-techinus variegatus (Simpson, R. T., Thoma, F. S., and Burbaker, J. M. (1985) Cell 42, 799-808). The ionic strength-dependent folding of this nucleohistone complex was compared with that of a native oligonucleosome fraction obtained from chicken erythrocyte chromatin, which had been carefully stripped of linker histones and fractionated in sucrose gradients. The DNA of this native fraction exhibited a narrow size distribution centered around the length of the 208-12 DNA template used in the reconstituted complex. These two complexes displayed very similar hydrodynamic behavior as judged by sedimentation velocity analysis. By combining these data with electron microscopy analysis, it was shown that the salt-dependent folding of oligonucleosomes in the absence of linker histones involves the bending of the linker DNA region connecting adjacent nucleosomes. It was also found that selective removal by trypsin of the N-terminal regions ("tails") of the core histones prevents the oligonucleosome chains from folding. Thus, in the absence of these histone domains, the bending of the linker DNA necessary to bring the nucleosomes in contact is completely abolished. In addition to the complete lack of folding, removal of the histone tails results in an unwinding at low salt of a 20-base pair region at each flanking side of the nucleosome core particle. The possible functional relevance of these results is discussed.  相似文献   

10.
A procedure for the de novo construction of nucleosome core particles from defined DNA sequences of prokaryotic origin is described. Efficient de novo reconstitution without added carrier DNA is demonstrated. DNase I and exonuclease III analysis of a nucleosome core prepared from a 154 base pair fragment extending from base 853 to base 1006 of pBR322 indicates a non-random positioning of the histone core along the DNA. As bacteria have no histones, their DNA cannot be expected to have a histone core positioning signal encoded in it, the efficient formation of a uniquely positioned core particle is not self evident. The possibility that a phosphate end group positions DNA fragments on the histone is considered. The de novo reconstitution of carrier-less defined nucleosome core particles should facilitate the physicochemical study of nucleosomes on the fine structural level.  相似文献   

11.
The human centromere proteins A (CENP-A) and B (CENP-B) are the fundamental centromere components of chromosomes. CENP-A is the centromere-specific histone H3 variant, and CENP-B specifically binds a 17-base pair sequence (the CENP-B box), which appears within every other alpha-satellite DNA repeat. In the present study, we demonstrated centromere-specific nucleosome formation in vitro with recombinant proteins, including histones H2A, H2B, H4, CENP-A, and the DNA-binding domain of CENP-B. The CENP-A nucleosome wraps 147 base pairs of the alpha-satellite sequence within its nucleosome core particle, like the canonical H3 nucleosome. Surprisingly, CENP-B binds to nucleosomal DNA when the CENP-B box is wrapped within the nucleosome core particle and induces translational positioning of the nucleosome without affecting its rotational setting. This CENP-B-induced translational positioning only occurs when the CENP-B box sequence is settled in the proper rotational setting with respect to the histone octamer surface. Therefore, CENP-B may be a determinant for translational positioning of the centromere-specific nucleosomes through its binding to the nucleosomal CENP-B box.  相似文献   

12.
A novel nucleohistone particle is generated in high yield when a complex of DNA with the four core histones formed under conditions that are close to physiological (0.15 M NaCl, pH 8) is treated with micrococcal nuclease. The particle was found to contain 102 base pairs of DNA in association with six molecules of histones in the ratio 2H2A:2H2B:1H3:1H4 after relatively brief nuclease treatment. Prolonged nuclease digestion resulted in a reduction in the DNA length to a sharply defined 92-base pair fragment that was resistant to further degradation. Apparently normal nucleosome core particles containing two molecules each of the four core histones in association with 145 base pairs of DNA and a particle containing one molecule each of histones H2A and H2B in association with approximately 40 base pairs of DNA were also generated during nuclease treatment of the histone-DNA complexes formed under physiological ionic strength conditions. Kinetic studies have shown that the hexamer particle is not a subnucleosomal fragment produced by the degradation of nucleosome core particles. Furthermore, the hexamer particle was not found among the products of nuclease digestion when histones and DNA were previously assembled in 0.6 M NaCl. The high sedimentation coefficient of the hexameric complex (8 S) suggests that the DNA component of the particle has a folded conformation.  相似文献   

13.
Reassociation of a 260-base pair cloned fragment of Lytechinus variegatus DNA with core histones has been shown to give rise to a uniquely positioned nucleosome (Simpson, R. T., and Stafford, D. W. (1983) Proc. Natl. Acad. Sci. U. S. A. 80, 51-55). In an attempt to define the features that dictate the unique positioning of the nucleosome, we have constructed a number of mutants of this DNA sequence. The ability of these mutants to form positioned nucleosomes was analyzed by DNase I digestion of the DNA after reassociation with chicken erythrocyte core histones. While all the mutants were efficiently incorporated into core particles, not all of these modified sequences were capable of forming a positioned nucleosome. Of the 13 mutants examined, 7 fell into a class that gave rise to nucleosomes in which no unique positioning could be demonstrated. While no specific feature of the DNA sequences has been identified as the critical factor in allowing, or dictating, the formation of positioned nucleosomes, our results do indicate that the region 20-30 bases either side of the center of the core particle appears to contain the major elements necessary for positioning. Additionally, these studies clearly show that differences in the digestion of naked and core particle DNA are related to specific interactions of the DNA and histones rather than to an altered specificity of the enzyme induced by the presence of the proteins.  相似文献   

14.
The effects of VirTis shearing on chromatin subunit structure were investigated by enzymatic digestion, thermal denaturation, and electron microscopy. While initial rates of micrococcal nuclease and DNase I digestion were greater postshearing, limit digest values were similar to those for unsheared chromatin. Fractionated chromatin digestion kinetics varied with sedimentation. Digestion of all chromatins produced monomer and dimer DNA fragment lengths, but only unsheared chromatins exhibited higher order nucleosome oligomer lengths. Mononucleosomes and core particles were resolved in digests of sheared and gradient fractions analyzed by electrophoresis. All chromatins exposed to DNase I showed discrete 10-base pair nicking patterns. The presence of nucleosomes was confirmed by electron microscopy. Electron microscopy and histone content of gradient fractions showed that nucleosome density along the chromatin axis increased in rapidly sedimenting fractions. Thermal denaturation detected no appreciable generation of protein-free DNA fragments as a result of shearing. The results indicate that VirTis blending conserves subunit structure with loss of less than 12–15% of nucleosome structure.  相似文献   

15.
We have shown previously that lac repressor binds specifically and quantitatively to lac operator restriction fragments which have been complexed with histones to form artificial nucleosomes (203 base pair restriction fragment) or core particles (144 base pair restriction fragment. We describe here a quantitative method for determining the equilibrium binding affinities of repressor for these lac reconstitutes. Quantitative analysis shows that the operator-histone reconstitutes may be grouped into two affinity classes: those with an affinity for repressor close to that of naked DNA and those with an affinity 2 or more orders of magnitude less than that of naked DNA. All particles in the lac nucleosome preparations bind repressor with high affinity, but the lac core particle preparations contain particles of both high and low affinities for repressor. Formaldehyde cross-linking causes all high-affinity species to suffer a 100-fold decrease in binding affinity. In contrast, there is no effect of cross-linking on species of low affinity. Therefore, the ability of a particle to be bound tightly by repressor depends on a property of the particle which is eliminated by cross-linking. Control experiments have shown that chemical damage to the operator does not accompany cross-linking. Therefore, the property sensitive to cross-linking must be the ability of the particle to change conformation. We infer that the particles of low native affinity, like cross-linked particles, are of low affinity because of an inability to facilitate repressor binding by means of this conformational change. Dimethyl suberimidate cross-linking experiments show that histone-histone cross-linking is sufficient to preclude high-affinity binding. Thus, the necessary conformational change involves a nucleosome histone core event. We find that the ability of a particle to undergo a repressor-induced facilitating conformational change appears to depend on the position of the operator along the DNA binding path of the nucleosome core. We present a general model which proposes that nucleosomes are divided into domains which function differentially to initiate conformational changes in response to physiological stimuli.  相似文献   

16.
Human fragile sites are weak staining gaps in chromosomes generated by specific culture conditions. The short CGG repeating DNA derived from folate-sensitive fragile sites has been shown to exclude single nucleosomes. To test whether this nucleosome exclusion model provides a general molecular mechanism for the formation of fragile sites, a different class of fragile site, the 33-base pair AT-rich repeating DNAs derived from the rare distamycin-inducible site, FRA16B, was examined for its ability to assemble single nucleosomes and nucleosome arrays using in vitro nucleosome reconstitution methods. The FRA16B DNA fragments strongly exclude nucleosome assembly only in the presence of distamycin, and increasing the number of 33-bp repeats increases the effect of distamycin in the destabilization of the nucleosome formation, suggesting a common mechanism for the formation of fragile sites.  相似文献   

17.
The avian retrovirus pp32 protein possesses a DNA-nicking activity which prefers supercoiled DNA as substrate. We have investigated the binding of pp32 to avian retrovirus long terminal repeat (LTR) DNA present in both supercoiled and linear forms. The cloned viral DNA was derived from unintegrated Schmidt-Ruppin A (SRA) DNA. A subclone of the viral DNA in pBR322 (termed pPvuII-DG) contains some src sequences, tandem copies of LTR sequences, and partial gag sequences in the order src-U(3) U(5):U(3) U(5)-gag. Binding of pp32 to supercoiled pPvuII-DG DNA followed by digestion of this complex with a multicut restriction enzyme (28 fragments total) permitted pp32 to preferentially retain on nitrocellulose filters two viral DNA fragments containing only LTR DNA sequences. In addition, pp32 also preferentially retained four plasmid DNA fragments containing either potential promoters or Tn3 "left-end" inverted repeat sequences. Mapping of the pp32 binding sites on viral LTR DNA was accomplished by using the DNase I footprinting technique. The pp32 protein, but not the avian retrovirus alphabeta DNA polymerase, is able to form a unique protein-DNA complex with selected regions of either SRA or Prague A LTR DNAs. Partial DNase I digestion of a 275-base pair SRA DNA fragment complexed with pp32 gives upon electrophoresis in denaturing gels a unique ladder pattern, with regions of diminished DNase I susceptibility from 6 to 10 nucleotides in length, in comparison with control digests in the absence of protein. The binding of pp32 to this fragment also yields enhanced DNase I-susceptible sites that are spaced between the areas protected from DNase I digestion. The protected region of this unique complex was a stretch of 170 +/- 10 nucleotides that encompasses the presumed viral promoter site in U(3), which is adjacent to the src region, extends through U(5), and proceeds past the joint into U(3) for about 34 base pairs. No specific protection or DNase I enhancement by pp32 was observed in experiments with a 435-base pair SRA DNA fragment derived from a part of U(3) and the adjacent src region or a 55-base pair DNA fragment derived from another part of U(3). The DNA sequence of Prague A DNA at the fused LTRs differs from that of SRA DNA. The alteration in the sequence at the juncture of the LTRs prevented pp32 from forming a stable complex in this region of the LTR. Our results are relevant to two aspects of the interaction between pp32 and LTR DNA. First, the pp32 protein in the presence of selected viral DNA restriction fragments possibly forms a higher order oligomer analogous to Escherichia coli DNA gyrase-DNA complexes or eucaryotic nucleosome structures. Second, the specificity of the binding suggests a role for pp32 and the protected DNA sequences in the retrovirus life cycle. The preferred sequences to which pp32 binds include two adjacent 15-base pair inverted terminal repeats at the joint between U(5) and U(3) in SRA DNA. This region is involved in circularization of linear DNA and is perhaps the site that directs integration into cellular DNA.  相似文献   

18.
DNase I, trypsin, and micrococcal nuclease are used to further probe the structure of nascent deoxyribonucleoprotein (DNP) fractions which appear after in vivo 20-s pulse labeling of sea urchin embryos with [3H]thymidine. We present evidence that the large nascent DNP which protects the approximately 300-base pair large nascent DNA consists of at least one nucleosome core. This is based on fractionation in denaturing polyacrylamide gels of DNA extracted from large nascent DNP fractions of a micrococcal nuclease + DNase I digest of nuclei. The data also suggest the existence of a DNase I-hypersensitive site(s) within the large nascent DNP; this is consistent with the hypothesis that the latter consists of closely packed dinucleosome cores. Histone H1 and non-histone proteins do not account for the previously reported unusual hyperresistance of the large nascent DNA against micrococcal nuclease. The protection offered this approximately 300-base pair nascent DNA was not eliminated by an 0.2-microgram/ml trypsin pretreatment which removes the above proteins from the chromatin. However, 5-10 micrograms/ml of trypsin, which remove a portion of the NH2 termini of the four core histones of nucleosomes, eliminate the hyperresistance of the large nascent DNA to subsequent micrococcal nuclease digestion, while nascent and bulk monomer DNAs remain unaffected. This indicates histone-histone and/or histone-DNA interactions within the large nascent DNP which differ from those of nascent and bulk mononucleosome cores.  相似文献   

19.
Leslie KD  Fox KR 《Biochemistry》2002,41(10):3484-3497
We have examined the interaction of Hoechst 33258 and echinomycin with nucleosomal DNA fragments which contain isolated ligand binding sites. A 145 base pair fragment was prepared on the basis of the sequence of tyrT DNA, which contained no CpG or (A/T)(4) binding sites for these ligands. Isolated binding sites were introduced into this fragment at discrete locations where the minor groove is known to face toward or away from the protein core when reconstituted onto nucleosome core particles. The interaction of ligands with target sites on these nucleosomal DNA fragments was assessed by DNase I footprinting. We find that Hoechst 33258 can bind to single nucleosomal sites which face both toward and away from the protein core, without affecting the nucleosome structure. Hoechst binding is also observed on nucleosomal fragments which contain two or more drug binding sites, though in these cases the footprints are accompanied by the presence of new cleavage products in positions which suggest that the ligand has caused a proportion of the DNA molecules to adopt a new rotational positioning on the protein surface. Hoechst 33258 does not affect nucleosome reconstitution with any of these fragments. In contrast, the bifunctional intercalating antibiotic echinomycin is not able to bind to single nucleosomal CpG sites. Echinomycin footprints are observed on nucleosomal fragments containing two or more CpG sites, but there are no changes in the cleavage patterns in the remainder of the fragment. Echinomycin abolishes nucleosome reconstitution when included in the reconstitution mixture.  相似文献   

20.
A Prunell 《Biochemistry》1983,22(21):4887-4894
Exonuclease III has previously been shown to pause about every 10 nucleotides along the 3' strands while it invades the nucleosome core. Here, the exact periodicity of this digestion, i.e., the spacing of the pauses, was determined. Results showed that the exonuclease digests the first 20 nucleotides at the edge of the nucleosome core with a periodicity of approximately 11 nucleotides; in contrast, DNA closer to the center of the particle is digested with a smaller periodicity of about 10 nucleotides. These figures differ from the known periodicity of DNase I digestion, approximately 10 and 10.5 nucleotides at the edge and in the center of the nucleosome, respectively. Moreover, as shown by sedimentations in sucrose gradients, the structure of the nucleosome does not appear to be significantly altered by the gradual destruction of its DNA moiety by the exonuclease. Such stability of the nucleosome, along with other complementary observations, indicates that the transition in the digestion periodicity of the exonuclease may not be the consequence of a structural rearrangement of the particle upon trimming. This transition may rather be ascribed to the properties of the native nucleosome and to the intrinsic mechanism of action of the enzyme. Finally, evidence is presented which suggests that the exonuclease 10-nucleotide periodicity of digestion of the inner region of the nucleosome reflects a 10 base pair/turn pitch of the DNA in that region.  相似文献   

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