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 15 毫秒
1.
Histone methylation in developing trout testis has been observed in the diploid stem cells and primary spermatocytes, which actively synthesize DNA and histones. In spermatids, histone methylation is minimal and so probably plays no role in the replacement of histones by protamine which is characteristic of this cell type. No turnover of histone methyl groups could be detected over several hours, so that unlike acetylation or phosphorylation of histones, methylation in this tissue appears to be a stable, irreversible modification. When histone H4, labeled with [14C]methyl groups, is separated on starch gels into acetylated and phosphorylated derivatives, [14C]methyl label does not appear in positions characteristic of newly synthesized histone H4, i.e. the highly acetylated (di-, tri-, and tetra-acetylated), unphosphorylated species. [14C]Methyl label appears rather in the unphosphorylated, and unacetylated or monoacetylated species, shifting with time to the monophosphorylated form of histone H4. These data suggest a temporal sequence of events for histone H4: synthesis, then acetylation and deacetylation, followed by methylation and phosphorylation. Occurring late after histone synthesis and assembly into chromatin, histone methylation might then be necessary for histone interactions with other molecules (e.g. histone phosphokinase) prior to mitosis.  相似文献   

2.
Acetylation, phosphorylation and methylation of nuclear proteins in rat cerebellum at 10 and 30 days of age were investigated in vitro. Isolated nuclei were incubated in the presence of [1-14C]acetyl CoA, S-adenosyl [methyl-3H]methionine and [gamma-32P]ATP and then separated into histones and non histone proteins (NHP), which were further fractionated by polyacrylamide gel electrophoresis. The results obtained indicate that acetylation, phosphorylation and methylation of both basic and acidic proteins decrease from 10 to 30 days of age. Electrophoretic analysis of histones shows that the decrease mainly concerns H1, H3, and H2b fractions. The H3 fraction is always more labeled than the other fractions and shows the major changes during postnatal development. Phosphorylation of H2a and H4 fractions increases from 10 to 30 days of age, whereas acetylation and methylation of these fractions do not show significant changes from 10 to 30 days. The densitometric and radioactive patterns of NHP show considerable changes between 10 and 30 days, especially in the high molecular weight region. The incorporation of 14C-acetyl and 3H-methyl groups and of 32P phosphate appears to be generalized throughout the molecular weight range and decreases from 10 to 30 days of age. The methylation of an as yet unidentified protein with a molecular weight of approximately 110,000 daltons occurred at both ages.  相似文献   

3.
In order to investigate the relationship between condensed heterochromatin and histone modification by acetylation, phosphorylation and amino acid variation, chromatin from cultured Peromyscus eremicus cells, containing 35% constitutive heterochromatin, was fractionated into heterochromatin-enriched and heterochromatin-depleted fractions. The constitutive heterochromatin content of these fractions was determined from satellite DNA content. The distribution of phosphorylated and acetylated histones and amino acid variants of histone H2A in these chromatin fractions was examined by gel electrophoresis. Fractionation of histones demonstrated that endogenous histone phosphatase activity was high in chromatin fractions and could not be inhibited sufficiently to allow accurate histone phosphorylation measurements. However, sodium butyrate did inhibit deacetylation activity in the fractions, allowing histone acetylation measurements to be made. It was found that the constitutive heterochromatin content of these fractions was proportional to both their unacetylated H4 content and their more-hydrophobic H2A content. These observations support, by direct measurement, earlier experiments (Exp cell res 111 (1978) 373; 125 (1980) 377; 132 (1981) 201) suggesting that constitutive heterochromatin is enriched in unacetylated arginine-rich histones, and in the more hydrophobic variant of histone H2A.  相似文献   

4.
When [1-14C]acetate was injected into rats intratesticularly in the presence of cycloheximide to inhibit protein synthesis, the label was incorporated into histone fractions F2a1 and F3 and into non-histone chromosomal proteins of each of the following stages of spermatogenesis: spermatogonia-preleptotene spermatocytes, leptotene-zygotene-pachytene-diplotene primary spermatocytes, and spermatids. Acetylation of histones was particularly active in the spermatid stages. There was no significant incorporation of acetate into the lysine-rich histone fractions F1 and X1.In early periods of in vivo incorporation of [3H]amino acids into histones the acetylated histone F2a1 fractions had higher specific activities than the main band of F2a1, but with the passage of time the label moved into the principal band to the extent that specific activities in the acetylated and principal bands were approximately equal at 6 days. However, at 24–36 days the specific activities were again higher in the acetylated bands than in the principal band of F2a1. These data support the conclusions of Candido, Louie, and Dixon, from experiments with trout testis, that acetylation of histone F2a1 may be important in the process of combination of this protein with DNA in chromatin at the spermatogonia-primary spermatocyte stage and also in the subsequent removal of this histone for replacement by protamines at the spermatid stage.[3H]Amino acids were incorporated into histone fractions X1 and F1 at approximately equal rates, and there was no evidence that one of these fractions was a precursor of the other.Chromatin of the seminiferous epithelial cells of rat testis has a firmly bound acetylase which catalyzes the in vitro acetylation of histones F3 and F2a1 by acetyl CoA.  相似文献   

5.
G Ramponi  G Manao  G Camici 《Biochemistry》1975,14(12):2681-2685
Nonenzymatic acetylation of calf-thymus lysine- and arginine-rich histones was demonstrated to occur when these proteins were incubated with [14C]acetyl phosphate and [14C]acetyl adenylate. The levels of acetylation depend on both pH and on reagent concentration. When acetyl [33P]phosphate and acetyl [3H]adenylate were used as reagents, we found neither histone phosphorylation nor adenylylation. Most of the radioactivity of 14C-labeled acetylated histones was recovered as Ne-acetyllysine. Furthermore, only a small amount of O-bound radioactivity was released by the 14C-labeled acetylated arginine-rich histone during treatment with hydroxylamine. Experiments on the acetylation of histones, in the presence of increasing salt concentration, gave different results for the two acetylating agents.  相似文献   

6.
Dynamic histone acetylation of alfalfa (Medicago sativa) was studied in suspension cultures by short-term labeling with radioactive acetate. The relative labeling rates for the acetylated histones were in order of decreasing incorporation; H3.2 greater than H3.1 greater than H4 greater than H2B.1 greater than H2A.3. Histone H3 showed at least seven sites of acetylation, histone H2B.1 had six sites and histone H4 had five sites. Low numbers of acetylation sites were observed for histone H2B.2 and all histone H2A variants. The mass ratio, steady state acetylation and dynamic acetylation between major variant H3.1 and minor variant H3.2 were approx. 2:1, 1:2 and 2:5, respectively. Treatment of alfalfa cells with 50 mM n-butyrate did not lead to histone hyperacetylation, but instead interfered with histone acetylation labeling by acetate. The extent of apparent inhibition increased with time and concentration of butyrate. It is likely that the conversion of butyrate to acetylCoA results in dilution of the specific radioactivity of [3H]acetate in the acetylCoA pool thereby inhibiting the labeling reaction. This interpretation is supported by 14C-labeling of alfalfa acetylated histones by [1-14C]butyrate.  相似文献   

7.
Summary Chromatin fractions from Friend erythroleukemia cells after induction of differentiation by dimethylsulfoxide (DMSO) were compared in their biochemical characteristics to fractions from uninduced cells. Fractions were prepared by extracting chromatin from nuclei after mild micrococcal nuclease treatment with increasing concentrations of NaCl according to Sanders [1]. This procedure has been found to release chromatin containing hyperacetylated histones preferentially [2]. The fractions obtained by this procedure were analysed in respect to the amount of chromatin released, the amount of histone H1, the degree of acetylation of histone H4, the presence of non-histone proteins and the concentration of transcribed and non-transcribed sequences. It was found that the fractions differ in the amount of histone H1 present, in several non-histone proteins and in the acetylation of histonie H4, regardless whether induced or uninduced cells were analysed. The distribution of transcribed sequences versus non-transcribed sequences among the fractions was the same, demonstrating that this fractionation procedure, although leading to fractions with biochemical differences, is not able to discriminate functional states of chromatin and that the biochemical characteristics of the fractions may be common to both, active as well as inactive states of chromatin.  相似文献   

8.
Yeast contains multiple forms of histone acetyltransferase   总被引:1,自引:0,他引:1  
We have assayed several methods to quantitatively recover yeast histone acetyltransferases in an attempt to study the multiplicity of enzymatic activities. Two methods, namely (NH4)2SO4 precipitation and salt dissociation of chromatin in 0.5 M NaCl, yielded convenient preparations of total histone acetyltransferases. DEAE-Sepharose chromatography of the crude extracts resulted in the separation of three peaks of activity when total yeast histones were used as substrate. However, the scanning of the enzymatic activity toward individual histones along the chromatography, achieved by determining the specific activity of the individual histones after incubating whole histones and [14C]acetyl-CoA with the chromatographic fractions, yielded four peaks. The first two peaks showed specificity toward H2B and H3, respectively. Although they partially overlapped, rechromatography on cation exchangers allowed us to resolve the two activities, and several criteria were used to prove that they correspond to different enzyme molecules. The last two peaks were H4-specific, but the present data suggest that one of the activities is chromatin-bound, whereas the other surely corresponds to the cytoplasmic B-form of the enzyme. The enzyme specific for yeast H2B acetylates chicken erythrocyte H2A, rather than H2B. The detected multiplicity of yeast histone acetyltransferases may correspond to the multiplicity of roles proposed for histone acetylation.  相似文献   

9.
1. Suspensions of avian erythroid nuclei, of high purity, were prepared. Acetylation of histones was observed when nuclei were incubated in the presence of [1-14C]acetyl CoA, but not in the presence of sodium [3H]acetate. 2.The acetylation reaction was very heat labile and reproduced the in vivo reaction with high fidelity. The reaction was strongly inhibited by divalent cations and cysteine. 3. Studies, in which intact cells were pre-incubated with cycloheximide prior to the isolation of nuclei, suggested that histone acetylation in isolated erythroid nuclei was largely independent of histone synthesis. 4. The pH profile suggested the presence of at least two histone acetyltransferases, with pH optima at 8.0 and 8.6. Acetylation of histone H4 appeared to be favoured at pH 8.0. 5. Studies on histone acetylation in isolated nuclei should be very useful in correlating observations on histone acetylation in vivo, with experiments using purified histone acetyltransferases.  相似文献   

10.
11.
In vitro phosphorylation of histones H1 and H3 by cAMP-dependent protein kinase A and endogenous phosphokinases in the presence of [γ-32P]ATP was studied in isolated rat liver nuclei with different variants of chromatin structural organization: condensed (diameter of fibrils 100–200 nm; N-1) and partly decondensed (diameter of fibrils ~30 nm; N-2). In the N-1 state histone, H1 is phosphorylated approximately twice as much than histone H3. Upon the decondensation of the chromatin in the N-2 state, 1.5-fold decrease of total phosphorylation of H1 is observed, while that of H3 does not change, although the endogenous phosphorylation of both histones is reduced by half. Changes in histone phosphorylation in the presence of low or high concentrations of distamycin and chromomycin differ for H1 and H3 in N-1 and N-2. It was found that distamycin (DM) stimulates the phosphorylation of tightly bound H1 fraction, which is not extractable by polyglutamic acid (PG), especially in N-1. Chromomycin (CM) increases the phosphorylation of both histones in PG extracts and in the nuclear pellets, particularly in N-2. At the same time, in N-1 one can detect phosphorylation of a tightly bound fraction of histones H1 whose N-termini are located on AT-rich sites that become inaccessible for protein kinase in the process of chromatin decondensation in N-2. At the same time, in N-2 the accessibility for protein kinase A of tightly bound H1 fractions, whose N-termini are located on GC-rich sites, increases dramatically. High concentrations of both CM and DM in N-1 and N-2 stimulated phosphorylation of the non-extractable by PG fraction of H1 whose N-termini are located on sites where AT ≈ GC. CM at high concentration stimulated 4–7 times the phosphorylation of a small fraction of H3, which is extracted by PG from both types of nuclei. We detected an effect of endogenous methylation of histones H1 and H3 in the nuclei on their subsequent phosphorylation depending on the chromatin structure, histone-chromatin binding strength, and concentration of DM.  相似文献   

12.
Synthesis and turnover of histone I and II in normal rat liver and spleen were studied by Amberlite CG 50 column chromatography. Histone I was separated into three or four subfractions, each of which showed a different rate of incorporation of [3H]lysine. This was verified by a more shallow gradient chromatography developed by Kinkade and Cole [3] for very lysine-rich histone (F1), which showed tissue specific differences between liver and spleen in both the elution pattern and synthetic rates. These subfractions were distinguished from each other by dodecylsulphate electrophoresis. The turnover, or disassociation of histone I and II in chromatin was measured by double-labelling of normal rat liver with [3H] and [14C]lysine. A good correspondence was found between the synthesis and turnover patterns of individual histone I fractions, while the histone II synthesized was conserved for over a month. From consideration of the turnover in relation to the cell population of normal liver tissue, which consists of a very small fraction of growing cells and a very large fraction of resting ones, it was concluded that turnover of histone I must occur even in resting cells. When DNA synthesis in the spleen was completely inhibited by hydroxyurea, the synthesis of histone II was inhibited but that of histone I was only partially inhibited. The remaining synthesis seemed to occur in cells in the resting state. It was concluded tentatively, the continuous replacement of very lysine-rich histones of chromatin must occur even in resting cells in which DNA synthesis has ceased. The biological significance of disassociation of histones from chromatin was discussed.  相似文献   

13.
In testicular seminiferous epithelial cells (SEC) of normal and hypophysectomized rats, 1-beta-D-arabinofuranosylcytosine and hydroxyurea (at concentrations which inhibited DNA synthesis nearly completely) inhibited histone synthesis only partially, and to a different extent for each histone fraction. In the presence of the inhibitors, the extent of synthesis relative to the corresponding control was TH1-x greater than H1 greater than TH2B-x = X2 = H2A greater than H2B = H3 greater than H4, in which synthesis of the H4 fraction was about 50% of control and that of TH1-x was 90-95% of control. The extent of inhibition of synthesis of each histone fraction was similar after hypophysectomy and, therefore, the changing of the relative populations of heterogeneous cells in the SEC did not influence the relative effects of the inhibitors of DNA synthesis on the synthesis of the various histone fractions. After [3H]leucine injection, the molar proportions of labeled histones relative to H4 decreased markedly between 1.5 h and 6-15 days; this finding indicated that there was rapid removal of histones compared to the H4 fraction during this period. When [14C]thymidine was injected 24 h prior to hydroxyurea treatment and [3H]leucine injection, the ratios of specific activities of histone H4 to DNA did not change significantly over an 11-day period. It appears that newly synthesized histone H4 and other somatic histones are associated with existing DNA in the presence of DNA inhibitors.  相似文献   

14.
15.
The steady state distribution of histone variant proteins and their modifications by acetylation were characterized in wild type and salinity stress adapted alfalfa (Medicago sativa). Isotopic labeling detected dynamic acetylation at four sites in the histone H3 variants and five sites in histones H4 and H2B. Histone variant H3.2 was the most highly acetylated histone with 25% higher steady state acetylation and a two- to threefold higher acetylation labeling than histone H3.1. Histone phosphorylation was limited to histone variants H1.A, H1.B, and H1.C and to histone H2A.3, which was also acetylated. Histone variant composition was unaffected by cellular exposure to NaCl. Histone acetylation was qualitatively similar in salt-tolerant and salt-sensitive cells under normal growth conditions. However, short term salt stress in salt sensitive cells or continued growth at 1% NaCl in salt tolerant cells led to major increases in the multiacetylated forms of histone H4 and the two variants of histone H3. These changes were more pronounced in the diploid than in the tetraploid alfalfa strains. The increase in multiacetylation of core histones serves as an in vivo reporter suggesting an altered intranuclear ionic environment in the presence of salt. It may also represent an adaptive response in chromatin structure to permit chromatin function in a more saline intranuclear environment.  相似文献   

16.
A global view of all core histones in yeast is provided by tandem mass spectrometry of intact histones H2A, H2B, H4, and H3. This allowed detailed characterization of >50 distinct histone forms and their semiquantitative assessment in the deletion mutants gcn5Delta, spt7Delta, ahc1Delta, and rtg2Delta, affecting the chromatin remodeling complexes SAGA, SLIK, and ADA. The "top down" mass spectrometry approach detected dramatic decreases in acetylation on H3 and H2B in gcn5Delta cells versus wild type. For H3 in wild type cells, tandem mass spectrometry revealed a direct correlation between increases of Lys(4) trimethylation and the 0, 1, 2, and 3 acetylation states of histone H3. The results show a wide swing from 10 to 80% Lys(4) trimethylation levels on those H3 tails harboring 0 or 3 acetylations, respectively. Reciprocity between these chromatin marks was apparent, since gcn5Delta cells showed a 30% decrease in trimethylation levels on Lys(4) in addition to a decrease of acetylation levels on H3 in bulk chromatin. Deletion of Set1, the Lys(4) methyltransferase, was associated with the linked disappearance of both Lys(4) methylation and Lys(14) and Lys(18) or Lys(23) acetylation on H3. In sum, we have defined the "basis set" of histone forms present in yeast chromatin using a current mass spectrometric approach that both quickly profiles global changes and directly probes the connectivity of modifications on the same histone.  相似文献   

17.
18.
DNA in eukaryotic organisms does not exist free in cells, but instead is present as chromatin, a complex assembly of DNA, histone proteins, and chromatin-associated proteins. Chromatin exhibits a complex hierarchy of structures, but in its simplest form it is composed of long linear arrays of nucleosomes. Nucleosomes contain 147 base pairs of DNA wrapped around a histone octamer, consisting of two copies each of histones H2A, H2B, H3 and H4, where 15-38 amino terminal residues of each histone protein extends past the DNA gyres to form histone “tails” 1. Chromatin provides a versatile regulatory platform for nearly all cellular processes that involve DNA, and improper chromatin regulation results in a wide range of diseases, including various cancers and congenital defects. One major way that chromatin regulates DNA utilization is through a wide range of post-translational modification of histones, including serine and threonine phosphorylation, lysine acetylation, methylation, ubiquitination, and sumoylation, and arginine methylation 2. Histone H4 K16 acetylation is a modification that occurs on the H4 histone tail and is one of the most frequent of the known histone modifications. We have demonstrated that this mark both disrupts formation of higher-order chromatin structure and changes the functional interaction of chromatin-associated proteins 3. Our results suggest a dual mechanism by which H4 K16 acetylation can ultimately facilitate genomic functions.  相似文献   

19.
The modification patterns of histones present in various forms of intracellular simian virus 40 nucleoprotein complexes were analyzed by acetic acid-urea-polyacrylamide gel electrophoresis. The results showed that different viral nucleoprotein complexes contain different histone patterns. Simian virus 40 chromatin, which contains the activities for the synthesis of viral RNA and DNA, exhibits a histone modification pattern similar to that of the host chromatin. However, virion assembly intermediates and mature virions contain highly modified histones. Pulse-chase experiments with [3H]lysine showed that the newly incorporated histones in the virion assembly intermediates were already highly modified. The majority of in vivo acetylation activity of histones occurred on the 70S simian virus 40 chromatin as analyzed by pulse-labeling with [3H]acetate. These results and our previous analysis of the virion assembly pathway suggest that three stages are involved in the packaging of simian virus 40 chromatin into the mature virion: (i) modification of histones, (ii) accumulation of capsid protein around the chromatin with highly modified histones, and (iii) organization of capsid proteins into salt-resistant shells. The role of histone modification in virion assembly is discussed.  相似文献   

20.
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