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1.
Newly synthesized histones have been extracted from Rana pipiens oocytes or cleaving embryos previously injected with [3H]lysine or [3H]arginine. The radioactive proteins were fractionated by cation-exchange chromatography and electrophoresis on acid/urea or SDS-polyacrylamide gels; histones were identified by coelectrophoresis with authentic markers. From percentage total incorporation in the putative histones, and absolute rates of lysine or arginine incorporation, rates of histone synthesis were estimated. Rates of histone synthesis in two-cell embryos were at least 10-fold higher than in maturing oocytes. Between the two-cell and blastula stages, the rate increased an additional threefold, from about 1200 pg hr?1 per embryo to about 4500 pg hr?1 per embryo. While all histone classes are synthesized during cleavage, synthesis of the various classes is not coordinated; histones are not synthesized in the same relative proportions at which they are found in blastula chromatin. The synthesis of histone H4 in particular is barely detectable during cleavage. This, and other observations, suggested the existence of cytoplasmic histone pools. In approaching the possible existence of histone pools, the amount of H4 present in oocytes was determined. Oocytes contain about 74 ng of H4, an amount sufficient to allow development to the blastula stage. These data are compared to those reported by others on histone synthesis during cleavage in Xenopus.  相似文献   

2.
The synthesis of basic proteins has been studied in the oocytes, eggs and embryos of the South African clawed frog, Xenopus laevis. A group of newly synthesized proteins has been identified as histones by the following criteria: solubility properties; incorporation of [3H]lysine and [3H]arginine in the correct proportions, but lack of incorporation of [3H]tryptophan; co-cleotrophoresis with marker histones in various types of polyacrylamide gels, including a type run in two dimensions; peptide analysis of the arginine-rich fraction, F2A1. The four main histone fractions other than F1 were found to be synthesized at all stages of development. F1 histone synthesis was first detected at the late blastula stage.Rates of histone synthesis were estimated for the different stages of development and it was concluded that histone synthesis was not co-ordinated with DNA synthesis either temporally or quantitatively. Histone synthesis was unusual in the following major respects: histones were synthesized in oocytes, and yet in these cells DNA replication had not occurred for several months; histones were synthesized in activated or fertilized eggs at a rate far in excess (about 500 times) of the immediate requirements. We suggest that in order to provide enough histones for the late blastula embryo a store of histone is accumulated during the early cleavage stages and possibly during oogenesis.  相似文献   

3.
The synthesis of the nuclear proteins of duck erythroid cells at different stages of maturation has been investigated. Synthesis of histone fractions H1, H2a, H2b, H3, and H4 is restricted to the erythroblasts, while synthesis of H5 can be detected even at later stages of maturation after DNA synthesis has ceased. The synthesis of nonhistone nuclear proteins (NHNP), on the other hand, occurs in cells at all stages of maturation although their rates of synthesis decline as the cells mature. The same size classes of NHNP appear to be synthesized in erythroblasts and in early- and midpolychromatic erythrocytes. In late polychromatic erythrocytes the synthesis of a new group of NHNP of molecular weights ranging from 54,000 to 130,000 was observed. This group of proteins does not accumulate in the mature erythrocyte, indicating that their relative proportions are very small.Turnover of histone-bound phosphate was found to occur mainly at the erythroblast stage, except for histone H2a which was actively phosphorylated even at more advanced stages of maturation. Phosphorylation of most of the histones appears to be coupled to histone (and coordinate DNA) synthesis.Incorporation of radioactive acetate into histones occurs at all stages, but the rate of acetylation decreases four- to fivefold with maturation. Although the RNA synthetic activity of erythroid cells also decreases with age, experiments involving the use of RNA polymerase inhibitors suggest that the mechanisms that control RNA synthesis and histone acetylation are not tightly coupled.  相似文献   

4.
The in vivo phosphorylation of histones in the livers of Rana catesbeiana tadpoles was followed during the course of thyroxine-induced metamorphosis. Phosphorylation of histones H1 and H2a, and possibly of histone H4 at a low level, was observed in all animals. After correction for specific radioactivity of liver inorganic phosphate pools, an apparent wave of phosphorylation of histones was found to occur between 2 and 8 days of thyroxine treatment, with a peak increase of approximately 2- to 5-fold for histones H2a and H1. The increases in liver histone phosphorylation are approximately coincident with well-documented increases in the levels of various liver enzymes and occur in the absence of any change in the low basal rate of histone or DNA synthesis in this organ. This is apparently the first instance of increased phosphorylation of both H1 and H2a which is not coincident with or precedent to increases in cellular proliferation rates.  相似文献   

5.
6.
The H1 histones from erythrocytes, livers, intestines, testes, and embryos of Xenopus laevis have been examined electrophoretically. This species has been found to contain at least five electrophoretically resolvable lysine-rich histones in addition to the presumptive H5 histone of erythrocytes. Quantitative and qualitative distinctions between the H1 histones from each source were readily observed. Three H1 histones (H1A, H1B, and H1C) were found in both embryos and adult tissues, although in varying amounts. Two other H1 histones (H1D and H1E) were found only in adult tissues. Comparative SDS gel V8 protease cleavage maps of the lysine-rich histones from testes and erythrocytes have demonstrated that the “adult-specific” H1D and H1E are not artifacts of proteolysis and may be closely related to the presumptive H5 histone. Spermatogenic cells were found to be similar to embryonic cells in being deficient in H1D and H1E. These observations suggest that H1D and H1E are enriched in cell types with low rates of cell division similar to the mammalian H1° histone. The results presented here demonstrate a previously unrecognized degree of developmental and cell-specific variance in the H1 histones of Xenopus laevis.  相似文献   

7.
The histones present in mature oocytes and embryos of Urechis caupo and their pattern of synthesis during early development have been characterized. Acid-soluble proteins extracted from mature oocyte germinal vesicles and from embryonic nuclei were analyzed by two-dimensional polyacrylamide gel electrophoresis. Histones are accumulated in the mature oocytes in amounts sufficient to provide for the assembly of chromatin through the 32- to 64-cell stage of embryogenesis. Two H1 histones, which appear to be variants, were found. Germinal vesicles and cleavage-stage nuclei are enriched in H1M (maternal). During late cleavage a faster-migrating H1, H1E (embryonic), appears among the nuclear histones and, as embryogenesis continues, replaces H1M as the predominant H1. No new core histone variants are detected during early development. Examination of [3H]lysine-labeled histones from germinal vesicles and embryonic nuclei reveals stage-specific patterns of histone synthesis. H1M is the major H1 species synthesized in mature oocytes. After fertilization, a switch to the predominant synthesis of H1E occurs. Comparison of the [3H]lysine incorporated into H1E and core histones indicates that H1E synthesis is disproportionately high from midcleavage through the midblastula stage. By the gastrula stage, a balanced synthesis of H1E and each core histone is established. The results indicate that there is noncoordinate regulation of H1 and core histone synthesis during Urechis development.  相似文献   

8.
9.
Cytochemical staining characteristics of nuclear histones during postfertilization maturation division and various early embryonic stages in Urechis have been studied. The transition of protamine-type protein to adult histones in the sperm nucleus is accomplished by 15 min after entrance into the egg cytoplasm. Newly synthesized egg proteins migrate into enlarging male and female pronuclei after this transition, followed by pronuclear DNA synthesis and fusion. The shift from protamine-type protein to adult histones, which occurs in the absence of RNA synthesis during the postfertilization maturation division of the egg, may be one of the processes involved in the normal structural reorganization of chromosomes. Such a reorganization is likely to be a prerequisite for chromosome replication and mitosis. No qualitative differences are detected in the stainability of histones of unfertilized eggs and embryos at the cleavage and later stages of development.  相似文献   

10.
It has been known for several years that DNA replication and histone synthesis occur concomitantly in cultured mammalian cells. Normally all five classes of histones are synthesized coordinately. However, mouse myeloma cells, synchronized by starvation for isoleucine, synthesize increased amounts of histone H1 relative to the four nucleosomal core histones. This unscheduled synthesis of histone H1 is reduced within 1 h after refeeding isoleucine, and is not a normal component of G1. The synthesis of H1 increases coordinately again with other histones during the S phase. The DNA synthesis inhibitors, cytosine arabinoside and hydroxyurea, block all histone synthesis in S-phase cells. The levels of histone H1 mRNA, relative to the other histone mRNAs, is increased in isoeleucine-starved cells and decreases rapidly after refeeding isoleucine. The increased incorporation of histone H1 is at least partially due to the low isoleucine content of histone H1. Starvation of cells for lysine resulted in a decrease in H1 synthesis relative to core histones. Again the ratio was altered on refeeding the amino acid. 3T3 cells starved for serum also incorporated only H1 histones into chromatin. The ratio of different H1 proteins also changed. The synthesis of the H10 protein was predominant in G0 cells, and reduced in S-phase cells. These data indicate the metabolism of H1 is independent of the other histones when cell growth is arrested.  相似文献   

11.
Abstract. Striking developmental changes in histone and histone synthesis in sea urchin embryos were observed in three histone classes, H1, H2A and H2B. In each case there is a shift in histone synthesis from the early cleavage stage types to other types of histones at the morula stage; Two new forms appear after the blastula stage. In addition, multiple changes in histone types were found during gameto-genesis in the male and female gonads where specific histones, different from the embryonic histones, were observed.  相似文献   

12.
RNA transcription and translation in sea urchin oocytes and eggs   总被引:3,自引:0,他引:3  
The steady-state concentrations and absolute rates of synthesis of ribosomal RNA (rRNA) molecules were measured in oocytes, eggs, embryos, and larvae of the Hawaiian sea urchin Tripneustes gratilla. The steady-state concentration per genome of the RNA precursor sequences measured by hybridization to a cloned rDNA fragment was approximately 100- to 300-fold greater in the RNA obtained from oocytes and eggs than in the RNA extracted from embryos and larvae. Since the rate of processing of the rRNA precursor at different stages is not greatly different, the rates of rRNA synthesis must be considerably greater in oocytes than in embryo cells. The absolute rate of RNA synthesis in oocytes and embryos was determined from the incorporation of [3H]guanosine into cellular GTP pools and into both precursor and mature rRNA species. The data indicate an approximately 40-fold higher rate of rRNA synthesis in oocytes than that measured in embryos or previously in larvae (J. Griffith and T. Humphreys, 1979, Biochemistry18, 2178–2185). Together these results indicate that the ribosomal genes are transcribed much more rapidly during sea urchin oogenesis than during embryogenesis or larval stages.  相似文献   

13.
To obtain information on the amounts and major classes of RNA stored in the mouse egg and accumulated during cleavage, we determined the contents of total RNA, total poly(A), and ribosomes from the 1-cell stage to blastocyst. Using purified RNA for assay, we obtained an RNA content of 0.35 ng in the unfertilized egg, 0.24 ng in 2-cell, 0.69 ng in 8- to 16-cell, and 1.47 ng in early bastocyst (32 cells). As derived from EM morphometry, the number of ribosomes accounts for 60–70% of the total RNA content at all these stages; the marked increase in ribosomal number during cleavage is attributable entirely to new synthesis. Hybridization with [3H]poly(U) in solution yielded a poly(A) content of 0.7 pg for the unfertilized egg and 0.83 pg for the 1-cell embryo. The poly(A) content dropped sharply, to 0.26 pg per embryo, by the late 2-cell stage and increased to 0.44 pg in 8- to 16-cell embryos and 1.42 pg in early blastocysts. Hybridization in situ gave a similar pattern and also revealed a heavy labeling of embryo nuclei from the 2-cell onward but very little, if any, labeling of the pronuclei of 1-cell embryos, suggesting an absence, or low level, of poly(A)+ RNA synthesis at the 1-cell but an active synthesis at the 2-cell and later stages. These findings and other available evidence(e.g., R. Bachvarova and V. De Leon, 1980, Develop. Biol.74, 1–8) suggest that the mouse embryo inherits a large supply of maternal mRNA but that the bulk of this RNA is eliminated in the 2-cell embryo. In situ hybridization was used to study the relative concentration of poly(A) in ovarian oocytes. In growing oocytes, the cytoplasmic concentration of poly(A) remains about the same, suggesting that the accumulation of poly(A)+ RNA is proportional to oocyte growth. The poly(A) content declines about twofold between the time of completion of oocyte growth and fertilization. The germinal vesicle continues to be labeled up to the time of ovulation, raising the possibility that poly(A)+ RNA synthesis (and presumably turnover) occurs in fully grown oocytes.  相似文献   

14.
The absolute rates of synthesis of specific ribosomal proteins have been determined during growth and meiotic maturation of mouse oocytes, as well as during early embryogenesis in the mouse. These measurements were made possible by the development of a high-resolution twodimensional gel electrophoresis procedure capable of resolving basic proteins with isoelectric points between 9.1 and 10.2. Mouse ribosomal proteins were separated on such gels and observed rates of incorporation of [35S]methionine into each of 12 representative ribosomal proteins were converted into absolute rates of synthesis (femtograms or moles synthesized/hour/oocyte or embryo) by using previously determined values for the absolute rates of total protein synthesis in mouse oocytes and embryos (R. M. Schultz, M. J. LaMarca, and P. M. Wassarman, 1978,Proc. Nat. Acad. Sci. USA,75, 4160;R. M. Schultz, G. E. Letourneau, and P. M. Wassarman, 1979,Develop. Biol.,68, 341–359). Ribosomal proteins were synthesized at all stages of oogenesis and early embryogenesis examined and, while equimolar amounts of ribosomal proteins were found in ribosomes, they were always synthesized in nonequimolar amounts during development. Rates of synthesis of individual ribosomal proteins differed from each other by more than an order of magnitude in some cases. Synthesis of ribosomal proteins accounted for 1.5, 1.5, and 1.1% of total protein synthesis during growth of the oocyte, in the fully grown oocyte, and in the unfertilized egg, respectively. During meiotic maturation of mouse oocytes the absolute rate of synthesis of ribosomal proteins decreased about 40%, from 620 to 370 fg/hr/cell, as compared to a 23% decrease in the rate of total protein synthesis during the same period. On the other hand, during early embryogenesis the absolute rates of synthesis of each of the 12 ribosomal proteins examined increased substantially as compared with those of the unfertilized egg, such that at the eight-cell stage of embryogenesis synthesis of ribosomal proteins (4.17 pg/hr/embryo) accounted for about 8.1% of the total protein synthesis in the embryo. Consequently, while the absolute rate of total protein synthesis increased about 1.5-fold during development from an unfertilized mouse egg to an eight-cell compacted embryo, the absolute rate of ribosomal protein synthesis increased more than 11-fold during the same period. These results seem to reflect the differences reported for the patterns of ribosomal RNA synthesis during early development of mammalian, as compared to nonmammalian, animal species. The results are compared with those obtained using oocytes and embryos fromXenopus laevis.  相似文献   

15.
The effect of triiodothyronine (T3) on the rate of synthesis of nuclear proteins was studied during terminal differentiation of rat cortical neurons cultured in a serum-free medium. To this aim total and acid soluble nuclear proteins were analyzed by different electrophoretic techniques. Our results show that: 1) during maturation in vitro, neuronal nuclei undergo a dramatic change in the rate at which different classes of histones and high mobility group (HMG) proteins are synthesized; the synthetic activity, measured as incorporation of radioactive precursors into nuclear proteins, slows indeed down with age: especially evident is the decrease in core histones synthesis; at day 15, on the other hand, HMG 14 and 17 and ubiquitinated H2A (A24) are synthesized at a high rate, especially in T3-treated neurons; 2) neurons treated with T3 show, at any age tested, a higher level of lysine incorporation into nuclear proteins; 3) even if during the first days of culture neurons synthesize core histones more actively in the presence of T3, there is no accumulation of these proteins at later stages, as compared with untreated cells. Possible implications of these data and relationship with the chromatin rearrangement which accompanies neuronal terminal differentiation are discussed.  相似文献   

16.
Acetylation of histones during spermatogenesis in the rat   总被引:2,自引:0,他引:2  
Acetate was actively incorporated into rat testis histones when testis cells were prepared by the trypsinization technique in the presence of [3H]acetate. The acetylation was enhanced by 10 mm sodium butyrate. Although histones H3 and H4 were the only histones which incorporated high levels of acetate, the testis-specific histones TH2B and TH3 also appeared to incorporate acetate. This was shown by electrophoresis of the histones on polyacrylamide gels containing Triton X-100. Results, obtained from analysis of histones by two-dimensional gel electrophoresis, confirmed a recent report (P. K. Trostle-Weige, M. L. Meistrich, W. A. Brock, K. Nishioka, and J. W. Bremer, (1982) J. Biol. Chem.257, 5560–5567) that TH2A was a testis-specific histone. The results also confirmed the H2A nature of a testis-enriched histone band, previously designated X2. When histones from populations of cells enriched in specific testis cell types, representing various stages of spermatogenesis, were examined, the patterns of acetylation varied dramatically. Very high levels of acetate were incorporated into multiacetylated species of histone H4 from a population of cells enriched in transition stage spermatids (steps 9–12) compared to the levels of acetate incorporated into H4 from round spermatids (steps 1–8) and earlier stages of spermatogenesis, where acetate was incorporated primarily into the monoacetylated species of H4. Thus, a striking correlation exists between the time of hyperacetylation of histone H4 and the time of removal of histones for their replacement by the basic spermatidal transition proteins designated TP, TP2, and TP4. Hyperacetylation of histone H4 may facilitate the removal of the entire histone complement during the protein transition. In any case, it must be an obligatory step in the dramatic process.  相似文献   

17.
Histones and histone synthesis in sea urchin development   总被引:18,自引:0,他引:18  
Histones are synthesized and become a part of the chromatin as early as the first cleavage in sea urchins. Reproducible changes in relative amounts of individual histone fractions synthesized are observed during development. A new and electrophoretically distinct very lysine rich fraction appears at hatching in Arbacia and in the early gastrula of Lytechinus. When RNA synthesis is blocked by actinomycin D, maternal mRNA alone can direct a quantitatively and qualitatively changing pattern of histone synthesis as cleavage proceeds. Inhibition of DNA synthesis by hydroxyurea reduces synthesis of histones; the arginine-rich histones are more severely affected than the lysine-rich ones.  相似文献   

18.
Histone synthesis and deposition into specific classes of nuclei has been investigated in starved and conjugating Tetrahymena. During starvation and early stages of conjugation (between 0 and 5 hr after opposite mating types are mixed), micronuclei selectively lose preexisting micronuclear-specific histones α, β, γ, and H3F. Of these histones, only α appears to accumulate in micronuclear chromatin through active synthesis and deposition during the mating process. Curiously, α is not observed (by stain or label) in young macronuclear anlagen (4C, 10 hr of conjugation). Thus, young macronuclear anlagen are missing all of the histones which are known to be specific to micronuclei of vegetative cells. By 14–16 hr of conjugation, we observe active synthesis and deposition of macronuclear-specific histones, hv1, hv2, and H1, into new macronuclear anlagen (8C). Thus macronuclear differentiation seems well underway by this time of conjugation. It is also in this time period (14–16 hr) that we first detect significant amounts of micronuclear-specific H1-like polypeptides β and γ in micronuclear extracts. These polypeptides do not seem to be synthesized during this period, which suggests that β and γ are derived from a precursor molecule(s). Since these micronuclear-specific histones do not appear in micronuclear chromatin until after other micronuclei have been selected to differentiate as macronuclei, we suspect that micronuclear differentiation is also an important process which occurs in 10–16 hr mating cells. Our results also suggest that proteolytic processing of micronuclear H3S into H3F (which occurs in a cell cycle dependent fashion during vegetative growth) is not operative during most if not all of conjugation. Thus micronuclei of mating cells contain only H3S which also seems consistent with the fact that some micronuclei differentiate into new macronuclei (micronuclear H3S is indistinguishable from macronuclear H3). Interestingly, the only H3 synthesized and deposited into the former macronucleus of mating cells is the relatively minor macronuclear-specific H3-like variant, hv2. These results demonstrate that significant histone rearrangements occur during conjugation in Tetrahymena in a manner consistent with the fact that during conjugation some micronuclei eventually differentiate into new macronuclei. Our results suggest that selective synthesis and deposition of specific histones (and histone variants) plays an important role in the nuclear differentiation process in Tetrahymena. The disappearance of specific histones also raises the possibility that developmentally regulated proteolytic processing of specific histones plays an important (and previously unsuspected) role in this system.  相似文献   

19.
Histones of the sea urchin Strongylocentrotus droebachiensis were labelled in vivo with [14C]protein hydrolysate and [14C]sodium acetate at the developmental stages of blastula, gastrula and pluteus. They were further resolved by electrophoresis in 15% polyacrylamide gels in the presence of 0.9 M acetic acid, 8 M urea as well as in 20% polyacrylamide gels containing the same concentrations of acetic acid and urea, but in addition, 4.3 mM Triton X-100. On comparison of electrophoretic patterns with autoradiograms it was shown that during the early stages of differentiation the synthesis of several new subfractions of some of the histones takes place, namely of two of H1, of two of H2b and of nine of H2a. At the same time the electrophoretic pattern of the arginine-rich histones remained constant, H3 consisting of three and H4 of four subfractions. The basic reason for this heterogeneity seems to be the specific post-synthetic acetylation of the histones. At the blastula stage all the newly synthesized H4 molecules are equally acetylated, while the histone H3 molecules are acetylated to varying extents. After gastrulation both H3 and H4 are also subject to a different level of acetylation.  相似文献   

20.
We have examined the molecular mechanisms responsible for the shifts in histone protein phenotype during embryogenesis in the sea urchinStrongylocentrotus purpuratus. The H1, H2A, and H2B classes of histone synthesized at the earliest stages of cleavage are heterogeneous: These proteins are replaced at late embryogenesis by a different set of histone-like polypeptides, some of which are also heterogeneous. The H3 and H4 histones appear to be homogeneous classes and remain constant. We have isolated from both early and late embryos the individual messenger RNAs coding for each of the multiple protein subtypes. The RNAs were isolated by hybridization to cloned DNA segments coding for a single histone protein or by elution from polyacrylamide gels. Each RNA was then analyzed and identified by its mobility on polyacrylamide gels and by its template activity in the wheat germ cell-free protein synthesizing system. The mRNAs for each of the five early histone protein classes are heterogeneous in size and differ from the late stage templates. The late mRNAs consist of at least 11 separable types coding for the 5 classes of histones. Each of the 11 has been separated and identified. The late stage proteins were shown to be authentic histones since many of their templates hybridize with histone coding DNA. The early and late stage mRNAs are transcribed from different sets of histone genes since (1) late stage H1 and H2A mRNAs fail to hybridize to cloned early stage histone genes under ideal conditions for detecting homologous early stage hybrids, (2) late stage H2B, H3, and H4 RNA/DNA hybrids melt at 14, 11, and 11°C lower, respectively, than do homologous RNA/DNA hybrids, and (3) purified late stage mRNAs direct the synthesis of the variant histone proteins which are synthesized only during later stages. The time course of synthesis of the late stage mRNAs suggests that they appear many hours before the late histone proteins can be detected, possibly as early as fertilization. In addition, early mRNAs are synthesized in small quantities as late as 40 hr after fertilization, during gastrulation. Thus, the major modulations of histone gene expression are neither abrupt nor an absolute on-off switch, and may represent only a gradual and relative repression of early gene expression. Two histones are detected only transiently during early cleavage. The mRNA for one of them, a subtype of H2A, can be detected in the cytoplasm for as long as 40 hr after fertilization. However, template activity for the other, a subtype of H2B, can be detected only at the blastula stage. Thus, the histone genes represent a complex multigene family that is developmentally modulated.  相似文献   

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