Maternal messenger RNA and histone synthesis in embryos of the surf clam Spisula solidissima.

Messenger RNA has been isolated from the postribosomal supernatant of Spisula solidissima eggs. This mRNA directs the synthesis of several proteins when added to the ascites or wheat germ cell free system. No histone except F1 is coded for by Spisula egg mRNA, in contrast to what has been reported previously for sea urchin egg mRNA. In sea urchin eggs histone mRNA is among the abundant species of maternal mRNA.Histones have been prepared from Spisula embryos at different development stages and histone synthesis followed by incubation with (¹⁴C)lysine. The analysis by electrophoresis on acrylamide gels indicates that the pattern of synthesis of histones changes during development and that a new histone F1 fraction is actively synthesized from the 32–64 cells stage. In earlier embryos a different F1 histone is synthesized and the mRNA for this protein may be the only histone mRNA present in eggs.     

The stability and translation of sea urchin histone messenger RNA molecules injected into Xenopus laevis eggs and developing embryos

Embryonic sea urchin histone mRNA was injected into eggs and developing zygotes of Xenopus. The functional stability of the mRNA was monitored by separating newly synthesized sea urchin histones from those of Xenopus. Just as when injected into Xenopus oocytes, sea urchin H1, H2A, and H2B mRNA molecules have a functional half-life of about 3 hr in the developing embryo. This suggests that the endogenous Xenopus histone mRNA is also unstable and has a number of implications for the amount of histone mRNA that is stored in the oocyte and the time at which histone genes should become active in development. The injected mRNA is translated with little, if any, greater efficiency in the egg than in the oocyte. However, Xenopus histone synthesis increases about 20- to 50-fold during the transition from oocyte to egg. The injection experiments therefore suggest that this increase is brought about primarily by the mobilization of stored mRNA, rather than an increase in the efficiency of histone synthesis.     

Isolation and sequence analysis of sea urchin (Lytechinus pictus) histone H4 messenger RNA

Histone messenger RNAs isolated from early blastula stage Lytechinus pictus sea urchin embryos have been separated into discrete RNA bands on polyacrylamide gels. The most rapidly migrating of these molecules, the putative histone H4 mRNA, has been digested with T₁ ribonuclease to generate oligonucleotides for nucleotide sequence analysis. Many of these sequences are colinear with the highly conserved amino acid sequence of histone H4 protein as determined for both cows and peas.Histone H4 messenger RNA hybridizes in conditions of DNA excess to sea urchin DNA which is repeated approximately 470-fold. Despite this level of repetition the nucleotide sequence of the H4 messenger RNA reflects little evolutionary divergence within the H4 genes of L. pictus as judged by the stoichiometric yield of T₁ oligonucleotides and the hybridization and thermal stability of histone H4 mRNA-DNA hybrids.     

Sequence analysis and evolution of sea urchin (Lytechinus pictus and Strongylocentrotus purpuratus) histone H4 messenger RNAs

The putative histone H4 (F2a₁) mRNA has been isolated from early blastula Strongylocentrotus purpuratus sea urchin embryos. Nucleotide sequences of oligonucleotides obtained by digestion of this RNA with T₁ ribonuclease have been obtained and many are found to be colinear with the amino acid sequence of histone H4 protein. The sequences obtained from the H4 mRNAs of S. pnrpuratus have been compared with those obtained from Lytechinus pictus (Grunstein & Schedl, 1976). The two mRNAs for this highly conserved protein have undergone considerable divergence of the sort that would be predicted from the degeneracy of the genetic code. 11.5% of the bases have undergone substitution at a rate calculated to be 3 × 10^?9 base changes · codon^?1 · year^?1.     

Acetylation of histones of rat testis.

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.     

Cell-free translation analysis of messenger RNA in echinoderm and amphibian early development

A wheat germ cell-free translation system has been used to analyze populations of abundant messenger RNA from sea urchin eggs and embryos and from amphibian oocytes and ovaries. We show directly that sea urchin eggs and embryos contain translatable mRNA of three general classes: poly(A)⁺ mRNA, poly(A)^? histone mRNA, and poly(A)^? nonhistone mRNA. Additionally, some histone synthesis appears to be promoted by poly(A)⁺ RNA. Sea urchin eggs seem to contain a higher proportion of prevalent poly(A)^? nonhistone mRNAS than do embryos. Some differences in the proteins encoded by poly(A)⁺ and poly(A)^? RNAs are detectable. Many coding sequences in the egg appear to be represented in both poly(A)⁺ and poly(A)^? RNAs, since the translation products of the two RNA classes exhibit many common bands when run on one-dimensional polyacrylamide gels. However, some of this overlap is probably due to fortuitous comigration of nonidentical proteins. Distinct stage-specific changes in the spectra of prevalent translatable mRNAs of all three classes occur, although many mRNAs are detectable throughout early development. Particularly striking is the presence of an egg poly(A)^? mRNA, encoding a 70,000–80,000 molecular weight protein, which is not detected in morula or later-stage embryos. In amphibian (Xenopus laevis and Triturus viridescens) ovary RNA, the translation assay detects the following three mRNA classes: poly(A)⁺ nonhistone mRNA, poly(A)^? histone mRNA, and poly(A)⁺ histone mRNA. Amphibian ovary RNA appearently lacks an abundant poly(A)^? nonhistone mRNA component of the magnitude detectable in sea urchin eggs. mRNA encoding histone-like proteins is found in the very earliest (small stage 1) oocytes of Xenopus as well as in later stage oocytes. During oogenesis there appear to be no striking qualitative changes in the spectra of prevalent translatable mRNAs which are detected by the cell-free translation assay.     

Timing of initiation of polyadenylation of preformed RNA in sea urchin and Urechis caupo zygotes

An increase in the synthesis of polyadenylic acid, following fertilization, was examined in sea urchin, Strongylocentrotus purpuratus, and the marine worm Urechis caupo embryos. It was found that in both organisms there is a large increase in the incorporation of [³H]adenosine into the poly(A) region, of poly(A)-containing RNA, in the phase preceding the 2-cell stage. In sea urchin this rise was localized to the G₂ period. Similar findings were made in Urechis indicating that polyadenylation of RNA may be a common postfertilization event in many developing organisms.     

Histones from embryos of the sea urchin Arbacia lixula

Whole histones and histone fractions of the sea urchin, Arbacia lixula, embryos have been characterized by their appearance during development and by their amino acid composition. Comparison of electrophoretic mobility of the histone fractions from hatching blastula and gastrula stage embryos demonstrates the similarity of the basic proteins at these two stages. Histones F2a1 and F3 of hatching embryos are very similar to those of sperm, including the presence of cysteine in F2a1 from both sources. Both F2a1 and F3 display electrophoretic heterogeneity due to acetylation, not observed in the homologous sperm histones. F2a2 from embryos has different electrophoretic mobility than that from sperm, although their amino acid compositions are very similar. The relative proportion of F2a2 increases whereas that of F3 decreases during gastrulation. Slightly lysine-rich histone F2b could not be recovered from embryos by the standard methods of extraction. The very lysine-rich histone F1 of late embryos is partially phosphorylated and is remarkably different from that of sperm, notably by its higher electrophoretic mobility and lower content in arginine and proline. The significance of these results is discussed with regard to the structure and activity of chromatin.     

Histone synthesis in early amphibian development: histone and DNA syntheses are not co-ordinated

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.     

Translation of maternal messenger ribonucleoprotein particles from sea urchin in a cell-free system from unfertilized eggs and product analysis

Maternal mRNP particles were isolated from the postribosomal supernatant fluid of unfertilized sea urchin eggs. They were translated in a cell-free system derived from unfertilized eggs. The translation of these particles required the presence of 12 mM MgCl₂, which is considered very high. The same high Mg²⁺ requirement was observed when mRNP particles were translated in a cell-free system from morula embryos. In contrast, mRNA extracted from mRNP particles is translated at 3 mM MgCl₂. This concentration of Mg²⁺ is known to be optimal for initiation of mRNA translation. Likewise, a rabbit globin mRNA is faithfully translated into α and β globin chains in a cell-free system from eggs at 3, but not at 12, mM MgCl₂. The translational products directed by mRNP or by mRNA derived from mRNP were examined in two gel systems and were found to be very similar. In both cases, histones were identified as part of the translational product. This indicated that the translation of mRNP in high Mg²⁺ is not due to nonspecific binding of these particles to ribosomes. The rates of globin synthesis in a cell-free system derived from eggs is comparable to that of morula ribosomes and to that reported for translation of globin with mouse liver and reticulocyte ribosomes, indicating that unfertilized sea urchin egg ribosomes do not possess a translational inhibitor and that no deficiency in initiation factors for mRNA translation could explain the low rate of protein synthesis in unfertilized sea urchin eggs.     

Alterations in amounts and covalent modifications of low-molecular-weight chromosomal proteins in Chinese hamster ovary cells during polyamine depletion

The effect of polyamine depletion on phosphorylation and ADP-ribosylation of low-M_r chromosomal proteins was studied in intact, mutant Chinese hamster ovary cells (CHO-P22) devoid of ornithine decarboxylase activity. When starved of polyamines for 6 days, severe polyamine deficiency develops and the cells gradually stop growing. The rate of DNA synthesis was retarded to 16% of the control value and to 29% in density-inhibited cells. The synthesis of high-mobility-group (HMG) proteins was decreased by 65% in polyamine-depleted cells and by 40% in density-inhibited cells. The synthesis of core histones was decreased by 40% both in polyamine-depleted and density-inhibited cells. In polyamine-depleted cells the molar ratio of the higher-M_r HMG proteins (HMG 1 + 2) to the lower-M_r HMG proteins (HMG 14 + P) was about one-half of that found in cells grown in the presence of putrescine or in density-inhibited cells. In contrast to HMG proteins, no major differences were found in the content of core histones in these cell populations. In the perchloric acid-soluble fraction of nuclear proteins, ³²P was incorporated mainly into histone H1, HMG P and a protein migrating more slowly than HMG 1 (protein P1). Specific changes in the ³²P-labeling and migration of a number of protein bands, including histone H1, was observed in polyamine-depleted cells as compared to cells grown in the presence of putrescine or to density-inhibited cells. ADP-ribosylation experiments using [³H]adenosine showed a different pattern of label distribution; the higher-M_r HMG proteins from polyamine-depleted cells contained about one-half the amount of label found in the proteins from control cells. The lower-M_r HMG proteins and histone H1 were the preferentially labeled proteins in polyamine-depleted cells. Labeling of core histones with [³²P]orthophosphate or [³H]adenosine did not differ markedly in the two cell populations. The results obtained using intact polyamine auxotrophic cells indicated that polyamine depletion is connected with more severe alterations in amounts and covalent modifications (phosphorylation and ADP-ribosylation) of HMG chromosomal proteins and histone H1 than core histones.     

Separation and properties of an H2B histone variant from the sperm chromatin of the sea urchin Sphaerechinus granularis

The purification and the physico-chemical characterization of one of the two H2B histone variants from the sperm of the sea urchin Sphaerechinus granularis are reported. The molecule shows, in addition to a distinctive molecular weight value, an amino acid composition different both from that of calf thymus H2B histone and from those of H2B histones from chromatin of sperm and embryos of other sea urchins. Circular dichroism and fluorescence data are discussed in comparison to those of calf thymus H2B.     

Rates of histone synthesis during early development of Rana pipiens

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.     

Expression of maternal and paternal histone genes during early cleavage stages of the echinoderm hybrid Strongylocentrotus purpuratus × Lytechinus pictus

Interspecific hybrids of the sea urchins Strongylocentrotus purpuratus (♀) and Lytechinus pictus (♂) were used to estimate the contributions of the maternal and paternal genomes to histone mRNA synthesis during early development. Radiolabeled histone mRNAs from the two sea urchin species were identified by hybridization to cloned histone genes from both S. purpuratus and L. pictus and shown to be electrophoretically distinguishable. The synthesis of maternal and paternal histone mRNA in these hybrid embryos is evident as early as the two-cell stage. By at least the 16-cell stage, both maternal and paternal histone mRNAs are associated with polysomes. The relative amounts of the maternal and paternal histone mRNAs synthesized by the zygote appear to be similar.     

RNA transcription and translation in sea urchin oocytes and eggs

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.     

Developmental Patterns in Histones and Histone Synthesis During Early Embryogenesis of the Sea Urchin Paracentrotus lividus

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.