DNA sequences flanking the starts of the hsp 70 and alpha beta heat shock genes are homologous

To determine whether ribosomes have a role in the postfertilization activation of protein synthesis in sea urchin eggs, we measured the translational activity of ribosomes isolated from unfertilized eggs and embryos of Strongylocentrotus purpuratus. Numerous previous studies have indicated few if any differences in the activity of such ribosomes. However, by using improved physiological isolation and in vitro conditions, we have found important differences in the activities of egg and embryo ribosomes. Ribosomes obtained from blastula polyribosomes were active in translating reticulocyte mRNA in a ribosome-dependent cell-free translation system, whereas ribosomes obtained from unfertilized eggs became fully active only after a characteristic, reproducible delay of up to 15 min at 26°C. The extent of this delay varied with incubation pH, but not with concentrations of K⁺, Mg²⁺, initiation factors, or mRNA. However, at incubation pH between 6.90 and 7.65, the egg ribosomes were always less active than blastula ribosomes.     

Amino Acid incorporation in developing fucus embryos

The incorporation of ¹⁴C-leucine and ¹⁴C-amino acid mixture into protein in unfertilized eggs and developing embryos of the brown alga Fucus vesiculosus L. was studied. Bacterial contamination was initially a problem, but it was found that the addition of 40 μg/ml chloramphenicol to the incubation medium would inhibit bacterial protein synthesis without affecting early development of the Fucus embryos. The kinetics of uptake and incorporation of ¹⁴C-leucine into the trichloroacetic acid-soluble and -insoluble fractions indicated that the exogenous precursor did not equilibrate with the main soluble leucine pool before incorporation into protein. Uptake and incorporation of leucine by embryos 90 to 175 minutes old were proportional to exogenous leucine concentration over the range 5 × 10⁻⁶ m to 5 × 10⁻³ m. Unfertilized eggs will incorporate ¹⁴C-leucine into protein. The rate of this incorporation increases dramatically in newly fertilized eggs with a maximum rate at 3.5 hours, a period of cell wall formation and increasing metabolic rates. Thereafter, the rate of incorporation declines until approximately 15 to 17 hours when it increases again concurrently with the onset of rhizoid initiation and cell division.     

Characterization of translation systems in vitro from three developmental stages of Strongylocentrotus purpuratus.

We have developed and characterized cell-free systems active in translation from unfertilized eggs, 30-min zygotes and hatched blastulae of the sea urchin Strongylocentrotus purpuratus. The ion concentrations selected for preparation of the lysates were 150 mM-K+, 40 mM-Na+, 40 mM-Cl-, 5 x 10(-7) M free Ca2+ and 1 mM free Mg2+. It was necessary to include the ribonuclease inhibitor RNas in the preparations to obtain full activity consistently. The pH optimum was 7.2 and was extremely sharp for the three S. purpuratus lysates. The temperature optima of the three lysates were remarkably similar to those of the intact unfertilized egg and embryos. Lysates from unfertilized egg and 30-min zygotes showed a temperature optimum at 15 degrees C. The hatched blastula lysate showed a broader temperature optimum with a shift to about 20 degrees C. The optimized lysates incorporated radiolabelled amino acids into polypeptides for up to 90 min. The polypeptides synthesized ranged in Mr from 200,000 to 20,000, suggesting that the mRNA in the lysates was intact and capable of directing the synthesis of complete polypeptides. Furthermore, the three lysates were capable of initiation, as demonstrated by inhibition of initiation using the inhibitors edeine and 7-methylguanosine 5'-triphosphate (m7GTP). At 15 degrees C, the transit times for the three lysates were: unfertilized egg, 40 min; 30-min zygotes and hatched blastula lysates, 20 min. These transit times are similar to those of intact eggs and embryos, and significantly, reflect the two-fold increase in elongation rate seen following fertilization in intact embryos. Thus, these lysates display many features and characteristic responses typical of intact eggs and embryos, indicating that the lysates should be useful tools for the analysis of translation control in early embryogenesis.     

Separate ribosomal pools in sea urchin embryos: ammonia activates a movement between pools

Monoribosomes from unfertilized eggs of Strongylocentrotus purpuratus were shown to translate mRNA less efficiently than ribosomes derived from polyribosomes of embryos, as measured by globin synthesis in a ribosome-dependent rabbit reticulocyte lysate [Danilchik, M. V., & Hille, M. B. (1981) Dev. Biol. 84, 291-298]. Data presented in this paper show that monoribosomes from 16-cell and blastula embryos resemble monoribosomes from unfertilized eggs in translational capacity and are less active than the ribosomes associated with polyribosomes. Thus, we find two distinct populations of ribosomes in embryos. We define the less active monoribosome population as "naive" ribosomes and the more active, functioning polysome-derived ribosomes as "experienced" ribosomes. Naive and experienced ribosomes have the same elongation rates. The relationship between ionic triggers and the conversion of monoribosomes to experienced ribosomes was studied with the Ca2+ ionophore A23187, which releases intracellular Ca2+ stores, and NH4Cl, which alkalinizes the cytoplasm. We found that ribosomes in the monoribosome populations from A23187-activated eggs or from NH4Cl-activated eggs resembled naive monoribosomes from unfertilized eggs in their translational activity. In contrast, ribosomes derived from the polysomes of NH4Cl-treated eggs were as active as the experienced polysome-derived ribosomes from normal embryos. Eggs activated with A23187 did not produce polyribosomes. The presence of significant amounts of experienced ribosomes in NH4Cl-treated eggs implicates alkalinization of the cytoplasm as a stimulus for ribosome activation, which occurs slowly during initial development.     

CHANGE IN THE ACTIVITY OF LIPASE IN SEA URCHIN EGGS AND EMBRYOS DURING EARLY DEVELOPMENT*

During the early development of the sea urchin, Anthocidaris crassispina, the activity of lipase was maintained at the same level as in unfertilized eggs until the mesenchymal blastula stage (20 hr culture at 20°C) and then increased gradually after gastrulation. The activity in the embryos kept in SO^2?₄-free artificial sea water changed in a similar manner to that in those kept in normal sea water, during the development until 36 hr of fertilization. At 48 hr, the activity in the embryos, which had developed to the permanent blastulae in SO^2?₄-free sea water, was markedly lower than in normal plutei and was similar to that in unfertilized eggs. The lipase activity in fertilized eggs 30 min after fertilization, which was almost the same as that in unfertilized eggs was found mainly to be localized in the precipitate fraction obtained by the centrifugation at 12,000 x g for 20 min, whereas the activity in unfertilized eggs was found in the precipitate by the centrifugation at 105,000 x g for 60 min. Ca²⁺, adenosine 3′, 5′-cyclic monophosphate (cAMP) and guanosine 3′, 5′-cyclic monophosphate (cGMP) had no effect on the lipase activity.     

Microtubule proteins in axolotl eggs and developing embryos

Tubulin from eggs and embryos of the Mexican axolotl was characterized by electrophoresis and colchicine binding. In urea-polyacrylamide gel electrophoresis, soluble axolotl egg tubulin migrated as two bands, identical to tubulins from sea urchin sperm and Drosophila eggs. However, in SDS-containing gels, on which the α and β subunits of standard tubulins were well resolved, axolotl egg tubulin migrated as a single band with an apparent molecular weight of 53,500. The method of disruption of the eggs affected both yield of tubulin from vinblastine sulfate precipitates and stability of the colchicine binding activity. The colchicine binding activity of soluble tubulin from gently disrupted eggs was specific and of high affinity, with properties similar to those reported for other tubulins. The tubulin pool in unfertilized eggs was determined to be approximately 2 μg/egg; the level decreased 20% after initiation of cleavage and then remained constant through development to postneurula stages. The colchicine binding activity of soluble tubulin from embryos was much less stable than that of unfertilized eggs and decreased further during development. No differences were found in properties of tubulin from eggs of several strains of normally pigmented axolotls; however, tubulin from albino eggs showed slightly different properties in both electrophoresis and colchicine binding. The colchicine binding activity of soluble tubulin accounts for only half the total activity in axolotl eggs; they possess, in addition, a particulate nontubulin colchicine binding activity.     

Monoamine oxidase activity in embryos of pike (Esox lucius)

1. Mitochondrial MAO specific activity was measured in eggs and early embryos of the teleostean fish Esox lucius using tryptamine, 5-hydroxytryptamine (5-HT) and phenylethylamine (PEA) as substrates. 2. Tryptamine is the most readily deaminated substrate in mitochondria isolated from unfertilized eggs and embryos at the stages of cleavage, blastula and gastrula. 3. Monoamine oxidase activity gradually decreases during development and at the gastrula stage it is respectively 80% (tryptamine), 70% (5-HT) and 50% (PEA) of that found in the egg using the corresponding substrate. 4. The inhibition of egg MAO activity by clorgyline and deprenyl measured in E. lucius eggs using tryptamine as substrate, indicates the presence of a single form of MAO not corresponding to the MAO A and MAO B described in terrestrial vertebrates.     

cAMP-dependent protein kinase in sea urchin embryos

cAMP-dependent protein kinase in the supernatant fraction of the homogenate of sea urchin eggs and embryos obtained by centrifugation at 105,000g was investigated in the present study. In the previous report, the dissociation constant between cAMP-binding proteins and cAMP changed during the development. This suggests that the nature of cAMP-dependent protein kinase, which has been well established to be the major cAMP receptor, changes during the development. In the present study, four protein kinases were separated through DEAE-cellulose column from the supernatant of unfertilized egg homogenate. One of them was cAMP-dependent protein kinase. The others were cAMP-independent ones. One among them was phosvitin kinase, and the others were not identified at present. The activity of cAMP-dependent protein kinase gradually increased during a period from fertilization to the swimming blastula stage. During this period, cleavages occurred at a high rate, and the rate decreased after hatching out. Thus, it is supposed that cAMP-dependent protein kinase in the supernatant may take a part in the mechanism of cleavage. The activity, however, became very low at the mesenchyme blastula, the gastrula, and the pluteus stages. cAMP-binding capacity was observed in the sedimentable fraction and the supernatant fraction, respectively, obtained by 105,000g centrifugation at all stages examined. If the structure-bound cAMP-binding protein is also cAMP-dependent protein kinase, it may play different roles in the mechanism of development.     

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.     

Inhibitor of ribosomal RNA synthesis in Xenopus laevis embryos: VI. Occurrence in mature oocytes and unfertilized eggs

Occurrence of a factor(s) which can selectively inhibit ribosomal RNA synthesis in isolated neurula cells of Xenopus laevis was examined in oocytes, unfertilized eggs, and embryos of Xenopus laevis. It was found that acid-soluble materials from full-sized oocytes, white-banded mature oocytes, unfertilized eggs, and pregastrular embryos were all active in significantly reducing the relative ratio of the [³H]uridine incorporation into 18S and 28S ribosomal RNA to that into 4S RNA from the control value. These results suggest that the inhibitor appears in the terminal step of oogenesis and, hence, may be assumed as a maternal regulator.     

Phospholipid metabolism following fertilization in sea urchin eggs and embryos.

Phospholipid metabolism during early development was examined in the sea urchins Stronglyocentrotus purpuratus and Lytechinus pictus. Transport of ³H-choline was stimulated fivefold following fertilization in both species. However, the actual percent incorporation of labeled precursors into phospholipids from the TCA soluble pool did not change at fertilization. There was a slight increase in transport of ¹⁴C-ethanolamine at fertilization but again there was no change in its percent incorporation into phospholipids. When eggs were preloaded with ³H-choline or ¹⁴C-ethanolamine and fertilized, the eggs or embryos showed similar patterns of incorporation into phospholipids. There was no significant change in the percent phosphorylation of choline in fertilized or unfertilized eggs.An investigation was made of the activity of choline kinase, the first enzyme in the biosynthesis of phosphatidylcholine. This enzyme was found to have similar activities in fertilized and unfertilized eggs using a variety of homogenization media. The activity of choline kinase was found to decrease slightly in activity at fertilization and reach a maximum activity by gastrula.These results indicate that there is no activation of phospholipid synthesis at fertilization of sea urchin eggs. Apparent increased incorporation actually reflects increased transport of precursors and not de novo synthesis.     

Daughters from daughterless mothers — Rescuing a female-lethal maternal effect by cytoplasmic transplantation inDrosophila embryos

Summary Daughterless is a temperature-sensitive, maternal effect mutation ofDrosophila melanogaster. Homozygousdaughterless females raised at temperatures above 22°C do not produce any female progeny. It was possible to rescue these female embryos by injecting cytoplasm from non-mutant unfertilized eggs into embryos fromdaughterless mothers. Cytoplasm from unfertilized eggs laid by homozygousdaughterless mothers was ineffective. Surprisingly, the cytoplasm from developing embryos with either wild-type ordaughterless mothers could also effect rescue. Based upon this data, we suggest that male and female embryos ofdaughterless mothers differ in their ability to initiate the synthesis of a product during the nuclear multiplication (cleavage) stage of embroniic development in the absence of a putativeda ⁺ maternally-synthesized factor, and that this is the basis for the sex-specific action of theda maternal effect.     

Mitochondrial profile densities and areas in different developmental stages of the sea urchin Sphaerechinus granularis

Mitochondrial profile densities in electronmicrographs were counted in the swimming blastula, mesenchyme blastula, gastrula and prism stages of the sea urchin embryos Sphaerechinus granularis. No numerical changes were statistically apparent. When profile areas were investigated, the mean values of the swimming blastula, the gastrula and the prism stage showed no statistical differences. However, increased areas were measured in the mesenchyme blastula stage. This increase might be related to an increase of the embryonic volumina in the mesenchyme blastula stage. In contrast to earlier reported data, the results indicate that the mitochondrial density in S. granularis embryos does not alter during development in these stages.     

Cytoplasmic localization of DNA-dependent RNA polymerase in unfertilized sea urchin eggs

DNA-dependent RNA polymerase activity has been measured in unfertilized sea urchin eggs and swimming blastula stage embryos. The total activity detectable at these two stages was found to be comparable. Assays of isolated nuclei and non-nucleate half preparations indicate that the activity in the unfertilized egg is localized in the cytoplasm, in contrast to what is observed in the blastula stage empryo cell where the activity is found exclusively in the nucleus. Similar DEAE-sephadex chromatography profiles are obtained with enzyme isolated from either source.     

Asymmetric inhibition of spicule formation in sea urchin embryos with low concentrations of gadolinium ion

As gastrulation proceeds during sea urchin embryogenesis, primary mesenchyme cells (PMCs) fuse to form syncytial cables, within which calcium is deposited as CaCO₃, and a pair of spicules is formed. Earlier studies suggested that calcium, previously sequestered by primary mesenchyme cells, is secreted and incorporated into growing spicules. We examined the effects of gadolinium ion (Gd³⁺), a Ca²⁺ channel blocker, on spicule formation. Gd³⁺ did not lead to a retardation of embryogenesis prior to the initiation of gastrulation and did not inhibit the ingression of PMCs from the blastula wall or their migration along the inner blastocoel surface. However, when embryos were raised in seawater containing submicromolar to a few micromolar Gd³⁺, of which levels are considered to be insufficient to block Ca²⁺ channels, a pair of triradiate spicules was formed asymmetrically. At 1–3 μmol/L Gd³⁺, many embryos formed only one spicule on either the left or right side, or embryos formed a very small second spicule. Induction of the spicule abnormality required the presence of Gd³⁺ specifically during late blastula stage prior to spicule formation. An accumulation or adsorption of Gd³⁺ was not detected anywhere in the embryos by X‐ray microanalysis, which suggests that Ca²⁺ channels were not inhibited. These results suggest that Gd³⁺ exerts an inhibitory effect on spicule formation through a mechanism that does not involve inhibition of Ca²⁺ channels.     

Micromere descendants at the blastula stage are involved in normal archenteron formation in sea urchin embryos

Several lines of evidence suggest that micromere signaling plays a key role in endo-mesoderm differentiation along the animal-vegetal (A-V) axis in sea urchin embryos. A recent study has suggested that the activity of micromeres of inducing endoderm differentiation of mesomere descendants is, unexpectedly, maximal at the hatching blastula stage in the echinoids Scaphechinus mirabiris and Hemicentrotus pulcherrimus. In the present study, to confirm the inductive capacity of the micromere descendants in normal development, the timing of initiation of gastrulation and the elongation rate of the archenteron were examined in both micromereless embryos and in micromereless embryos cultured until the hatching blastula stage and then recombined with micromere descendants of the same age. The micromereless embryos consistently exhibited a delay in the initiation of gastrulation and a decrease in elongation rate of the archenteron, as compared with those in controls. In contrast, when the micromereless embryos cultured until the hatching blastula stage were recombined with micromere descendants of the same age, the recombinant embryos exhibited rescue of both the delay in initiation of gastrulation and a decrease in elongation rate of the archenteron. The delayed expression of alkaline phosphatase activity, an endoderm-specific marker, in the micromereless embryos was also rescued in the recombinant embryos. The recombined micromere descendants formed the larval spicules in the same schedule as that observed in the controls. These results indicate that at the hatching blastula stage, micromere descendants emanate a signal(s) required for normal gastrulation of the presumptive endo-mesodermal region.     

Protein synthesis and germ plasm in cleavage embryos of Xenopus laevis.

(3H) leucine was injected into unfertilized eggs, fertilized eggs, and Stage 2-12 embryos of X. laevis. Incorporation of the leucine into protein by blastomeres containing germ plasm was studied autoradiographically. Eggs, both fertilized and unfertilized, actively synthesized protein, ad did embryos from Stage 2 onwards. Probably all blastomerers containing germ plasm were labelled. In embryos from Stages 4-12, the germ plasm itself was also labelled, and this result suggests that the germ plasm is metabolically active during cleavage.     

Changes in cAMP-dependent protein kinase activity in the 10,000g sediment of sea urchin embryos during early development

cAMP-dependent protein kinase was found in the sediment obtained by centrifuging a homogenate of sea urchin embryos at 10,000g for 20 min, and was solubilized with 1% Triton X-100. This enzyme was eluted at 0.16 M NaCl in a linear concentration gradient on a DEAE-cellulose column, at which cAMP-dependent protein kinase found in the supernatant was also eluted. The enzyme activity was enhanced about 1.5-fold in the presence of 1 μM cAMP, and increased somewhat by adding cGMP or cIMP. The activation by cAMP of protein kinase in the sedimentable fraction was lower than in the supernatant fraction. The properties of the enzyme found in the 10,000g sediment and in the supernatant differ somewhat. The activity of the cAMP-dependent protein kinase in the 10,000g sediment was high in the embryos at the blastula, the swimming blastula, and the mesenchyme blastula stages. On the other hand, the activity was undetectable in unfertilized eggs and in embryos at the morula, the gastrula, and the pluteus stages.     

Enzymes of DNA biosynthesis in developing sea urchins. Changes in ribonucleotide reductase, thymidine, and thymidylate kinase activities.

The pattern of ribonucleotide reductase, thymidine kinase, and thymidylate kinase activities during development of Paracentrotus lividus eggs and the effect of actinomycin on these enzymatic activities have been studied. Ribonucleotide reductase activity is detectable, though at a low level, in the unfertilized egg; the activity increases sharply soon after fertilization and reaches a peak at the morula stage. Thereafter it decreases and remains at a lower level than that of the unfertilized egg. Actinomycin, at a concentration sufficient to inhibit messenger RNA (mRNA) synthesis does not affect the level of enzymatic activity, indicating that preexisting maternal mRNA is used for the synthesis of this enzyme. Thymidine kinase is present at a low level in the egg; it increases sharply after the hatching blastula until the pluteus stage. Actinomycin does not affect the enzyme activity from fertilization until blastula but prevents the increase in enzyme activity that is observed between blastula and pluteus. Thymidylate kinase activity shows an increase after fertilization, followed by fluctuations throughout development with a considerable decrease at the blastula stage and at the end of gastrulation. Actinomycin has no effect on the activity of thymidylate kinase regardless of when the drug is added to the embryo suspension. Possible regulatory mechanisms of DNA synthesis in sea urchin embryos are discussed: The presence in the unfertilized egg of the most important enzymes controlling the cellular flow of DNA precursors and the availability of dTTP suggest that the block in DNA synthesis observed in the unfertilized egg is due to some particular mechanism that is switched on at fertilization.