Exogut Formation by the Treatment of Sea Urchin Embryos with Ascorbate and α-Ketoglutarate

In sea urchin embryos at the stages from hatch out to the pluteus stage, [¹⁴C]proline incorporation into hot trichloroacetic acid TCA-extractable proteins occurred during an exposure to [¹⁴C]proline for 3 hrs at 20°C. The rate of [¹⁴C]proline incorporation into hot TCA-extractable proteins was higher in gastrulae and plutei than in blastulae. Percentage of [¹⁴C]hydroxyproline residue to whole radioactivity of the hot TCA-extractable proteins was quite low at the blastula stage and increased exponentially during futher development. Production of [¹⁴C]hydroxyproline residue at the blastula stage, as well as at the later stages, was stimulated by ascorbate and α-ketoglutarate, activators of protocollagen proline hydroxylase, and inhibited by α, α'-dipyridyl, an inhibitor of this enzyme. It is also probable that the enzyme in the embryos is not fully activated because of low amounts of activating substances. These suggest that blastulae,…, also have a potency of protocollagen hydroxylation. Blastula kept in sea water containing ascorbateand α-ketoglutarate became undeveloped embryo with large exogut. Gastrula developed normally to pluteus even in the presence of these compounds. The embryos, kept in sea water containing these compounds from fertilization to hatch out, also developed normally. Exogut formation in the embryos treated by these compounds, as well as normal archenteron formation, was inhibited by α, α'-dipyridyl.     

Synthesis of Collagen-Like Proteins in Embryonic Organs of the Sea Urchin, Hemicentrotus pulcherrimus

In sea urchin embryos exposed to ¹⁴C-proline at 20°C for 3 hr at the gastrula, prism or pluteus stage, ¹⁴C-radioactivity was found in hot acid-extractable proteins, in which more than 4% of the radioactivity was detectable in hydroxyproline residues. In these embryos, ¹⁴C-radioactivity in collagen-like proteins was found in the archenteron, spicule and embryo-wall cells. The rate of synthesis of collagen-like proteins was highest in the archenteron in the mid-gastrula stage, in the embryo-wall cells in the prism stage and in the spicule in the pluteus stage. The rate of synthesis decreased in the archenteron and increased in embryo-wall cells in the period between the mid- and late-gastrula stages, when the rate of synthesis in the spicule was quite low. Thereafter, the rate decreased slightly in the embryo-wall cells, was maintained in archenteron and increased markedly in the spicule. The rates of synthesis of collagen-like proteins are high in these embryonic organs at stages at which development and growth respectively, occur in embryos. Therefore, synthesis of collagen-like proteins probably supports morphogenesis in these embryonic organs.     

Vegetalization of Sea Urchin Larvae Induced with Cycloheximide

The embryos, kept at 20°C for 3 hr–6 hr from the time of fertilization (at the morula stage), were cultured in sea water containing cycloheximide (10–16 mM) for successive 3 hr and then transferred to normal sea water. The embryos, thus treated, became vegetalized larvae. With the same treatment performed at a developmental stage prior to 3 hr of fertilization, most of embryos developed to small blastulae filled with mesenchyme-like cells. The treatment at a stage after 6 hr of fertilization yielded normal plutei. From the embryos exposed to both ¹⁴C-leucine and ³H-thymidine during the treatment, labelled chromatin was isolated. Only in the presumptive vegetalized embryos obtained by the cycloheximide treatment of morulae, ratio of ¹⁴C-radioactivity found in proteins of chromatin to ³H-radioactivity in DNA was markedly lower than that observed in chromatin from control embryos. The rate of ³H-radioactivity-decrease by DNase I treatment was higher in chromatin isolated from the presumptive regetalized embryos than that observed in chromatin isolated from control ones. Probable failure of chromatin structure formation, due to cycloheximide-inhibition of chromatin protein synthesis, seems to disturb the determination in the embryos at the morula stage, resulting in an induction of vegetalized embryos.     

Stimulation of Tubulin Synthesis by Lactate in Isolated Spermatogenic Cells

The effect of lactate on synthesis of new proteins in isolated spermatids and spermatocytes of rats was examined. Lactate stimulated[³⁵S]methionine ([³⁵S]met) incorporation into both spermatids and spermatocytes. The rate of protein synthesis was positively correlated with the intracellular level of ATP. The [³⁵S]met-labeled proteins in the two types of cells were compared by one and two dimensional polyacrylamide gel electrophoresis (1D and 2D-PAGE) and autoradiography. The syntheses of several stagespecific and non-specific proteins were observed. When spermatids and spermatocytes were cultured in medium without lactate, two major proteins of molecular weight (Mr) 43 kD and 55 kD were detected in the water-soluble fraction (105,000 g supernatant), and one major protein of Mr 24 kD was observed in the membrane-rich fraction. Addition of lactate to the incubation medium dramatically increased the synthesis of six proteins (Mr 14 kD, 16 kD, 43 kD, 55 kD, 84 kD and 135 kD) in the water-soluble fractions of spermatids and spermatocytes, but did not stimulate the synthesis of the Mr 24 kD protein in the membrane-rich fraction. In addition, after 1D and 2D-PAGE and electrophoretic transfer to nitrocellulose, two proteins of Mr 43 kD and 55 kD were identified as actin and tubulin, respectively, on the basis of their reactivities with specific antisera. Tubulin was also produced by in vitro translation using a spermatid lysate. These results suggest that lactate may play an important role in changing the cell structure and shape during spermatogenesis by regulating the syntheses of actin and tubulin.     

RAPIDLY LABELED AND SECRETED PROTEINS OF THE CHICK BRAIN

Abstract— The extracellular and cerebrospinal fluids (ECF) of the chick brain were found to contain a distinctive group of rapidly labeled proteins. Gel staining patterns suggest that most ECF protein bands correspond with components also found in either the homogenized whole brain cytoplasmic fraction or the blood serum. The valine-incorporation profiles of these three fractions, however, were entirely distinctive. Comparisons were carried out using a sensitive double-labeling method, in which ECF proteins from chicks labeled for 1 h with [³H]valine were comigrated on SDS-polyacrylamide gels with the cytoplasmic or serum proteins from a ¹⁴C-labeled animal. Analyses of the ³H- and ¹⁴C-labeling profiles from these gels showed that certain newly-synthesized proteins are heavily enriched in the ECF relative to the other two fractions. Most prominently, material with an apparent molecular weight of # 17,000 was found to incorporate nearly one-third of all the radioactivity appearing in the ECF proteins, but was not heavily labeled in either the cytoplasmic or serum fractions. The effects of a simple training experience on the pattern of chicks' brain protein synthesis were also examined.     

CELL SURFACE PROTEINS OF CULTURED BRAIN CELLS AND THEIR RECOGNITION BY ANTI-CEREBELLUM (ANTI-NS-4) ANTISERUM

Abstract— Surface proteins of cultured young postnatal mouse cerebella and embryonic mouse cerebral hemispheres were identified by Iactoperoxidase-catalysed radioiodination and by their interaction with an anti-mouse cerebellum antiserum (anti-NS-4 serum) which recognizes surface components on brain cells. Several (8 10) iodinated polypeptides are recognized by radioautography after polyacrylamide gel electrophoresis. Their surface location was confirmed by their sensitivity to mild trypsin treatment on intact cells. Iodinated polypeptides from cells of non-nervous tissues showed a different gel pattern. Immuno-precipitates of solubilizcd surface-iodinated cerebellar cells with anti-NS-4 serum contained two prominent labeled proteins with apparent molecular weights of 200 × 10³ and 145 × 10³. These proteins were also biosynthetically labeled with [³H]leucine. The 145 × 10³ molecular weight component was also found in immunoprecipitates prepared from embryonic cerebral cells, but the 200 × 10³ molecular weight component was replaced by a broad peak with an apparent molecular weight of around 250 × 10³.     

ELECTROPHORETIC ANALYSES OF PROTEINS TRANSPORTED TO THE RAT POSTERIOR PITUITARY

Abstract— [³⁵S]cysteine, [³H]methionine, or [³H]fucose were injected into the supraoptic nuclei (SON) of rats, and the labelled proteins that were transported to and accumulated in the posterior pituitary 24h post-injection were analyzed electrophoretically. The transported, labelled proteins which were soluble in 0.1 m -HCl were primarily of low molecular weight (about 12,000 on SDS gels). However, the selectivity of labelling of these proteins by the three different labelled precursors could be revealed by isoelectric focusing. The 0.1 m -HCl insoluble labelled proteins, presumably reflecting membrane proteins transported from the SON to the pituitary, were more diverse and generally of higher molecular weight (> 43,000 on SDS gels).     

Physiological mechanisms of buoyancy in eggs from brackish water cod

Newly fertilized eggs of brackish water (Gotland, Baltic Sea) and marine (Lofoten, Norway) cod were investigated with regard to specific gravity, wet and dry weight, water content, chorion weight, and content of protein, free amino acids (FAA), and ions. The eggs had neutral buoyancies equivalent to a salinity of 14^.3% (range 11^.5–16^.2%) in brackish water, and 33^.0% (range 31^.8–34^.5%) in the marine environment. A buoyancy model was developed and showed that this difference was mainly caused by differences in egg water content which was 96.6 ± 0^.47% and 92.7 ± 0.45% in the brackish and marine eggs, respectively. The higher water content of the brackish eggs resulted from increased water uptake during final oocyte maturation due to higher intracellular contents of FAA, Cl ^– and NH₄⁺. SDS polyacrylamide gel electrophoresis of eggs and oocytes, and measurements of egg protein content suggested that the FAA pool of both egg types originated from hydrolysis of specific yolk proteins. The main contributor seemed to be a protein with a molecular weight of 100 kDa.     

Protein Synthesis during Photocontrolled Progression of the Cell Cycle in Single-celled Protonemata of the Fern Adiantum Capillus-veneris

Protein synthesis during photoinduced, synchronous progression of the cell cycle in single-celled protonemata of the fern Adiantum capillus-veneris was studied by tracer techniques. Nuclei of the protonemata were labelled with ³H-thymidine during spore germination so that the amount of ³H incorporated into the TCA-insoluble fraction of the cells could be used as a measure of the cell number in each sample. The rate of the incorporation of ¹⁴C-amino acids into TCA-insoluble materials was not significantly varied at different stages of the cell cycle or by treatment with blue light. Extracts of cells labelled with ³⁵S-methionine at various times after the transfer from red light condition (G₀) to darkness (G₁ to S) were analyzed by two-dimensional gel electrophoresis. At least 3 of about 200 spots showed significant changes in intensity on fluorograms. Spot A (molecular weight 20,000, isoelectric point 6.3) was detectable only in early G₁, whereas spot B (molecular weight 19,500, isoelectric point 6.3) was found only in the late G₁ and S phases. When the cells were exposed to blue light before the dark incubation, the times of disappearance of spot A and appearance of spot B were advanced depending upon the progression of the cell cycle but not upon the clock time.     

PROTEIN SYNTHESIS IN THE BRAIN OF OCTOPUS VULGARIS, LAM

Abstract— The process of protein synthesis in the brain of Octopus vulgaris Lam has been examined after systemic administration of [³H]leucine and upon incubation of the tissue in sea water containing the radioactive precursor. After injection of [³H]leucine in the branchial heart, the radioactivity of the TCA-soluble fractions of the three main brain divisions reached a maximum in about 30 min and decreased thereafter, while incorporation into the protein fractions was complete in approx. 2 h. Per unit wet weight the radioactivity of brain proteins was higher than that of most other organs. In vitro the rate of incorporation of [³H]leucine in the protein fraction of the optic lobe remained low for more than 1 h, but increased several fold thereafter. Preincubation of the tissue in sea water abolished the lag period. Similar effects were observed in the vertical lobe as well as in the optic lobe of young and adult octopuses but not in the white body, a non-nervous organ. The process of protein synthesis in the optic lobe is markedly inhibited by puromycin, cycloheximide and chloramphenicol. Electrophoretic analysis on polyacrylamide gels indicated that the soluble proteins labelled in vitro and in vivo are similar.     

Influence of dissolved humic materials on carbon assimilation and alkaline phosphatase activity in natural algal-bacterial assemblages

SUMMARY. Mixed natural assemblages of algae and bacteria exhibited lower rates of ¹⁴C assimilation and high rates of dissimilation of recent photosynthate when amended with low concentrations (7.2 mg 1^-1) of unfractioned dissolved humic materials (DHM). The extent of the inhibition or stimulation was greatest in the smaller (1–5 μm) assemblage particles. In different algal-bacterial assemblages, additions of DHM markedly enhanced community alkaline phosphatase activity (APA), particularly under low light regimes, DHM of low apparent molecular weight was much more stimulatory to both ¹⁴C assimilation and APA than DHM of high apparent molecular weight, supporting the belief that DHM molecular weight is an important determinant of DHM interactive capacity. Higher concentrations of D HM (either unfractionated, or molecular weight fractionated) produced greater APA responses. Addition of phosphate enhanced the disparity in rates of ¹⁴C assimilation of samples incubated under low and high light regimes, increased the rates of ¹⁴C assimilation, and depressed APA. There were indications of interactions between DHM and phosphorus in several experiments. Two hypotheses were invoked to explain increases in APA in response to DHM: (1) increased competition between algae and bacteria for phosphate following bacterial release from substrate limitation, or (2) DHM may have acted as a sequestering agent for organophosphorus compounds, and in so doing, gradually depleted available phosphate. In either case, it is clear that DHM alters phosphorus cycling. This DHM characteristic may be ecologically as important as its ability to complex trace metals.     

INCREASE IN THE RELATIVE RATE OF SYNTHESIS OF DOPAMINE-β-HYDROXYLASE IN IN THE NUCLEUS LOCUS COERULEUS ELICITED BY RESERPINE

Abstract— Three days following a single injection of reserpine (10 mg/kg, i.p.) the activity and amount of dopamine-β-hydroxylase (DBH) are increased nearly 2-fold in the noradrenergic cell bodies of the nucleus locus coeruleus of rat. To determine if this increased accumulation of DBH is due to an increased rate of enzyme synthesis, [³H]amino acids were infused into the IVth ventricle of reserpine-and saline-injected rats. This method was 35 times more effective than intracisternal infusion and 600 times more effective than intravenous infusion. DBH protein was isolated from the locus coeruleus by immunoprecipitation and SDS-electrophoresis. These steps proved crucial for the complete isolation of DBH from other labelled proteins. Indeed, only 10–15% of the immunoprecipitate was finally identified as labelled DBH protein. The rate of incorporation of [³H]leucine into DBH protein of locus coeruleus was increased to 181%, of control following reserpine, whereas that into TCA-precipitable protein was unchanged. A similar result was obtained using [³H]lysine. In contrast, the apparent half-life of the enzyme did not change following reserpine. The relative rate of synthesis of DBH ([³H]DBH/³H-total protein), denoting selectivity of response, was increased in the locus coeruleus of reserpine-treated rats to 154% of control ( P < 0.01). These findings indicate that increased synthesis accounts for the observed increase in DBH protein in the locus coeruleus following reserpine administration.     

NUCLEAR CHROMATIN PROTEINS FROM RABBIT CEREBRUM, CEREBELLUM AND LIVER: SYNTHESIS AND PHOSPHORYLATION

Abstract— In order to investigate synthesis and phosphorylation of the various fractions of nuclear proteins. [³H]leucine and [³²P] phosphate incorporation were studied with tissue slices in vitro. Cerebral cortex and cerebellum were used to delineate the similarity and dissimilarity within CNS, and liver was taken to compare the extraneural organ. There were significant differences in [³H]leucine incorporation into nuclear proteins among those tissue sources examined, while [³²P]phosphate incorporation showed very similar results among them. Although the acidic chromatin protein demonstrated high activity in each tissue source for both synthesis and phosphorylation, 0.14M-NaCl soluble protein showed the activity as high as or even higher than the acidic chromatin protein. Both [³H]leucine incorporation and [³²P]phosphate incorporation were relatively low in histone. When the acidic chromatin protein was further fractionated with SDS-acrylamide gel electrophoresis, significant difference was found between CNS tissue and liver for synthesis and phosphorylation. However, considerable difference was also observed even between cerebral cortex and cerebellum. The present investigation demonstrated complicity and diversity of nuclear chromatin proteins in different organs, not only for their protein constituents but also for their synthesis and phosphorylation.     

RNA Synthesis and Processing during Cytodifferentiation in Fetal Rat Pancreas

In fetal rat pancreas cytodifferentiation occurs between day 14 and day 20 of gestation and is accompanied by an exponential increase in the cellular accumulation of tissue specific proteins and an elaboration of the cellular organelles associated with their synthesis and secretion. Evaluation of RNA synthesis by [³H] uridine incorporation into trichloroacetic acid precipitable material showed that during this period the apparent rate of RNA synthesis increased 7.5 fold from 2 × 10³ dpm/μg DNA/h on day 15 to 1.5 × 10⁴ dpm/μg DNA/h on day 19; [³H] leucine uptake showed that the rate of protein synthesis increased about the same extent with the major difference being that the maximum rate of protein synthesis occurred on day 19, one day after the maximum rate of RNA synthesis. The soluble pyrimidine nucleotide pools decreased from 122 pmol/μg DNA on day 14 to 15 pmol/μg DNA on day 16 followed by an increase to 104 pmol/μg DNA on day 19; the purine nucleotide pools decreased from 367 pmol/μg DNA on day 14 to 286 pmol/μg DNA on day 16 and then increased to 635 pmol/μg DNA on day 19. These values roughly paralleled the transitions observed in the rates of RNA and protein synthesis. Agarose-acrylamide slab gel electrophoresis showed an increase in RNA synthesis and an increase in ribosomal RNA synthesis and processing with cytodifferentiation.     

EFFECTS OF THYROXINE AND PROLACTIN ON COLLAGEN BREAKDOWN IN THE THIGH BONE AND TAIL FIN OF THE RANA CATESBEIANA TADPOLE

Injection of ¹⁴C-proline into the tadpole causes labeling of protein in the collagen fraction of the thigh bone and tail fin. The radioactivity of the ¹⁴C-hydroxyproline residue is about 26% of the total radioactivity in the ¹⁴C-labeled protein of the collagen fraction in the thigh bone as well as in the tail fin. In ¹⁴C-proline-loaded tadpoles into which prolactin has been injected, the radioactivity in the collagen fraction in these tissues is markedly higher than that in control animals. In thyroxine-treated tadpoles, the ¹⁴C-radioactivity of the collagen fraction in the thigh bone is always higher than that of the controls, but it is markedly low in the tail fin. During the incubation of thigh bone and tail fin isolated from ¹⁴C-proline-loaded tadpoles, low molecular weight materials containing ¹⁴C-hydroxyproline are released from the ¹⁴C-labeled protein of these tissues. The rate of ¹⁴C-hydroxyproline release, which represents the rate of collagen breakdown, is higher in thigh bone and tail fin isolated from thyroxine-treated tadpoles and is markedly lower in these tissues isolated from prolactin-treated tadpoles than in those isolated from controls. In these tissues, the high rate of collagen breakdown in thyroxine-treated tadpoles is reduced by prolactin injection.     

Microbial transformation of labile dissolved organic matter into humic-like matter in seawater

Abstract Microbial transformation of labile, low molecular weight dissolved organic matter (DOM) into dissolved humic matter (DHM) was studied in seawater. Surface water samples were amended with [¹⁴C into ¹⁴CO₂, TO¹⁴C (total organic ¹⁴C), and PO¹⁴C (particulate organic ¹⁴C), was measured over time in confined samples. The humic and non-humic fractions of DO¹⁴C (dissolved organic ¹⁴C) were separated according to a common operational definition of DHM based on adsorption on XAD-8 macroporous resin. Both TO¹⁴C and non-humic DO¹⁴C decreased during the experiments. However, ¹⁴C-labelled DHM increased during the first week of the incubations, to a level where it comprised 15% of the TO¹⁴C remaining in the samples, or 3% of the initially added ¹⁴C. Towards the end of experiments (ca 70 days), the humic fraction of DO¹⁴C gradually approached the background level of poisoned control samples. Provided that the XAD-8 operational definition of DHM is accepted, this study indicates that humic matter may be formed in seawater within days from labile monomers such as glucose.     

Quantitative Analysis of Protein Synthesis Altered by Estrogen in Cultured Xenopus Liver Parenchymal Cell

Using the primary culture system of male Xenopus laevis hepatocytes consisting of more than 95% parenchymal cells, the effect of estradiol-17 β (10⁻⁶M) on protein synthesis was quantitatively analyzed by ³H-leucine incorporation kinetics and the estimation of specific radioactivity of newly synthesized secretory protein. The cells in a well defined culture revealed high plating efficiency and very low DNA synthetic activity. The cultured cells could synthesize several secretory proteins containing serum albumin. The pattern of secreted proteins in SDS-polyacrylamide gel electrophoresis (SDS-PAGE) did not alter with culture time but secretion rate of protein increased for 7 days, starting on the third day following inoculation. Estradiol added to the culture media extensively induced the synthesis of yolk precursor protein vitellogenin which accounted for 40–50% of the overall secretory protein synthesis and 20–30% of the total protein synthesis on day 7 of estradiol treatment. Ultimately, the total protein synthesis and secretory protein synthesis were stimulated 1.2–1.3 fold and 2.0–2.2 fold, respectively, over those of the control cells cultured in the absence of estradiol. These results indicated that the stimulation of protein synthesis was largely due to vitellogenin production. Such an estradiol-dependent stimulation of protein synthesis was also detected in the low molecular weight protein(s). On the other hand, albumin synthesis was evidently reduced by estradiol. Thus, estradiol had two different effects on protein synthesis.
The results obtained in this study will be discussed in relation to the findings o in vivo experiments.     

In vitro and in vivo regulation of chloroplast glyceraldehydes-3-phosphate dehydrogenase isozymes from Chenopodium rubrum. I. Purification and properties of isozymes

Chloroplast glyceraldehyde-3-phosphate dehydrogenase (GPD, EC 1.2.1.13) was purified from leaves of Chenopodium rubrum L. Aggregated (≥ 10⁶) and disaggregated (165 × 10³) molecular weight forms were obtained by gel filtration in the presence of NAD⁺ and NADP⁺, respectively. The disaggregated enzyme was separated into two isozymes by inverse ammonium sulphate gradient solubilization: "NADP-GPD I" was homotetrameric (subunit molecular weight 39 × 10³); "NADP-GPD II" was heterotetrameric (subunit molecular weights 39 × 10³ and 43 × 10³). Isoelectric focusing of the isozymes, both aggregated and disaggregated, revealed two isoelectric forms in each case, at 4.3 and 7.7. Chloroplast GPD was "NADP-suppressed" in crude extracts due to partial oxidation, incubation with dithioerythritol restored full activity.     

De novo synthesis of peroxidase in cotton ovule culture medium

The biosynthesis of cotton ( Gossypium hirsutum L. 'Stoneville 208') peroxidase (EC 1.11.1.7) has been investigated in an organ culture system, since this enzyme may play a role in cell wall biogenesis or host defense mechanisms. Electrophoretic analysis of proteins from cotton ovule cultures indicated relatively few proteins being released into the surrounding medium. De novo synthesis of released peroxidase and other medium proteins was determined by in vivo labeling of ovule cultures with [³⁵S]-methionine. Analysis of labeled culture medium by denatured gel electrophoresis followed by fluorography showed incorporation of isotope into 2 major proteins with molecular weights of 30 kD and 56 kD, as well as a limited number of minor proteins. Similar analysis of native isoelectric focusing gels coupled with autoradiography demonstrated [³⁵S]-methionine incorporation into 2 major proteins with pI values of 4.3 and 5.0. The pI 5.0 protein was shown to have a molecular weight of 30 kD. The pI 4.3 protein had a molecular weight of 56 kD and was shown to be peroxidase by activity staining. Minor radiolabeled proteins were observed in the cationic region of the isoelectric focusing gels.     

Dominant ptsH mutations of the gene coding for synthesis of the HPr protein of the phosphoenolpyruvate-dependent phosphotransferase system in Escherichia coli K-12 merodiploids

Abstract The Escherichia coli ptsI and ptsH genes code for the synthesis of two proteins of the phosphoenolpyruvate-dependent phosphotransferase system (PTS), namely enzyme I and protein HPr. A number of ptsI ⁺ ptsH ⁺/F' ptsI ⁺ ptsH merodiploids was obtained. It was shown in experiments in vivo that ptsH mutations in the transposition are dominant. Bacterial extracts from these merodiploids supported [¹⁴C]methyl glucoside (MG) phosphorylation at the expense of phosphoenolpyruvate only half as much as extracts from the pts ⁺ cells. ptsI ⁺ ptsH /F' ptsI ⁺ ptsH ⁺ merodiploids appeared to be non-viable; the reason for this lack of viability is discussed.