Cell cycle analysis in asynchronous cultures using the BUdR-Hoechst technique.

During synchronized germination of spores of Dictyostelium discoideum, protein synthesis begins almost concomitantly with syntheses of messenger-like RNA (mlRNA) and 4–5S RNA (presumably tRNA) in the swollen spore stage and the initiation of ribosomal RNA (rRNA) synthesis is somewhat delayed. DNA synthesis occurs in the early stages of the amoeba emergence phase. Cycloheximide (200 μg/ml) blocked spore germination as well as total protein synthesis, whereas actinomycin D (60 μg/ml) did not affect either. This concentration of actinomycin D selectively inhibited formation of rRNA but did not influence the synthesis of mlRNA. Examinations of RNA labeled with [¹⁴C]uracil during germination indicated that polysomes initially detectable in the course of the germination process contain ¹⁴C-labeled mlRNA. It was concluded that at least some of mRNA synthesized during germination of D. discoideum spores is involved in protein synthesis required for the germination.     

Nucleic Acid Metabolism in Germinating Onion: I. Changes in Root Tip Nucleic Acid during Germination

Nucleic acid synthesis in the G₁ cell population of the 1-millimeter apex of the Allium cepa embryo was studied during the initial 73 hours of germination. Quantitative data indicate that the total amount of RNA per cell began to increase after 18 hours of germination while the initial DNA per cell increase did not occur until some 20 hours later. Polyacrylamide gel electrophoresis patterns of ³H-uridine-labeled total nucleic acid samples indicated that synthesis of all detectable RNA fractions present in the pre-emergent 1-millimeter apex (i.e., cytoplasmic and “chloroplast-like” RNA) began at approximately the same time (18 hours). Synthesis of the various cytoplasmic RNA fractions continued throughout the germination period. Data indicating synthesis of the “chloroplast-like” RNA were obtained only for the initial 36 hours of germination. Specific radioactivity of ³H-uridine-labeled total nucleic acid increased during the first 41.5 hours of germination but then decreased while the accumulation of RNA per cell continued to increase throughout the 73-hour period. In addition, a method is described which reduced the bacterial contamination of Allium seed to a level not detectable by incorporation of radioactive precursors into bacterial ribosomal RNA.     

A study of uptake of radiolabeled host proteins and protein synthesis during development of eggs of the endoparasitoid,Microplitis croceipes (Cresson) (Braconidae)

The uptake of radiolabeled haemolymph and fat body proteins from fourth instar larvae of Heliothis zea (Boddie) by eggs of Microplitis croceipes (Cresson) was examined by SDS-polyacrylamide gel electrophoresis and by autoradiography. None of the ¹²⁵I-labeled haemolymph proteins was detected in eggs exposed to the proteins in vivo. Although several of the proteins were observed in eggs incubated with the labeled proteins in vitro, none of these proteins was degraded or resynthesized into new structural proteins during development of the embryo. Similarly, no significant uptake of labeled fat body proteins by the eggs could be detected in vitro. On the other hand, protein synthesis measured by incorporation of [³⁵S]methionine occurred throughout egg development. Proteins were synthesized at least 1 hr after the egg was deposited into the host. The protein patterns of eggs on one-dimensional SDS gels were complex and ranged in size from less than 18,500 to more than 330,000 mol. wt. The protein band patterns of the newly synthesized proteins showed some qualitative differences at 1–8, 16–32 and 40 hr after egg deposition. We conclude that eggs do not absorb or utilize the host apoproteins (or degradation products) but instead synthesize proteins de novo from free amino acids in the host haemolymph.     

Analysis of the coding activity and stability of messenger RNA in Drosophila oocytes.

The coding activity of the messenger RNA in the ooplasm of late stage 14 (S14) oocytes of Drosophila melanogaster was analyzed by labeling the oocytes in vitro with [³⁵S]methionine and examining the labeled products by two-dimensional gel electrophoresis and fluorography. This analysis was done both with newly formed S14 oocytes from rapidly laying females and with S14 oocytes stored for about 10 days in females that were prevented from laying. Comparison of the fluorographs showed that the proteins labeled in the newly formed oocytes were also labeled in the stored oocytes. Thus, the coding activity of S14 oocyte messenger RNA appears to remain stable during prolonged storage in utero. The oocyte proteins synthesized during oogenesis and incorporated into S14 oocytes were labeled in vivo by injecting [³⁵S]methionine into newly eclosed females, and the S14 oocytes were removed 2 days later for gel electrophoresis and fluorography. Comparison of the fluorographs produced by the in vivo and in vitro labeling procedures showed that most of the oocyte proteins labeled in vivo were also labeled in vitro. The S14 oocytes, therefore, appear to contain messenger RNA for most of the oocyte proteins synthesized during oogenesis. There were also several additional proteins detected only in the fluorographs of the in vivo labeled oocytes; the most prominent of these were identified by immunoprecipitation tests as vitellogenin proteins of yolk granules, which are known to be synthesized outside the oocyte, in fat bodies. The occurrence of stable S14 oocyte messenger RNA for most of the oocyte proteins suggests that the synthesis of those proteins during oogenesis occurs in the developing oocytes, specified by a stable population of oocyte messenger RNA.     

Lipid synthesis in germinating Tradescantia pollen

Synthesis of neutral and polar lipids in pollen of Tradescantia paludosa during germination and tube growth was studied by the incorporation of acetate-[1-¹⁴C] into lipids in the presence and absence of inhibitors of RNA and protein synthesis. The proteins required for the synthesis of both neutral lipids and phospholipids are not made de novo during germination but are already present in the mature ungerminated pollen grain and they are functionally stable during the first 2 hr of pollen growth.     

Differential Protein Pattern of Two Cotyledon Explants of Vigna radiata During Induced In Vitro Differentiation: Probable Implication in the Conundrum of Differential Regeneration Response

Differential regeneration response in two cotyledon types (Cot and Cot E) of Vigna radiata was reported earlier. The Cot (one cotyledon) is easily detachable from the germinating embryonal axis, whereas, Cot E (the other cotyledon) remains firmly attached during seed germination or after imbibition. Shoots differentiated directly from the Cot E under the induction of in vitro differentiation, while, under the same milieu, shoot differentiation was preceded by callus differentiation from Cot. In this study, we present comparative analyses of protein profiles from these two explant types recorded at different point of time during induction of differentiation. Cot E always contained higher amounts of soluble protein than the Cot. Likewise, higher de novo protein synthesis was noted in Cot E than in Cot as revealed by ³⁵S methionine labeled study. Two polypeptides of ～37 and 84 kD disappeared earlier from Cot E than Cot and is presumed to be linked with shoot induction. Two marker proteins of ～88 and 158 kD synthesized during shoot differentiation were apparent. It was observed that the labeled protein synthesis initiated within 3h in Cot E under in vitro condition, while, no labeled protein was detected from Cot even at 12h. Irrespective of the mode of differentiation, a large amount of protein was hydrolyzed during the process of differentiation. However, in case of Cot, the process was delayed by a day than Cot E. In all probability, this is an indication of delayed cytokinin induced rejuvenation of Cot. Temporal difference in protein profile was also evident in these two explant types during in vitro differentiation. Yet, three major groups of proteins were consistently present in both the explants. The biochemical differences recorded between these two explants during induction of in vitro differentiation reflects the temporal difference in gene expression. Perhaps Cot E has the distinctiveness due to the temporal differences in certain key gene expression and proved its greater suitability over Cot for shoot regeneration purposes.     

myo-Inositol Synthesis from [1-H]Glucose in Phaseolus vulgaris L. during Early Stages of Germination

Radiolabeled d-[1-³H]glucose was fed by imbibition under sterile conditions to bean (Phaseolus vulgaris L.) seeds. After 72 and 96 hours of feeding, the ³H was located in uronic acid and pentose residues as well as hexose residues of cell wall polysaccharides in growing hypocotyl and root. Free myo-inositol present in cotyledons, hypocotyl, and root also contained ³H, showing that de novo synthesis of myo-inositol from [1-³H]glucose did occur during the first 72 hours of germination. More than 90% of the labeled, free myo-inositol was present in the cotyledons. The ³H percentage in trifluoroacetic acid-soluble arabinose residues of cell wall polysaccharides from 72-hour-old bean hypocotyls was only half of their mole percentage. On the other hand, ³H percentages in hexose residues were higher than their mole percentages. The results suggest that myo-inositol is synthesized from reserve sugars during the very early stages of germination, and that the newly synthesized myo-inositol, as well as that stored in cotyledons, can be used for the construction of new hypocotyl and root cell wall polysaccharides after conversion into uronic acids and pentoses via the myo-inositol oxidation pathway.     

Rates of ribosomal protein and total protein synthesis during Drosophila early embryogenesis

Embryos at various stages of early development from 1.5 to 5 hr after oviposition were made permeable with octane and labeled for 1 hr with [³H]phenylalanine. Measurements of the rate of incorporation of [³H]phenylalanine into ribosomal proteins and total protein were made using these synchronized Drosophila embryos. The rate of synthesis of those ribosomal proteins incorporated into ribosomes increases until 3 to 4 hr after fertilization (550 pg/embryo-hr) then declines later in embryonic development. The rate of total protein synthesis is maximal as early during embryonic development as could be measured. During the period between 1.5 and 2.5 hr after fertilization this rate is 9.4 ng/embryo-hr and then also declines. The synthesis of ribosomal proteins accounts for a substantial portion (4.5%–8.9%) of total protein synthesis in early embryos. These results indicate that ribosome formation is a significant activity during the earliest stages of Drosophila development.     

Tubulin and actin synthesis during brain development

Chick brain proteins from 5- through 13-day embryos were labeled with l-[³⁵S]methionine for 30 min in vitro and analyzed by two-dimensional gel electrophoresis. Autoradiographs of the gels were scanned with a computer-coupled densitometer to measure the relative rates of protein synthesis. The actins and the tubulins were the most abundant proteins and had the highest rates of synthesis. β and γ actin were synthesized at constant rates throughout this period of development, but the rate of tubulin synthesis increased fourfold. Six α tubulins and two β tubulins were distinguished, and they were all synthesized at all times. The relative rates of synthesis of these forms changed with development in a complex pattern, but the stoichiometry of α:β remained 1:1.     

Spores of microorganisms

Spores ofBacillus cereus were germinated in a germination limited medium (GL-medium) which facilitates only germination but not the postgerminative development of spores. Under these conditions a limited protein synthesis occurs. However, this protein synthesis is stopped after a short time interval. The rate of synthesis of new proteins, as well as their total amount, is influenced by the length of the activation heat shock. Synthesis of the wall material continues for several hours and thick-walled cells with a changed ultrastructure are formed. Synthesis of the diaminopimelic acid (dap) containing material of the cell wall is sensitive to actinomycin D and relatively resistant to chloramphenicol. Similarly, protein synthesis is relatively chloramphenicol-resistant but is fully inhibited by azauracil or spiramycin. Whereas RNA formed in the control culture is partially decomposed after 30 min of incubation, chloramphenicol accelerates its synthesis and prevents its decay. Exudate components apparently stimulate synthesis of ribonucleic acid, proteins and the wall material. The¹⁴C-dap containing material released by prelabelled spores in the form of the exudate during the germination is not re-utilized by the spores germinated in the GL-medium. The results are discussed with respect to the atypical primary synthetic activities of spores under conditions when the postgerminative development is prevented and from the point of view of participation of the germination exudate during these syntheses.     

Regulation of Gene Expression in Developing Zea mays Embryos: Protein Synthesis during Embryogenesis and Early Germination of Maize

Polypeptides synthesized in dissected embryos of Zea mays at different stages of embryogenesis and early germination have been characterized by their migration in two-dimensional gel electrophoresis. This analysis has been carried out with in vivo labeled polypeptides from excised embryos and with proteins synthesized in vitro in the rabbit reticulocyte system directed by poly(A⁺) RNA isolated from the different developmental stages. We have identified three main sets of expressed polypeptides: (a) embryonic set: this group of polypeptides is synthesized in young and mature embryos but not in early germination; (b) maturation set: this group of polypeptides is not present in young embryos and appears during the maturation period. Some of these polypeptides are still present in early germination while others disappear from stored mRNAs in dry embryos. One particular group from this set can be induced prematurely in young embryos by incubation with abscisic acid; and (c) germination set: this group of polypeptides is not expressed in the maturation period and appears after brief imbibition of the dry embryos.     

The cuticular proteins of Tenebrio molitor: II. Patterns of synthesis during postembryonic development

The program of synthesis for the soluble cuticular proteins of Tenebrio molitor was determined by following the incorporation of labeled leucine after a 4-hr pulse in vivo. Soluble proteins were extracted from labeled cuticles and separated on SDS-polyacrylamide slab gels; individual gel slices were counted. The synthetic patterns of larvae and pupae were similar to one another but distinct from the adult pattern. At each stage, the preecdysial pattern was unlike that of postecdysial animals. Distinct periods of synthesis were detected for different proteins. One protein was synthesized and deposited throughout cuticle formation in all three metamorphic stages. One group was synthesized only after ecdysis, while synthesis and secretion of other proteins were restricted to the preecdysial period. Some cuticular proteins never acquired detectable label.     

Changes in Protein Synthesis upon Cytokinin-Mediated Adventitious Bud Induction and during Seedling Development in Norway Spruce, Picea abies

A pulse-treatment of embryos of Picea abies (L.) Karst with cytokinin efficiently and reproducibly induces the coordinate de novo formation of bud primordia from subepidermal cells. The cytokinin treatment also affects the germinative development of the embryo; chloroplast maturation is delayed, and cell elongation is completely suppressed. We have analyzed the protein patterns in developing spruce embryos with the aim of identifying proteins which are differentially synthesized during early bud-differentiation and germination. In addition to a set of major seed storage proteins and a large set of constitutively synthesized proteins, we distinguish two sets of proteins that showed different patterns of synthesis in relation to germination. One was synthesized at high rates during germination, and the second set during post-germinative seedling development. Twenty-two proteins were differentially synthesized in the bud-induced versus the germinating embryos. Interestingly, all 22 belonged to either the germination phase-abundant or the seedling protein sets, whereas the constitutively synthesized proteins were unaffected by the treatment. Proteins synthesized exclusively in bud-induced embryos were not found. In total, the bud-induction treatment caused a maintenance of a protein synthesis pattern typical for the germination phase in the nontreated embryos, and the de novo formation of buds was not preceded by a major change in gene expression in the tissue.     

Synthesis of macromolecules during microcyst germination in the cellular slime mold Polysphondylium pallidum

Microcyst germination in the cellular slime mold Polysphondylium pallidum is a useful model for studying macromolecular changes necessary for or coincident with the transition from one cell type (cyst) to another (amoebae). Protein synthesis starts soon after cysts are incubated under permissive conditions, as evidenced by the incorporation of precursors and the appearance of polysomes. Sodium dodecyl sulfate-polyacrylamide gel analysis of proteins made at intervals during germination shows that protein synthesis is developmentally regulated during this process. RNA synthesis also begins early during germination. Cysts contain polyadenylated RNA that can stimulate the incorporation of radioactive amino acids into protein in an in vitro wheat germ protein synthesizing system. The concentration of poly(A)-containing RNA increases during germination and during inhibition of protein synthesis by cycloheximide.     

RNA synthesized during late sporulation is required for germ tube formation inBlastocladiella emersonii

Inhibition of RNA synthesis with actinomycin D as late as 210 min (T₂₁₀) afterBlastocladiella emersonii is induced to sporulate results in complete blockage of germ tube formation in the next generation. In agreement with other reports, actinomycin D added during germination did not block germ tube formation. Protein synthesis during germination is reduced by approximately one-half when actinomycin D is added atT₂₁₀ but remains at virtually control levels when actinomycin D is added during germination. Two-dimensional sodium dodecyl sulfate-polyacrylamide gel analyses of the abundant proteins synthesizedin vivo during the first hour of germination revealed no qualitative differences in the proteins which accumulate when control cells are compared to cells treated with actinomycin D atT₂₁₀. Comparison of proteins synthesized from 20 to 40 min germination vs 40 to 60 min germination demonstrated that actinomycin D alters the temporal pattern of accumulation of some abundant proteins. The RNA synthesized afterT₂₁₀ is associated with polysomes, suggesting that an mRNA fraction made in late sporulation is required for a germ tube. The available data do not exclude the possibility that a regulatory RNA synthesized during late sporulation is required for germ tube formation.     

Protein synthesis by the milk gland and fat body of the tsetse fly,Glossina pallidipes

The patterns of protein synthesis by the milk gland and the fat body of female Glossinapallidipes during the pregnancy cycle were studied by incubation with [³⁵S]methionine both in vivo and in vitro. The pattern of protein synthesis by the milk gland changed with the stage of the larva in the uterus. Very little synthesis occurred in the milk gland until the first instar larva hatched. Then four proteins (13, 16, 24 and 72 kDa) were prominently synthesized. As the larva matured, the synthesis of 19, 38, 40 and 72 kDa proteins increased, whereas that of the 13 and 24 kDa proteins decreased. Just before larviposition, only the 16 and 72 kDa proteins were still being synthesized. The milk gland secreted into the medium primarily the 13, 16, 19 and 72 kDa proteins, all of which were found in the larval gut after a 5 hr pulse of labeled methionine in vivo. During most of the pregnancy cycle protein synthesis in the fat body was low compared to that of the milk gland and only small amounts of several low molecular weight proteins (less than or equal to 16 kDa) were released into the medium. But when a large third instar larva was present in the uterus, the fat body synthesized and secreted a 72 kDa and a 15–17 kDa complex of proteins.     

Alterations in Membrane Protein-Profile during Cold Treatment of Alfalfa

Changes in pattern of membrane proteins during cold acclimation of alfalfa have been examined. Cold acclimation for 2 to 3 days increases membrane protein content. Labeling of membrane proteins in vivo with [³⁵S]methionine indicates increases in the rate of incorporation as acclimation progresses. Cold acclimation induces the synthesis of about 10 new polypeptides as shown by SDS-PAGE and fluorography of membrane proteins labeled in vivo.