Factors affecting the onset of deoxyribonucleic acid synthesis during wheat embryo germination. Study of the changes in DNA polymerases A, B and C and the pool of DNA precursors.

DNA synthesis starts about 12 h after water imbibition in wheat embryos. We have determined that noticeable amounts of labelled thymidine are found inside the embryo only after 6 hr of germination. DNA polymerase C from ungerminated wheat embryos decreased markedly in activity during the first hours of germination, whereas the activities of DNA polymerases A and B increased, having a maximum at about 15 h or germination. Serological evidence has suggested a clear antigenic relationship between DNA polymerases A and C. Although the pool of ATP increases rapidly after water imbibition, the increase in the pool of dNTP species was much slower.     

RNA polymerase activity in isolated Triticum aestivum embryos during germination

A gradual decrease in the total activity of DNA-dependent RNA polymerase in isolated wheat embryos began 6 hr after germination and continued for up to 48 hr. DEAE-cellulose column chromatography indicated the presence of two RNA polymerase fractions (major and minor) in the resting embryos, only one of which (major) could be detected in the embryos germinated for 48 hr. The major RNA polymerase fraction was tentatively identified as nucleoplasmic (RNA polymerase II).     

The amounts,subunit structures,and template-engaged activities of RNA polymerases in germinating soybean axes

During the first 24 hr of soybean axis imbibition and growth, there is about a 25-fold increase in RNA polymerase activity associated with isolated nuclei. Within this same period, there is no increase in the amount of RNA polymerase I or II protein in soybean axes. There is no alteration in subunit structure of RNA polymerase II during germination and growth, with the possible exception of conversion of the 215,000 subunit to a 180,000 polypeptide, and no alteration in phosphorylation pattern of RNA polymerase II subunits. These results suggest that the rates of RNA synthesis during imbibition, germination, and growth of soybean axes are not regulated by altering the amount or subunit structure or by posttranslational modification of RNA polymerase II subunits.     

Onset of deoxyribonucleic Acid synthesis in germinating wheat embryos

Germinating wheat embryos (Triticum vulgare var. Florence) synthesize proteins before the onset of DNA synthesis. The onset of DNA replication occurs at about 15 hours of germination and was shown to depend on proteins synthesized before 9 hours of germination with the use of blasticidin S, a specific inhibitor of protein synthesis. A 10-fold increase in the activity of DNA-dependent DNA polymerase was found in extracts derived from germinated embryos, as compared to the activity found in extracts from ungerminated embryos.     

Alterations of protein synthesis in arbovirus-infected L cells

Lust, George (Fort Detrick, Frederick, Md.). Alterations of protein synthesis in arbovirus-infected L cells. J. Bacteriol. 91:1612-1617. 1966.-Cellular protein synthesis and ribonucleic acid (RNA) synthesis in mouse L cells were markedly depressed 1 hr after infection with Venezuelan equine encephalomyelitis virus. Host RNA and protein synthesis were inhibited more rapidly by the virus infection than by actinomycin D. In cells infected 4 hr, a cytoplasmic RNA polymerase was demonstrated which was absent in uninfected cells. At this time, deoxyribonucleic acid-directed RNA synthesis catalyzed by the nuclear RNA polymerase was inhibited in vitro in enzyme preparations from nuclei of virus-infected cells. For optimal activity, the cytoplasmic RNA polymerase required the four nucleoside triphosphates, Mg(++), and RNA. The enzyme was insensitive to actinomycin D and deoxyribonuclease, indicating that it catalyzed RNA-directed RNA synthesis. Attempts to purify the induced polymerase further were unsuccessful. Fresh preparations had to be used because the enzymatic activity was unstable.     

Changing rates of DNA and RNA synthesis in Drosophila embryos

Rates of DNA and RNA synthesis during Drosophila embryogenesis were measured by labeling octane-treated embryos with [¹⁴C]thymidine and [³H]uridine. Radioactivity incorporated per hour was converted to rates of synthesis using measurements of the pool-specific activity during the labeling periods. The rate of DNA synthesis during early embryogenesis increases to a maximum at 6 hr after oviposition and then decreases sharply. Measured rates of DNA synthesis were used to calculate that the total amount of DNA per embryo doubles every 18 min at blastoderm, every 70–80 min during gastrulation, and less than once every 7 hr at later stages. The rate of RNA accumulation per embryo increases continuously during the first 14 hr of embryogenesis. The rate of nuclear RNA synthesis per diploid amount of DNA, however, decreases fivefold between blastoderm and primary organogenesis. The cytoplasmic poly(A)⁺ RNA synthesized by blastoderm embryos associates rapidly with polysomes. The relatively high rate of synthesis of polysomal poly(A)⁺ RNA per nucleus at blastoderm allows the small number of nuclei present at blastoderm to make a significant quantitative contribution to the informational RNA active in the early embryo. At the end of blastoderm, approximately 14% of the mRNA being translated in the embryo has been synthesized after fertilization.     

Nucleic acid and protein synthesis and loss of vigour in germinating wheat embryos

A study has been made of the RNA and protein synthesising systems of wheat embryos isolated from seed lots having high viability but differing in vigour. The rate of RNA and protein synthesis in wheat embryos during the early hours of germination is related to the vigour of the seed lot. The imposition of a stress factor, in the nature of a sub-optimal germination temperature, during germination of isolated wheat embryos magnifies the differences in rates of protein and RNA synthesis between high and low vigour seed. Using cell-free protein synthesising systems it has been demonstrated that an important difference between high and low vigour embryos lies in the relative levels of messenger RNA in the embryo. High vigour embryos contain relatively higher levels of poly A⁺-RNA (i.e. potential mRNA species) than lower vigour embryos and furthermore the level of poly A⁺-RNA in high vigour embryos increases during early germination whilst in lower vigour embryos the level decreases. The difference in poly A⁺-RNA levels accounts, at least partially, for the differences in rates of protein synthesis observed between embryos from high and low vigour wheat seed during early germination at both optimal and sub-optimal germination temperatures.Abbreviations HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid - poly A⁺-RNA polyadenylated RNA - GM germination medium - PMS post-mitochondrial supernatant fraction     

RNA synthesis in germinating embryonic axes of soybean and wheat

The rate of synthesis of RNA during early germination of wheat and soybean embryos was investigated by ascertaining the incorporation of radioactive uridine into RNA. In wheat embryos, where the lag period preceding rapid growth is 5.5 hours, there is a 2-fold increase in RNA synthesis between 1.5 and 5.5 hours, with half of the increase occurring by 3.5 hours. In soybean axes, where the lag period is 9.5 hours, the increased rate of RNA synthesis is 5.5-fold between 1.5 and 9.5 hours, with three fourths of this increase occurring after 4 hours.     

Replication of mengovirus. I. Effect on synthesis of macromolecules by host cell

Plagemann, Peter G. W. (Western Reserve University, Cleveland, Ohio), and H. Earle Swim. Replication of mengovirus. I. Effect on synthesis of macromolecules by host cell. J. Bacteriol. 91:2317-2326. 1966.-The replication of mengovirus was studied in two strains of Novikoff (rat) hepatoma cells propagated in vitro. The replicative cycle in both strains required 6.5 to 7 hr. Infection resulted in a marked depression of ribonucleic acid (RNA) and protein synthesis by strain N1S1-63. Inhibition of RNA synthesis was reflected by a decrease in the deoxyribonucleic acid (DNA)-dependent RNA polymerase activity of isolated nuclei. Mengovirus had no effect on either protein or RNA synthesis or on the DNA-dependent RNA polymerase activity of a second strain, N1S1-67. The time course of viral-induced synthesis of RNA by cells was studied in cells treated with actinomycin D. It was first detectable between 2.5 and 3 hr after infection and continued until 6.5 to 7 hr. The formation of mature virus was estimated biochemically by measuring the amount of RNA synthesized as a result of viral infection which was resistant to degradation by ribonuclease in the presence of deoxycholate. Approximately 70% of the deoxycholate-ribonuclease-resistant RNA was located in mature virus, and the remainder was double-stranded. The formation of mature virus began about 45 min after viral-directed (actinomycin-resistant) synthesis of RNA was detectable in the cell, and only about 18 to 20% of the total RNA synthesized was incorporated into virus. Release of virus from cells began about 1 hr after maturation was first detectable. Release of virus from cells was accompanied by a loss of a large proportion of their cytoplasmic RNA and protein.     

Effects of alpha-amanitin on RNA synthesis by mouse embryos in culture

Investigations were conducted to test the effects of alpha-amanitin on RNA synthesis in preimplantation mouse embryos. Exposure of embryos in culture to 1-100 microgram/ml alpha-amanitin produced a dose- and time-dependence suppression of total RNA synthesis as measured by incorporation of [3H]uridine. Synthesis of polyadenylated RNA in blastocyst-stage embryos was abolished by alpha-amanitin-treatment at concentrations and exposure times that suppressed total RNA synthesis by less than 15%. DNA-dependent RNA polymerase activity was measured in lysates of embryos at several stages of preimplantation development. alpha-Amanitin suppressed total polymerase activity assayed under ionic conditions favorable to the detection of RNA polymerase II. Electrophoretic analyses revealed that preincubation of blastocysts in 100 microgram/ml alpha-amanitin reduced labelling of cytoplasmic 28S and 18S RNA by inhibition of both synthesis and maturation of nucleolar 45SrRNA-precursor. This action of alpha-amanitin on nucleolar RNA synthesis cannot be correlated with the minimal suppression of nucleolar RNA polymerase activity and suggests that the synthesis and processing of rRNA may be under control of nucleoplasmic gene products.     

In vitro protein synthesis during germination and vernalization in winter wheat embryos

Protein synthesis during germination at 24?C and vernalizationat 4?C in winter wheat embryos were investigated with a cell-freesystem. During germination, the capacity for protein synthesisincreased in the early stage between 12 and 36 hr of imbibitionthen declined to a final low level between 48 and 72 hr. Thistransition was due to quantitative changes of the activitiesof ribosomal and supernatant fractions in the early stage andmainly to those of the supernatant fraction in the later stage.During vernalization, the capacity for protein synthesis continuedto decline over 15 to 60 days at 4?C. This transition was dueto the change in activity of the supernatant fraction; the activityof the ribosomal fraction was nearly constant. Electrophoretic analysis of in vitro products indicated thatthe high molecular weight proteins present in 12-hr embryoshad disappeared in 48-hr germinated wheat embryos and that theproducts in 24- and 36-hr embryos were types intermediate betweenthose of 12- and 48-hr embryos. The products in each vernalizedembryo resembled those in 24- and 36-hr germinated embryos.Therefore, it was concluded that the mRNA species for translationchanged during germination and vernalization in winter wheatembryos. (Received January 20, 1977; )     

Persistence of embryonic RNA synthesis during facultative delayed implantation in the mouse.

The status of embryonic RNA synthesis during facultative delayed implantation in the mouse has been examined by radiolabeling in vitro and in utero, and by assay for endogenous RNA polymerase activity. Under conditions that do not activate delayed blastocysts in utero, embryos were shown to be able to transport and incorporate [³H]uridine into RNA as early as 5 min after intralumenal instillation of label on Day 5 of delay. Assay for endogenous RNA polymerase demonstrated functioning enzyme(s) in blastocysts on Day 5 of delayed implantation. Rates of incorporation of label in vitro under nonactivating conditions indicated a reduction, from normal Day 5 blastocyst levels, of 52% on Day 2 and 36% on Day 5 of delay. Relative rates of uptake of [³H]uridine by blastocysts on Day 5 of delay were reduced by approximately 60% from rates observed in predelay embryos on Day 5 of pregnancy. Estrogen-induced activation of embryos in utero was not associated with an increased relative rate of ³H]uridine uptake or incorporation during the first 24 hr following activation on Day 5 of delay. The findings demonstrate that RNA synthesis persists in the mouse blastocyst during delayed implantation, although at a somewhat reduced level. Implications of these results relevant to the maternal regulation of embryonic growth and implantation are discussed.     

Natural Ageing: Poly(A) Polymerase in Germinating Embryos of Triticum durum Wheat

The viability of seeds is associated with ageing and storageconditions. A loss of viability is accompanied by slow germination,reduced growth, and a decline in protein and poly(A)⁺RNA synthesis.This paper reports on the activity of poly(A) polymerase indry and germinating embryos of Triticum durum Desf. cv. Cappellicaryopses of different ages and viability. The enzyme was presentas a single form during ageing and germination. The poly(A)polymerase was active at decreasing levels in all aged dry embryos,in parallel with loss of viability. Its activity strongly increasedduring the germination only in viable embryos. The observedincrease was due to de novo synthesis of the enzyme. Poly(A)polymerase synthesis was low during germination of less viableembryos and absent in older ones. Reduced poly(A) polymeraseactivity in dry or germinated wheat embryos may cause a shorteningof poly(A) chains in vitro and a decline in poly(A)⁺RNA synthesis.Copyright1995, 1999 Academic Press Triticum durum Desf. cv. Cappelli, wheat, embryo, natural ageing, poly(A) polymerase     

Lack of correlation between overall protein synthesis and the onset of cell elongation in germinating embryos of Haplopappus gracilis

10⁻⁵M abscisic acid (ABA) completely inhibits germination or (if seeds deprived of integuments are used) embryo elongation in Haplopappus gracilis (Nutt.) Gray. Nevertheless, considerable rates of protein and RNA synthesis were found in embryos grown in abscisic acid, at least during the early hours after sowing. On the contrary, seeds grown in cycloheximide + fusicoccin (a powerful promoter of cell expansion), where protein synthesis is almost completely inhibited, show full protrusion of radicle, thus simulating a "germination" process. These results suggest that some of the most important events involved in seed germination, i.e. protein and RNA synthesis, and cell elongation which leads to radicle protrusion, may not necessarily be linked together and are possibly regulated by different control mechanisms. Moreover, when seeds or embryos are grown in abscisic acid + fusicoccin, protein synthesis is considerable, cell elongation is greater than in water controls at least for 12 h, and germination in its early stages appears to be normal; but DNA synthesis and cell division are not resumed, possibly since some other factor is required. All these findings propose a reevaluation of criteria for defining successful germination.     

Comparison of overall rates of RNA synthesis in implanting and delayed implanting mouse blastocysts in vitro

Implanting and delayed implanting mouse embryos were incubatedin vitro with [³H]uridine for 2–24 hr. The size and specific activity of the [³H]UTP pools were determined by means of a double isotope technique using copolymer synthesis with the [³H]UTP in the embryos, exogenous [¹⁴C]ATP, andE. coli RNA polymerase. Using the rate of incorporation of [³H]uridine into acid-insoluble material and the specific activity of the [³H]UTP pools, it was possible to calculate the overall rate of incorporation of uridine into RNA by the embryos. In implanting embryos it was constant for 24 hr. In contrast, the initial rate of uridine incorporation by the delayed implanting embryos was only 31% of that in implanting embryos (i.e., per cell); this increased steadily during the incubation period, reaching 81% of the rate in implanting embryos after 24 hr. This activation of RNA synthesis by delayed implanting embryosin vitro occurred in the absence of any uterine stimulatory factors. Further, it was shown that although 10% mouse serum would support trophoblastic outgrowthin vitro, it did not influence uptake, distribution of label into nucleotides, or rate of uridine incorporation into RNA in either implanting or delayed implanting embryos. Therefore, it is suggested that if depression and activation of metabolic activity in blastocysts are part of the mechanims of delayed implantation, and if trophoblast outgrowthin vitro is analogous to the process of implantationin vivo, then these two aspects of embryo activation are under different controls.     

DNA-dependent RNA polymerase activities during embryogenesis in the bug, Oncopeltus fasciatus

Using α-amanitin to inhibit polymerase II activity in intact nuclei from Oncopeltus embryos, it is demonstrated that there is no difference in relative amounts of α-amanitin-resistant (Form I) and α-amanitin-sensitive (Form II) polymerases at two stages of embryonic development (70 and 140 hr), although the total polymerase activity is considerably higher at the earlier stage. However the RNA made under these circumstances (presumably due to Form I activity) appears to be, as expected, largely ribosomal.When the RNA polymerase activities are solubilized and separated, there is a substantially higher level of Form I activity in 70-hr embryos over that in 140-hr embryos. It is suggested that this high level of polymerase activity is correlated directly with the high level of ribosomal RNA synthesis at this stage.     

RNA synthesis in germinating red bean seeds

Nucleic acids from ³²P-labelled germinating red bean seeds wereinvestigated by means of MAK column chromatography. 1) In cotyledons,synthesis of D-RNA occurred in the early stages of germination,3 to 24 hr after the onset of imbibition. ³²P was also incorporatedinto rRNA continuously at rather a moderate rate. DNA-RNA hybridizationexperiments revealed that the proportion of heterogeneous RNA(D-RNA) to rRNA decreased gradually. Nucleotide analysis suggestedthat tRNA was synthesized de novo, and that its CCA-end exchangewas remarkable at early stages of germination. 2) In embryos,however, the incorporation of ³²P into rRNA was very much greaterthan into D-RNA, and the exchange reaction at CCA-end of tRNAwas not detected. The role of D-RNA, found in cotyledons inthe initial stages of germination, was discussed. ¹Present address: Research Institute for Biochemical Regulation,Faculty of Agriculture, Nagoya University, Chikusa-ku, Nagoya,Japan. (Received May 10, 1972; )     

Early DNA synthesis during the germination of wheat embryos

Both [³H]thymidine and [³H]deoxyadenosine were found to be incorporated into the nuclear DNA of wheat embryos immediately after dry embryos were allowed to imbibe aqueous solutions of the radioactive precursors. The early labelled DNA sedimented in a manner suggesting that replicative intermediates were already formed within the first 90 min of germination. However, aphidicolin remained without any effect on this early DNA synthesis. Likewise, a cell-free system derived from early embryos incorporated [³H]dCTP into DNA independently of the presence of aphidicolin. On the contrary, dideoxyTTP inhibited the DNA synthesis considerably. It is concluded that a proportion of the resting wheat embryo cells is able to initiate a replicative DNA synthesis immediately upon imbibition. The synthesis seems, however, to proceed with the participation of a γ-like, rather than an α-like, DNA polymerase.