RNA synthesis and the germination of light-sensitive lettuce seeds

Summary The germination of lettuce seeds is inhibited by the nucleotide base analogue 6-methylpurine. RNA synthesis has been measured during imbibition and germination as ³²P-phosphate incorporation into RNA species as fractionated by polyacrylamide gel electrophoresis. Seeds were surface sterilized and imbibed in the presence of various antibiotics. RNA preparations from lettuce seeds were coelectrophoresed with ³H-RNA prepared from bacteria to check for bacterial contamination of the seeds. There is a much higher rate of RNA synthesis in illuminated, germinating seeds as compared to dark, non-germinating seeds. This difference does not develop until after 12 hours of imbibition at 27°, which is the time of onset of germination and radicle growth.This investigation was supported by a contract from the United States Department of Agriculture (No. 616-15-3). Journal paper of the Purdue Agriculture Experiment Station.     

Inhibition, of hormone-induced ethylene synthesis by the indole plant-growth inhibitor from Abrus precatorius seeds

The plant growth inhibitory fraction from Abrus precatoriusseeds inhibited protein and RNA synthesis and IAA- and kinetin-stimulatedethylene production by lettuce seedlings as well as IAA-stimulatedgrowth and ethylene production by wheat coleoptile sections. (Received August 28, 1974; )     

Inhibition of lettuce seed germination and seedling growth by antimetabolites of nucleic acids,and reversal by nucleic acid precursors and gibberellic acid

Summary Germination of White Paris lettuce seeds is inhibited by 2-thiouracil up to 24 hours. This inhibition is reversed by RNA precursors only. Seedling growth of lettuce is inhibited by 2-thiouracil and 5-fluorouracil; and white the effect of 2-thiouracil is counteracted by RNA precursors, inhibition due to 5-fluorouracil is not reversed significantly by any nucleic acid precursors. Possibly 2-thiouracil controls germination and seedling growth by interfering with RNA synthesis, while the effect of 5-fluorouracil is non-specific.In the presence of gibberellic acid, 5-fluorouracil and 2-thiouracil are relatively ineffective in causing inhibition of hypocotyl growth. Mechanism of gibberellic acid action remains obscure.     

Inhibition of plant fatty acid synthesis by nitroimidazoles.

1. The effect of the addition of a number of nitroimidazoles was tested on fatty acid synthesis by germinating pea seeds, isolated lettuce chloroplasts and a soluble fraction from pea seeds. 2. All the compounds tested had a marked inhibition on stearate desaturation by lettuce chloroplasts and on the synthesis of very-long-chain fatty acids by pea seeds. 3. In contrast, the effect of the drugs on total fatty acid synthesis from [14C]acetate in chloroplasts was related to the compound's electron reduction potentials. 4. Of the compounds used, only metronidazole had a marked inhibition on palmitate elongation in the systems tested. 5. The mechanism of inhibition of plant fatty acid synthesis by nitroimidazoles is discussed and the possible relevance of these findings to their neurotoxicity is suggested.     

Phytochrome-mediated activation of the gene for cytosolic glutamine-synthetase (GS1) during imbibition of photosensitive lettuce seeds

A full-length cDNA encoding glutamine synthetase was isolated from a gt11 library constructed from the poly(A)⁺ RNA isolated from lettuce seeds incubated under red light. The nucleotide sequence of the cDNA and the deduced sequence of amino acids showed a high degree of homology to those of the cytosol-type glutamine synthetase from other plants. Northern and dot-blot analyses of poly(A)⁺ RNA extracted from the seeds incubated under various light conditions showed that the activation of the gene for cytosolic glutamine-synthetase during imbibition of lettuce seeds is directly or indirectly regulated by phytochrome.Abbreviations GS glutamine synthetase - GA gibberellin     

Differential effects of actinomycin d and cordycepin in lettuce seed germination and RNA synthesis

Intact lettuce seed germination was inhibited by cordycepin but not by actinomycin D; however, when seeds were clipped at the cotyledonary end, actinomycin D partially inhibited germination. Uptake studies with intact seeds using ³H-actinomycin D showed that it was unable to reach the embryo prior to radical protrusion. ³H-Cordycepin uptake studies using intact seeds showed that cordycepin was able to reach the embryo during the first 3 hours of incubation and at subsequent times. The pericarp and endosperm offered resistance to penetration of cordycepin into the embryo. In contrast to actinomycin D, cordycepin markedly inhibited ³H-uridine incorporation into RNA of intact seeds during the first 10 and 12 hours of incubation. About 60% of ³H-adenosine incorporation into poly A-RNA was inhibited by cordycepin during 12 hours of incubation, whereas actinomycin D had little effect. RNA synthesis appears to be essential for seed germination.     

Aphidicolin and ethidium bromide as tools to verify dependence of early post-germinative growth on nuclear and organellar DNA synthesis

Embryos of Haplopappus gracilis (Nutt.) Gray were sown in aphidicolin (inhibitor of nuclear DNA synthesis) used alone or in combination with ethidium bromide (inhibitor of organellar DNA synthesis). In both cases germination and the early processes of post-germinative growth, including enlargement and greening of cotyledons, some elongation of radicle, and formation of root hairs, occurred at the same rate as in the controls. Comparable results were obtained using fluorodeoxyuridine. The effect of aphidicolin is, unlike fluorodeoxyuridine, completely reversible and the side effect on protein and RNA synthesis are negligible. Total non-dependence on nuclear and organellar DNA synthesis during early post-germinative growth may not be a generalized situation in all seeds, as was shown by some observations on lettuce and watermelon.     

Abscisic Acid Inhibition of Kinetin Nucleotide Formation in Germinating Lettuce Seeds

Imbibing ‘Grand Rapids’ lettuce (Lactuca saliva L.) seeds take up ¹⁴C-kinetin, and metabolize this cytokinin to the 5′-nucleotide. The identity of the labeled nucleotide in seed extracts was verified by Sephadex LH-20 column chromatography, paper and thin layer chromatography, and high voltage paper electrophoresis. Incubations with kinetin in the presence of abscisic acid lead to an apparent specific inhibition of kinetin nucleotide formation. ABA has no effect on kinetin uptake, and does not inhibit kinetin nucleotide synthesis in vitro by a cell-free preparation from lettuce seeds. Additionally, ABA does not inhibit adenylate synthesis from exogenously supplied adenine. These results represent a specific cytokinin-ABA interaction, which might play a significant role in the hormonal regulation of lettuce seed germination.     

Polyribosome formation and protein synthesis in imbibed but dormant lettuce seeds

Dormancy is maintained in Grand Rapids lettuce (Lactuca sativa) seeds imbibed on water in darkness at 25 C. Polyribosome formation and protein synthesis occur early in the imbibition phase and considerable polysomal material is also present after 24 and 48 hours, even though the seeds have failed to germinate. Incorporation of labeled leucine into protein following a 24-hour preincubation period shows that these polysomes are active in protein synthesis.     

Lipid participation in intracellular freezing avoidance mechanisms of lettuce seed

Freeze-fracture electron microscopy was used to study water content related freezing resistance in Grand Rapids lettuce seeds. Consistent and recognizable conformational changes occurred in lipid-water phases of lettuce seeds at different moisture contents. In air-dry lettuce seed cotyledons, the lipids lying in spherical lipid bodies near the cell wall appeared amorphous, while the structure was crystalline above 20% water content. The lipid bodies interassociated into membrane bilayers in seeds containing 20 to 25% water. Such lyotropic phase transitions in membrane lipids during lettuce seed hydration are believed to contribute to the biphasic freezing behavior observed in lettuce seeds at different moisture contents and to provide a natural freezing tolerance mechanism for highly desiccated plant tissues such as seeds.     

生菜种子低温处理后耐冻性和脂肪酸合成代谢的关系研究

以生菜(Lactuca sativa)种子为研究对象,通过不同时间的吸水处理分析其含水量变化,再通过程序降温处理,分析不同含水量种子发芽率的差异,以及脂肪酸合成有关基因(FAD2、FAD3、PPT、ELOVL)和冷调节基因ICE1的表达。结果表明,种子含水量随吸水时间增加而升高。程序降温至同样的低温冷冻条件下(-20℃、-22℃),吸水时间小于6 h的种子发芽率较高,而吸水8 h以上的种子发芽率显著降低。种子吸水8 h含水量处于饱和状态,在此状态下种子对低温较为敏感,说明含水量对种子耐冻性有影响。冷冻处理后生菜种子基因表达检测结果表明,脂肪酸去饱和酶基因(FAD2、FAD3)、蛋白质棕榈酰基硫脂酶相关基因(PPT）、长链脂肪酸延伸酶相关基因(ELOVL)的表达水平均随着种子含水量增加呈上升趋势,吸胀10 h的种子表达量最高,此时种子由于高含水量所受冷冻伤害最大。基因ICE1在冷冻处理种子中的表达也随着吸水时间增加而升高,在吸水10 h时种子中表达量到最高水平。综上,种子含水量越高,所受冷冻伤害越大。但种子在低温条件下具有一定的抗冷反应,可通过相关基因的过表达调控合成更多不饱和脂肪酸、抗冻蛋白等提高含水种子耐冻性。     

Changes in macromolecule syntheses under special consideration of UNA and the energy providing system in imbibing embryos of different agedagrostemma githago L. Seeds

Changes in macromolecule syntheses, especially RNA synthesis, and the energy providing system were investigated in seeds ofAgrostemma githago aged for different periods. In embryos of aged seeds all macromolecule syntheses start later and reach a lower level than young ones. It was found that the synthesis of rRNA in embryos of aged seeds is reduced whereas the synthesis of poly (A⁺) RNA in relation to the total RNA synthesis is highly increased as well as the amount of this RNA species with long poly (A) chains. The results are discussed in connection with the decreased protein synthesis and the reduced ATP content and ATP formation ability in embryos during the long time storage of seeds.     

Changes during light and dark osmotic treatment independently modulating germination and ribonucleic acid synthesis in Chenopodium bonus-henricus seeds

The content and synthesis of RNA in Chenopodium bonus-henricus L. seeds in different physiological states were evaluated. A moist-chilling treatment at 4°C removed the primary dormancy of seeds. A pretreatment of chilled seed in low osmotic potential (–8.6 bars) polyethylene glycol-6000 solution at 15°C in light led to an advancement in subsequent germination time in water while a treatment in darkness induced a secondary dormancy. The synthesis of total RNA and poly A (+) RNA was correlated with the capacity of seeds to germinate. Cordycepin or α-amanitin failed to inhibit the germination of unchilled seeds, chilled seeds or chilled seeds given a prior light osmotic treatment. Also, germination of chilled seeds was not affected by cordycepin applied during light osmotic treatment. However, cordycepin effectively depressed the synthesis of both total RNA and poly A (+) RNA in chilled seeds with or without a prior light osmotic treatment. These data suggest that germination per se may depend upon the activation of pre-existing mRNA, which might be functionally different from the newly synthesized mRNA including poly A (+) RNA.     

Inhibition of lettuce seed germination by cycloheximide and chloramphenicol is alleviated by kinetin and oxygen

Kinetin alleviates cycloheximide inhibition and oxygen alleviates chloramphenicol inibition of germination of lettuce seeds (Lactuca sativa L. cv Grand Rapids). The effect is not due to increased but rather a substitution for protein synthesis. A cytokinin and energy supply appear prime requirements for germination.     

Synthesis de novo of Glutamine Synthetase in the Embryonic Axis, Closely Related to the Germination of Lettuce Seeds

Glutamine synthetase (GS) was purified from lettuce seeds incubatedunder red light. The amount of enzyme protein was estimatedby rocket immunoelectrophoresis using a specific antiserum.Red light and gibberellin separately increased the level ofenzyme protein in the embryonic axis. The increases in the proteinwere completely suppressed by cycloheximide. High temperature(35?C) caused a rapid decrease in the enzymatic activity, butno decrease in the level of enzyme protein. Translation in vitroof poly(A)⁺RNA extracted from the seeds demonstrated that levelof translatable mRNA for GS increased in the seeds irradiatedby red light. (Received March 14, 1990; Accepted May 8, 1990)     

Lettuce seed germination: modulation of pregermination protein synthesis by gibberellic Acid, abscisic Acid, and cytokinin

Protein synthesis in gibberellin-treated lettuce (Lactuca sativa) seeds has been studied during the lag phase between the beginning of imbibition and the first signs of radicle protrusion. When compared to the water-imbibed controls, both polyribosome populations and radioactive leucine incorporation into protein increase in the embryos of GA₃- induced seeds early in the imbibition period. Since these results are contradictory to previously published studies, the reasons for the differences are outlined and various alternative possibilities eliminated. The protocol for protein extraction, particularly the speed at which the supernatant from the seed homogenate is cleared, is important for demonstrating the GA₃-mediated changes. Embryos maintained in the dormant state by abscisic acid still conduct considerable amounts of protein synthesis, and this is enhanced by concentrations of 6-benzylaminopurine which also promote germination. Therefore, the actions of GA₃, abscisic acid, and cytokinin on lettuce seed germination are mediated, directly or indirectly, via protein synthesis.     

Effects of 6-methoxy-2-benzoxazolinone on the germination and alpha-amylase activity in lettuce seeds

Germination of lettuce seeds was inhibited by 6-methoxy-2-benzoxazolinone (MBOA) at concentrations greater than 0.03 mmol/L. MBOA also inhibited the induction of alpha-amylase activity in the lettuce seeds at concentrations greater than 0.03 mmol/L. These two concentration-response curves for the germination and alpha-amylase indicate that the percentage of the germination was positively correlated with the activity of alpha-amylase in the seeds. Lettuce seeds germinated around 18h after incubation and inhibition of alpha-amylase by MBOA occurred within 6h after seed incubation. These results show that MBOA may inhibit the germination of lettuce seeds by inhibiting the induction of alpha-amylase activity.     

Allelopathy in Heracleum laciniatum: Inhibition of Lettuce Seed Germination and Root Growth

Both dark and red light germination of lettuce seeds (cv. “Maikönig”) as well as their root and hypocotol elongation were inhibited when the seeds were sown in petri dishes together with a few seeds of Heracleum laciniatum Horn. This inhibition was not significantly counteracted by the presence of gibberellic acid (GA₃) or/and 6-benzylaminopurine (BA). However, a large proportion of the lettuce seeds germinated abnormally (only cotyledons emerged) when treated with BA in the presence of Heracleum seeds. GA₃ had alone no significant effect on abnormal germination, but it counteracted the effect of BA to some extent. The inhibitory effect of Heracleum seeds gradually disappeared during a moist incubation period of one to seven days in darkness at 25°C. When lettuce seeds were pre-incubated together with Heracleum seeds for one to five days the remaining, non-germinated lettuce seeds had lost their ability for subsequent germination in darkness in distilled water. This induced dark dormancy was to a great extent broken by red light, but not by GA₃ or/and BA. H. laciniatum seeds inhibited the germination of Salix pentandra seeds and to some extent also the germination of radish but had no effect on the germination of spruce.     

Effect of aflatoxin B1 on chromatin-bound ribonucleic acid polymerase and nucleic acid and protein synthesis in germinating maize seeds.

The treatment of germinating maize seeds (cv. Ganga 2) with aflatoxin B1 resulted in suppression of ribonucleic acid (RNA), protein, and deoxyribonucleic acid (DNA) synthesis at 3, 4, and 5 h, respectively. At or below the concentrations inhibitory for these in vivo syntheses, the toxin inhibited chromatin-bound DNA-dependent RNA polymerase activity. The synthesis of both polyadenylated and non-polyadenylated RNA was inhibited, but the effect on the former was more pronounced. Equilibrium dialysis and difference spectral and viscometric analyses showed a binding of aflatoxin B1 to DNA isolated from the seeds. It is proposed that the inhibition of RNA synthesis in maize seeds by the toxin is due to the interference with the RNA polymerase activity, which seems, at least partially, due to the impairment of DNA template functions.