Effects of Benzylaminopurine and Abscisic Acid on Distribution of rRNA in the Palisade Cells of Excised Cucurbita Pepo Cotyledons

rRNA was labelled with RNase-gold complexes applied to ultrathin Lowicryl sections of excised Cucurbita pepo L. (zucchini) cotyledons grown in darkness. Benzylaminopurine-caused stimulation of cotyledon growth decreases the density of ribosomes in palisade cells despite stimulating rRNA synthesis. Abscisic acid inhibits RNA synthesis and transport, but does not visibly affect the number of pre-existing ribosomes in retarded growth cells. The amount of rRNA in the cells of 24 h treated cotyledons is rather consequence of the growth rate than its leading factor.     

Auxin-dependent breakdown of xyloglucan in cotyledons of germinating nasturtium seeds

Rapid mobilisation of storage products, including xyloglucan, in cotyledons of germinating nasturtium (Tropaeolum majus L.) normally starts about 7–8 d after imbibition and growth of the seedling at 20–25° C. Levels of activity of endo-1,4--glucanase (EC 3.2.1.4) in cotyledons, as assayed viscometrically with xyloglucan as substrate, varied in parallel with the rate of breakdown of xyloglucan. When cotyledons were excised from the seedling axis and incubated on moist filter paper at any point before 7 d, the catabolic reactions which normally occurred in the intact seedling were suspended. If, however, cotyledons excised at 8 d were incubated in 10^–6 M 2,4-dichlorophenoxyacetic acid, a rise in endo-1,4--glucanase (xyloglucanase) activity was observed and a sharp decrease in fresh and dry weight as well as xyloglucan levels ensued at rates comparable to those observed in cotyledons attached to the seedling. Neither gibberellin nor kinetin treatments promoted xyloglucan breakdown or enhanced xyloglucanase activity. Addition of auxin to excised cotyledons before 7 d did not evoke premature breakdown, indicating that the tissue became receptive to auxin only at this time. The triggering process took place in darkness and was unaffected by various light-dark cycles. It is concluded that the sudden degradation of xyloglucan which occurs in nasturtium seeds about a week after germination begins is the result of enhanced activity of a depolymerizing xyloglucanase, this activity being evoked by auxin originating in the emerging seedling axis.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - 2,3-D 2,3-dichlorophenoxyacetic acid - GA₃ gibberellic acid - kDa kilodalton The authors are pleased to acknowledge the technical assistance of Alexander Marcus and valuable discussions with Dr. Vladimir Farkas. This study was supported by a scholarship to A.H. from the Deutsche Forschungsgemeinschaft (FRG) and a grant to G.M. from the Natural Sciences and Engineering Research Council of Canada.     

1,4—二取代酰氨基硫脲类化合物(DATCDs)的植物生理效应与应用研究——Ⅴ.DATCD-A对离体黄瓜子叶扩张及核酸代谢的影响

本实验以离体黄瓜子叶为材料,研究了 DATCD—A 对子叶扩张及核酸代谢的影响。结果表明,DATCD—A 可显著地促进离体黄化子叶扩张,使其鲜重明显增加;并且在处理后期逐渐提高子叶干重。在离体子叶扩张变绿的过程中,DATCD—A 促进离体黄化子叶 RNA、DNA 含量和 DNA/RNA 比率明显上升,且 RNA 的增加发生在 DNA 合成增加之前。凝胶电泳证明,RNA 的增加主要是25s 和18s 的 rRNA。     

Translatable mRNAs for Chloroplast-Targeted Proteins in Detached Radish Cotyledons during Senescence in Darkness

A protein-import system prepared with isolated chloroplastswas used to monitor changes in levels of mRNAs for chloroplast-targetedproteins during dark-induced leaf senescence. Biologically activechloroplasts were isolated from young (9-day-old) and aged (14-day-old)radish cotyledons. Poly(A)⁺-RNA was prepared from radish cotyledonsthat had been detached from seedlings and placed in darknessto accelerate senescence. The RNA was translated in a wheatgerm system, and the products were added to an import systemprepared with chloroplasts from young cotyledons. Electrophoreticanalysis of the imported proteins suggested that most chloroplast-targeted proteins decreased in abundance during dark treatmentof cotyledons. However, the relative abundance of 38 stromaland three thylakoid proteins increased transiently or continuouslyamong the products of translation of RNA isolated during thecourse of senescence. The efficiency of the uptake of precursorproteins by chloroplasts isolated from aged cotyledons was lowerthan that by chloroplasts from young tissue. The chloroplastsfrom aged cotyledons more efficiently imported at least onestromal protein and one thylakoid protein than chloroplastsfrom the young tissue. The relative abundance of these two proteinsincreased among the products of translation of RNA from senescingcotyledons when tested in the uptake system with chloroplastsfrom young cotyledons. These results suggest that some nucleargenes for chloroplast-targeted proteins are expressed in senescingcotyledons more efficiently than in young tissue, and that themachinery for import of proteins into chloroplasts changes duringaging of the tissue to allow more efficient import of certainproteins that may be responsible for the senescence of the chloroplasts. ¹Present address: Kihara Institute for Biological Research,Yokohama City University, Mutsukawa 3-122-20, Minami-ku, Yokohama,232 Japan     

The Selective Effect of Abscisic Acid on Ribonucleic Acid Components

As determined by methylated albumin kieselguhr (MAK) fractionation, GA₃ (gibberellic acid) significantly increased and ABA (abscisic acid) decreased RNA levels. In the case of ABA this effect was selective, the ribosomal RNA manifesting the typical decrease; while the sRNA peak was markedly increased. The pattern of labelled uridine incorporation into RNA resembles the MAK absorbancy profile and here as well, ABA although causing an overall decrease, increases labelling in the sRNA peak. The results are interpreted as a possible selective effect of ABA or alternatively as an accumulation in the sRNA peak of rRNA breakdown products. From in vitro experiments it was furthermore evident that ABA mediated RNA hydrolysis probably does not involve a direct activation of RNase by ABA. The in vivo effect would probably be devious.     

Different functions of vicilin and legumin are reflected in the histopattern of globulin mobilization during germination of vetch (Vicia sativa L.)

The temporal and spatial patterns of storage-globulin mobilization were immunohistochemically pursued in the embryonic axis and cotyledons of vetch seed (Vicia sativa L.) during germination and early seedling growth. Embryonic axes as well as cotyledons of mature seeds contain protein bodies with stored globulins. Prevascular strands of axes and cotyledons, the radicle and epidermal layers of axis organs were nearly exclusively stained by vicilin antibodies whereas the cotyledonous storage mesophyll gave similar staining for vicilin and legumin. Globulin breakdown started locally where growth and differentiation commenced in the axis. There, vicilin mobilization preceded legumin mobilization. Thus vicilin represents the initial source of amino acids for early growth and differentiation processes in vetch. Legumin presumably only serves as a bulk amino acid source for subsequent seedling growth during postgerminative globulin degradation. During the first 2–3 d after the start of imbibition the axis was depleted of globulins whereas no decrease in immunostainability was detected in the cotyledons except in their vascular strands where immunostainability was almost completely lost at this time. Continuous vascular strands were established at the third day when globulin breakdown was finished in the axis but had just started in the cotyledon mesophyll. Protein mobilization proceeded in a small zone from the epidermis towards the vascular strands in the center of the cotyledons. In this zone the storage cells, which initially appeared densely packed with starch grains and protein bodies, concomitantly transformed into cells with a large central vacuole and only a thin cytoplasmic layer attached to the cell wall. These results agree well with the hypothesis that during the first 2 d after imbibition the axis is autonomous in amino acid provision. After the endogenous reserves of the axis are depleted and the conductive tissue has differentiated, globulins are mobilized in the cotyledons, suggesting that then the amino acid supply is taken over by the cotyledons. For comparison with other degradation patterns we used garden bean (Phaseolus vulgaris L) and rape (Brassica napus L.) as reference plants. Received: 3 August 1999 / Accepted: 11 December 1999     

Mobilization of newly synthesized RNAs into polysomes inXenopus laevis embryos

Summary The mobilization of newly synthesized 18S and 28S rRNAs, 4S RNA and poly(A)⁺ RNA into polysomes was studied in isolated cells ofXenopus laevis embryos between cleavage and neurula stages. Throughout these stages, 4S RNA and poly(A)⁺ RNA were mobilized immediately following their appearance in the cytoplasm. 18S rRNA however, stayed in the ribosomal subunit fraction for about 30 min until the 28S rRNA appeared, when the two rRNAs were mobilized together at an equimolar ratio. This mobilization, at a 1:1 molar ratio, appeared to be realized at initiation monome formation. Thus, the efficiency of the mobilization of two newly synthesized rRNAs, shortly after their arrival at the cytoplasm, differed considerably but difference disappeared once steady state was reached.The contribution of newly synthesized 18S and 28S rRNAs to polysomes remains small throughout early development. around 3% of newly synthesized 4S RNA is polysomal which is the same distribution observed for unlabeled 4S RNA. Less than 10% of the newly synthesized cytoplasmic poly(A)⁺ RNA was mobilized into polysomes during cleavage, but in later stages the proportion increased to around 20%–25%. These results show that newly synthesized RNAs are utilized for protein synthesis at characteristic rates soon after they are synthesized during early embryonic development. On the basis of the data presented here and elsewhere we discuss quantitative aspects of the utilization of newly synthesized and maternal RNAs during early embryogenesis.     

Influence of the Embryonic Axis on Protein Hydrolysis in Cotyledons of Cucurbita maxima

Four-day time course studies of the hydrolysis of cotyledonal storage protein were conducted on intact seeds, seed cotyledons detached from their embryonic axes and on detached cotyledon pairs germinated in the presence of three excised embryonic axes of Cucurbita maxima Duch., cv. Chicago Worted Hubbard. Detached cotyledons germinated alone showed little hydrolysis of the storage protein. However, the amount of protein hydrolysis of the detached cotyledon pairs germinated in the presence of three excised embryonic axes was comparable to the amount hydrolyzed in the cotyledons of intact germinating seeds. Visual growth differences among these treatments were also evident. The size and yellow color intensity of the fourth day treatments were shown to increase in the following order: detached cotyledon pairs alone, intact seedlings, detached cotyledon pairs in the presence of three excised axes. The growth of the hypocotyl and radical was also modified by removal of the cotyledons. These findings suggest that storage protein degradation and cotyledonal growth are controled by the axis. They also indicate that the cotyledons have some influence on the growth of the axes. Time-course studies were made on the hydrolysis of storage protein in the cotyledons of squash and on the distribution of the hydrolytic products during the germination of light- and dark-grown plants. The storage protein was not hydrolyzed during the first 24 hours. It was hydrolyzed at a uniform rate from 1 to 5 days and at a slightly decreased rate from 5 to 7 days. Most of the hydrolytic products were transported to the axial tissue. Proteinase activity in the cotyledons rapidly increased during germination to a maximum level at 2 to 3 days. This was followed by a decline to about the initial value after 7 days.     

Magnesium Starvation of Aerobacter aerogenes II. Rates of Nucleic Acid Synthesis and Methods for Their Measurement

The rates of synthesis of Aerobacter aerogenes nucleic acids were estimated during incubation of the bacteria in a Mg(++)-free medium. Deoxyribonucleic acid (DNA) synthesized during Mg(++) starvation, or in the preceding exponential growth, remained acid-precipitable for 2.5 hr before breaking down to acid-soluble products during a period of many hours. Rates of DNA synthesis were calculated by correcting the net amounts of DNA per milliliter to values that would have appeared had there been no decay. After the first few hours, this rate was constant, the amount of DNA present at the start of Mg(++) starvation being synthesized every 130 min. Rates of synthesis of total ribonucleic acid (RNA) were established in two ways: (i) by measurements of the incorporation of exogeneous uracil and glucose carbon into RNA, and (ii) by the accumulation of transfer RNA (tRNA), since this component is stable during Mg(++) starvation. After the first few hours, this rate was constant, the amount of RNA present at the start of Mg(++) starvation being synthesized about every 120 min. Fractionation by gradient centrifugation revealed that at all times of starvation the ratio of newly synthesized tRNA-rRNA was the same as it was during exponential growth. Furthermore, newly synthesized ribosomal RNA (rRNA) became a part of polysomal structures. Thus, in the absence of Mg(++), DNA, tRNA, and rRNA were synthesized in the same relative proportions as during exponential growth, at rates close to one-half the instantaneous rates of synthesis in the bacteria growing exponentially at the start of starvation.     

Activation of phosphate metabolism in cotyledons of Pharbitis nil in the early stage of germination as studied by multicompartmental analyis

A new computation method has been introduced into multicompartmentalanalysis, which saves computer time and gives good fitting parameterseven in complicated systems. This method was applied to theanalysis of phosphate metabolism in the cotyledons of Pharbitisnil during the early stage of germination. Soon after the startof imbibition, the metabolic flows of phosphate were initiatedby very small amounts of enzymes. Some enzymes involved in phosphorylation,RNA synthesis, and phospholipid synthesis were indicated asexisting in the seeds and as being activated from nonactiveforms during imbition. The activities of all phosphate metabolisms,except the breakdown of RNA, phospholipids and protein-boundphosphates, were activated about ten to hundred-fold after thestart of protein synthesis. The technique of multicompartmental analysis can be appliedto various physiological problems to estimate the quantitativeand systematic metabolic flows in any tissue. (Received July 5, 1973; )     

Diversity of abundant mRNA sequences and patterns of protein synthesis in etiolated and greened pea seedlings

The diversity of abundant mRNA sequences in various parts of 4-d etiolated pea seedlings (Pisum sativum L. var. Rondo CB) was compared by a cell-free translation of the mRNAs in the presence of [³⁵S]methionine and by an analysis of the products by two-dimensional electrofocussing/ electrophoresis (2D separation). The various parts of the seedlings were also examined for the pattern of protein synthesis in vivo. Proteins were labeled by injection of [³⁵S]methionine into the cotyledons, followed by 2D separation of the products. Over 95% of the abundant mRNA sequences and newly synthesized abundant polypeptides were shared by all parts of etiolated seedlings, including the cotyledons. However, a few distinct differences were observed when comparing mRNAs of roots and shoots; the most prominent among these were a group of six abundant mRNA sequences found exclusively in shoots. Only about 30% of the polypeptides synthesized on isolated RNA could be traced in equivalent positions on the gels as the polypeptides synthesized in vivo. Analysis of total RNA from light-grown pea seedlings showed the appearance of some twenty-five translation products not found with total RNA from etiolated seedlings, while about nine other translation products disappeared. At least ten of the light-induced RNA sequences were also present after growth in low-intensity red light (>600 nm) and are therefore thought to be controlled by the phytochrome system. Comparison of 11-d light-grown pea plants with 4-d light-grown seedlings did not reveal additional translatable RNA sequences, indicating that the major morphogenetic changes that occur after 4 d are not accompanied by significant changes in the pattern of abundant RNA sequences.     

Quantitative changes in in vitro and in vivo protein synthesis in aging and rejuvenated soybean cotyledons

Cotyledons of light-grown soybean (Glycine max L. var Wayne) seedlings were used as a model system to study the possibility that aging requires qualitative changes in protein synthesis. Cotyledons reached a final stage of senescence and then abscised about 22 days after imbibition. Cotyledon senescence was reversed at 20 days after germination by epicotyl removal. Thereafter, the cotyledons regained much of the chlorophyll, RNA, protein, and polyribosomes lost during aging.

Total poly(A)mRNA was extracted from 4-, 12-, 20-day-old, and rejuvenated cotyledons and translated in a wheat germ system. Comparison of translation products on two-dimensional O'Farrell gels showed that many translation products increased in quantity during aging, while roughly half as many decreased. Rejuvenation returned the translation products to approximately 4-day-old levels in roughly half of those products which were diminished with age. Conversely, almost one-third of the products which had increased with age decreased with rejuvenation. None of the translation products were totally lost nor were newly synthesized products detected during aging. Therefore, aging in this system probably does not involve complete gene repression or depression. The observation that epicotyl removal causes a reversal in the levels of various proteins synthesized in vitro was corroborated by similar observations following in vivo labeling of cotyledon sections and analysis by SDS-polyacrylamide gel electrophoresis and fluorography. Densitometric scans of fluorograms revealed a gradual shift in profiles of both in vitro and in vivo translation products during aging. Rejuvenated cotyledon proteins had a profile resembling that of 4-day-old cotyledons. The overall level of [³⁵S]methionine incorporation into protein in vivo declined gradually during aging but was restored to 4-day-old levels within 2 days after epicotyl removal.

     

Reserve carbohydrate metabolism in germinating seeds of trigonella foenum-graecum L. (Leguminosae)

Summary Seeds of Trigonella foenum-graecum are examined light microscopically and by chemical analysis at different stages of germination.In the earliest stages of germination the raffinose family oligosaccharides are metabolised both in the endosperm and in the cotyledons of the seed but there is no change in the appearance, amount or composition of the main carbohydrate reserve, a galactomannan localised in the endosperm. About 18 hours after the emergence of the radicle the endosperm galactomannan begins to be mobilised. In a period of 24 hours the polysaccharide is completely degraded and the breakdown products, mainly galactose and mannose, are absorbed by the cotyledons in which sucrose increases and starch is formed.Mobilisation of the galactomannan is accompanied by the formation in the endosperm of a dissolution zone the form of which implies that the aleurone layer is involved in the degradation process.Part of the work described in this paper was carried out by the author during 1970 at Nottingham University School of Agriculture, Dept. of Applied Biochemistry and Nutrition, Sutton Bonington, England.     

Histochemical studies on mobilization of storage components in cotyledons of germinatingPhaseolus mungo seeds

Phaseolus mungo seeds were allowed to germinate in the dark at 27 C, and time-sequence changes of mobilization of protein and starch reserves in cotyledons were observed by histochemical techniques. The distributions of amylase and protease activities in cotyledon sections were also examined during germination by use of the starch-polyacrylamide gel film and India ink-gelatin film methods, respectively. Amylolytic and proteolytic processes occurred more or less simultaneously during the germination. At the day 2 stage, low levels of hydrolytic enzyme activities were observed throughout cotyledon sections. At day 4, both amylase and protease activities appeared to increase in tissue areas farthest from vascular bundles, and the mobilization of starch and protein reserves also proceeded in these areas. At day 6, the reserves were found to remain only in the cells around vascular bundles. When cotyledons were detached from axis organs, allowed to imbibe water and incubated for 4 days at 27 C, the breakdown of reserves was markedly retarded and the patterns of enzyme localization in cotyledon sections appeared not as conspicuous as those in the sections from intact cotyledons. These histochemical results are discussed with reference to the previous results ofin vitro experiments.     

Unusual distribution of mitochondrial large subunit rRNA in the cytosol during conjugation in Tetrahymena thermophila

The distribution of mitochondria during conjugation of the ciliated protozoan Tetrahymena thermophila was surveyed using a mitochondrial stain and fluorescence in situ hybridization (FISH). When the mitochondria-specific stain, Mito-Tracker, was used, the majority of mitochondria were detected in the cortex; their distribution was not changed during conjugation. On the other hand, FISH using mitochondrial large subunit (LSU) rRNA as a probe showed an unusual distribution of signals during conjugation. Unexpectedly, the signals were detected throughout the cytoplasm of conjugating cells. These signals were not observed in pre-mating cells and in exconjugants. The cytosolic localization of mitochondrial rRNA was supported by northern blot analysis using post-mitochondrial RNA fraction at the later stages of conjugation. These observations suggest selective mitochondrial breakdown or transport of LSU rRNA into cytosol. The biological significance of the conjugation-specific appearance of the cytosolic mitochondrial rRNA is discussed.     

Light effects on α-amylase activity and carbohydrate content in relation to lipid mobilization during the seedling growth of sunflower

The changes in α-amylase activity and in starch and free sugar content were investigated in correlation with lipid mobilization inHelianthus annuus during the first 15 days of seedling growth in discontinuous light and in darkness. Throughout the seedling development α-amylase activity increased more significantly in light than in darkness. It was always lower in cotyledons than in other tissues of the embryo axis. In both culture conditions, most of the transitory carbohydrates accumulated in germinating cotyledons were very likely synthesized by gluconeogenesis from the stored lipid breakdown. Nevertheless, in light-grown cotyledons, photosynthesis contributes to increase the carbohydrate levels. The study of several soluble sugars indicates that 1) sucrose stored in cotyledons of mature seeds was used at the onset of seedling growth, more rapidly in light than in darkness, 2) galactose and xylose, both involved as precursors of some cell-wall polysaccharides, remained at a very low level throughout the 15 days and 3) glucose, fructose and maltose accumulated in old etiolated cotyledons in contrast to what occurred in the light.     

绿豆子叶衰老期间核酸代谢的变化

萌发绿豆的子叶自然衰老期间,核酸含量降低,RNA降低的幅度比DNA大。电泳分析结果表明,子叶衰老期间细胞核主带DNA明显降低;而迁移慢的卫星带DNA变化不大。在RNA各组分中,18S rRNA从衰老前期就开始降低;25S rRNA和4～5S小分子RNA到衰老后期才缓慢下降。DNase和RNase活性在子叶整个衰老期间都明显升高,是导致核酸含量下降的主要原因。~3H-核苷掺入试验表明,核酸的合成速率在子叶衰老前期有所上升,到衰老后期又降低。poly(A)~ -mRNA含量在子叶开始衰老时明显上升。     

Stability of Soybean Ribosomal RNA in Various Conditions

The stability of RNA preparations which were prepared from soybean cotyledons was examined by incubating the RNA solutions of high salt at 20°C in the presence or absence of PVS. Sedimentation profiles of incubated RNA were given by ultracenirifugal analysis and compared with that of original RNA. RNA retained its original size after incubating for 4 hr in the presence of PVS and 200 mM KCl, while RNA was completely degraded into small fragments in the absence of PVS after the same treatment.

The purified rRNA which was prepared from 3 day-old hypocotyls was treated with heating, EDTA or urea in the presence of PVS. L-rRNA component was obviously disappeared by heating at 50°C for 5 min. Partial disruption of L-rRNA component occurred by dialyzing against urea solution. L-rRNA separated by zonal ultracentrifugation was decomposed into components by heat treatment or leaving at 4°C for 20 hr in the buffer from which KC1 was omitted. No back-conversion of heated RNA to original L-rRNA occurred by gradual cooling at room temperature for 40 min. S-rRNA, however, seemed to be stable in these treatments compared with L-rRNA.