The effects of abscisic acid,kinetin and 5-fluorouracil on ribonucleic acid and protein synthesis in senescing radish leaf disks

Summary The effects of abscisic acid and kinetin on RNA synthesis in senescing radish leaf disks were investigated using the improved resolution afforded by polyacrylamide gel electrophoresis. Kinetin stimulated and abscisic acid inhibited incorporation of radioactivity into cytoplasmic ribosomal RNA and soluble RNA. Chloroplast ribosomal RNA synthesis appeared to be confined to the period of leaf expansion and was not detected in fully mature leaves. The effects of kinetin in retarding and of abscisic acid in accelerating leaf senescence were not altered by the inhibition of cytoplasmic ribosomal RNA synthesis with 5-fluorouracil. Following inhibition of cytoplasmic ribosomal RNA synthesis with 5-fluorouracil, kinetin stimulated and abscisic acid inhibited incorporation of radioactivity into polydisperse RNA. These results are discussed in relation to the possible mode of action of kinetin and abscisic acid in senescing leaf tissue.     

Biochemical responses of pea root tissue to cytokinin: enhanced rates of RNA synthesis

Rates of RNA synthesis were studied in cultured pea (Pisum sativum) root segments and cortical explants which require the hormone cytokinin for DNA replication and cell proliferation. Rate calculations were based on the specific radioactivity of the extracted RNA and the specific radioactivity of the extracted ATP pool after a pulse with ³H-adenosine. The kinetics of RNA synthesis was studied after 24 hours of culture with or without kinetin. We found that kinetin stimulated a 2- to 4-fold enhancement in the rate of RNA synthesis after 24 hours of culture as compared to controls. A similar order of magnitude of stimulation of RNA synthesis was found when RNA was isolated by cesium chloride centrifugation. Pulses during the first 24 hours indicate that kinetin stimulates the rate of RNA synthesis as early as 9 hours after treatment has begun. During the first 24 hours of culture, kinetin did not affect the specific radioactivity of the ATP pool. The ATP pool equilibrated slowly with the exogenous label (³H-adenosine) in the presence or absence of kinetin. After 3 days in culture, we found kinetin to cause an expansion of the extractable ATP pool and a corresponding reduction in the ATP pool specific radioactivity. We interpret these results to indicate a stimulation in the rate of RNA synthesis due to kinetin treatment prior to any other known response.     

Senescence: action of auxin and kinetin in control of RNA and protein synthesis in subcellular fractions of bean endocarp

A comparative study was made of the effects of auxin (α-naphthalene acetic acid), kinetin (6-furfurylaminopurine) and a mixture of auxin and kinetin applied in vivo on synthesis of RNA and protein and the distribution of such synthesis amongst the subcellular fractions of sections of endocarp from Kentucky Wonder pole beans (Phaseolus vulgaris, L.). Auxin caused considerable enhancement of incorporation of labeled precursors into RNA and protein of all subcellular fractions, and induced net synthesis of RNA and protein. That auxin-induced net synthesis of protein is repressed by actinomycin D indicates that auxin acts primarily to stimulate synthesis of RNA, as a result of which synthesis of protein is enhanced. The effect of kinetin alone on synthesis of RNA, or of kinetin on auxin-induced synthesis of RNA was variable, with either stimulation or inhibition observed in different experiments. Kinetin-enhancement of synthesis of both RNA and protein in subcellular fractions also varied, with enhancement of synthesis in 1 or all subcellular fractions among different experiments. The variable effect of kinetin did not seem to be related to the amount of endogenous or added auxin. The mode of action of kinetin is discussed.     

Inhibition by kinetin of cell elongation and RNA synthesis in excised soybean hypocotyl M 2

The effects of kinetin on growth and RNA metabolism in excisedsoybean hypocotyl were investigated, and compared to the effectsof 5-fluorouracil. Kinetin inhibits auxin-induced growth, butnot control growth. RNA synthesis is also inhibited by kinetin,but in a differential fashion. Ribosomal RNA synthesis is almostcompletely inhibited, while TB-RNA synthesis is partially inhibited.D-RNA synthesis is apparently not affected. Base compositionanalysis of these fractions of RNA was carried out. The implicationsfor RNA-mediated auxin-induced growth are discussed. ¹The research was supported by NIH grant GM-10157 from the U.S. Public Health Service. ²Purdue University AES Paper No. 3334     

Correlative Studies on Plant Growth and Metabolism. III. Metabolic Changes Accompanying Inhibition of the Longitudinal Growth of Stem and Root by Kinetin

Kinetin-induced expansion of lettuce (Lactuca sativa) cotyledons and inhibition of root are accompanied by parallel changes in protein nitrogen. However, during its inhibition of the longitudinal growth and water uptake of hypocotyl and pea (Pisum sativum) epicotyl sections kinetin markedly stimulates protein synthesis. Kinetin seems to separate auxin induced effects on protein synthesis and water uptake and indicates that water uptake and protein synthesis may not necessarily be correlated.

In contrast to gibberellic acid, kinetin restricts in lettuce seedlings, the mobilization of nitrogen reserves from the cotyledons, and kinetin induced growth is accompanied by a high protein nitrogen/soluble-nitrogen ratio which is characteristic of growth in light. Growth in light may be under the dominant control of kinins.

     

Biochemical and Cytological Analyses of RNA Synthesis in Kinetin-treated Pea Root Parenchyma

Excised cortical parenchyma from the pea root (cv. Little Marvel) responds to kinetin/auxin treatment with an increased rate of RNA synthesis well before reinitiating DNA synthesis. Few cells synthesize RNA in the 1st hour of culture. In the presence of kinetin/auxin, the nuclear labeling index increases 2.5-fold as compared to control cultures. The RNA synthesis response has an apparent lag period of 2-4 hours as shown by double label ([³H]adenosine/[¹⁴C]adenosine) experiments. Qualitatively, the RNA synthesized at 4-6 hours sediments between 18S and 5S. The RNA synthesized at 14-16 hours and 24-26 hours is primarily ribosomal RNA when kinetin is present. In the absence of kinetin, no clear pattern of RNA synthesis emerges.     

Effect of the Kinetin-Naphthaleneacetic Acid Interaction Upon Total RNA and Protein in Senescing Detached Leaves

The interaction between kinetin and naphthaleneacetic acid in the regulation of senescence of excised tissue of mature broccoli leaves has been used to examine the extent of synchrony between changes in chlorophyll, RNA, and protein. Kinetin increased the net uptake of (14)C-labeled orotic acid and leucine. Naphthaleneacetic acid decreased the effect of kinetin on net uptake after long treatment, but in short-time treatments the auxin increased the effect of kinetin on net uptake. Results of long (24 hr) treatments indicated a general synchrony between the loss of RNA, protein, and chlorophyll. Naphthaleneacetic acid reduced the stabilizing effect of kinetin upon chlorophyll content and upon the content and synthesis of RNA. In short-time experiments, however, RNA content and synthesis were transiently increased by kinetin, and further increased by kinetin plus naphthaleneacetic acid, while chlorophyll content decreased in the presence of kinetin and decreased further in the presence of kinetin plus naphthaleneacetic acid. Actinomycin-D accelerated the loss of chlorophyll, RNA and protein and strongly depressed the rate of RNA synthesis. In the presence of actinomycin-D the stabilizing effect of kinetin upon RNA was substantially reduced. In contrast, the chlorophyll and protein contents remained higher than in the control. Actinomycin-D did not nullify the basal incorporation of orotic acid into RNA, nor did it negate the effect of kinetin upon incorporation. The failure of synchrony between changes in chlorophyll and RNA does not substantiate the proposal that kinetin regulates senescence by a direct effect upon DNA-dependent RNA synthesis.     

Comparative analysis of the action of cytokinin and light on the formation of ribulosebisphosphate carboxylase and plastid biogenesis

The role of cytokinin in plastid biogenesis was investigated in etiolated rye leaves (Secale cereale L.) and compared with the effect of white light. Cytokinin deficiency of the leaves was induced by early excision of the seedling roots and reversed by the application of kinetin. The cytokinin supply had a much greater influence on plastid biogenesis than on leaf growth in general. The activities of several chloroplastic enzymes were increased 200%–400% after kinetin treatment of cytokinin-depleted leaves. The activity of ribulose-1,5-bisphosphate carboxylase (EC 4.1.1.39) and the amount of fraction-I protein even showed a sevenfold increase. In cytokinin-depleted leaves the development of ribulose-1,5-bisphosphate carboxylase and NADP-glyceraldehydephosphate dehydrogenase was specifically, and markedly inhibited by actinomycin D. The inhibition was partially or even completely overcome after treatment with kinetin. However, under all conditions, RNA synthesis of the leaves, was only partially inhibited by actinomycin D. According to immunologic studies, all dark-grown leaves, in addition to the complete enzyme, contained an excess of free small subunit of ribulose-1,5-bisphosphate carboxylase that was absent in mature light-grown leaves. The most striking accumulation of free small subunit, protein occurred in cytokinin-depleted dark-grown leaves, indicating a deficiency of the plastidic synthesis of the large subunit. The capacity as well as the activity of plastidic protein synthesis was preferentially increased by cytokinin and light. Cytokinin increased, the amount of plastidic ribosomes per leaf and relative to the amount of cytoplasmic ribosomes. While the percentage of cytoplasmic ribosomes bound as polyribosomes was little affected by the cytokinin supply, the proportion of plastidic polyribosomes was increased from 11% to 18% after kinetin treatment of cytokinin-depleted leaves. In the light, the proportion of plastidic polyribosomes reached 39% of the total plastidic ribosomes.Abbreviations RuBP carboxylase ribulose-1,5-bisphosphate carboxylase - NADP-GAP dehydrogenase NADP-dependent glyceraldehyde-3-phosphate dehydrogenase     

Kinetin-promoted Polyribosome formation in relation to RNA Synthesis in Excised Mung Bean Cotyledons

The relative levels of polyribosomes and total ribosomal materials, the rates of RNA synthesis and the contents of each RNA component were investigated in excised cotyledons of mung bean (Phaseolus radiatus L.) incubated with and without kinetin. 12 h incubation with 50 μmol/ L kinetin markedly increased the levels of polyribosomes and decreased the levels of monoribosome, especially of the ribosomal subunits. In addition, levels of total ribosomal materials (ribosomal subunit+monoribosome+polyribosome) were also increased in cotyledons incubated with kinetin. The kinetin-promoted polyribosome formation could be arrested by the RNA synthesis inhibitor-actinomycin D(ACTD). Kinetin incubation greatly enhanced RNA synthesis and increased that RNA conten. A marked increase was found in the amount of poly(A)+-mRNA, while the levels of other RNA components (25S, 18S rRNA, 4–5S RNA) were also increased to different extent. These results suggest that the promotion of polyribosome formation by kinetin depends upon the de novo synthesis of mRNAs, and the promotion of ribosome con, struction by kinetin may also be related to the synthesis of rRNAs.     

Quantification of the kinetin effect on protein synthesis and degradation in senescing wheat leaves

Wheat leaves (Triticum aestivum L. cv San Agustin INTA) were detached when they reached maximum expansion, put individually in tubes containing water and left in darkness. After 3 days the protein content had decreased to 46% of the initial value. When the leaves were placed in 1 micromolar kinetin, they retained 60% of the initial protein content for the same period. This effect was observed only when leaves were treated with kinetin within the first 24 hours after detachment. The action of kinetin on both protein synthesis and degradation was quantitatively measured. Synthesis was estimated by the incorporation of l-[³H]leucine into proteins. It was higher in kinetin treated than in non treated leaves. It contributed to about 14 micrograms of protein retention per leaf in 3 days. Measurement of protein degradation, evaluated by the decay of radioactivity in leaf proteins previously labeled with l-[³H] leucine or as the difference between rates of protein synthesis and protein content, showed that kinetin decreased protein breakdown rates. It accounted for about 186 micrograms of protein retention per leaf in 3 days. Hence, kinetin action on protein breakdown was 13-fold average higher than its action on synthesis for the conservation of leaf protein. This difference is higher in early stages of the process.     

Ribonucleic Acid Synthesis by Cucumber Chromatin: Developmental and Hormone-induced Changes

When intact etiolated 2-day cucumber (Cucumis sativus) embryos were treated with indoleacetic acid (IAA), gibberellin A₇ (GA₇), or kinetin, chromatin derived from the embryonic axes exhibited an increased capacity to support RNA synthesis in either the presence or the absence of bacterial RNA polymerase. An IAA effect on cucumber RNA polymerase activity was evident after 4 hours of hormone treatment; the IAA effect on DNA template activity (bacterial RNA polymerase added) occurred after longer treatments (12 hours). GA₇ also promoted template activity, but again only after a prior stimulation of endogenous chromatin activity. After 12 hours of kinetin treatment, both endogenous chromatin and DNA template activities were substantially above control values, but longer kinetin treatments caused these activities to decline in magnitude. When chromatin was prepared from hypocotyl segments that were floated on a GA₇ solution, a GA-induced increase in endogenous chromatin activity occurred, but only if cotyledon tissue was left attached to the segments during the period of hormone treatment.     

AUXIN-INDUCED GROWTH OP TUBER TISSUE OP JERUSALEM ARTICHOKE: III. EFFECT OF ACTINOMYCIN D ON AUXIN-INDUCED EXPANSION GROWTH AND RNA SYNTHESIS

1. The following results were obtained using tissue slices excisedfrom cold-stored Jerusalem artichoke tubers.
2. Actinomycin Dat the concentration of 20 µg/ml given duringthe agingperiod did not affect the subsequent expansion growthcausedby auxin or auxin plus kinetin.
3. Actinomycin D given in thegrowth period, on the other hand,strongly inhibited the expansiongrowth of tissue slices agedin the absence of the antibiotic.
4. In the growth period, auxin or auxin plus kinetin promotedtheincorporation of uracil-2-¹⁴C into RNA fraction.
5. ActinomycinD inhibited the incorporation of ³²P orthophosphateinto ribosomalRNA during the aging period.
6. In the growth period, the incorporationof ³²P into RNA wasenhanced by auxin and was inhibited by actinomycinD, more remarkablyin ribosomal RNA than in lighter RNA.

¹A part of this paper was presented at the Conference on PlantGrowth Regulators held by the New York Academy of Sciences onMay 16, 1966.     

Nucleic acid and protein synthesis in discs cut from mature leaves of Nicotiana tabacum L. and cultured on nutrient agar with and without kinetin

The effect of kinetin on aspects of the metabolism of discs cut from mature leaves of Nicotiana tabacum and cultured in the light on agar containing mineral salts and sucrose was studied. In the first few days of culture there was a rapid decline in chlorophyll content. Discs treated with kinetin in the light began to resynthesise chlorophyll after 3–4 days and this was correlated with chloroplast replication. Kinetin promoted chloroplast replication but was not always essential. An increase in fresh weight also occurred, due mainly to cell expansion. Nitrate reductase activity increased rapidly during the first few hours after placing discs on the culture medium but kinetin had no effect on this reponse. Subsequently there were dramatic increases in RNA and protein content which were largely independent of kinetin. Gel electrophoresis showed that cytoplasmic and chloroplast ribosomal RNA and a large amount of soluble RNA were synthesised during culture of the discs. These results are discussed in relation to the role of kinetin in delaying leaf sensescence.     

Photocontrol of betaxanthin synthesis in Celosia plumosa seedlings

Light stimulates the betaxanthin accumulation in Celosia plumosa. The induction is partially reversed by far-red and inhibited by actinomycin D, puromycin, salicylaldoxime and 2,4-dinitrophenol, while 3-(3,4-dichlorophenyl)-1,1-dimethylurea has an inhibitory effect only when photosynthesis is operative. In darkness betaxanthins synthesis is promoted by kinetin.     

Kinetin and carbohydrate metabolism in chinese cabbage

The effects of kinetin on starch and sugar levels and on ¹⁴CO₂ and ³²P-orthophosphate labeling patterns of floated Chinese cabbage (Brassica pekinensis) leaf discs were investigated. Kinetin caused gross starch degradation. Neutral sugars were depressed by 30 to 40% in leaf tissue treated with kinetin for 24 hours. ¹⁴CO₂ labeling of leaf discs pretreated with kinetin for 24 hours showed increased radioactivity in chloroform-soluble material and most sugar phosphates, and a 35 to 40% decrease in radioactivity in the neutral sugars, glucose, sucrose, and fructose. Incorporation into ATP was increased by 40% by kinetin. ³²P-Orthophosphate uptake was inhibited 30% by kinetin. When corrected for uptake, kinetin stimulated incorporation into chloroform-soluble material but had little effect on other cell fractions. These results indicate that kinetin mobilizes starch reserves and increases the flow of sugars required for the synthesis of lipids and structural materials in floated discs.     

Cytokinin-controlled Indoleacetic Acid Oxidase Isoenzymes in Tobacco Callus Cultures

Indoleacetic acid oxidase in tobacco callus tissues (Nicotiana tabacum L., cultivar White Gold) was resolved into seven anionic isoenzymes by polyacrylamide gel disc electrophoresis. Different concentrations of kinetin and zeatin in the presence of indoleacetic acid affected the level of this enzyme, particularly two fast-moving isoenzymes, A₅ and A₆. The optimal concentration of kinetin was 0.2 μm; increasing concentrations above this level progressively lowered the total activity of indoleacetic acid oxidase and repressed the development of isoenzymes A₅ and A₆. Actinomycin D and cycloheximide inhibited the development of these two isoenzymes under the influence of 0.2 μm kinetin, suggesting a requirement for RNA and protein synthesis. The cytokinin-promoted indoleacetic acid oxidase isoenzymes A₅ and A₆ increased with time and paralleled the dry weight increase of tobacco callus tissues, but the total activity of indoleacetic acid oxidase per unit dry weight of tobacco callus varied with time depending on the stage of plant growth.     

Changes in Nucleic Acid Metabolism of Excised Barley Leaves During Senescence and the Effect of Kinetin on these Changes

The changes in the amount, rale of synthesis and the nucleotide composition of different RNA fractions in excised barley leaves floated on water or kinetin (10 mg/l) in the dark were examined. In excised leaves floated on water all nucleic acid components declined and these declines were retarded by kinetin. Barley leaves floated on water showed a stimulation of ³²P incorporation into various RNA fractions within 48 hours followed by a decline after 96–144 hours. The leaves floated on kinetin, however, showed an even higher incorporation of ³²P into UNA by 48 hours which remained at a comparatively higher level throughout the experiment. In spite of the above changes in RNA synthesis significant differences in the ³²P sucrose gradient profiles or in the ³²P nucleotide composition of UNA from water and kinetin floated leaves were not noted. The results of this study show that important changes in nucleic acid metabolism occur during the early stages of leaf senescence and that alterations in nucleic acid metabolism during senescence and during kinetin treatment may involve quantitative and only subtle qualitative changes.     

AUXIN-INDUCED GROWTH OF TUBER TISSUE OF JERUSALEM ARTICHOKE: II. THE RELATION TO PROTEIN AND NUCLEIC ACID METABOLISM

The following results were obtained using tissue slices excisedfrom cold-stored Jerusalem artichoke tuber. 1. Increase in protein content of the tissue was small duringthe washing (i.e. "aging"), and great in the growth phase, particularlyin washed tissue. 2. RNA content of tissue increased during the growth periodsimilarly in non-growing tissue (in water) and actively growingtissue (in 2,4-D plus KIN). 3. Both RNA and DNA increased during the washing, the increasebeing greater in RNA than in DNA. This RNA increase was enhancedby gibberellic acid. 4. 2-Thiouracil, 8-azaguanine, puromycin, and mitomycin C givenat the washing inhibited the subsequent growth. The effect ofthese inhibitors was not significant when they were given inthe growth period. 5. Mitomycin C reduced the basophilia of nuclei and made themswell, as did deoxyribonuclease. 6. The effect of inhibitors of nucleic acid metabolism was reversedto some extent by gibberellic acid and by kinetin. 7. Chloramphenicol inhibited the growth strongly if given inthe growing period, but not so strongly if given during thewashing. 8. An autoradiographic study using ³H-cytidine suggested thatRNA is synthesized in nucleus during the period of washing andis transferred to cytoplasm via nucleolus. It is conjectured that the RNA synthesized during the agingis responsible for the expansion growth to be caused later byauxin or auxin plus kinetin. (Received September 4, 1965; )     

Butachlor influence on selected metabolic processes of plant cells and tissues

Time- and concentration-course studies were conducted to determine the effects of butachlor (N-[butoxymethyl]-2-chloro-2′,6′-diethylacetanilide) on photosynthesis, protein synthesis, RNA synthesis, and lipid synthesis using isolated leaf cells of red kidney bean (Phaseolus vulgaris L.). At the 2-h incubation period, butachlor inhibited photosynthesis, protein synthesis, RNA synthesis, and lipid synthesis 99, 99, 96, and 81% respectively at 100 μM, and 0, 19, 17, and 40% respectively at 10 μM. At 100 μM and 15-, 30-, and 60-min incubations, RNA synthesis was inhibited 20, 76 and 90% respectively, and lipid synthesis 35, 48, and 62% respectively; photosynthesis and protein synthesis were inhibited over 90% at all of these time periods. The effects of 50 μM butachlor on protein and RNA synthesis in rice (Oryza sativa L.) and barnyardgrass (Echinochloa crusgalli L.) root and shoot segments were also investigated. Protein synthesis was inhibited in both species and to a greater degree in roots (81–90%) than in shoots (55–65%). RNA synthesis was inhibited 33% in barn-yardgrass roots but not significantly in barnyardgrass shoots or either organ of rice.