CYTOLOGICAL AND BIOCHEMICAL ASPECTS OF CYTOKININ-ENHANCED GROWTH OF RADISH (RAPHANUS SATIVUS) COTYLEDONS

Light and electron microscopy revealed no stimulation of oleosome disappearance or chloroplast development associated with zeatin-enhanced growth of excised radish cotyledons. Accelerated protein body breakdown was the only detectable effect of zeatin treatment. Isocitrate lyase activity, disappearance of total lipids, and appearance of galactolipids, phospholipids, and chlorophyll were unaffected by zeatin. Results indicate that cytokinins do not accelerate conversion of radish cotyledons from storage to photosynthetic organs.     

Cytokinin-induced wall extensibility in excised cotyledons of radish and cucumber

The mechanism of cytokinin-induced cell expansion in cotyledons excised from dark-grown seedlings of radish (Raphanus sativus L.) and cucumber (Cucumus sativus L.) was studied. Cotyledons were incubated in dim light with or without 17 micromolar zeatin for periods up to 3 days. Fresh weights and osmotic potentials were measured daily. Cell wall extensibility properties were measured before and after the growth period. Also, experiments in which radish cotyledons were grown in mannitol solutions of various concentrations were performed. Comparisons of growth rates and increases of tissue osmotic potentials (toward zero) during growth without mannitol indicate that wall extensibility increased during the growth period and that this extensibility was enhanced by zeatin.     

Estimation of osmotic parameters accompanying zeatin-induced growth of detached cucumber cotyledons

Water potential (ψ), the osmotic potential (ψ_π), and the pressure potential (ψ_p) of detached cotyledons isolated from Cucumis sativus L. cv Marketer seedlings after 0, 1.5, and 3 days growth with and without zeatin were determined. From zero time to 3 days, cotyledons incubated without exogenous zeatin exhibited a slight decrease in ψ (from −0.4 to −1.0 bars), while those grown with zeatin developed even more negative values (about −4 bars). Both groups showed rising ψ_π values (decreases in solutes per unit volume), but this rise was more dramatic in those treated with zeatin. These data indicate that the capacity of zeatin-treated cotyledons to take up water more rapidly than controls and thus expand faster must be due to wall loosening, as reflected in ψ_p values which declined during 3 days from about +11 bars to about +1.4 bars.

It was also found that freshly detached cotyledons or those grown without exogenous zeatin exhibited osmoregulation in polyethylene glycol (PEG) solutions. That is, while cotyledons initially lost H₂O into certain PEG solutions, their ψ values decreased over time and they began absorbing water after 1 to 4 hours. After 3 days growth, zeatin-treated cotyledons had lost most of this capacity of osmoregulate. It seems likely that osmoregulation in cotyledons not treated with zeatin is due to wall loosening rather than changes in ψ_π. Zeatin-treated cotyledons with already loosened walls may not have this option to deal with water stress and thus simply come to equilibrium with external PEG solutions.

     

黄瓜子叶扩张与细胞分裂素的关系

BA(benzyl adenine)专一性地促进离体黄瓜子叶的扩张。为了研究BA的作用机理,我们采用间接EIISA和HPLC的方法测定了子叶扩张过程中内源玉米素 (Z) 和玉米素核苷(ZR)含量的变化。离体黄瓜(Cucumis sativus,津研4号)子叶用100mg／1的BA培养,72小时之后,处理子叶鲜重的增加比对照高70％。Z+ZR在BA处理的子叶中有大量的积累。结果表明BA可能诱发了黄瓜子叶中的细胞分裂素生物合成和代谢的某些基因。     

黄瓜子叶扩张与细胞分裂素的关系

BA(benzyl adenine)专一性地促进离体黄瓜子叶的扩张。为了研究 BA 的作用机理,我们采用间接 EIISA 和 HPLC 的方法测定了子叶扩张过程中内源玉米素(Z)和玉米素核苷(ZR)含量的变化。离体黄瓜(Cucumis sativus,津研4号)子叶用10mg/l 的 BA 培养,72小时之后,处理子叶鲜重的增加比对照高70%。Z+ZR 在 BA 处理的子叶中有大量的积累。结果表明 BA 可能诱发了黄瓜子叶中的细胞分裂素生物合成和代谢的某些基因。     

Effect of cycloheximide on IAA-induced proton excretion and IAA-induced growth in abraded Avena coleoptiles

IAA-induced proton excretion in peeled or abraded oat ( Avena saliva L. cv. Victory) coleoptiles is closely associated with IAA-induced growth. It was attempted to separate these two processes by using cycloheximide to inhibit them differentially. Growth of abraded coleoptile segments was measured by a shadow graphic method, and their IAA-induced acidification of the external solution was monitored with a pH meter. IAA stimulated proton excretion in abraded Avena coleoptile segments after a 13 min lag. IAA-induced proton excretion was inhibited within 5 min by cycloheximide at concentrations of 1.8 × 10⁻⁶, 3.6 × 10 or 3.6 × 10⁻⁵ M. Cycloheximide at these concentrations, added within 4 min of IAA, prevented IAA-induced acidification of the medium for at least 60 min. However, it did not prevent IAA-induced growth during this time. It is concluded that some of the initial IAA-induced growth seen in Avena coleoptiles is independent of detectable IAA-induced proton excretion.     

Analysis of UDP-Sugar Content in Cucumber Cotyledons in Relation to Growth Rate

UDP-sugar content in cucumber cotyledons grown with or withoutadded zeatin was measured by a newly established method usinghigh performance liquid chromatography and gas-liquid chromatography.With zeatin the growth rate was twice that of the control, andUDP-sugar content was 1.5-fold that of the control. (Received June 6, 1984; Accepted September 27, 1984)     

Promotion of radish cotyledon enlargement and reducing sugar content by zeatin and red light

Effects of zeatin on amino acid and sugar contents of detached radish (Raphanus sativus L.) cotyledons were investigated to determine if accumulation of these solutes contributes to cytokinin-enhanced growth. Protein and amino acid levels were not significantly affected, but in cotyledons incubated in light the hormone caused greater accumulations of reducing sugars than occurred in light controls. Continuous fluorescent light or a few minutes of red light increased both the growth rate and the reducing sugar levels compared to dark controls. A far red treatment following red light overcame the promoting effect of the latter. Amounts of reducing sugars were closely associated with growth under the above conditions. Activity of an unidentified amylase was elevated by continuous light or a red light treatment (nullifiable by far red), suggesting that reducing sugars were derived from starch. Zeatin-treated cotyledons exhibited less amylase activity than did light controls, perhaps implicating cytokinin-stimulated conversion of fats to sugars in light. In darkness zeatin promoted cotyledon growth but did not increase sugar levels nor amylase activity, suggesting that enhanced ion accumulation also contributes to the more rapid water uptake leading to growth.     

Effect of Vanadate on Microsomal ATPase Activity, Acidification of the Medium and Auxin-stimulated Growth in Pea and Cucumber

The relationship between ATPase activity, medium acidificationand auxin-stimulated growth in segments of pea stem (Pisum sativumL., cv. Alaska) and cucumber hypocotyl (Cucumis sativus L.,cv. Long Green Ridge) was investigated using sodium orthovanadate,widely used as a selective inhibitor of plasma membrane-associatedATPase activity. ATPase activity of cucumber microsomal preparationswas about seven times lower than similar preparations from pea(on a mg microsomal protein basis) and was much more effectivelyinhibited by vanadate. Similarly, acidification of the mediumby abraded cucumber segments occurred to a lesser extent thanwith pea and showed a greater inhibition by vanadate. Both growthin controls and auxin-stimulated growth of cucumber segmentswere strongly inhibited by vanadate, whereas in pea auxin-stimulatedgrowth was reduced by only half and controls showed little inhibition.Acidification of the medium by segments of both species wasfound to occur readily even in controls and showed little promotionin the presence of IAA, although growth in both species wasrapidly and significantly promoted by IAA. These results indicatethat acidification is brought about by a plasma membrane-associatedATPase, and suggest that while acidification is an essentialfactor for auxin-stimulated growth it may not be the mechanismby which the growth rate is controlled. ATPase, Cucumis sativus, indole-3-acetic acid, Pisum sativum, vanadate     

Effect of embryonic axis removal and exogenous calcium on carboxypeptidase I of mung bean seedling cotyledons

Removal of the embryonic axis prevents the normal decline of carboxypeptidase (Cpase) I in mung bean seedling cotyledons. Cpase I activity and protein, the latter manifested on western blots, almost completely disappear about 24 h before the cotyledon abscises. Of the 3 proteolytic enzyme patterns, only that of Cpase I can be restored by an exogenous supply of 10 m M CaCl₂ in the agar growth medium. The calcium effect is dependent on [CaCl₂] and is not manifested in the presence of chelators and calcium channel blockers. For detached cotyledons to show the normal low level of Cpase I by the eighth day of growth, calcium had to be supplied during seed imbibition and throughout the entire time from removal of the axis. The difference between detached cotyledons in the absence and presence of calcium was greatest when the cotyledons were detached 4–6 days after seed imbibition. Loss of Cpase I activity and protein can be demonstrated in vitro, with the maximum level of Cpase I-degrading activity measured 4 days after seed imbibition under the same growth conditions used to study the calcium effect. It is sensitive to pepstatin and has a pH optimum of 3, suggesting that this Cpase I-degrading activity is due to an aspartic protease.     

Effects of the embryonic axis and exogenous growth regulators on sunflower cotyledon storage protein mobilization

Cotyledons of sunflower seedlings ( Helianthus annuus L. cv. Giant gray stripe) expand and their protein content first rises then begins to decrease during the first three days of growth. Storage protein structures, which are visible with scanning electron microscopy, undergo modification that leads to storage protein disappearance by day 4 post-imbibition. Expansion of cotyledons detached from seeds prior to imbibition is greatly reduced, total protein levels remain high, and storage protein structures remain visible in cells of these cotyledons. Incubation of excised cotyledons in 1.0 μM benzyladenine or kinetin increases the rates of cotyledon expansion and storage protein loss to levels higher than in intact seedling cotyledons, Incubation in 10 μM indole-3-acetic acid inhibits cotyledon expansion and protein mobilization. More rapid hydrolysis of storage proteins in cotyledons of intact seedlings or detached cotyledons treated with cytokinin is further indicated in day 2 specimens by SDS-polyacrylamide gel electrophoresis. These results suggest a possible mechanism for regulation of cotyledon development by interactions of the promotive effects of cytokinin and inhibitory effects of auxin.     

Role of polyamines in the cytokinin-dependent physiological processes II. Modulation of polyamine levels during cytokinin-stimulated expansion of cucumber cotyledons

The cucumber cotyledon expansion test was used as a model system to study a possible relationship between cytokinin and polyamines. When kinetin was applied to excised cotyledons incubated in the dark it caused a marked increase in the activity of arginine decarboxylase. As a result of ADC action, putrescine content also rose markedly, whereas the level of spermidine and spermine decreased. However, inhibition of putrescine biosynthesis with D-arginine did not affect cytokinin promotion growth. Applied alone, putrescine had no significant effect on growth. These results indicate that the large increase in putrescine content that derives from cytokinin treatment cotyledons is not essential for cytokinin-induced expansion of cotyledons. Addition of K⁺ and Ca²⁺ ions to the cotyledons incubated with cytokinin caused a marked reduction in the putrescine level and ADC activity. The higher level of putrescine (35 %) and spermine (62 %) bound to chromatin and the large increase (174 %) in spermidine content bound to ribosomes which derive from cytokinintreated cotyledons in relation to literature data can indicate that these polyamines may play an important role in gene expression during cytokinin-stimulated expansion of cucumber cotyledons. The inhibition of cytokinin effect, viz. enlargement of the cotyledons by inhibitors of spermidine biosynthesis, additionally suggessted a possible involvement of polyamines in cytokinin action.     

Molecular cloning of cucumber phosphoenolpyruvate carboxykinase and developmental regulation of gene expression

A cDNA library from RNA of senescing cucumber cotyledons was screened for sequences also expressed in cotyledons during post-germinative growth. One clone encodes ATP-dependent phosphoenolpyruvate carboxykinase (PCK; EC 4.1.1.49), an enzyme of the gluconeogenic pathway. The sequence of a fulllength cDNA predicts a polypeptide of 74397 Da which is 43%, 49% and 57% identical to bacterial, trypanosome and yeast enzymes, respectively. The cDNA was expressed in Escherichia coli and antibodies raised against the resultant protein. The antibody recognises a single polypeptide of ca. 74 kDa, in extracts of cotyledons, leaves and roots. The cucumber genome contains a single pck gene. In the seven-day period after seed imbibition, PCK mRNA and protein steady-state levels increase in amount in cotyledons, peaking at days 2 and 3 respectively, and then decrease. Both accumulate again to a low level in senescing cotyledons. This pattern of gene expression is similar to that of isocitrate lyase (ICL) and malate synthase (MS). When green cotyledons are detached from seedlings and incubated in the dark, ICL and MS mRNAs increase rapidly in amount but PCK mRNA does not. Therefore it seems unlikely that the glyoxylate cycle serves primarily a gluconeogenic role in starved (detached) cotyledons, in contrast to post-germinative and senescing cotyledons where PCK, ICL and MS are coordinately synthesised. While exogenous sucrose greatly represses expression of icl and ms genes in dark-incubated cotyledons, it has a smaller effect on the level of PCK mRNA.     

In vitro plantlet regeneration from cotyledon, hypocotyl and root explants of hybrid seed geranium

In vitro plantlet regeneration systems for the seed geranium (Pelargonium x hortorum Bailey) using cotyledon, hypocotyl and root explants were optimized by studying the influence of seedling age, growth regulators and excision orientation on organogenesis. Indole-3-acetic acid combined with zeatin yielded the highest rate of shoot production on cotyledon explants (0.2–2 shoots per explant). More shoots were produced on explants cut from the most basal region of cotyledons from 2 to 4-day-old seedlings than from older seedlings or more distal cut sites. Hypocotyl explants produced the highest number of shoots, up to 40 shoots per explant, on indole-3-acetic acid (2.8–5.6 mM) + zeatin (4.6 mM) or thidiazuron (4.5 mM). Maximum shoot formation (0.3–1.4 shoots per explant) on root explants occurred when they were cultured on medium containing zeatin. Regenerated shoots rooted best on a basal medium containing no growth regulators. There were substantial differences among cultivars in shoot formation from each of the explant systems.Abbreviations BA 6-benzylaminopurine - 2,4-d 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - NAA naphthaleneacetic acid - TDZ thidiazuron     

无外源激素条件下液体和固体培养基对黄瓜子叶培养器官分化的不同影响

在固体ＭＳ基本培养基上,黄瓜子叶能形成约０．８％的直接花芽,其分化高峰约为４５天左右,而在液体ＭＳ基本培养基上,黄瓜子叶花芽分化率为８％,其分化高峰期约在３０天左右．实验结果表明：液体培养基对黄瓜子叶花芽及根的分化效果明显好于固体培养基,而对于营养芽的分化固体培养基好于液培养基,花芽分化与子叶衰老存在着较密切的关系。     

Cytokinins in Germinating Seeds of Phaseolus vulgaris L. I. Changes in Endogenous Levels Within the Cotyledons

Ethanolic extracts from the cotyledons of mature dry Phaseolusvulgaris L. seed yielded cytokinin-like activity which co-chromatographedwith zeatin and ribosylzeatin. Under conditions which stimulatedgermination and cotyledon expansion, the level of these cytokininsdecreased rapidly in both intact embryos and excised cotyledons.In the excised cotyledons the decrease was continuous, resultingin very low levels of cytokinin being detected after 4 daysof incubation. With the embryonic axis present, however, theinitial decrease was arrested and reversed after 3 days. Thissuggests that the cotyledons do not synthesize cytokinins butthat these hormones are imported from the embryonic axis, particularlyonce radicle growth is well under way. Phaseolus vulgaris, bean, cotyledons, cytokinins, germination     

Regulators of cell division in plant tissues. XXX. Cytokinin metabolism in relation to radish cotyledon expansion and senescence

Kinetic studies of formation of glucosides of 6-benzylaminopurine (BAP) in excised radish cotyledons indicated that the 3-, 7-, and 9-glucosides (N-glucosides) were each formed directly from BAP. The 7- and 9-glucosides of BAP and the 7-glucoside of zeatin exhibited great stability in the cotyledons, but the 3-glucoside was converted to free BAP and to the 7- and 9-glucosides of BAP. When³H-labeled zeatin was supplied to developed cotyledons, at high concentrations (100 μM), 7-glucosylzeatin was the principal metabolite, but an appreciable proportion of the extracted³H was due to O-glucosylzeatin. In immature cotyledons, as used in the radish cotyledon cytokinin bioassay, this O-glucoside was shown to be converted into zeatin 7-glucoside probably via free zeatin. Metabolism of BAP and zeatin in radish cotyledons was studied in relation to cytokinin-induced cotyledon expansion. Cytokinin N-glucosides were not metabolites responsible for the observed cytokinin-induced expansion, and were not detoxification products, or deactivation products formation of which was coupled with cytokinin action. However, the free base, its riboside, and nucleotide were possible active forms of BAP associated with cotyledon expansion. The possible significance of cytokinin N-glucosides is discussed. Senescent and nonsenescent cotyledons differed in their metabolism of BAP, zeatin, and zeatin riboside. Senescence was associated principally with a reduction in ability to form 7-glucosylzeatin, enhanced metabolism to adenine derivatives, and an inability to form appreciable amounts of 3-glucosyl-BAP. A two-dimensional thin layer chromatography (TLC) system, based on adjoining layers of cellulose and silica gel, for separating zeatin metabolites is described. This does not completely separate zeatin and zeatin riboside from the corresponding dihydro-compounds. A reversed phase TLC method for achieving these separations is also reported.     

Regulators of cell division in plant tissues. XXX. Cytokinin metabolism in relation to radish cotyledon expansion and senescence

Kinetic studies of formation of glucosides of 6-benzylaminopurine (BAP) in excised radish cotyledons indicated that the 3-, 7-, and 9-glucosides (N-glucosides) were each formed directly from BAP. The 7- and 9-glucosides of BAP and the 7-glucoside of zeatin exhibited great stability in the cotyledons, but the 3-glucoside was converted to free BAP and to the 7- and 9-glucosides of BAP. When³H-labeled zeatin was supplied to developed cotyledons, at high concentrations (100 M), 7-glucosylzeatin was the principal metabolite, but an appreciable proportion of the extracted³H was due to O-glucosylzeatin. In immature cotyledons, as used in the radish cotyledon cytokinin bioassay, this O-glucoside was shown to be converted into zeatin 7-glucoside probably via free zeatin.Metabolism of BAP and zeatin in radish cotyledons was studied in relation to cytokinin-induced cotyledon expansion. Cytokinin N-glucosides were not metabolites responsible for the observed cytokinin-induced expansion, and were not detoxification products, or deactivation products formation of which was coupled with cytokinin action. However, the free base, its riboside, and nucleotide were possible active forms of BAP associated with cotyledon expansion. The possible significance of cytokinin N-glucosides is discussed.Senescent and nonsenescent cotyledons differed in their metabolism of BAP, zeatin, and zeatin riboside. Senescence was associated principally with a reduction in ability to form 7-glucosylzeatin, enhanced metabolism to adenine derivatives, and an inability to form appreciable amounts of 3-glucosyl-BAP.A two-dimensional thin layer chromatography (TLC) system, based on adjoining layers of cellulose and silica gel, for separating zeatin metabolites is described. This does not completely separate zeatin and zeatin riboside from the corresponding dihydro-compounds. A reversed phase TLC method for achieving these separations is also reported.     

Evidence for the involvement of cytokinins in the regulation of proteolytic activity in cotyledons of germinating beans

The proteolytic activity of an extract of cotyledons of Phaseolusvulgaris increased during the first 7 days of germination, bothwhen casein was the substrate and when the endogenous proteinserved as such. The increase was partially dependent on thepresence of the embryo axis. The effect of the axis was replaceableby kinetin or zeatin, but not by gibberellic acid or IAA. During the period of 3–6 days after the beginning of incubation,the level of amino acids in cotyledons attached to the embryoaxis was lower than in detached ones. No such difference couldbe detected in the first 2 days of incubation. On the otherhand, the influence of the axis on protease activity alreadywas clearly detectable on the second day of germination. Applicationof casein hydrolysate to the seeds brought about an increasein the concentration of amino acids in the cotyledons, but nosimultaneous decrease in the protease level could be detected.We concluded that these results do not confirm the hypothesisthat the influence of the axis on proteolytic activity is dueto its function as a sink for amino acids produced in the cotyledons. (Received August 9, 1979; )