Effects of Polyamines and Kinetin on In Vitro Frond Senescence in Lemna aequinoctialis 6746

Both polyamines and kinetin could retard the loss of chlorophyll during dark-induced senescence in excised frond of Lernna aequinoctialis 6746. The effect of polyamines on retarding the chlorophyll loss was stronger than that of kinetin. Kinetin remarkably inhibited the loss of soluble proteins and the increase of protease activity, while no similar effects were observed from polyamines. An inhibitor of polyamine biosynthesis, methylglyoxal bis- (guanyl- hydrazone) (MGBG), slightly increased the loss of chlorophyll and soluble proteins. During senescience, both the increase of putrescine (Put) content and the decrease of spermidine (Spd) content were inhibited by kinetin at the concentration of 0.05 mmol/L, but the spermine (Spm) level was not affected by kinetin. The arginine decarboxylase (ADC) activity was dominant in frond of Lemna aequinoctialis 6746. Kinetin slightly increased ADC activity, while it had no marked effect on ornithine decarboxylase (ODC) and s-adenosylmethionine decarboxylase (SAMDC). The possible relationship between polyamines and cytokinins in retarding senescence was also discussed.     

Interrelations between Gibberellic Acid, Cytokinins and Abscisic Acid in Retarding Leaf Senescence

The interrelation between the effects of abscisic acid (ABA) and the effects of cytokinins and gibberellic acid in retarding leaf senescence was investigated. Leaf discs from plants of Taraxacum megallorrhizon, Rumex pulcber and Tropaeolum majus were floated on solutions of cytokinin or GA to which given amounts of ABA were added. After five days, chlorophyll was extracted and the amount estimated spectrophoto-metrically. The interrelation between the effects of abscisic acid and cytokinins differed from that between the effects of ABA and gibberellic acid. Abscisic acid reduced the senescence retarding effect of GA more than that of cytokinins. A high concentration of cytokinins nullified the senescence enhancing effect of low concentrations of ABA. GA did not reverse the effects of ABA.     

A study of the hypothetical role of cytokinins in completion of tRNA

Summary It has been suggested that the effect of cytokinins in retarding leaf senescence comes about through their incorporation into tRNA. To test this hypothesis, kinetin-8-¹⁴C, 6-benzylaminopurine-benzyl-7-¹⁴C and adenine-8-³H were applied to detached tobacco leaves, and the nucleic acids were thereafter extracted and chromatographed on MAK columns. Kinetin-8-¹⁴C and adenine-8-³H were readily incorporated into RNA in a similar pattern. 6-Benzylaminopurine-benzyl-7-¹⁴C was effective in delaying chlorophyll loss but was not incorporated into any nucleic-acid fraction. It is concluded that the possibility of cytokinins retarding leaf senescence by completion of tRNA is not supported.     

多胺与激动素对稀脉浮萍离体叶状体衰老的影响

多胺与ＫＴ 都可抑制暗诱导衰老的稀脉浮萍（Ｌｅｍ ｎａ ａｅｑｕｉｎｏｃｔｉａｌｉｓ）离体叶状体的叶绿素损失,且多胺的作用大于ＫＴ。ＫＴ 还显著抑制蛋白质的损失与蛋白酶活性的上升,而多胺对此却无大的影响。０．０５ ｍ ｍ ｏｌ／Ｌ的甲基乙二醛二脒基－腙（ＭＧＢＧ）轻微促进叶绿素和蛋白质的损失。０．０５ ｍ ｍ ｏｌ／Ｌ的ＫＴ 可抑制衰老过程中腐胺（Ｐｕｔ）的上升和亚精胺（Ｓｐｄ）的下降,而对精胺（Ｓｐｍ ）无明显影响。在稀脉浮萍中,精氨酸脱羧酶（ＡＤＣ）活性占优势。ＫＴ 可轻微促进ＡＤＣ 活性,而对鸟氨酸脱羧酶（ＯＤＣ）和Ｓ－腺苷甲硫氨酸脱羧酶（ＳＡＭＤＣ）活性无显著影响。讨论了多胺与细胞分裂素在抑制植物叶片衰老过程中作用途径的可能关系     

Effects of gibberellin A3 and cytokinins on natural and post-harvest, ethylene-induced pigmentation of Satsuma mandarin peel

Natural and post-harvest ethylene-induced pigment changes in the rind of Satsuma mandarin ( Citrus unshiu Marc.) fruits respond differently to the exogenous application of growth regulators. Both gibberellin A₃ and the synthetic cytokinins N⁶-benzyladenine and kinetin opposed the ethylene-induced chlorophyll destruction, while the loss of chlorophyll during natural maturation was retarded by the gibberellin but not by the cytokinins. This different behaviour suggests that ethylene may not be playing a central role in the endogenous control of ripening. Carotenoid accumulation during natural maturation is apparently controlled through a different mechanism than chlorophyll loss since it is reduced both by the cytokinins and gibberellin A₃.
Kinetin and gibberellin A₃ increased to a similar extent the accumulation of reducing sugars and free amino acids, and reduced that of non-reducing sugars in the peel during natural maturation. Their differential effect on chlorophyll loss may not be explained through their effects on sugar accumulation.     

Control of senescence in rumex leaf discs by gibberellic Acid

The kinetics of chlorophyll and protein decomposition and the effect of gibberellic acid (GA) were examined in senescing leaf discs of Rumex crispus and R. obtusifolius. Loss of Rumex total chlorophyll proceeds at a slow rate for about 2 days followed by a period of rapid logarithmic decline. Chlorophyll b is lost at a slightly faster rate than chlorophyll a during senescence in discs as well as in situ. GA causes a complete cessation of net chlorophyll and protein degradation for several days in Rumex, in contrast to the incomplete senescence inhibition generally observed with cytokinins. GA is fully effective even when added at the middle of the logarithmic phase of chlorophyll loss. Senescence inhibition by GA is apparently gradually reversed upon GA removal. The cytokinins, kinetin and 6-benzylaminopurine, were also effective in Rumex leaf discs, indicating that the senescence retarding effect was not restricted to the gibberellins.     

Interrelationship between ethylene and growth regulators in the senescence of lettuce leaf discs

The interrelationship between ethylene and growth regulators in the senescence of romaine lettuce (Lactuca sativa L.) leaves was studied. Gibberellic acid (GA₃), kinetin, and 3-indoleacetic acid (IAA) retarded chlorophyll loss from leaf discs which were floated on hormone solutions. Abscisic acid (ABA) and ethephon enhanced chlorophyll loss and antagonized the senescence-retarding effect of GA₃ and kinetin. A high concentration of IAA (10^–4 M) caused accelerated chlorophyll loss, whereas a similar concentration of kinetin neither retarded nor promoted chlorophyll loss. The ineffectiveness of IAA and kinetin at their supraoptimal concentrations in retarding leaf senescence was related to increased production of ethylene induced in the treated leaf discs. GA₃ was the most effective in retarding chlorophyll loss and did not stimulate ethylene production at all. The senescence-enhancing effect of ABA was not mediated by ethylene. However, the moderately increased production of ethylene, induced by relatively high concentrations of ABA, could act synergistically with the latter to accelerate chlorophyll loss. It is proposed that the effectiveness of exogenously applied hormones, both in enhancing and retarding senescence, is greatly affected by the endogenous ethylene concentration of the treated plant tissue.Contribution from the Agricultural Research Organization, The Volcani Center, Bet Dagan, Israel, No. 2571-E, 1988 series.     

Effect of plant growth regulators on the natural and ethylene induced pigmentation in Kinnow mandarin peels

Following harvest, Kinnow mandarin (Citrus nobilis × Citrus deliciosa) fruits were variously treated with gibberellins (GA) and cytokinins. Ethylene caused marked chlorophyll (Chl) degradation and its effect was partially reversed by kinetin and benzylaminopurine (BAP) and to a lesser extent by GA₃ and GA₄₊₇. No appreciable accumulation of carotenoids (Car) occurred in these fruits irrespective of treatment. The loss of Chl during natural maturation was significantly reduced by cytokinins. Treatments with gibberellins alone or in combination with cytokinins were much less effective. The reduced loss of Chl in response to exogenously applied cytokinins may be probably related to a decline in its endogenous levels.     

The interplay between cytokinins and light during senescence in detached Arabidopsis leaves

Light and cytokinins are known to be the key players in the regulation of plant senescence. In detached leaves, the retarding effect of light on senescence is well described; however, it is not clear to what extent is this effect connected with changes in endogenous cytokinin levels. We have performed a detailed analysis of changes in endogenous content of 29 cytokinin forms in detached leaves of Arabidopsis thaliana (wild‐type and 3 cytokinin receptor double mutants). Leaves were kept under different light conditions, and changes in cytokinin content were correlated with changes in chlorophyll content, efficiency of photosystem II photochemistry, and lipid peroxidation. In leaves kept in darkness, we have observed decreased content of the most abundant cytokinin free bases and ribosides, but the content of cis‐zeatin increased, which indicates the role of this cytokinin in the maintenance of basal leaf viability. Our findings underscore the importance of light conditions on the content of specific cytokinins, especially N⁶‐(Δ²‐isopentenyl)adenine. On the basis of our results, we present a scheme summarizing the contribution of the main active forms of cytokinins, cytokinin receptors, and light to senescence regulation. We conclude that light can compensate the disrupted cytokinin signalling in detached leaves.     

细胞分裂素对植物衰老的延缓作用

细胞分裂素是一类重要的植物激素,它可在一定程度上延缓植物的衰老。主要从3个方面综述了细胞分裂素与植物衰老之间的关系,即:(1)植物衰老过程中内源细胞分裂素含量变化;(2)外源细胞分裂素的影响;(3)转入与细胞分裂素的合成、降解相关的基因对植物衰老产生的影响。此外,还从细胞分裂素与糖、与脂质氧化反应以及与其它植物激素的关系方面探讨了细胞分裂素在延缓植物衰老中的作用机理。     

On the mechanism of rejuvenation of ageing detached bean leaves by low-concentration stressors

The effect of low concentrations of some stress-inducing compounds of different toxicity and chemical nature, such as Cd and Pb salts or DCMU, was investigated on the senescence of chloroplasts in detached primary leaves of bean ( Phaseolus vulgaris L . ). After 1 week of senescence followed by root development from the petiole, these agents stimulated chlorophyll accumulation and photosynthetic activity (¹⁴CO₂ fixation) as compared to the control, thus inducing rejuvenation. Low-concentration stressors increased the level of active cytokinins in roots and leaves during the treatment, as monitored by the Amaranthus betacyanin bioassay and high-pressure liquid chromatography. The lithium ion, an inhibitor of the PIP₂-IP₃/DAG signal transduction pathway, abolished the stimulating effect of stressors, both in roots (retarding cytokinin synthesis) and consequently also in leaves (reducing cytokinin-dependent chlorophyll accumulation). This suggests the involvement of the PIP₂-IP₃/DAG signal transduction pathway in generation of these consecutive organ-specific responses.     

Gibberellin-induced delay of leaf senescence of Alstroemeria cut flowering stems is not caused by an increase in the endogenous cytokinin content

The effects of various chemically pure gibberellins and cytokinins on leaf yellowing of Alstroemeria were described. The loss of chlorophyll was measured both in leaves of cut flowering stems and in a model system consisting of detached leaf tips. It was demonstrated that plant growth substances affected chlorophyll loss in both systems to the same extent. Leaf senescence was delayed by various gibberellins and cytokinins. The results demonstrated that some of the gibberellins (GA₄ and GA₇) are far more effective in delaying chlorophyll loss than GA₃, which is commonly used as a postharvest treatment for Alstroemeria cut flowering stems. Immunoassays were used to demonstrate that the effect of gibberellins on leaf yellowing does not involve an increase in the endogenous cytokinin concentrations in the leaves as an intermediate step.Abbreviations GA gibberellin A - HPLC high performance liquid chromatography - GA_3Mc GA₃-methyl ester - ZR zeatin riboside - IPAR isopentenyl adenine riboside.     

Cytokinin-induced chlorophyll formation in cucumber cotyledons

Summary Cotyledons of cucumber plants grown in the dark for 7 days were treated with various concentrations of cytokinins for 14 h and then moved into light. After 3 h the treated cotyledons had up to 450% more chlorophyll than the water controls. This suggests that cytokinins have an important role in the formation of chlorophyll. The increase in chlorophyll level was proportional to cytokinin concentration and was apparent at concentrations as low as 0.001 mg/l. Sensitivity to cytokinins depended on the age of the cotyledons and the time of exposure to light. Gibberellic acid, indoleacetic acid, adenine and sucrose did not cause a similar increase in chlorophyll levels. This effect of cytokinins on chlorophyll formation is valuable as a simple, rapid bioassay for cytokinins.This study was supported by the National Research Council of Canada.     

Photocontrol of Chlorophyll Loss in Papaya Leaf Discs

Both red and blue light pulses are separately shown to retarddark-stimulated chlorophyll loss of papaya leaf discs suggestingparticipation of phytochrome and blue light photoreceptors inregulating the pigment loss. The red light effect is fully reversibleby far-red light. The partial failure of far-red pulses to reversethe action of blue light suggests that blue light effect maynot be entirely through the phytochrome action. The apparentineffectiveness of continuous white light to check the chlorophyllloss is attributed to a balance of photooxidation and photoprotectionof the pigment. The interaction of blue light and kinetin at its different concentrationssuggests that the effect of interactions is additive. The bluelight effect in retarding chlorophyll loss is partly independentof the hormone level. (Received December 10, 1985; Accepted August 25, 1986)     

Control of development of amylolytic and proteolytic activities in cotyledons of germinating black gram seeds

The effect of polyamines and related metabolites on several parameters of leaf senescence was followed in detached radish ( Raphanus sativus L. var. radicular cv. "Giant Butter") leaves floated on test solutions in darkness. Leaf senescence was accompanied by a marked loss of chlorophyll, which started at 24–48 h of incubation. The polyamines, spermine and spermidine, and the diamines, putrescine and cadaverine, were highly effective in arresting chlorophyll loss over a period of at least 96 h. l -arginine, and especially l -ornithine, were less active. Polyaminens prevented the marked chlorophyll loss in dark-incubated leaves, but did not compensate for the moderate chlorophyll loss when the leaves were aged in light. Polyamines were also highly effective in retarding earlier events of leaf senescence, prior to chlorophyll loss: both protein degradation and ribonuclease activity were inhibited by spermidine. Chlorophyll and protein loss in dark-or light-incubated suspensions of either "intact" or disrupted chloroplasts was not affected by polyamines. – It is concluded that polyamines are highly effective in preventing chlorophyll loss from detached leaves, possibly by controlling early senescence-linked events which occur in darkness rather than by direct inhibition of chlorophyll degradation.     

Cytokinin biochemistry in relation to leaf senescence. VI. Effect of nitrogenous nutrients on cytokinin levels and senescence of tobacco leaves

The effect of nitrogenous nutrients on endogeneous cytokinins and senescence of tobacco leaves was investigated. Ammonium nitrate was the most effective in retarding senescence and its activity was attributed principally to NH₄⁺ ions. Repeated applications or a continuous supply of ammonium nitrate was required for maximal retardation of tobacco leaf senescence. Ammonium nitrate solution supplied via the petioles reduced the senescence retarding effect of dihydrozeatin applied directly to the laminae of detached tobacco leaves. Ammonium nitrate also elevated the endogenous levels of cytokinins (especially zeatin and dihydrozeatin) particularly in growing tobacco leaves excised from near the apex of the plant. Ammonium nitrate induced retardation of leaf senescence may be mediated at least partly by its effect on foliar cytokinin content.     

Effect of Cytokinins on Photosynthetic Pigments and Chlorophyllase Activity in in Vitro Cultures of Axillary Buds of Dianthus caryophyllus L.

The effect of benzyladenine (BA) and two phenylurea cytokinins, N-phenyl-N′-(2-chloro-4-pyridyl)urea (4-PU-30) and thidiazuron (TDZ), on the growth, photosynthetic pigment content, and activity of chlorophyllase (chlorophyll-chlorophylliodhydrolase, EC 3.1.1.14) of in vitro cultures of carnations was studied. All cytokinins caused a rise in the fresh weigth and a drop in the dry weight of leaf mass produced by the explanted buds. Both 4-PU-30 and TDZ increased the chlorophyll content and this correlated with changes in chlorophyllase activity. The effect of 4-PU-30 and TDZ was similar to that caused by BA but at 10-fold or 100-fold lower concentrations. The application of higher concentrations of the phenylurea cytokinins caused an increase in the chlorophyll a/chlorophyll b ratio. However, at equimolar concentrations, the purine and both phenylurea cytokinins had opposite effects, probably indirect and related to some malformations caused by phenylureas. 4-PU-30 increased, but TDZ decreased, photosynthetic membrane stability, which argues for a different molecular organization of the chloroplast membranes. Received February 26, 1996; accepted May 30, 1997     

Influence of Different Cytokinins on the Transpiration and Senescence of Excised Oat Leaves

In order to investigate the possibility that cytokinins control transpiration indirectly through affecting leaf senescence, a direct comparison was made of the effect of different cytokinins on transpiration and senescence of oat leaves (Avena sativa L. cv. Forward). Senescence was assessed by measuring chlorophyll loss. The synthetic cytokinins N⁶ benzyladenine (BA) and kinetin delayed senescence and increased transpiration of oat leaves to a greater extent than did the naturally occurring compounds zeatin, N^b-Δ² isopentenyladenine (i⁶ Ade) and 6-ø-hydroxybenzyladenosine (hyd-BA riboside). During the early stages of the transpiration experiment zeatin showed similar or greater activity than BA. This period was longest when freshly excised leaves were used, was reduced when leaves were used after incubation in distilled water in the dark for 20 h and was eliminated by incubation in cytokinin solution in the dark. After this period the activity of zeatin declined relative to BA. The effect of cytokinins in increasing transpiration occurred only in the light; no effect was observed in the dark. BA showed higher activity than zeatin in senescence tests but both cytokinins were less effective as the tests progressed, this decrease in activity being more rapid when older leaves were used. The results are discussed in relation to the mechanisms by which endogenous cytokinins might control sensecence and transpiration in oat leaves and to the value of the oat leaf senscence and transpiration bioassays as tests for cytokinin activity of plant extracts.     

Phytohormonal changes in greening and senescing intact cotyledons of oilseed rape and pumpkin: influence of the growth retardant BAS 111 ˙˙ W

The triazole growth retardant BAS 111‥W delayed senescence in cotyledons of pumpkin ( Cucurbita maxima L. cv. Gelbe genetzte Riesenmelone) and stimulated chlorophyll synthesis in greening cotyledons of oilseed rape ( Brassica napus L. cv. Petranova) seedlings. In both cases, changes of phytohormone-like substances in the cotyledons were analyzed on a fresh weight basis by immunoassay.
After soil treatment with increasing retardant concentrations, a close correlation was observed in senescing cotyledons of pumpkin between a reduced loss in total chlorophyll and increasing levels of dihydrozeatin riboside (DZR) and trans -zeatin riboside (ZR)-type cytokinins. In contrast, the levels of isopentenyladenosine (IPA)-type cytokinins, 3-indoleacetic acid (IAA) and gibberellin (GA) did not change significantly. The levels of abscisic acid (ABA) were slightly elevated at low retardant concentrations but dropped considerably below those of controls at higher doses. Consequently, the molar ratio of total cytokinin to ABA content changed from approximately 1:40 in controls (50% of initial chlorophyll) to 1:3 in cotyledons treated with 3 mg BAS 111‥W plant⁻¹ (85% of initial chlorophyll). These changes, together with the known reduction of ethylene production by plants treated with nitrogen-heterocyclic retardants, can explain the delayed senescence in pumpkin cotyledons. Likewise, when etiolated, BAS 111‥W-treated seedlings of oilseed rape were exposed to light, the stimulation of chlorophyll synthesis in the cotyledons was accompanied by an accumulation of DZR- and, particularly, ZR-type cytokinins and IAA. In contrast, GA and ABA contents decreased slightly. We conclude that the influence of BAS 111‥W on cytokinin levels might be involved in the stimulation of greening.     

Interaction of light quality and benzimidazole on pigment contents and on photochemical activity of chloroplasts isolated from detached senescing wheat (Triticum aestivum) leaves

The possibilities of an interaction between light and the growth regulator benzimidazole in retarding senescence-induced changes in activity of chloroplasts isolated from detached wheat ( Triticum aestivum L. cv. Kalyansona) leaves have been investigated. The effect of benzimidazole on the rate of degradation of chlorophylls in light depended on the quality of light used. Far-red irradiation given to detached leaves in the presence of benzimidazole retarded the pigment loss more significantly than did white or red light of similar intensity. Senescence-induced loss in chloroplast photochemical activity was higher than the loss of chlorophylls. Loss of photosystem I activity was greater than photosystem II activity. Benzimidazole maintained the gramicidin-mediated enhancement in whole chain electron transport uniformly throughout the incubation period irrespective of the light quality. There was no effect of light and benzimidazole in retarding the loss in photochemical activity, although the same preserved the chlorophyll contents as well as characteristics of the chloroplast absorption spectrum.