Role of endogenous cytokinins and ethylene in adventitious shoot regeneration in lemon (Citrus limon)

In Vitro Cellular & Developmental Biology - Plant - In this study, adventitious organogenesis from mature tissues of ‘Verna 51’ and ‘Fino 49’ lemon cultivars has been...     

Role of polyamines on de novo shoot morphogenesis from cotyledons of Brassica campestris ssp. pekinensis (Lour) Olsson in vitro

Summary The promotive effect of ethylene inhibitors (Els), i.e. AgNO₃ and aminoethoxyvinylglycine (AVG) on de novo shoot regeneration from cultured cotyledonary explants of Brassica campestris ssp. pekinensis cv. Shantung in relation to polyamines (PAs) was investigated. The endogenous levels of free putrescine and spermidine in the explant decreased sharply after 1–3 days of culture, whereas endogenous spermine increased, irrespective of the absence or presence of Els. AgNO₃ at 30 M did not affect endogenous PAs during two weeks of culture. In contrast, explants grown on medium containing 5 M AVG produced higher levels of free putrescine and spermine which increased rapidly after three days and reached a peak at 10 days. An exogenous application of 5 mM putrescine also resulted in a similar surge of endogenous free spermine of the explant. More strikingly, shoot regeneration from explants grown in the presence of 1–20 mM putrescine, 0.1–2.5 mM spermidine, or 0.1–1 mM spermine was enhanced after three weeks of culture. However, exogenous PAs generally did not affect ethylene production, and endogenous levels of 1-aminocyclopropane-1-carboxylate (ACC) synthase activity and ACC of the explant. This study shows the PA requirement for shoot regeneration from cotyledons of B. campestris ssp. pekinensis in vitro, and also indicates that the promotive effect of PAs on regeneration may not be due to an inhibition of ethylene biosynthesis.Abbreviations PAs polyamines - AVG aminoethoxyvinylglycine - SAM S-adenosylmethionine - ACC 1-aminocyclopropane-1-carboxylate - Els ethylene inhibitors     

Effects of exogenous application of polyamines on wheat anther cultures

Androgenesis of wheat genotypes was evaluated by pretreating anthers or embryo-like structures (ELS) with polyamines. Anthers of the genotype DH were pretreated with different concentrations of putrescine, spermidine, and spermine for 1, 3, and 6 h, and those of drought-tolerant International Center for Agricultural Research in the Dry Areas (ICARDA) wheat accessions were treated for 1 and 3 h. ELS of two genotypes were also treated for 30 and 60 min with the same polyamines and evaluated for green plant regeneration. The pretreatment of anthers with polyamines enhanced the development of ELS in all genotypes. The formation of ELS varied significantly with genotype. Pretreated anthers showed that four treatments improved significantly green plant regeneration with the genotype ICR 17. However, two treatments (1 mM putrescine or spermine for 1 h) significantly improved green plant regeneration per 100 ELS of only two ICARDA genotypes. ELS treated with polyamines for 30 min were greener and formed more adventitious roots. The chloroplasts of these greener ELS examined with a transmission electron microscope had agranal to grana thylakoids, while those of the control had plastids with mostly starch globules. Although exogenous application of polyamines to anthers improved the production of ELS and green plants, the effects of putrescine, spermidine, and spermine was dependent on genotype and the duration of pretreatment of anthers with the polyamines.     

Effect of polyamines on ethylene production

The polyamines putrescine, cadaverine, spermidine and spermine reduced the amount of ethylene produced by senescing petals of Tradescantia but they did not prevent anthocyanin leakage from these same petals. These polyamines also inhibited auxin-mediated ethylene production by etiolated soybean hypocotyls to less than 7 % of the control. The basic amino acids lysine and histidine reduced the amount of auxin-induced ethylene produced by soybean hypocotyls by ca 50 %. In the hypocotyls, methionine was unable to overcome the inhibition caused by the polyamines. The polyamines spermidine and spermine inhibited ethylene production induced by the application of 1-aminocyclopropane-1-carboxylic acid and they also reduced the endogenous content of this amino acid in the treated tissues.     

Senescence of Rice Leaves XXX Levels of Endogenous Polyamines and Dark-Induced Senescence of Rice Leaves

The role of endogenous polyamines in the control of dark-inducedsenescence of detached rice leaves was investigated by quantitatinglevels of various polyamines by HPLC. Putrescine, spermidineand spermine were all present throughout senescence. Neithercadaverine nor 1,3-diaminopropane was detected. During dark-inducedsenescence, there was a marked decrease in levels of putrescineand an increase in those of spermidine and spermine. The rateof production of ethylene increased markedly upon excision ofleaves. -Difluoromethylarginine (DFMA) and -difluoromethylornithine(DFMO) caused a reduction in levels of putrescine, yet had noeffect on levels of spermidine and spermine. Neither DFMA norDFMO had any effect on senescence or on the production of ethylene.Treatment with dicyclohexylamine (DCH) and methylglyoxal bis-(guanylhydrazone)(MGBG) reduced levels of spermine and increased those of putrescinein detached leaves. After treatment with DCH or MGBG, both senescenceand the production of ethylene were significantly promoted.The current results suggest that endogenous polyamines may notplay a significant role in the control of dark-induced senescenceof rice leaves. This conclusion is supported by the furtherobservations that (a) benzyladenine, which is known to retardsenescence, decreased levels of putrescine but had no effecton those of spermidine and spermine; and (b) ABA, which promotedsenescence, increased levels of putrescine and had no effecton those of spermidine and spermine. (Received March 30, 1991; Accepted June 27, 1991)     

Effects of Polyamines on Proline Endopeptidase Activity in Rat Brain

The in vitro effects of polyamines on the activity of proline endopeptidase (PEPase) in rat brain cytosol, which contains an endogenous PEPase inhibitor, have been studied. Of the three amines tested (spermine, spermidine, and putrescine), spermine and spermidine markedly enhanced the enzyme activity in brain cytosol. At 6.25 mM spermine or 25 mM spermidine, a 13- or 14-fold enhancement of the enzyme activity was observed. When Mg2+ was used, an approximately fourfold enhancement of the enzyme activity was observed at 50 mM. The enhancement produced by spermine or spermidine was unaffected by Mg2+ up to 50 mM. The activity of purified PEPase was only slightly affected by each polyamine, but it was inhibited 50% by 50 mM Mg2+. On the other hand, 50% inhibition of the enzyme produced by the purified PEPase inhibitor (Mr 7,000: Ki 0.67 mM) was completely restored by addition of 0.7 mM spermine, 3.5 mM spermidine, or 28 mM putrescine. This restoration of inhibition by polyamines was reversed by increasing the inhibitor concentration. These data suggest that polyamines effectively reverse the inhibition of PEPase by its endogenous inhibitor by the reversible formation of a kinetically significant complex. The possible functions of polyamines in the regulation of PEPase in vivo are discussed.     

Changes in chlorophyll,polyamines and chloroplast ultrastructure of Puccinia striiformis induced ‘green islands’ on detached leaves of Triticum aestivum

Biochemical and ultrastructure features of ‘green islands’ were investigated using detached wheat leaves infected with the yellow rust Puccinia striiformis. Chlorophylls appear to culminate 10 d after inoculation at which point ‘green islands’ were fully developed. These changes were paralleled by an increase in spermidine and spermine content which play an important role in formation of ‘green islands’. Retention of chlorophyll was demonstrated in leaf tissues of wheat plants supplied with exogenous putrescine, spermidine and spermine. Putrescine was least and spermidine and spermine most effective in retarding loss of chlorophylls. Ultrastructural observation revealed that chloroplasts were regenerated in ‘green islands’ where many proplastids were detected. The regeneration of chloroplasts coincided with the high concentration of chlorophylls and polyamines particularly spermidine and spermine. The ultrastructural changes of chloroplasts in leaf cell containing infection structures were parallel to physiological changes.     

Inhibition of ethylene production in sunflower cell suspensions by the plant growth retardant BAS 111..W: Possible relations to changes in polyamine and cytokinin contents

At a concentration of 10^–5 mol · L^–1 the triazole-type growth retardant BAS 111..W completely inhibited the transiently elevated ethylene production in the exponential growth phase of heterotrophic sunflower cell suspensions. This effect, which could not be restored by adding gibberellin A₃, was accompanied by transiently increased levels of 1-aminocyclopropanecarboxylic acid (ACC) in the cells, which was increasingly converted to N-malonyl-ACC. Thus, the reactions from ACC to ethylene catalyzed by the ethylene-forming enzyme appeared to be blocked by the retardant. Concomitantly, higher endogenous levels of free spermidine and particularly spermine were found over control, whereas free putrescine, the direct precursor of both polyamines, simultaneously decreased. We assume that the remaining S-adenosylmethionine from ethylene biosynthesis was increasingly incorporated into spermidine and finally spermine. A further relation appears to exist between the reduced ethylene production and enhanced levels of cytokinins in the cells. The application of both BAS 111..W and aminoethoxyvinylglycine depressed ethylene formation while immunoreactive cytokinins from isopentenyladenosine-, trans-zeatin ribo-side-, and dihydrozeatin riboside-type increased. By additional treatment with ACC, the effects could partially be reversed. On the other hand, stimulation of ethylene production by ACC alone or ethephon considerably lowered cytokinin levels.     

Influence of polyamines on growth and formation of secondary metabolites in hairy root cultures of Beta vulgaris and Tagetes patula

Growth of hairy roots of Beta vulgaris, which produces betalaines, and of Tagetes patula, which produces thiophenes, was studied under the influence of externally treated polyamines. Of the three polyamines, viz. putrescine, spermidine and spermine, administered singly at 1.5 mM concentration, putrescine and spermidine at 0.75 mM concentration influenced increase in the accumulation of biomass of B. vulgaris and T. patula hairy roots by 1.42 and 1.30 fold over the control. Whereas, the treatment of spermine (1.5 mM) alone resulted in decrease in the biomass in both the systems. Combined administration of putrescine (0.75 mM) and spermidine (0.75 mM) enhanced growth in both B. vulgaris and T. patula than that observed in individual treatments. Polyamines administered alone or in combination did alter production of betalaine and thiophene content. Dose response experiments showed that, when putrescine and spermidine was administered at 0.75 mM concentration, it resulted in maximum biomass and production of beta-laine and thiophene in B. vulgaris and T. patula respectively as compared to the control and the media treated with double and triple strength of nitrates and in combination with putrescine and spermidine at equimolar concentration. In B. vulgaris and T. patula hairy root cultures, endogenous spermine titers were maximum in putrescine and spermidine 0.75 mM each treated, cultures, which was 1.63 and 2.0 fold higher than in control on 28^th and 35^th days respectively.     

Polyamines and Adventitious Root Formation in the Juvenile and Mature Phase of English Ivy

The involvement of polyamines during adventitious root formationwas evaluated using a de-bladed petiole rooting assay for theeasy-to-root juvenile and difficult-to-root mature phase ofEnglish ivy (Hedera helix L.). Auxin (NAA 0.1 mM) stimulatedroot formation in juvenile phase cuttings, but failed to promoterooting in the mature phase. The addition of putrescine, spermineor spennidine (1.0 mM) with or without NAA (0.1 mM) did notaffect the rooting response in either the juvenile or maturephase cuttings. There was a significant increase in endogenouslevels of putrescine and spermidine in NAA-treated cuttings,but the only significant difference between the root formingjuvenile and the non-root forming mature phase cuttings wasan increase in putrescine levels. In NAA-treated juvenile cuttings,the polyamine biosynthesis inhibitor DFMA (1.0 mM) promotedroot formation from 9.2 to 14.5 roots per cutting, while DFMO(1.0 mM) reduced root formation from 9.1 to 1.4 roots per cutting.The promotion of rooting by DFMA was completely reversed byputrescine (1.0 mM), but putrescine, spermine or spermidine(1.0 mM) could not reverse the inhibitory effect of DFMO. NeitherDFMA nor DFMO promoted root formation in mature phase cuttings.DFMA was also added to NAA-treated juvenile petioles at variousstages during the root formation process. DFMA promoted rootingwhen applied during the early stages of root induction (0–3d), but became inhibitory to root formation when applied duringthe organization (6–9 d) or root elongation stages (9–12d). Key words: Hedera helix, organogenesis, root initiation, polyamines, DFMA, DFMO     

Contrasting effects of ethylene perception and biosynthesis inhibitors on germination and seedling growth of barley (Hordeum vulgare L.)

The effects of the plant growth regulator ethylene, and of ethylene inhibitors, on barley (Hordeum vulgare L.) germination and seedling growth were investigated. Exogenous 1-aminocyclopropane-1-carboxylic acid (ACC) at 100 microM enhanced ethylene production by barley seedlings and stimulated shoot growth, whereas both germination and seedling growth were inhibited by antagonists of ethylene perception (75 microM silver ions, 100 microM 2,5-norbornadiene (NBD)). In contrast, germination was unaffected by, and root and shoot growth of seedlings was strongly stimulated by inhibitors of ethylene biosynthesis (10 microM cobalt chloride, 10 microM aminoethoxyvinylglycine (AVG)). Since the ethylene and polyamine biosynthetic pathways are linked through S:-adenosylmethionine, this prompted further explorations into the role of polyamines in germination and seedling growth. Exogenous polyamines (putrescine, spermidine and spermine) at 1 microM concentration stimulated barley seedling growth in a similar fashion to the ethylene biosynthetic inhibitors. Both polyamines and ethylene biosynthetic inhibitors reversed the inhibitory effects of ethylene perception inhibitors on germination and seedling growth. Blocking endogenous ethylene production with aminoethoxyvinylglycine enhanced the free putrescine and spermidine content of germinating barley grains. Thus endogenous polyamines may play a complementary, growth-promotive, role to ethylene in the normal course of barley germination. Further, experiments that have been carried out using inhibitors of ethylene biosynthesis may have to be re-evaluated to take the possible effect of polyamines into account.     

Role of polyamines in adventitious shoot morphogenesis from cotyledons of cucumber <Emphasis Type="Italic">in vitro</Emphasis>

The relationship between polyamines (PAs) metabolism and adventitious shoot morphogenesis from cotyledons of cucumber was investigated in vitro. The endogenous levels of free putrescine (Put) and spermidine (Spd) in the explants decreased sharply, whereas endogenous spermine (Spm) increased during adventitious shoot morphogenesis. The presence of 1–15 mM Put, 1–2 mM Spd, 0.05–1 mM Spm, 5–10 M aminoethoxyvinylglycine (AVG) or 5 M AVG together with 50 M 1-aminocyclopropane-1-carboxylic acid (ACC) in the regeneration medium could promote adventitious shoot formation. Conversely, 1–5 mM D-arginine (D-Arg) or 0.01–0.1 mM methylglyoxal bis-guganylhydrazone (MGBG) inhibited regeneration; and 0.005–0.05 mM ACC displayed little or no evident effects. The explants growing on medium containing 5 M AVG produced higher levels of free Put and Spm, and on medium containing 5 mM Put the explants responded similarly to the AVG-treated explants. However, the exogenous use of 1 mM D-Arg reduced the levels of Put, Spd and Spm, and 0.1 mM MGBG reduced the levels of free Spd and Spm. Moreover, although the explants cultured on medium containing Put and MGBG enhanced ethylene production, AVG and D-Arg inhibited ethylene biosynthesis. This study shows the PAs requirement for the formation of adventitious shoot from cotyledons of cucumber in vitro and the enhanced adventitious shoot morphogenesis may be associated with the elevated level of endogenous free Spm, albeit the promotive effect of PAs on adventitious shoot morphogenesis may not be related to ethylene metabolism.     

Response of in vitro pollen germination and pollen tube growth of almond (Prunus dulcis Mill.) to temperature,polyamines and polyamine synthesis inhibitor

Prunus dulcis L. ‘Mamaei’ is grown widely in souhtwest of Iran. It blooms in early spring when temperatures are still low. Based on our knowledge there are no reports in the literature regarding pollen behavior of this cultivar under specified condition. Thus, the possible factors for low germination percentage in this cultivar have not been reported. The effect of three different temperatures (10, 25, or 35 °C), polyamines (putrescine, spermidine, and spermine) and polyamine synthesis inhibitor, methylglyoxals-bis (guanyl-hydrazone) (MGBG) on in vitro pollen germination and pollen tube growth were investigated in P. dulcis L. ‘Mamaei’. All temperatures and chemicals significantly affected both pollen germination percentage and pollen tube growth. In general, different polyamines stimulated the pollen germination percentage compared to the control at all temperatures, but increasing the temperature, particularly to 35 °C, had demonstrated inhibitory effects on pollen germination. At a concentration of 0.05 mM putrescine and spermidine and 0.005 and 0.025 mM spermine revealed longer pollen tube growth than that of the control at 10 °C, while higher concentrations tended to inhibit pollen tube growth. At 25 °C, most of the treatments had an inhibitory effect on pollen tube growth except for 0.25 mM putrescine and 0.005 mM spermine, which slightly stimulated pollen tube growth. Pollen germination and pollen tube growth were inhibited by MGBG at all temperatures and in all concentrations.     

Polyamine levels and tomato fruit development: possible interaction with ethylene

Fruits of tomato, Lycopersicon esculentum Mill. cv Liberty, ripen slowly and have a prolonged keeping quality. Ethylene production and the levels of polyamines in pericarp of cv Liberty, Pik Red, and Rutgers were measured in relation to fruit development. Depending on the stage of fruit development, Liberty produced between 16 and 38% of the ethylene produced by Pik Red and Rutgers. The polyamines putrescine, spermidine, and spermine were present in all cultivars. Cadaverine was detected only in Rutgers. Levels of putrescine and spermidine declined between the immature and mature green stages of development and prior to the onset of climacteric ethylene production. In Pik Red and Rutgers, the decline persisted, whereas in Liberty, the putrescine level increased during ripening. Ripe pericarp of Liberty contained about three and six times more free (unconjugated) polyamines than Pik Red and Rutgers, respectively. No pronounced changes in spermidine or cadaverine occurred during ripening. The increase in the free polyamine level in ripe pericarp of Liberty may account for the reduction of climacteric ethylene production, and prolonged storage life.     

Modulation of SAMDC expression in Arabidopsis thaliana alters in vitro shoot organogenesis

S -Adenosylmethionine decarboxylase (SAMDC, EC 4.1.4.50) is a rate-limiting enzyme in the biosynthesis of polyamines (PAs) from putrescine. To gain more insight into the role of PAs in shoot organogenesis, a reverse genetic approach has been used to study in vitro shoot organogenesis by manipulating SAMDC expression in Arabidopsis . Up- and downregulation of SAMDC expression was achieved by transferring sense, antisense and double-stranded Arabidopsis SAMDC complementary DNA constructs back into Arabidopsis via Agrobacterium tumefaciens . Results show that the biosynthesis of PAs and ethylene is mutually antagonistic by manipulation of SAMDC expression. Further results demonstrate that increased shoot organogenesis seems to be directly related to PA accumulation. This effect of PA may be further enhanced with reduced ethylene. It also suggests that spermidine is involved in the process of acquiring organogenesis competence through downregulation of ethylene production and shoot organogenesis, which might result from the concerted action of PAs and plant hormones such as auxin, cytokinins and ethylene.     

A Possible Role for Polyamines in the Repression of Growth of Bradyrhizobium japonicum Bacteroids in Soybean Nodules

Soybean plants (Glycine max L. Merr. cv. Tamahomare) accumulatesufficient putrescine and spermidine in their nodules to inhibitthe growth of bacteroids of Bradyrhizobium japonicum strain138NR. Gas-chromatographic analysis showed that the mature nodulesfrom 35-d-old plants contained approximately 1.5 µmoleseach of putrescine and spermidine per g fresh weight. Water-soluble(free) putrescine and spermidine were present at concentrationsof 0.39 and 0.13 µmoles per g fresh weight, respectively.Cadaverine and spermine were not detected in the nodules. Ina yeast-extract mannitol broth at a pH above 7.0, putrescine,cadaverine, spermidine, and spermine at more than 0.5, 0.2,0.05, and 0.05 mM, respectively, inhibited the growth of thebacteroids. The effect of the polyamines was bactericidal athigher concentrations. More than 95% of bacteroids were notable to form colonies on agar plates that contained 0.5 mM spermidineat pH 7.0. The high sensitivity to polyamines was a unique characteristicof the bacteroidform cells of this strain. The bacteroids losttheir sensitivity to the polyamines within 24 hours after theirisolation from nodules. The cultured cells of this strain multipliedin the presence of 2 mM spermidine or spermine. (Received January 28, 1993; Accepted June 14, 1993)     

Putrescine influences growth and production of coumarins in transformed and untransformed root cultures of witloof chicory (Cichorium intybus L. cv. Lucknow local)

The effect of putrescine on growth and production of two coumarins, esculin, and esculetin in the transformed and untransformed roots of chicory (Cichorium intybus L. cv. Lucknow local) was examined. To study the role of putrescine (Put) on growth and production of coumarins, polyamine inhibitors namely α-DL-difluromethylornithine (DFMO) and α-L-difluromethylarginine (DFMA) were used at 1 mM levels. Treatment with 1.5 mM of putrescine (Put) produced 1.96 - fold and 4.0 - fold increase in the growth of transformed and untransformed roots of chicory, respectively. The treatment with polyamine inhibitors showed much lower growth, as well as production compared with both 1.5 mM putrescine treatment and control in both transformed and untransformed chicory roots. The endogenous polyamines, both free and conjugated, were studied over the whole culture period, and it was seen that conjugated titers of all three polyamines viz., putrescine, spermidine and spermine were higher than level of free polyamines, throughout the culture period in both transformed and untransformed roots of chicory. Treatment in which polyamine inhibitors were used showed lower level of endogenous polyamines as compared with the 1.5 mM putrescine treated sample in both the systems. The treatment wherein putrescine was added at 1.5 mM level showed maximum accumulation of endogenous conjugated putrescine (2098.86±157.6 nmoles g⁻¹ FW; 896.8±67.2 nmoles·g⁻¹ FW), on the 14^th day in both transformed and untransformed roots respectively. The production of esculin and esculetin was strictly correlated with growth in every treatment in both systems. Putrescine at 1.5 mM resulted in greater length of primary root in transformed (18.3±1.4 cm) and untransformed (6.86±0.51 cm) as compared with their respective controls (11±0.9 cm; 2.9±0.1cm) and greater number of secondary and tertiary roots. This study suggests that putrescine influences plant root development and differentiation, and it also provides insight into the morphological changes that occur in roots in response to the external supply of polyamines.     

The microRNA167 controls somatic embryogenesis in Arabidopsis through regulating its target genes ARF6 and ARF8

The aim of this study was to evaluate the influence of ethylene-releasing (ACC, Ethephon, Methionine) and -inhibiting (cobalt chloride, silver thiosulfate) compounds on ethylene production and shoot organogenesis of nodal segments, where buds were completely removed, from mature tissues of Citrus limon, Fino 49 and Verna 51 cultivars. The addition of ACC to the culture medium produced a very significant decrease of the regeneration. These results were directly related to the ethylene levels measured in the atmosphere inside the tube. Similar results were observed with ethephon and methionine; the gradual increase in ethylene levels in the tubes, with increasing ethylene-releasing compounds in the culture medium, agrees with the decrease in the regeneration rate observed, but the effect was lower than with ACC. When cobalt chloride (CoCl₂) was added to the culture medium, contrary to what was expected, the regeneration decreased in both cultivars and this decreasing was not related with the increase in ethylene production. These observations matched the occurrence of yellowish necrotic explants increasing the concentration of cobalt chloride, probably because of a toxic effect on lemon explants. The increase of silver thiosulfate (STS) in the culture medium enhanced the regeneration percentage in both Verna 51 and Fino 49 cultivars. Nevertheless, ethylene levels increased proportionally with the STS concentration and the regeneration rate. These results may be explained since the effects produced by the high ethylene levels measured in STS experiments were blocked by Ag⁺ ions, thereby increasing the regeneration percentage. Media to which STS was added produced the highest regeneration percentages. The results obtained in this study showed that ethylene plays an important role in the organogenesis of mature explants of C. limon.     

Variations in endogenous polyamine content of maize calli obtained from zygotic and androgenetic embryos

A comparative study of polyamine (putrescine, spermidine and spermine) levels was conducted with maize calli originating from a) immature embryos and b) pollen embryos capable of plant regeneration. The differences observed in the studied parameters of the two kinds of calluses are related to their cellular origin and to their regeneration capacity. Moreover, only the calluses proceeding from immature embryos differentiated into preembryogenic structures, which eventually developed into plants. Although total polyamine levels in pollenderived calluses were significantly higher than those from immature embryos, spermidine and spermine were the predominant polyamines in both culture types. Furthermore, polyamine fractions of these calluses also showed differences. All these phenomena may be related with the differences observed in the callus embryogenic response. These findings may be useful in understanding the implication of polyaminesin embryogenetic processes.Abbreviations IEC immature-embryo calluses - PAs polyamines - PEC pollen-embryo calluses - PH insoluble conjugated PA fraction - Put putrescine - S free PA fraction - SH soluble conjugated PA fraction - Spd spermidine - Spm spermine 2,4d-2,4 dichlorophenoxyacetic acid     

Polyamines inhibit biosynthesis of ethylene in higher plant tissue and fruit protoplasts

Ethylene production in apple fruit and protoplasts and in leaf tissue was inhibited by spermidine or spermine. These polyamines, as well as putrescine, inhibited auxin-induced ethylene production and the conversion of methionine and 1-aminocyclopropane-1-carboxylic acid to ethylene. Polyamines were more effective as inhibitors of ethylene synthesis at the early, rather than at the late, stages of fruit ripening. Ca²⁺ in the incubation medium reduced the inhibitory effect caused by the amines. A possible mode of action by which polyamines inhibit ethylene production is discussed.