Polyamines and Morphogenesis - Effects of Methylglyoxal-bis(guanylhydrazone)

The effects of methylglyoxal-bis(guanylhydrazone) (MGBG), an inhibitor of polyamine biosynthesis were studied on tuberization and cellular polyamine content using in vitro Solanum tuberosum (cv Binjte) plants. When MGBG was added to the culture medium, it produced a partial inhibition of the growth of stems and leaves; it totally blocked rhizogenesis and strongly stimulated tuber formation. Morphogenetic effects of MGBG were correlated to a 40 % decrease in free putrescine, spermidine, spermine content of the leaves and to a 28 % decrease in spermidine titer of the stems. In the tubers, this inhibitor did not change the free polyamine titer but increased by up to 85 % the titer of conjugated putrescine, spermidine, spermine. When the plants were grown in the dark, MGBG produced, like benzyladenine, a stimulation of the rate of tuberization and enhanced the content of conjugated polyamines in the tuber. These results support the hypothesis that polyamines play an important role in the morphogenesis of potato plants. The role of polyamine conjugation in tuber development is discussed.     

Levels of Polyamines and Kinetic Characterization of Their Uptake in the Soybean Pathogen Phytophthora sojae

Polyamines are ubiquitous biologically active aliphatic cations that are at least transiently available in the soil from decaying organic matter. Our objectives in this study were to characterize polyamine uptake kinetics in Phytophthora sojae zoospores and to quantify endogenous polyamines in hyphae, zoospores, and soybean roots. Zoospores contained 10 times more free putrescine than spermidine, while hyphae contained only 4 times as much free putrescine as spermidine. Zoospores contained no conjugated putrescine, but conjugated spermidine was present. Hyphae contained both conjugated putrescine and spermidine at levels comparable to the hyphal free putrescine and spermidine levels. In soybean roots, cadaverine was the most abundant polyamine, but only putrescine efflux was detected. The selective efflux of putrescine suggests that the regulation of polyamine availability is part of the overall plant strategy to influence microbial growth in the rhizosphere. In zoospores, uptake experiments with [1,4-¹⁴C]putrescine and [1,4-¹⁴C]spermidine confirmed the existence of high-affinity polyamine transport for both polyamines. Putrescine uptake was reduced by high levels of exogenous spermidine, but spermidine uptake was not reduced by exogenous putrescine. These observations suggest that P. sojae zoospores express at least two high-affinity polyamine transporters, one that is spermidine specific and a second that is putrescine specific or putrescine preferential. Disruption of polyamine uptake or metabolism has major effects on a wide range of cellular activities in other organisms and has been proposed as a potential control strategy for Phytophthora. Inhibition of polyamine uptake may be a means of reducing the fitness of the zoospore along with subsequent developmental stages that precede infection.     

Polyamine Content in Relation to Embryo Growth and Dedifferentiation in Barley (Hordeum vulgare L.)

Putrescine, spermidine, and spermine content were analysed inzygotic embryos of barley (Hordeum vulgare L.). Changes in polyaminecontent were observed during zygotic embryo growth. In two cultivars,‘Bomi’ and ‘Golden Promise’, the totalpolyamine content in the embryos was 2.6–2.9 nmol mg^–1fresh weight 10 d after anthesis, the highest content observed.It dropped to 1.3 nmol mg^–1 fresh weight 14 d after anthesis.This drop was caused by decreases in all three polyamine concentrations.From 14 to 35 d after anthesis the putrescine content continuedto decrease while the spermidine and spermine content increased,thus the total polyamine content remained constant until 35d after anthesis. The mutant ‘Ris? 1508’ showeda constant polyamine content around 1.3 nmol mg^–1 freshweight from 14 to 35 d after anthesis. The polyamine patternwas conserved in all three lines throughout the period of investigationshowing a spermidine content higher than putrescine contentwhich was, in turn, higher or equal to the spermine content.The polyamine content measured as nmol µg^–1 proteindecreased from 14 to 21 d post anthesis in all three lines,because the protein content (µg mg^–1 fresh weight)increased during the period. In dedifferentiating zygotic embryoscultured in vitro the putrescine content (nmol mg^–1 freshweight) rose by a factor of nine and the spermidine contentdoubled within the first week of cultivation, whereas sperminecontent did not change. For embryoderived calli a repeated patternof change in polyamine content was observed throughout the subculturingperiod. Key words: Polyamines, Hordeum vulgare L., embryo development     

Polyamines in Relation to Cell Division and Xylogenesis in Cultured Explants of Helianthus tuberosus: Lack of Evidence for Growth-Regulatory Action

Phillips, R., Press, M. C. and Eason, A. 1987. Polyamines inrelation to cell division and xylogenesis in cultured explantsof Helianthus tuberosus: lack of evidence for growth-regulatoryaction.—J. exp. Bot. 38: 164–172. The polyamines spermidine, diaminopropane, and cadaverine werefound to accumulate in cultured tuber explants of H. tuberosus(Jerusalem artichoke). Rapid increases in all amines occurredduring the initial 24 h corresponding to the period of activationand the onset of mitosis. Levels then declined during the followingphases of rapid cell proliferation and xylem differentiation.The type and distribution of polyamines was not markedly affectedby changes in medium or culture conditions, and the inhibitorMGBG did not alter cell division rates or polyamine contentmarkedly although xylem differentiation was substantially depressed.Exogenously supplied spermidine and putrescine did not substantiallyalter the cellular responses of explants cultured in the presenceof auxin. In the absence of supplied auxin, spermidine at 1?0mol m^–3 produced an increase in cell division, althoughthis was small in comparison with auxin-stimulated responses.The implications of these findings on the possibility that polyaminesact as growth regulators in plants is discussed. Key words: Polyamines, Jerusalem artichoke, cultured explants, cell division, xylem differentiation     

Polyamine Titre in Relation to Chill-Sensitivity in Phaseolus sp.

Guye, M G., Vigh, L. and Wilson, J. M. 1986. Polyamine titrein relation to chill-sensitivity in Phaseolus sp.—J. exp.Bot. 37: 1036–1043. Endogenous levels of the polyamines putrescine, spermidine andspermine were quantified in the primary leaves of five cultivarsof bean (Phaseolus sp.) differing in their ‘wilting response’to a chilling exposure of 5 ?C for 24 h. Levels of polyamines prior to chilling treatment did not appearto be correlated with chill-tolerance as levels in the non-chilledcontrols were highest in cultivars of medium chill-sensitivity.Plants grown under a vapour saturation deficit (VSD) of 8?4gm^–3 day/6?1 g m^–3 night exhibited a mild hardeningas compared to plants grown under a VSD of 5?7 gm^–3 day/4?1gm^–3 night, as the former showed less wilting on chilling.Hardening at high VSD had the effect of slightly lowering theputrescine content of non-chilled tissue but total polyaminecontent remained unchanged. However, on chilling, the largestrelative increase in polyamine levels, in particular that ofputrescine, occurred in hardened plants. There was also a significantrelative increase in putrescine titre in response to chillingin non-hardened genotypes of high chill-tolerance, whereas morechill-sensitive genotypes remained unchanged or slightly declinedin putrescine content on chilling. Relative changes in putrescine content rather than absolutelevels appears to be correlated with chill-tolerance. Theseresults are discussed in view of present knowledge on the adaptivesignificance of stress-induced changes in polyamines, especiallywith regard to membrane stability Key words: Chilling, polyamines, Phaseolus sp.     

Characterization of a polyamine transport system in murine embryonic palate mesenchymal cells

Polyamines (putrescine, spermidine, and spermine) are normal cellular constituents able to modulate cellular proliferation and differentiation in a number of developing systems. Ornithine decarboxylase (ODC), the rate-limiting enzyme in the polyamine biosynthetic pathway, has been shown to be causally related to an increase in glycosaminoglycan synthesis in murine embryonic palatal mesenchyme cells (MEPM). In order to understand other mechanisms that exist to regulate polyamine levels in cells derived from the developing craniofacial area, the present study investigated the capacity of MEPM cells to accumulate exogenous putrescine and tests the hypothesis that polyamine transport can serve as an adaptational response of MEPM cells to a change in their ability to synthesize polyamines. Transport was initiated in confluent cultures of MEPM cells by the addition of 0.1 microCi/ml of 14C-putrescine. The rate of transport, monitored for 20-120 minutes, was found to be a time-dependent saturable process. The rate of initial transport, determined by incubating MEPM cells for 15 minutes in the presence of different concentrations (1.0-20.0 microM) of 14C-putrescine, was also found to be saturable, suggesting a carrier-mediated event. Lineweaver-Burk analysis of these data revealed an apparent Km of 5.78 microM and a Vmax of 2.63 nmol/mg protein/15 minutes. Transport measured either at 4 degrees C or in the presence of 2-4 DNP was dramatically inhibited. Thus, putrescine transport is an active process, dependent upon metabolic energy. Conditions in which 1) NaCl was iso-osmotically replaced with choline chloride or 2) the Na+-electrochemical gradient was dissipated with Na+, K+-specific ionophores resulted in a decreased rate of transport indicating that putrescine transport in these cells is Na+ dependent. Noncompetitive inhibition assays utilizing sulfhydryl reagents that blocked sulfhydryl groups inhibited putrescine transport, suggesting that sulfhydryl groups are important for putrescine uptake. Competitive inhibition assays demonstrated that while spermidine and spermine inhibited putrescine uptake, ornithine did not inhibit transport. Spermidine, spermine, and putrescine thus appear to share a common transport system that is separate from that for ornithine. Putrescine transport is subject to adaptive regulation in both exponentially growing and confluent cultures of MEPM cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Polyamine homeostasis in arginase knockout mice

The role of ornithine decarboxylase (ODC) in polyamine metabolism has long been established, but the exact source of ornithine has always been unclear. The arginase enzymes are capable of producing ornithine for the production of polyamines and may hold important regulatory functions in the maintenance of this pathway. Utilizing our unique set of arginase single and double knockout mice, we analyzed polyamine levels in the livers, brains, kidneys, and small intestines of the mice at 2 wk of age, the latest timepoint at which all of them are still alive, to determine whether tissue polyamine levels were altered in response to a disruption of arginase I (AI) and II (AII) enzymatic activity. Whereas putrescine was minimally increased in the liver and kidneys from the AII knockout mice, spermidine and spermine were maintained. ODC activity was not greatly altered in the knockout animals and did not correlate with the fluctuations in putrescine. mRNA levels of ornithine aminotransferase (OAT), antizyme 1 (AZ1), and spermidine/spermine-N¹-acetyltransferase (SSAT) were also measured and only minor alterations were seen, most notably an increase in OAT expression seen in the liver of AI knockout and double knockout mice. It appears that putrescine catabolism may be affected in the liver when AI is disrupted and ornithine levels are highly reduced. These results suggest that endogenous arginase-derived ornithine may not directly contribute to polyamine homeostasis in mice. Alternate sources such as diet may provide sufficient polyamines for maintenance in mammalian tissues. ornithine; putrescine; spermidine; spermine; decarboxylase     

Levels of polyamines and kinetic characterization of their uptake in the soybean pathogen Phytophthora sojae

Polyamines are ubiquitous biologically active aliphatic cations that are at least transiently available in the soil from decaying organic matter. Our objectives in this study were to characterize polyamine uptake kinetics in Phytophthora sojae zoospores and to quantify endogenous polyamines in hyphae, zoospores, and soybean roots. Zoospores contained 10 times more free putrescine than spermidine, while hyphae contained only 4 times as much free putrescine as spermidine. Zoospores contained no conjugated putrescine, but conjugated spermidine was present. Hyphae contained both conjugated putrescine and spermidine at levels comparable to the hyphal free putrescine and spermidine levels. In soybean roots, cadaverine was the most abundant polyamine, but only putrescine efflux was detected. The selective efflux of putrescine suggests that the regulation of polyamine availability is part of the overall plant strategy to influence microbial growth in the rhizosphere. In zoospores, uptake experiments with [1,4-(14)C]putrescine and [1,4-(14)C]spermidine confirmed the existence of high-affinity polyamine transport for both polyamines. Putrescine uptake was reduced by high levels of exogenous spermidine, but spermidine uptake was not reduced by exogenous putrescine. These observations suggest that P. sojae zoospores express at least two high-affinity polyamine transporters, one that is spermidine specific and a second that is putrescine specific or putrescine preferential. Disruption of polyamine uptake or metabolism has major effects on a wide range of cellular activities in other organisms and has been proposed as a potential control strategy for Phytophthora. Inhibition of polyamine uptake may be a means of reducing the fitness of the zoospore along with subsequent developmental stages that precede infection.     

Recombinant polyamine-binding protein of <Emphasis Type="Italic">Synechocystis</Emphasis> sp. PCC 6803 specifically binds to and is induced by polyamines

His-tagged Synechocystis sp. PCC 6803 PotD protein (rPotD) involved in polyamine transport was overexpressed in Escherichia coli. The purified rPotD showed saturable binding kinetics with radioactively labeled polyamines. The rPotD exhibited a similar binding characteristic for three polyamines, with putrescine having less preference. The K _d values for putrescine, spermine, and spermidine were 13.2, 8.3, and 7.8 μM, respectively. Binding of rPotD with polyamines was maximal at pH 8.0. Docking of these polyamines into the homology model of Synechocystis PotD showed that all three polyamines are able to interact with Synechocystis PotD. The binding modes of the docked putrescine and spermidine in Synechocystis are similar to those of PotF and PotD in E. coli, respectively. Competition experiments showed specific binding of rPotD with polyamines. The presence of putrescine and spermidine in the growth medium could induce an increase in PotD contents, suggesting the role of PotD in mediating the transport of polyamine in Synechocystis sp. PCC 6803.     

Cloning and physical characterization of chromosomal conjugative elements in streptococci.

A transport system for polyamines was studied with both intact cells and membrane vesicles of an Escherichia coli polyamine-deficient mutant. Polyamine uptake by intact cells and membrane vesicles was inhibited by various protonophores, and polyamines accumulated in membrane vesicles when D-lactate was added as an energy source or when a membrane potential was imposed artificially by the addition of valinomycin to K+-loaded vesicles. These results show that the uptake was dependent on proton motive force. Transported [14C]putrescine and [14C]spermidine were not excreted by intact cells upon the addition either of carbonyl cyanide m-chlorophenylhydrazone, A23187, and Ca2+ or of an excess amount of nonlabeled polyamine. However, they were excreted by membrane vesicles, although the degree of spermidine efflux was much lower than that of putrescine efflux. These results suggest that the apparent unidirectionality in intact cells has arisen from polyamine binding to nucleic acids, thus giving rise to a negligible free intracellular concentration of polyamines. Polyamine uptake, especially putrescine uptake, was inhibited strongly by monovalent cations. The Mg2+ ion inhibited spermidine and spermine uptake but not putrescine uptake.     

Significance of Spermidine in the Initiation of Adventitious Buds in Stem Segments of Torenia

When stem segments of Torenia fournieri Lind. were culturedin vitro, the initiation of adventitious buds, which is usuallyinduced by cytokinin, was induced by application of polyamines,such as putrescine and spermidine. Addition of arginine hada slight inductive effect. When cyclohexylamine, an inhibitorof spermidine synthase, was added simultaneously with putrescine,induction of the initiation of buds by putrescine was stronglyinhibited. However, application of the inhibitor together withspermidine had no effect on the spermidine-induced initiationof buds. The induction of initiation of buds by a cytokinin,by a calcium ionophore, by cyclic AMP, and by a phorbol ester,which was accompanied in each case by elevation of the levelsof endogenous spermidine, was also inhibited by cyclohexylamine.These results suggest the involvement of spermidine in the initiationof adventitious buds in stem segments of Torenia. ²Present address: Radiation Effects Research Foundation, Hijiyamakouen5-2, Minami-ku, Hiroshima, 732 Japan.     

Cadaverine Involved in Urate Degrading Activity (Uricase Activity) in Soybean Radicles

Cadaverine, a 5-carbon diamine, was identified as the cofactorof uricase activity previously found in soybean seedlings. Thesubstance purified from freeze dried hypocotyls was subjectedto liquid chromatography, mass spectrometry, ¹H- and ¹³C-nuclearmagnetic resonance spectrometry for identification. The concentrationsof cadaverine in 3-day-old radicles and hypocotyls were 2.37mM and 5.09 mM, respectively. Other polyamine concentrationswere low. Biogenic polyamines (cadaverine, putrescine, spermidineand spermine) functioned as cofactors, whereas conjugated polyamines(tyramine and histamine) and amino acids had no effect. Theaddition of catalase to the assay system counteracted the effectof cadaverine. Peroxide at appropriate concentrations actedlike cadaverine with an identical K_m value, suggesting thaturate degrading activity can be ascribed to the diamine oxidase-peroxidasesystem. (Received October 19, 1982; Accepted December 23, 1982)     

Do Polyamines Participate in the Long-Distance Translocation of Stress Signals in Plants?

Accumulation and ethylene-dependent translocation of free polyamines was studied in various organs, the phloem and xylem exudates of common ice plants (Mesembryanthemum crystallinum L.). Under normal conditions (23–25°C), spermidine predominated among polyamines. Cadaverine was found in old leaves, stems, and, in large quantities, in roots. The heat shock treatment (HS; 47°C, 2 h) of intact plant shoots induced intense evolution of ethylene from leaves but reduced the leaf content of polyamines. Under these conditions, the concentration of polyamines in roots, particularly of cadaverine, increased many times. The HS treatment of roots (40°C, 2 h) induced translocation of cadaverine to stems and putrescine to leaves. An enhanced polyamine content after HS treatment was also found in the xylem and phloem exudates. The exposure of detached leaves to ethylene led to a reduction in their putrescine and spermidine and accumulation of cadaverine, which implies the ethylene-dependent formation of cadaverine and a possible relation between the HS-induced translocation of this diamine to roots and the transient ethylene evolution by leaves. To validate this hypothesis, we compared the ethylene evolution rate and interorgan partitioning of cadaverine and other polyamines for two lines of Arabidopsis thaliana: the wild type (Col-0) and ein4 mutant with impaired ethylene reception. In plants grown in light at 20–21°C, the rate of ethylene evolution by rosetted leaves was higher in the mutant than in the wild type. The content of putrescine and spermidine was reduced in mutant leaves, whereas cadaverine concentration increased almost threefold compared with the wild type. In roots, cadaverine was found only in the wild type and not in the mutant line. Our data indicate the ethylene-dependent formation of cadaverine in leaves and possible involvement of cadaverine and ethylene in the long-distance translocation of stress (HS) signal in plants.     

Presence and identification of polyamines in xylem and Phloem exudates of plants

Polyamines were identified by high performance liquid chromatography (benzoylation) and by thin layer chromatography (dansylation) in xylem exudates from stems of sunflowers (Helianthus annuus [L.]), mung bean (Vigna radiata [L.] Wilczek), grapevine (Vitis vinifera [L.] cv Grenache), and orange (Citrus sinensis [L.] Osbeck, cv Valencia), as well as in phloem sap (using elution into EDTA) of sunflower and mung bean plants. Putrescine was the major polyamine detected, ranging in concentrations of 150 to 9200 picomoles per milliliter exudate, whereas only trace amounts of spermine were detected. High amounts of putrescine and spermidine were found in EDTA eluates (possibly phloem sap) as compared with elution into water. Concentrations of putrescine and spermidine in xylem exudates were related to the physiological conditions of the plants prior to exudate collection. More putrescine was found in exudates of older than in younger sunflower plants, and salt stress applied to sunflower plants resulted in a higher concentration of putrescine and spermidine in the exudate. The presence and abundance of putrescine and spermidine in xylem and phloem exudates indicate that polyamines may be translocated in plants. This long-distance translocation further supports the hypothesis that polyamines have a regulatory role in plant growth and response to stress.     

Effects of Atmospheric O3 on Azolla-Anabaena Symbiosis

Cultures of water fern Azolla pinnata R. Br. exposed for 1 weekto either 30, 50 or 80 nl l^-1 O₃ showed significant reductionsin rates of growth and N₂ fixation, and had fewer heterocysts.Although the levels of glutamine synthetase (GS) and glutamatedehydrogenase (GDH) activity were decreased by low concentrationsof O₃ exposures (30 or 50 nl l^-1), significant increases inlevels of the same enzymes were caused by higher concentrationsof O₃ (80 nl l^-1). Increased levels of total protein, polyamines(putrescine and spermidine), and the xanthophyll-cycle precursorof abscisic acid (ABA), violaxanthin, were also found with higherlevels of O₃ (80 nl l^-1). Levels of ABA itself were significantlyincreased by low level O₃ fumigation (30 nl l^-1) but significantlydecreased by exposure to 80 nl l^-1 O₃. This may indicate thathigher levels of atmospheric O₃ inhibit the final stages ofABA biosynthesis from violaxanthin.Copyright 1994, 1999 AcademicPress Abscisic acid, nitrogen assimilation, nitrogen fixation, ozone pollution, polyamines, violaxanthin     

The process of abscisic acid-induced proline accumulation and the levels of polyamines and quaternary ammonium compounds in hydrated barley leaves

The contents of polyamines and quaternary ammonium compounds (QAC), substances involved in several kinds of stress phenomena, were tested in abscisk acid (ABA)-treated barley leaves (Hordeum vulgare L. cv. Georgie) accumulating pro-line. The characteristic parameters of the accumulation of proline induced by ABA [i.e. kinetics of accumulation, synergistic interaction hormone-K(Na)Cl, enhancing effect of Cl-, inhibiting effect of tetraethylammonium chloride (TEA), D-mannose and glucosamine] were tacking as far as polyamine and QAC content was concerned. Moreover: i) ABA slightly decreased the level of spermine and spermidine, slightly increased that of putrescine but did not influence the level of QAC; ii) the content of polyamines was reduced by KCl; iii) treatment with sorbitol increased the level of polyamines and prevented proline accumulation induced by ABA. These results indicate that there is no relationship between ABA-induced proline accumulation, polyamine level and QAC level; furthermore, accumulation of proline by ABA treatment is possible without increasing the levels of polyamines and QAC.     

Polyamines and cytokinins in celery embryogenic cell cultures

The effect of inhibitors of polyamine biosynthesis on the development of embryogenic cell cultures of celery (Apium graveolus L.) was studied. Several developmental stages of somatic embryos were compared for differences in the content and biosynthesis of free polyamines and for cytokinin content. Cyclohexylamine and particularly methylglyoxal bis(guanylhydrazone), inhibited both cell division and the organization of polar embryos from globular embryos. Difluoromethylornithine slightly promoted embryo development, especially cell division.The free putrescine content of globular embryos was 6-fold that of fully differentiated plantlets, and that of spermidine 2-fold. Only a slight increase in the spermine content was found with embryo development. These differences were confirmed by data from polyamine biosynthesis. Incorporation of ¹⁴C-arginine into polyamines was slightly higher than that of ¹⁴C-ornithine. Over 96% of this incorporation was detected in the putrescine fraction. Incorporation of ¹⁴C into putrescine in globular embryos was 3 to 4-fold that in fully-differentiated plantlets. Incorporation into spermidine and spermine was, however, higher in plantlets than in globular embryos.Cytokinin analysis revealed considerable differences in the biological activity between the developmental stages of embryogenesis. This could be due to endogenous cytokinins and/or BA taken up from the maintenance medium. Cytokinin levels decreased with increased embryo development. Most of the detected cytokinin-like activity co-chromatographed with BA and its metabolites. Some as yet unidentified peaks of activity were recorded in the globular embryos.The results are considered with respect to the possible participation of polyamines and cytokinins in the development of embryogenic cell cultures of celery. It is suggested that the onset of embryogenesis is characterized by a high content of putrescine and cytokinins, while a decrease in putrescine synthesis and cytokinin content, and an increase in spermidine and spermine content, accompany further embryo development and plantlet formation.Abbreviation ADC arginine decarboxylase - ODC ornithine decarboxylase - 2,4-D dichlorophenoxyacetic acid - DFMA difluoromethylarginine - DFMO difluoromethylornithine - MGBG methylglyoxal bis(guanylhydrazone) - CHA cyclohexylamine - BA benzyladenine - BAR benzyladenine riboside     

Seasonal changes of polyamines in habitat adaptation of different ecotypes of reed plants

The leaves of four reed ecotypes (Phragmites communis Trinius) growing in the desert regions of northwest China were investigated for levels of polyamines and activity of arginine decarboxylase (ADC; EC 4.1.1.19) during the growing season of 5 months. The polyamines in the leaves of all reed ecotypes consisted of putrescine, spermidine and spermine. The polyamine levels of the leaves were lower in the swamp reed than in the terrestrial reed ecotypes. Leaf polyamine levels decreased in all ecotypes over the course of the season. Compared to the swamp reed, the terrestrial reed ecotypes maintained higher ADC activity and a predominance of spermine, resulting in a lower ratio of putrescine to spermidine and spermine. It seems that the adaptation of reed plants to drought and saline habitats may be correlated with putrescine synthesis via the ADC pathway, and with a successful conversion of putrescine to spermidine and spermine.     

Proline and Polyamine Involvement in Chilling Tolerance of Maize Suspension Cultures

We have assessed the effect of various medium supplements inpromoting the ability of maize (Zea mays L.) inbred FR27rhmsuspension cultures to grow following a period of 4 °C chillingstress. Following a 4 week exposure to 4 °C in culture mediumwithout proline, no cell growth occurred upon subsequent incubationat 28°C for 2 weeks. This inhibition was reversed when 3to 48 mol m^–3 proline or 0.1 mol m^–3 putrescineor 0.01 mol m^–3 spermidine were present in the mediumduring the chilling stress. On the other hand, suspensions weremade more sensitive to 4°C by blocking polyamine biosynthesiswith 1.0 mol m^–3 methylglyoxal bis (guanylhydrazone) (MGBG)or a combination of 1.0 mol m^–3 difluoromethylornithine(DFMO) and 1.0 mol m^–3 difluoromethylarginine (DFMA).The addition of 10 mol m^–3 putrescine to the suspensioncontaining DFMO and DFMA prevented the increased chilling sensitivity.Electrolyte leakage studies conducted to assess membrane integrityafter 4 weeks at 4°C and a 2 week regrowth period showedthat cells treated with no polyamines (control), 0.01 mol m^–3spermidine, 1.0 mol m^–3 putrescine, or 1.0 mol m^–3MGBG lost 43, 32, 14, and 100% of the total electrolyte pool,respectively. These results suggest that proline and polyaminesare beneficial for inducing chilling tolerance in FR27rhm suspension. Key words: Proline, polyamine, chilling stress     

Effects of medium-wave ultraviolet radiation on levels and spectrum of polyamines in leaves and roots of wild-growing plants

The work continues serial studies on short-term effects of medium-wave ultraviolet radiation (UV-B) at 12.5 kJ/m² on plants. Special attention is paid to the rapid response of the antioxidant system. Free and conjugated forms of putrescine polyamines (putrescine, spermine, and spermidine), as well as those of cadaverine, are recognized to be constituents of the antioxidant system. These compounds were analyzed in plants 24 h after UV-B irradiation. Thellungiella salsuginea (Pallas) O.E.Schulz, Salvia officinalis L, Plantago major L., and Geum urbanum L. grown in aquatic culture under phytotron conditions were examined. The results support the hypothesis that putrescine plays the chief role in the plant defense response against medium-wave ultraviolet irradiation. Three of four plants manifested an increase in the content of this polyamine in leaves. It is the change that determines the enhanced total level of free polyamines. We failed to reveal a general tendency in dynamics of levels of conjugated forms of spermine, spermidine, and cadaverine; only conjugates of putrescine demonstrated a distinct increase. This study allows a conclusion that contributions of particular polyamines to the protective response primarily depend on the species to which the investigated plant belongs. It is likely that conjugated polyamines can be reserved as a pool necessary for rapid recovery of free polyamine levels.