Levels of endogenous polyamines and NaCl-inhibited growth of rice seedlings

The role of endogenous polyamines in the control of NaCl-inhibited growth of rice seedlings was investigated. Putrescine, spermidine and spermine were all present in shoots and roots of rice seedlings. NaCl treatment did not affect spermine levels in shoots and roots. Spermidine levels in shoots and roots were increased with increasing concentrations of applied NaCl. NaCl at a concentration of 50 mM, which caused only slight growth inhibition, drastically lowered the level of putrescine in shoots and roots. Addition of precursors of putrescine biosynthesis (L-arginine and L-ornithine) resulted in an increase in putrescine levels in NaCl-treated shoots and roots, but did not allow recovery of the growth inhibition of rice seedlings induced by NaCl. Pretreatment of rice seeds with putrescine caused an increase in putrescine level in shoots, but could not alleviate the inhibition effect of NaCl on seedling growth. The current results suggest that endogenous polyamines may not play a significant role in the control of NaCl-inhibited growth of rice seedlings.Abbreviations PUT putrescine - SPD spermidine - SPM spermine     

Ethylene-induced putrescine accumulation modulates K+ partitioning between roots and shoots in barley seedlings

We investigated the cause and effect relationships among ethylene, polyamines, and K⁺ in barley ( Hordeum vulgare L. cv. Amagi) seedlings. Application of 1-aminocyclopropane-1-carboxylic acid (ACC), a precursor of ethylene, to the growth medium caused a decrease in K⁺ concentration in roots and an increase in shoots. Addition of ACC induced putrescine accumulation in roots, while spermidine and spermine levels remained unchanged. Exogenous supply of putrescine led to putrescine accumulation and reduced K⁺ concentration. Application of Co²⁺, an inhibitor of ethylene biosynthesis, together with ACC, inhibited putrescine accumulation with a decrease in K⁺ concentration in roots. ACC-treated roots showed K⁺ uptake capacity equivalent to that of control roots, implying that the majority of K⁺ is translocated to shoots. These results suggest that ethylene regulates K⁺ partitioning between roots and shoots through the level of accumulation of putrescine in barley seedlings.     

Relationship between the Accumulation of Putrescine and the Tolerance to Oxygen-Deficit Stress in Gramineae Seedlings

The accumulation of putrescine under anoxia was studied in seedlingsof 6 Gramineae species showing tolerance to the stress in thefollowing order: rice, barnyard grass>maize>rye, barleyand wheat. The accumulation of putrescine in shoots and rootsduring 6 h of oxygen deprivation was different among the speciesand correlated with their tolerance to anaerobic conditions.In both tissues, rice and barnyard grass accumulated more than0.6 µmol/g fresh weight. The lower increase in the putrescinetiter was observed in wheat tissues with less than 0.1 µmol/gfresh weight. Feeding experiments with [^l4C]arginine showedthat rice tissues have a greater capacity than wheat tissuesto synthesize putrescine under anoxia. The better tolerant speciesto anaerobic conditions showed high arginine decarboxylase activityin shoots and roots than the sensitive species. The presenceof exogenous Put partially increased the survival of wheat rootsafter 7.5 h of oxygen-deficit stress. The role of putrescinein determining differences in the tolerance to anoxia in Gramineaeseedlings is discussed. (Received December 20, 1989; Accepted March 12, 1990)     

Boron deficiency increases putrescine levels in tobacco plants

Polyamine concentrations were determined in leaves and roots of tobacco plants (Nicotiana tabacum L.) subjected to a short-term boron deficiency. A decrease in the growth of shoots and, especially, roots was found under this mineral deficiency. Boron deficiency did not lead to a significant decrease in leaf or root ion concentrations when compared to control treatment; however, as expected, leaf boron concentration was lower in boron-deficient plants in comparison to the control. In leaves, the levels of free putrescine and spermidine were similar in both treatments. In roots, a short-term boron deficiency caused an increase in free putrescine. Moreover, boron-deficient plants had higher conjugated polyamine concentration than boron-sufficient plants, which was especially evident for conjugated putrescine in leaves. A possible link between boron and polyamine levels is proposed and discussed.     

土壤缓慢脱水对开花期小麦根系及叶片渗透调节及渗透调节物质的影响

以抗旱性不同的小麦品种为材料,在小麦的水分临界期开花期进行缓慢脱水处理,分别在脱水的不同阶段取样测定叶片及根系的渗透调节能力及渗透调节物质。结果表明：随着土壤含水量的降低,叶片与根系的饱和渗透势同步下降,表现出叶片与根系对水分胁迫反应的一致性,但根系的渗透调节能力低于叶片。根系与叶片的渗透调节物质,一方面在物质总含量方面,表现出与渗透调节能力的一致性,另一方面各种物质的相对含量又有一定差异,叶片中可溶性糖与K+的含量及增加量都高于根系,而根系中的游离氨基酸与Ca2+的相对增加量则大于叶片。     

土壤缓慢脱水对开花期小麦根系及叶片渗透调节及渗透调节物质的影响

以抗旱性不同的小麦品种为材料,在小麦的水分临界期开花期进行缓慢脱水处理,分别在脱水的不同阶段取样测定叶片及根系的渗透调节能力及渗透调节物质。结果表明：随着土壤含水量的降低,叶片与根系的饱和渗透势同步下降,表现出叶片与根系对水分胁迫反应的一到场生,但根系的渗透调节能力低于叶片。根系与叶片的渗透调节物质,一方面在物质总含量方面,表现出与渗透调节能力的一致性,另一方面各种物质的相对含量又有一定差异,叶片中可溶性糖与K＋含量及增加量都高于根系,而根系中的游离氨基酸与Ca^2 的相对增加量则大于叶片。     

Polyamine oxidase activity and polyamine content in maize during seed germination

Polyamine oxidase (PAO, EC 1.5.3.3) activity and polyamine content in the cell wall and soluble fractions obtained from embryos, endosperms and shoots and roots of etiolated or green seedlings of maize ( Zea mays L. cv. WF9) during the first 7 days of germination were investigated. Polyamine content was also determined in the trichloroacetic acid-soluble (free polyamines) and trichloroacetic acid insoluble (bound polyamines) fraction obtained from the same tissues. PAO activity, determined by the radiometric method based on the recovery of the labelled reaction product 1-pyrroline, was mostly localized in the cell wall fraction. The activity was very low in embryos and endosperms and present in traces in roots. In etiolated shoots PAO activity increased sharply, while in green shoots it was low and increased slowly. No polyamines were found in the cell wall fraction and only putrescine was detected in the soluble fraction, with the exception of the embryo, where spermidine and spermine were also present. In the TCA-soluble fraction of embryos, putrescine increased during imbibition, while spermidine and spermine decreased; in the endosperm no relevant changes in polyamines occurred. In the same fraction of green and etiolated seedlings, putrescine increased, giving a peak at days 3–5, while spermidine decreased to very low levels. The amount of bound polyamines was 1–4% of the free ones. The pattern of PAO activity seems to be unrelated to endogenous free polyamine content, which is the same in shoots and roots of etiolated and green seedlings. Enzyme activity, very low in ungerminated seeds, increased continuously during the progression of germination, especially in etiolated shoots, indicating a possible involvement in cell wall formation.     

Suillus variegatus causes significant changes in the content of individual polyamines and flavonoids in Scots pine seedlings during mycorrhiza formation in vitro

Changes in the concentrations of individual flavonoids and polyamines (PAs) in Scots pine (Pinus sylvestris L.) cotyledonary seedlings were studied during the establishment of an ectomycorrhizal (ECM) symbiosis with two Suillus variegatus strains in vitro. Both flavonoids and PAs were analysed after 3, 7, and 14 d in dual culture, and changes in concentrations were compared with growth of the seedlings. Both S. variegatus strains caused similar responses in Scots pine seedlings. Free putrescine accumulated immediately but only transiently after inoculation. This was followed by continuous accumulation of PA conjugates in needles and stems, and free spermidine and spermine in roots, which was accompanied by mycorrhiza formation and improved growth. The fungi induced lateral root formation and main root and primary needle elongation. Inoculation caused no qualitative changes in flavonoid composition, while quantitative changes in flavonols, catechins, and condensed tannins were observed in shoots during mycorrhiza formation. These results indicate that in this in vitro system conjugated PAs and specific flavonoids, generally related to the plant's defence reactions, did not play a major role in the regulation of the establishment of the ectomycorrhizal (ECM) symbiosis in Scots pine roots. The results also clearly show that positive growth responses in shoots and roots due to S. variegatus were supported by different and highly specific changes in the synthesis of both primary and secondary metabolites in these parts of the seedling.     

Effect of putrescine on the conversion of protocorm-like bodies of <Emphasis Type="Italic">Dendrobium officinale</Emphasis> to shoots

The addition of 1.5 mM putrescine to the culture medium facilitated the conversion of protocorm-like bodies (PLBs) of Dendrobium officinale to shoots. The administration of 1.0 mM of the polyamine inhibitor, α-DL-difluoromethylarginine, decreased the conversion of PLBs to shoots. Compared to the control, the PLBs treated with 1.5 mM putrescine had higher levels of total intracellular free polyamines. The enhanced conversion of PLBs to shoots following the addition of putrescine was accompanied by an increase in the ratio of total cytokinins (CTKs) to indole-3-acetic acid (IAA). Analysis of enzyme activities indicated that the increased endogenous level of total CTKs driven by putrescine was associated with the inhibition of CTK decomposition by CTK oxidase, while the decreased endogenous level of IAA was associated with the promotion of IAA decomposition by IAA oxidase. In addition, putrescine increased the ratio of reduced glutathione to oxidized glutathione in the conversion process of PLBs to shoots.     

Amine levels in Lathyrus sativus seedlings during development

In growing Lathyrus sativus seedlings, the levels of DNA, RNA and protein markedly decreased in the cotyledons and progressively increased in the embryo-axis. In cotyledons, spermidine and spermine contents were substantially reduced while those of agmatine and putrescine were sharply increased. By contrast the embryo-axis progressively accumulated relatively larger amounts of agmatine, homoagmatine. putrescine, cadaverine, spermidine and spermine in parallel with similar changes in its DNA, RNA and protein content. While the cotyledons contained ca 50% of the total agmatine and putrescine present in the plant embryo by day 10, the embryo-axis, though representing less than 20% of the dry wt, contained 90 and 75% of total cadaverine and homoagmatine respectively of the seedlings. Spermidine and spermine levels of this tissue were also comparatively higher, being of the order of 80 and 50% respectively of the total. The root and shoot portions of the embryo-axis also exhibited a similar relationship between changes in DNA, RNA and protein and all the above amines during development. However, the polyamine content of the shoots was relatively higher than those of the roots during the growth period.     

Effect of repeated severe pruning on endogenous polyamine content in hazelnut trees

Endogenous polyamine content was determined in leaves and buds of adult and repeatedly severe pruned hazelnut trees ( Corvlus avellana L.). Polyamine content in leaves from shoots obtained by forced outgrowth of branches taken from adult and pruned trees was also determined. Variations of polyamine levels in relation to pruning treatments were observed in all the analysed, tissues. Free polyamines increased in response to pruning treatments, mostly due to an increase in free putrescine. Free spermidine and spermine seemed to decrease with pruning intensity, whereas bound polyamines did not seem to correlate with treatments. Significantly, in all the analysed tissues the putrescine to spermidine plus spermine ratio increased in the free polyamine fraction. The results indicate that polyamine metabolism could play a role as a physiological marker for juvenility and rejuvenation in relation to cloning of woody plants. The possible role of polyamines in mediating and/or regulating phase change and reinvigoration is discussed.     

Symplastic and apoplastic uptake and root to shoot translocation of nickel in wheat as affected by exogenous amino acids

This study investigated the effect of exogenous amino acids on apoplastic and symplastic uptake and root to shoot translocation of nickel (Ni) in two wheat cultivars. Seedlings of a bread (Triticum aestivum cv. Back Cross) and a durum wheat cultivar (T. durum cv. Durum) were grown in a modified Johnson nutrient solution and exposed to two levels (50 and 100 μM) of histidine, glycine, and glutamine. Application of amino acids resulted in increasing symplastic to apoplastic Ni ratio in roots of both wheat cultivars, although glutamine and glycine were more effective than histidine under our experimental conditions. The amino acid used in the present study generally increased the relative transport of Ni from the roots to shoots in both wheat cultivars. Higher amounts of Ni were translocated to wheat shoots in the presence of histidine than the other amino acids studied, which indicated that histidine was more effective in translocation of Ni from roots to shoots. Amino acids used in the present study largely increased root symplastic Ni, but shoot Ni accumulation was much lower than the total Ni accumulation in roots, indicating a large proportion of Ni was retained or immobilized in wheat roots (either in the apoplastic or symplastic space), with only a very small fraction of Ni being translocated from the root to the shoot. According to the results, glutamine and glycine were more effective than histidine in enhancing the symplastic to apoplastic Ni ratio in the roots, while more Ni was translocated from the roots to the shoots in the presence of histidine.     

Nitrate supply induces changes in polyamine content and ethylene production in wheat plants grown with ammonium

In order to explore the mechanisms of nitrate's beneficial effect on ammonium-grown plants, we investigated the effects of nitrate on free and conjugated polyamine plant content and ethylene biosynthesis in wheat (Triticum aestivum L.) plants grown with ammonium nutrition. Two different doses of nitrate (100 microM and 5 mM) were supplied to ammonium-fed plants, in order to determine whether the effects of nitrate require significant doses (nutritional character), or can be promoted by very low doses (pseudo-hormonal character). Our results showed that nitrate's effects on putrescine, spermidine and spermine contents of ammonium-grown plants tended to follow the pattern associated with strict nitrate nutrition. Both low (100 microM) and high (5 mM) nitrate doses caused a rapid and significant increase in free spermidine content in roots and shoots, which was well correlated with reduced root ethylene production. In shoots, this increase in free spermidine was correlated with changes in the conjugation pattern, while in roots these changes appear to be due to alternative mechanisms. On the other hand, no clear relationship between the supply of a lower dose of nitrate (100 microM) and a reduction of free putrescine content was observed. With higher doses of nitrate (5 mM) we observed a reduction of free putrescine content that was well correlated with increases in its conjugated forms. In conclusion, nitrate's effects on putrescine, spermidine and spermine contents of ammonium-fed plants tended to follow the pattern associated with strict nitrate nutrition, corroborating its beneficial effect.     

Fluctuation in free and conjugated polyamines in Scots pine seedlings after changes in temperature and daylength

Free, soluble and insoluble conjugated polyamines from the needles, roots and stem of five month old Scots pine (Pinus sylvestris L.) seedlings inoculated with Suillus variegatus (Fr.) O. Kuntze and seedlings without inoculation were analysed during decrease in daylength and temperature. Temporary changes in free, soluble and insoluble conjugated polyamine pools caused by a decrease in daylength or temperature were observed. Inoculation of pine seedlings affected significantly the polyamine levels of five month old pine seedlings. The roots of inoculated seedlings contained significantly higher levels of free and soluble conjugated purtrescine and free, soluble conjugated and insoluble conjugated spermidine than the roots of noninoculated seedlings. The needles of inoculated seedlings contained significatly higher concentrations of free putrescine and soluble conjugated spermidine but lower amount of free spermine than the needles of noninoculated seedlings. The stems of inoculated seedlings contained higher concentrations of free putrescine but lower amounts of insoluble conjugated spermine. Changes in polyamine levels in noninoculated seedlings were observed after shortening of the daylength, whereas in inoculated ones changes were induced mainly by the decrease in temperature. The possible role of polyamines in the initial stage of cold hardening process is discussed.     

Analysis of polyamine metabolism in soybean seedlings using 15N-labelled putrescine

The translocation and metabolism of polyamines during soybean germination were studied using 15N-labelled putrescine as a precursor. Both 15N-labelled and unlabelled polyamines were simultaneously detected using a novel application of ionspray ionization-mass spectrometry. 15N-putrescine was rapidly transported to the shoots and roots, where it was converted to spermidine and spermine. The main 15N-polyamine that accumulated in the root was 15N-spermine. It was found that there were differences in the way endogenous putrescine and exogenous 15N-putrescine were metabolized in soybean seedlings.     

Polyamines, hydroxycinnamoylputrescines, and root formation in leaf explants of tobacco cultivated in vitro: effects of the suicide inhibitors of putrescine synthesis

In vitro formation of roots is obtained directly, without intermediate growth of callus, from foliar explants of a tobacco (Nicotiana tabacum) plant cultured on Murashige and Skoog medium containing IAA. Auxin-induced root formation was accompanied by significant changes in hydroxycinnamoylputrescine levels. Increasing levels were found in leaf explants during the first 14 days in culture; this was followed by a sharp decline after 20 days. Early changes in putrescine conjugates were detected in leaf explants before the visible appearance of roots. An early and transitory accumulation of hydroxycinnamoylputrescines was observed in the roots. Free polyamines (putrescine, spermidine, and spermine) in leaf explants and roots were always at a low level and only small changes in their concentrations were observed, α-dl-difluoromethylarginine and α-dl-difluoromethylornithine, specific, irreversible inhibitors of arginine decarboxylase and ornithine decarboxylase, respectively, inhibited putrescine accumulation and root initiation and reduced the fresh and dry weights of leaf explants. These effects were reversed by free putrescine or hydroxycinnamoylputrescines. The results reported here suggest that hydroxycinnamoylputrescines are associated with root formation. The relationship among free polyamines, hydroxycinnamoylputrescines, cell division, and root formation is discussed.     

Modified hormonal balance in rooting-recalcitrant rac mutant tobacco shoots

ABSTRACT

The rooting-recalcitrant rac tobacco mutant has been multiplied in vitro via outgrowth of axillary buds in parallel to the D8 wild-type. The mutant shoots grew at a lower rate and did not root whatever the treatments, whereas the wild-type shoots rooted spontaneously during the culture cycle without auxin treatment. The mutant and wild-type shoots showed similar peroxidase variations along the culture cycle (21 days) but with higher levels of activity for the rac mutant: minimum peroxidase activity occurred at day 14 in whole shoots of both tobacco genotypes, but already at day 7 in the basal parts of the stems (where roots appear) of the wild-type tobacco, while it was delayed in the mutant. Free and conjugated auxin and polyamine levels were also determined in whole shoots and basal parts of the stems. The rac mutant was characterised by higher auxin and polyamine contents. A peak of auxins and polyamines appeared at day 14 in the whole shoots whatever the tobacco genotype. This peak was delayed in the basal parts of the rac stems compared to the wild-type ones. The mutant shoots contained higher levels of benzyladenine and isopentenyladenosine at the end of the culture cycle, whereas zeatin riboside was more abundant in wild-type shoots. In response to increasing concentrations of indole-3-butyric acid (IBA) and 1-naphthaleneacetic acid (NAA), only the wild-type shoots responded by an increase in growth rate followed by inhibition at high concentrations. The rac shoot responses were very low or nonexistent. Peroxidase activity was also measured in the basal parts of tobacco stems grown in the presence of IBA. Results suggest growth inhibition related to auxin accumulation, possibly combined with elevated putrescine content. Second, rooting induction seems to take place in both tobacco genotypes; however, the process of root formation is blocked in the mutant. The lack of initiation and expression phases of rooting in relation to auxin content in the mutant is discussed.     

Influence of Polyamines on Growth of Hairy Root Cultures of Witloof Chicory (Cichorium intybus L. cv. Lucknow Local) and Formation of Coumarins

The effect of polyamines (putrescine, spermidine, and spermine) was examined for growth and production of two coumarins, esculetin and esculin, in the hairy roots of chicory (Cichorium intybus L. cv. Lucknow local). Of the polyamines administered, 1.5 mm putrescine alone resulted in a 2.3-fold higher increase in the growth of hairy roots as well as in the production of esculetin and esculin, which was 3.37 times more than that of the control on day 21. The endogenous level of conjugated putrescine was more than fivefold that of free putrescine levels in untreated samples. The production of esculetin and esculin in hairy root cultures strictly correlated with growth in all of the treatments. Putrescine at 1.5 mm resulted in a greater length of primary root (18.29 ± 1.37 cm) compared with the control (10.96 ± 0.82 cm) and more secondary and tertiary roots. This study also provides insight into the morphogenetic changes that occur in roots in response to the external supply of polyamines. Received July 20, 1998; accepted January 19, 1999     

Putrescine modulates antioxidant defense response in wheat under high temperature stress

Effects of putrescine (Put) on responses of wheat (Triticum aestivum) seedlings or detached tillers at mid-milky stage to high temperature (HT) stress were investigated. The heat tolerant cv. PBW 343 exhibited higher content of antioxidants and activities of antioxidative enzymes, while lower content of lipid peroxides as compared to the heat-sensitive cv. HD 2329. HT elevated peroxidase (POX) and superoxide dismutase (SOD) activities, while diamine oxidase (DAO) and polyamine oxidase (PAO) activities were reduced in roots, shoots and developing grains. Application of Put under HT further enhanced POX and SOD activities along with increased content of ascorbate and tocophereol in grains. Invariably POX and SOD revealed higher activities in roots while CAT, DAO and PAO activities were higher in shoots. The content of lipid peroxides was increased in roots and shoots of HT stressed seedlings but less in Put-treated cv. PBW 343.     

The effect of wheat seed presowing treatment with salicylic acid on its endogenous content,activities of respiratory pathways,and plant antioxidant status

We studied the effects of wheat (Triticum aestivum L.) seed presowing treatment with 0.05 mM salicylic acid (SA) on its endogenous content and the ratio of free to bound forms in seedling shoots and roots. During two-week-long seedling growth, we observed a gradual decrease in the total SA content in shoots but not in roots. In shoots, the content of conjugated SA increased and that of its free form reduced. Seed presowing treatment with SA reduced total content of endogenous SA in both seedling shoots and roots. The content of free SA reduced intensely in shoots and somewhat less in roots. Such reduction was supposed to occur due to the disturbance in SA biosynthesis. These were accompanied by the increases in the shoot and especially root biomass and length, stimulation of total dark respiration, and changes in the ratio between respiratory pathways. In the roots, we observed an increased proportion of cytochrome respiration, whereas in the shoots — alternative cyan-resistant respiration. We also observed changes in the plant antioxidant system. A degree of lipid peroxidation was stronger in shoots than in roots. Pretreatment with SA resulted in MDA 2.5-fold accumulation in shoots, whereas its content in roots reduced by 1.7 times. We concluded that the type and intensity of SA effects on plant growth, energetic balance, and antioxidant status were related to changes in its endogenous content and redistribution between free and conjugated forms.