The effects of spermidine synthesis inhibitors on in-vitro plant development

The spermidine synthesis inhibitors methylglyoxal bis-(guanylhydrazone) (MGBG) and dicyclohexylammonium sulfate (DCHA) were found to reduce growth and embryogenesis in wild carrot cultures. Cellular polyamine levels were also affected by the inhibitors, with spermidine levels being especially reduced by DCHA. Similarly, MGBG reduced organogenetic development of shoots on excised aspen hypocotyls. These data suggest that the polyamines, especially spermidine, play an important role in the growth and development of plants.     

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     

The effect of polyamines on ethylene synthesis during normal and pollination-induced senescence of Petunia hybrida L. flowers

Senescence of Petunia hybrida L. flowers is accompanied by a climacteric pattern in ethylene production and a rapid decline in the levels of putrescine and spermidine during the preclimacteric phase. The decrease in spermidine is caused by the decline in the availability of putrescine which is initially synthesized from L-arginine via agmatine and N-carbamoylputrescine. Inhibition of putrescine and polyamine synthesis resulted in a rapid drop in the levels of putrescine and spermidine without resulting in a concomitant increase in ethylene production. These results indicate that polyamine synthesis is not involved in the control of ethylene synthesis through its effect on the availability of S-adenosylmethionine, and is confirmed by the results obtained with pollinated flowers. Treatment with polyamines may stimulate or suppress ethylene production in the corolla, depending on the concentrations applied. In unpollinated flowers the onset of the climacteric rise in ethylene production was accelerated after treatment with polyamines. However, in pollinated flowers this process was delayed as a result of treatment with low concentrations of polyamines. The effects of exogenous polyamines on ethylene production in both pollinated and unpollinated flowers indicate that ethylene synthesis in these flowers is not regulated by a feedback control mechanism. Although polyamines do not play a key role in the control of ethylene production during the early stages of senescence through their effect on the availability of S-adenosylmethionine, it appears that they play an important role in some of the other processes involved in senescence.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - MGBG methylglyoxal bis-(guanylhydrazone) - SAM S-adenosylmethionine     

The putrescine analogue 1-aminooxy-3-aminopropane perturbs polyamine metabolism in the phytopathogenic fungus<Emphasis Type="Italic"> Sclerotinia sclerotiorum</Emphasis>

The effects of the putrescine analogue 1-aminooxy-3-aminopropane on fungal polyamine metabolism were evaluated using Sclerotinia sclerotiorum as an experimental model. The compound inhibited ornithine decarboxylase, spermidine synthase, and S -adenosyl-methionine decarboxylase in mycelial extracts. Addition of 1-aminooxy-3-aminopropane at 1 mM to the culture medium did not reduce mycelial growth and caused a 29% decrease in free spermidine and a two-fold increase in free spermine. When added 4.5 h before the determination of ornithine decarboxylase, 1-aminooxy-3-aminopropane reduced in vivo activity of this enzyme by 40–50%. When added 48 h before the determination, 1-aminooxy-3-aminopropane at 0.01 and 0.1 mM caused a slight increase of in vivo ornithine decarboxylase activity, while it had no effect at 1 mM. Comparison of the action of 1-aminooxy-3-aminopropane with that of other inhibitors of polyamine biosynthesis suggested that its effects on in vivo ornithine decarboxylase activity resulted from a balance between direct inhibition of enzyme activity and indirect stimulation of enzyme synthesis and/or activity mediated by the decrease in spermidine levels, which in turn was due to inhibition of spermidine synthase and S -adenosyl-methionine decarboxylase. The potential of 1-aminooxy-3-aminopropane as a tool for studies on fungal polyamine metabolism and for the control of plant diseases of fungal origin is discussed.Abbreviations AdoMetDC S-Adenosyl-methionine decarboxylase - DFMO -Difluoromethylornithine - MGBG Methylglyoxal bis-[guanyl hydrazone] - ODC Ornithine decarboxylase     

A possible involvement of polyamines in the initiation of DNA synthesis by human WI-38 and mouse BALB/3T3 cells

Changing the medium, or adding fresh serum, induces a large proportion of the proliferatively quiescent cells in confluent monolayers of human WI-38 and mouse BALB/3T3 cells to initiate a growth-division cycle. Exposure at the time of the medium change or serum addition to MGBG (methyl glyoxal bis [guanylhydrazone]), an inhibitor of spermidine and spermine synthesis and function, reduces or stops the subsequent flow of cells into the DNA-synthetic phase, without grossly affecting RNA synthesis. Mediation of MGBG action by an actual or functional shortage of spermidine or spermine (but not putrescine), and consequently an involvement of these polyamines in DNA synthesis, is strongly suggested by the reduction of the inhibitor's effectiveness by a brief (1-hour), early prereplicative exposure of the treated cells to exogenous spermidine and spermine (but not putrescine).     

Spermidine and methylglyoxal bis(guanylhydrazone) affect maturation and endogenous polyamine content of Scots pine embryogenic cultures

Exogenous spermidine (Spd) and methylglyoxal bis(guanylhydrazone) (MGBG), a putative inhibitor of Spd synthesis, improved somatic embryo formation of Scots pine (Pinus sylvestris L.). The induced maturation due to MGBG and Spd was accompanied by significantly retarded proliferation growth and by reduction in the concentration of free polyamines compared to the control cultures. The action of MGBG revealed that it has a non-specific effect on the whole polyamine metabolism of Scots pine. Furthermore, at certain concentrations it may induce plant differentiation as well.     

The effect of polyamine biosynthesis inhibition on growth and differentiation of the phytopathogenic fungus Sclerotinia sclerotiorum

We studied the effects of several polyamine biosynthesis inhibitors on growth, differentiation, free polyamine levels and in vivo and in vitro activity of polyamine biosynthesis enzymes in Sclerotinia sclerotiorum. -Difluoromethylornithine (DFMO) and -difluoromethylarginine (DFMA) were potent inhibitors of mycelial growth. The effect of DFMO was due to inhibition of ornithine decarboxylase (ODC). No evidence for the existence of an arginine decarboxylase (ADC) pathway was found. The effect of DFMA was partly due to inhibition of ODC, presumably after its conversion into DFMO by mycelial arginase, as suggested by the high activity of this enzyme detected both in intact mycelium and mycelial extracts. In addition, toxic effects of DFMA on cellular processes other than polyamine metabolism might have occurred. Cyclohexylamine (CHA) slightly inhibited mycelial growth and caused an important decrease of free spermidine associated with a drastic increase of free putrescine concentration. Methylglyoxal bis-[guanyl hydrazone] (MGBG) had no effect on mycelial growth. Excepting MGBG, all the inhibitors strongly decreased sclerotial formation. Results demonstrate that sclerotial development is much more sensitive to polyamine biosynthesis inhibition than mycelial growth. Our results suggest that mycelial growth can be supported either by spermidine or putrescine, while spermidine (or the putrescine/spermidine ratio) is important for sclerotial formation to occur. Ascospore germination was completely insensitive to the inhibitors.     

Glucocorticoid and polyamine involvement in zinc uptake by COMMA-1D mammary epithelial cells

The objective was to determine if a mammary cell line shows glucocorticoid stimulation of Zn uptake, and to determine whether polyamines mediate this stimulation.⁶⁵Zn uptake by COMMA-1D mouse mammary epithelial cells over a 24-h period increased significantly in cells administered 10⁻⁷ or 10⁻⁶ M hydrocortisone. Incorporation of⁶⁵Zn over a 1-h period was not hydrocortisone-responsive, suggesting that these incubation times represent uptake into different pools. The rate of entry into the cells over a 15-min period was significantly increased by supplementing cells with hydrocortisone with or without prolactin. Initially, cells grown in lactogenic hormone-supplemented media (10⁻⁶ M hydrocortisone+5μg/mL ovine prolactin) had up to 65% greater⁶⁵Zn uptake over 24 h than cells in nonsupplemented growth media.⁶⁵Zn uptake from hormone media with the spermidine synthesis inhibitor methylglyoxal-bis-(guanylhydrazone) (MGBC, 10⁻⁵ M) added was less than from growth media. Exogenous spermidine (10⁻⁶-10⁻³ M) added to the MGBG+hormone media increased⁶⁵Zn uptake. Difluoromethylornithine (DFMO), an inhibitor of spermidine synthesis that blocks ornithine decarboxylase, caused a slight dose-dependent decrease in⁶⁵Zn uptake over the range 10⁻⁶-5×10⁻³ M(p<0.002) and tended to decrease⁶⁵Zn-uptake in lactogenic hormone-stimulated cells with 8 h of incubation, but not at other times. These data show that Zn uptake in mammary epithelial cells can be hormonally mediated by glucocorticoids and suggest that polyamines may be intracellular mediators of this effect.     

Effect of octanoic acid on ethylene-mediated processes in Arabidopsis

We have examined whether octanoic acid (OA) one of the short chain saturated fatty acids (SCSFA), increases ethylene response in the following three ethylene-mediated processes: a) hypocotyl growth in darkness; b) formation of new flowers; c) flower abscission. These processes were examined in the presence or absence of exogenous ethylene in Arabidopsis wild type (WT) and in the ethylene-insensitive mutants, etr1-3 and ein2-1 and in the ethylene over-producer mutant eto1-1. Our results show that OA decreased hypocotyl length of WT in the absence or presence of exogenous ethylene, apparently showing that OA acts via augmentation of ethylene action. However, the hypocotyl growth inhibition could not be ascribed to increased ethylene sensitivity since application of inhibitors of ethylene synthesis (aminoethoxyvinylglycine; AVG) or action (1-methylcyclopropene;1-MCP) to WT seedlings did not prevent specifically the OA-induced growth inhibition. Also, OA inhibited hypocotyl growth in the mutants etr1-3 and ein2-1 in a similar pattern to that obtained in WT. On the other hand, OA had no effect on flower formation neither in WT, etr1-3 and eto1-1, in which ethylene reduced flower formation, nor in the ein2-1 mutant, in which ethylene had no effect. OA also did not increase flower abscission in WT or in the mutants etr1-3 and ein2-1 neither in the absence nor in the presence of ethylene. However, OA has augmented flower abscission in the mutant eto1-1 only in the absence of exogenous ethylene. This result might indicate that the effect of OA on eto1-1 is specific to this mutant and is not due to general deleterious effects inflicted by OA. Taken together, our results show that in general OA does not augment ethylene response in Arabidopsis, but it might affect ethylene action in flower abscission of the ethylene-overproducer mutant.     

Inhibitory effect of methyl jasmonate on development of phytopathogen <Emphasis Type="Italic">Alternaria alternata</Emphasis> (Fr.) Keissl. and its reversal by ethephon and ACC

Methyl jasmonate (MeJA) was found to reduce spore germination, hyphal and mycelial growth in Alternaria alternata (Fr.) Keissl. The addition of ethephon or 1-aminocyclopropane-1-carboxylic acid (ACC), ethylene precursor, together with MeJA to the culture medium resulted in a promotion of all developmental stages of the fungus; these compounds partially or completely reversed the inhibition due to MeJA depending on the concentrations applied. MeJA alone had no effect on ethylene production by mycelium, but after 6 days of incubation in the presence of ACC, emanation of this gas increased significantly. Ethylene is involved in reversing the inhibition of A. alternata due to MeJA.     

Polyamines in growth and dimorphism ofParacoccidioides brasiliensis

Putrescine and spermidine were the only polyamines found inParacoccidioides brasiliensis, a dimorphic fungus pathogenic for humans. Free polyamines (putrescine>spermidine) increased during the first 24 h of yeast growth, with a second peak at 42 h, and also during the first 12 h of mycelium-to-yeast transition (spermidine>putrescine). Conjugated and bound polyamines were also quantified. 1,4-Diamino-2-butanone decreased free putrescine and spermidine accumulation by inhibiting the activity of ornithine decarboxylase. The increase in free polyamines corresponds to bud emergence in yeast growth and to the mycelium-to-yeast transition ofP. brasiliensis.Abbreviations DAB 1,4-Diamino-2-butanone - Y Yeasts - M Mycelia - ODC Ornithine decarboxylase     

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     

The effects of abscisic acid and methyl jasmonate on 1-aminocyclopropane 1-carboxylic acid conversion to ethylene in hypocotyl segments of sunflower seedlings,and their control by calcium and calmodulin

The conversion of 1-aminocyclopropane 1-carboxylic acid (ACC) to ethylene by hypocotyl segments of sunflower (Helianthus annuus L.) seedlings was inhibited by abscisic acid (ABA) and methyl jasmonate (Me-Ja), and this inhibitory effect increased with increasing concentration of both growth regulators. On the contrary, CaCl, enhanced ACC conversion to ethylene at the concentrations of 10^-4 M and 5 x 10^-4 M, however lower and higher concentrations had no significant action. CaCl, (5 x 10^-4M) seemed to magnify the inhibition of the reaction induced by ABA, whereas it reduced (5 x 10^-4M) and even abolished (10^-3M) the inhibitory action of Me-Ja. The results obtained with a Ca²⁺ chelator (EGTA), a Ca²⁺ channel blocker (nifedipine) and calmodulin antagonists (W7 and TFP), given in association with ABA or Me-Ja, suggested that calcium was involved in the inhibition of ACC conversion to ethylene by ABA and Me-Ja through an interaction with calmodulin. However, the mechanism of action of the two growth regulators seemed to be different, since all treatments which resulted in a decrease in cytosolic Ca²⁺ concentration or in calmodulin action induced a decrease in the effect of ABA and an increase in the effect of Me-Ja.Abbreviations ABA abscisic acid - ACC 1-aminocyclopropane 1-carboxylic acid - EFE ethylene for enzyme - EGTA ethylene glycol-bis-2-aminoethyl tetraacetic acid - Me-Ja methyl jasmonate - NIF nifedipine - TFP trifluoperazine dihydrochloride - W7 N-(6-aminohexyl)5-chloro-l-naphthalenesulfonamide hydrochloride     

A<Emphasis Type="Italic"> Zea mays</Emphasis> 39-kDa thylakoid transglutaminase catalyses the modification by polyamines of light-harvesting complex II in a light-dependent way

A transglutaminase (TGase; EC 2.3.2.13) activity, which shared many properties with the TGase activity of the Helianthus tuberosus chloroplast, was observed in the Zea mays L. chloroplast and in its fractions. This activity was found to be prevalent in thylakoids; bis-(glutamyl) spermidine and bis-(glutamyl) putrescine were the main polyamine conjugates formed. Light stimulated the endogenous thylakoid activity. Putrescine, spermidine and spermine were conjugated to the isolated light-harvesting complex of photosystem II (LHCII) with different degrees of efficiency, spermine being the polyamine most efficiently conjugated. A TGase with a light-sensitive activity was identified in the photosystem II-enriched fraction. Its partial purification on a sucrose gradient allowed the separation of a 39-kDa band, which was immunorecognised by two anti-TGase antibodies (Ab-3 and rat prostatic gland-TGase). Both a colorimetric and a radiometric assay for TGase activity, the former carried out in the presence of biotinylated cadaverine and the latter in the presence of polyamines labelled with radioactive isotopes and resulting in the isolation of glutamyl-polyamines, further confirmed that the thylakoid enzyme is indeed a calcium-dependent transglutaminase (Thyl-TGase). At variance with guinea pig liver and erythrocyte TGases, which are insensitive to light, the activity of the thylakoid transglutaminase is affected by light. Moreover, this enzyme, when tested with purified LHCII as substrate, catalysed the production of mono- and bis-glutamyl-polyamines in equal amounts, whereas the animal enzymes produced mainly mono-derivatives. Herein, it is discussed whether this light sensitivity is due to the enzyme or the substrate.Abbreviations bis-PU Bis-(-glutamyl) putrescine - bis-SD Bis-(-glutamyl) spermidine - bis-SM Bis-(-glutamyl) spermine - Er-TGase Erythrocyte transglutaminase - Gpl-TGase Guinea pig liver transglutaminase - LHCII Light-harvesting complex II - mono-PU Mono-(-glutamyl) putrescine - mono-SD Mono-(-glutamyl) spermidine - mono-SM Mono-(-glutamyl) spermine - PA Polyamine - PU Putrescine - SD Spermidine - SM Spermine - Rpg-TGase Rat prostatic gland transglutaminase - Thyl-TGase Thylakoid transglutaminase     

Molecular and morphological description of a new species of Ulocladium from Southern China

A new species of Ulocladium was discovered from diseased leaves of Lycopersicon esculentum and Duchesnea indica from Hunan Province of China. Morphologically, this species is very close to U. consortiale, U. cucurbitae, and U. subcucurbitae in producing narrow ellipsoid conidia at 1–3 days, but the conidial size range of this species at this stage could distinguish it from three well-known species. It also exhibits the multiplex conidium morphology at the different growth-stages (1–3 days and 4–7 days). The results of maximum parsimony (MP) and neighbor-joining (NJ) phylogenetic analyses of combined glyceraldehyde-3-phosphate dehydrogenase (gpd) gene and Alternaria alternata major allergen (Alt a 1) genes show that U. solani and U. subcucurbitae cluster in a unique and separate subclade with no clear affinities to a specific sistergroup, and demonstrate that the Ulocladium species group is monphyletic, but two clades of this section are recognized. Morphological features of this new species, the sequences of the Alt a 1 and gpd gene regions, and its comparison with related species in this genus are discussed.     

The promoter of the pepper pathogen-induced membrane protein gene <Emphasis Type="Italic">CaPIMP1</Emphasis> mediates environmental stress responses in plants

The promoter of the pepper pathogen-induced membrane protein gene CaPIMP1 was analyzed by an Agrobacterium-mediated transient expression assay in tobacco leaves. Several stress-related cis-acting elements (GT-1, W-box and ABRE) are located within the CaPIMP1 promoter. In tobacco leaf tissues transiently transformed with a CaPIMP1 promoter-β-glucuronidase (GUS) gene fusion, serially 5′-deleted CaPIMP1 promoters were differentially activated by Pseudomonas syringae pv. tabaci, ethylene, methyl jasmonate, abscisic acid, and nitric oxide. The −1,193 bp region of the CaPIMP1 gene promoter sequence exhibited full promoter activity. The −417- and −593 bp promoter regions were sufficient for GUS gene activation by ethylene and methyl jasmonate treatments, respectively. However, CaPIMP1 promoter sequences longer than −793 bp were required for promoter activation by abscisic acid and sodium nitroprusside treatments. CaPIMP1 expression was activated in pepper leaves by treatment with ethylene, methyl jasmonate, abscisic acid, β-amino-n-butyric acid, NaCl, mechanical wounding, and low temperature, but not with salicylic acid. Overexpression of CaPIMP1 in Arabidopsis conferred hypersensitivity to mannitol, NaCl, and ABA during seed germination but not during seedling development. In contrast, transgenic plants overexpressing CaPIMP1 exhibited enhanced tolerance to oxidative stress induced by methyl viologen during germination and early seedling stages. These results suggest that CaPIMP1 expression may alter responsiveness to environmental stress, as well as to pathogen infection. The nucleotide sequence data reported here has been deposited in the GenBank database under the accession number DQ356279.     

Antibacterial Activities of Novel Diselenide-bridged <Emphasis Type="Italic">bis</Emphasis>(Porphyrin)s on <Emphasis Type="Italic">Staphylococcus aureus</Emphasis> Investigated by Microcalorimetry

The actions of two novel diselenide-bridged bis(porphyrin)s (1 and 2) on Staphylococcus aureus growth was investigated by microcalorimetry at 37.00°C, compared with that of Na₂SeO₃. Differences in their capacities to inhibit the growth metabolism of S. aureus were observed. By analyzing the power–time curves, crucial parameters such as the rate constant of bacterial growth (k), inhibitory rate (I), and generation time (t _G) were determined. The growth rate constant (k) of S. aureus (in the log phase) in the presence of the drugs decreased with increasing concentrations of the drugs regularly. The relationship of k and c is nearly linear for diselenide-bridged bis(porphyrin) 2. The sequence of the antibacterial activities of these selenium compounds tested was 2 > 1 > Na₂SeO₃.     

Modulation of Arabidopsis CYCB1 expression patterns by polyamines and salt stress

Polyamines are new plant growth regulators that participate in various physiological processes modulating cell division and differentiation, stimulating secondary metabolite production and in stress responsiveness. In the present study, we evaluated the effect of polyamine application on CYCB1-GUS reporter line in Arabidopsis, in order to monitor changes in cell division. We observed that polyamines modulate the expression of CYCB1-GUS, most likely in an amine-specific manner. In particular, spermidine and spermine induced significant increases in CYCB1-GUS expression in shoot apex and root meristems. According of this view, mainly the higher polyamines stimulate the lateral root formation in Arabidopsis. Furthermore, the application of d-arginine and methylglyoxal bis-(guanylhydrazone) polyamine inhibitors drastically reduced Arabidopsis CYCB1-GUS root growth and plant fresh weight, as well as CYCB1-GUS expression. Another key point on this study was to analyze the effect of polyamines on CYCB1-GUS expression under salt stress. Salt stress treatments repressed CYCB1-GUS expression in a concentration dependent manner; this negative effect was ameliorated by polyamine application, in particular by spermidine and spermine, even at 125 mM NaCl, allowing the maintenance of CYCB1-GUS levels under salt stress. This work is one more contribution on the role of polyamines in cell cycle modulation and abiotic stress protection.     

Interference with S and G2 phase progression by polyamine synthesis inhibitors

The distribution of Ehrlich ascites tumor cells in the cell cycle was studied by flow cytometry following treatment with α-methyl ornithine (αMO) or methylglyoxal-bis(guanylhydrazone) (MeGAG). αMO and MeGAG are potent inhibitors of ornithine decarboxylase (putrescine synthesis) and S-adenosyl-methionine decarboxylase (spermidine and spermine synthesis), respectively. The data show that these polyamine synthesis inhibitors produce significant cell cycle perturbations resulting in an accumulation of cells in S and G2. This fact suggests that a normal polyamine complement is essential for the progression through these phases of the cell cycle.     

Cytological events induced by the inhibition of polyamine biosynthesis in thin cell layers of tobacco

Summary The proliferative growth of thin cell layers ofNicotiana tabacum cultured on a rhizogenic medium was markedly disturbed when polyamine biosynthesis was inhibited. Treatments with polyamine inhibitors led to cell expansion, accompanied by thinning of the cell wall and inhibition of cell division, and frequent cases of nucleolar extrusion, mainly in the parenchymal layer in contact with the medium. Nucleolar extrusion was not correlated with cell expansion. The highest incidence of nucleolar extrusion occurred when the pathways of putrescine biosynthesis were inhibited and when spermidine synthesis, via S-adenosylmethionine decarboxylase, was blocked. The duration of the growth phase with nuclear amitotic divisions was prolonged in the presence of the inhibitors and root meristem formation delayed. When polyamines were added with the inhibitors, all reactions proceeded as in the controls.Abbreviations CHA cyclohexylamine - DFMA DL--difluoromethyl-arginine - DFMO DL--difluoromethylornithine - LS longitudinal section - MGBG methylglyoxal-bis(guanylhydrazone) - PA polyamine - Pu putrescine - RLS radial longitudinal section - S.E. standard error - Spd spermidine