Methylthioadenosine and polyamine biosynthesis in a Saccharomyces cerevisiae meu1delta mutant

As part of our studies on polyamine biosynthesis in yeast, the metabolism of methylthioadenosine was studied in a mutant that lacks methylthioadenosine phosphorylase (meu1delta). The nucleoside accumulates in this mutant and is mainly excreted into the culture medium. Intracellular accumulation of the nucleoside is enough to account for the inhibition of spermidine synthase and thus to indirectly regulate the polyamine content of the meu1delta cells. By comparing the results with this mutant with a meu1delta spe2delta mutant that cannot synthesize spermidine or spermine, we showed that >98% of methylthioadenosine is produced as a byproduct of polyamine synthesis (i.e., from decarboxylated S-adenosylmethionine). In contrast, in MEU1+ SPE2+ cells methylthioadenosine does not accumulate and is metabolized through the methionine salvage pathway. Using a met15delta mutant we show that this pathway (i.e., involving polyamine biosynthesis and methylthioadenosine metabolism) is a significant factor in the metabolism of methionine, accounting for 15% of the added methionine.     

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     

Polyamine Content Related to Seed Storage Performance in Zea mays

As part of a search for biochemical indicators of seed withgood survival characteristics during storage, polyamine (PA)levels were measured in embryos for Zea mays seeds. PA levelswere determined in individual embryos of Mean Generation Analysis(MGA) of crosses between lines which show good (C²) and poor(C⁶) storage characteristics. A correlation was found betweenhigher PA contents (putrescine and spermidine) and superiorsurvival characteristics within the populations that were analysedby MGA. Titres of putrescine (PUT) and spermidine (SPD) showedthat three-quarters of the F² resembled the C² parent and aquarter resembled the C⁶ parent. Furthermore, the backcrossC⁶F¹ showed that half of the embryos had PUT levels above theparental C⁶ line. A maternal inheritance effect was not observed.Neither spermine nor cadaverine content was correlated withthe survival inheritance pattern. Given the survival kineticsobtained, it is suggested that both the PA titres and the seedsurvival characteristics are determined by nuclear dominantfactors. Key words: Polyamines, Zea mays, seeds     

Involvement of polyamines in the inhibiting effect of injury caused by cutting on K+ uptake through the plasma membrane

The inhibition of K⁺ uptake through the plasma membrane resulting from injury caused by cutting, or from application of polyamines (PAs), has been investigated in root segments of maize (Zea mays L.) and pea (Pisum sativum L.). It was found, for both treatments, that K⁺ uptake recovered if the segments were washed for 2 h. The K⁺ uptake inhibited by cutting and that inhibited by spermidine treatment were stimulated to the same extent by fusicoccin. In addition, there was a correlation between the extent of the recovery of K⁺ uptake caused by washing and the distribution, along the root axis, of both PAs and the activities of enzymes responsible for PA degradation. In apical segments of maize, where the PA content and the activity of the degradative enzyme polyamine oxidase (EC 1.5.3.3) were higher than in the more distal segments, the recovery of K⁺ uptake caused by washing was also higher. On the other hand, the opposite trend was observed in root segments of pea, where the PA content and the activity of the degradative enzyme diamine oxidase (EC 1.4.3.6) were higher in distal segments in which K⁺ uptake was greatly stimulated by washing. The effect of the amine-oxidase inhibitor, aminoguanidine, indicates that the degradation products of PAs are involved in the mechanism of inhibition of K⁺ uptake by PAs. The data also seem to indicate that PAs and their degradation products are responsible for the inhibition of K⁺ uptake occurring as a result of injury sustained by cutting roots into segments.Abbreviations DAO diamine oxidase - FC fusicoccin - PA polyamine - PAO polyamine oxidase - PUT putrescine - SPD spermidine     

N4-Hexanoylspermidine,a New Polyamine-Related Compound That Accumulates during Ovary and Petal Senescence in Pea

A previously unknown polyamine conjugate that accumulates in senescing ovaries of pea (Pisum sativum L.) was shown by mass spectrometry, nuclear magnetic resonance, and chemical synthesis to be N4-hexanoylspermidine (hexanoyl-spd) This structure was indicated by analysis of the dansylated polyamine using fast atom bombardment mass spectrometry, following purification by high-performance liquid chromatography. Furthermore, acid hydrolysis of the compound yielded spermidine and hexanoic acid. 1H-nuclear magnetic resonance suggested that spermidine was substituted at N4 in the conjugate. Hexanoyl-spd was synthesized, and its didansyl derivative was shown to have an identical mass spectrum and high-performance liquid chromatography retention time as the derivatized natural compound. Further confirmation of its structure was obtained by comparison of the synthetic and natural polyamines as trifluoroacetyl derivatives using gas chromatography-mass spectrometry. This new polyamine conjugate is present in pea ovaries at low levels at anthesis and its concentration remains low in developing seeded fruit or in parthenocarpic fruit that have been induced by application of growth regulators to emasculated flowers or by topping the plant. Conjugate levels are also low in parthenocarpic fruit induced naturally in the slender (la crys) mutant. However, levels of hexanoyl-spd increase progressively in senescing petals and ovaries, beginning at anthesis or 2 d later, respectively.     

渗透胁迫对小麦胚芽鞘内多胺的种类、形态和含量的影响

用高压液相色谱法研究了豫麦18（抗旱性较强）和扬麦9号（抗旱性较弱）小麦胚芽鞘中三种不同形态的多胺（polyamine,PA）：游离态多胺（PA）、高氯酸可溶性结合态多胺（ps结合态PA）和高氯酸不溶性结合态多胺（PIS结合态PA）与渗透胁迫的关系。结果发现：渗透胁迫2d,豫麦18胚芽鞘中的游离态Spd和游离态Spm的含量明显上升,而扬麦9号的游离态Put的上升明显。S-腺苷蛋氨酸脱羧酶（S—AMDC）的抑制剂——甲基乙二醛-双（鸟嘌呤腙）（MGBG）处理豫麦18,明显抑制了渗透胁迫诱导的游离态Spd和游离态Spm的增加,并且加重了渗透胁迫伤害,外源Spd处理扬麦9号明显促进了渗透胁迫诱导的游离态Spd和游离态Spm的增加,并且减缓了渗透胁迫的伤害。渗透胁迫下,豫麦18胚芽鞘中的PS结合态PA和PIS结合态PA的上升幅度都明显大于扬麦9号。菲咯啉（o—Phen）抑制渗透胁迫下PIS结合态PA的合成并加重了渗透胁迫对胚芽鞘的伤害。这些结果表明：小麦胚芽鞘中的游离态Spd、游离态Spm、PS结合态PA和PIS结合态PA的升高有利于增强渗透胁迫抗性。     

Distribution of polyamines and their related catabolic enzyme in etiolated and light-grown leguminosae seedlings

Diamine-oxidase (DAO; EC 1.4.3.6) activity and di-and polyamine levels were estimated along the epicotyl and root of light-grown and etiolated lentil (Lens culinaris Medicus) and pea (Pisum sativum L.) seedlings. The activity of DAO was higher in etiolated epicotyls than in lightgrown ones. In both species there was a positive correlation between DAO activity and the diamine (putrescine and cadaverine) levels along the whole epicotyl and root. Polyamine (spermine and spermidine) distribution seemed to be associated with the meristematic and elongating zone of the epicotyl and root. The physiological function of DAO is discussed in relation to its possible role in providing hydrogen peroxide to peroxidase-dependent reactions occurring in the cell wall.Abbreviations CAD cadaverine - DA diamine - DAO diamine oxidase - PA polyamine - PUT putrescine - SPD spermidine - SPM spermine     

Differential expression of two spermidine synthase genes during early fruit development and in vegetative tissues of pea

Two cDNAs from young pea fruits coding for functional spermidine synthases (EC 2.5.1.16) were isolated. The corresponding genes were named psSPDSYN1 and psSPDSYN2. Both cDNAs complemented spe3 gene when introduced into the Y480 strain of Saccharomyces cerevisiae, which is a null mutant for the spermidine synthase gene. psSPDSYN1 and psSPDSYN2 are regulated differentially. psSPDSYN1 is up-regulated early after fruit set whereas psSPDSYN2 is expressed later. Spermidine synthase activity was detected in pea ovaries, and correlates with the pattern of expression of psSPDSYN1. In the pea plant, psSPDSYN1 is highly expressed in actively growing tissues, whereas the highest level of psSPDSYN2 mRNA was detected in fully elongated stem.     

Spermidine synthase genes are essential for survival of Arabidopsis

The cellular polyamines putrescine, spermidine, and spermine are ubiquitous in nature and have been implicated in a wide range of growth and developmental processes. There is little information, however, on mutant plants or animals defective in the synthesis of polyamines. The Arabidopsis genome has two genes encoding spermidine synthase, SPDS1 and SPDS2. In this paper, we describe T-DNA insertion mutants of both of these genes. While each mutant allele shows normal growth, spds1-1 spds2-1 double-mutant seeds are abnormally shrunken and they have embryos that are arrested morphologically at the heart-torpedo transition stage. These seeds contain significantly reduced levels of spermidine and high levels of its precursor, putrescine. The embryo lethal phenotype of spds1-1 spds2-1 is complemented by the wild-type SPDS1 gene. In addition, we observed a nearly identical seed phenotype among an F2 seed population from the cross between the spds2-1 allele and SPDS1 RNA interference transgenic lines. These data provide the first genetic evidence indicating a critical role of the spermidine synthase in plant embryo development.     

水稻胚与胚乳分化发育中的内源多胺

稻胚发育过程中,其内源多胺以腐胺、亚精胺为主。在幼胚分化期,腐胺和亚精胺的含量很高;幼胚分化完成时,其含量急剧下降;直至分化后期才趋稳定。在胚及胚乳发育时期,还出现一种未知多胺X_(22),其含量除在胚分化完成时较少外,在胚发育的其他各期中,含量则一直很高。DNA和蛋白质含量的变化,从分化期开始递增直至物质积累成熟期,其趋势均相同。多胺可能参与胚与胚乳中核酸和蛋白质合成的调节。     

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     

Regulation of polyamine synthesis in relation to putrescine and spermidine pools in Neurospora crassa.

Polyamine pools were measured under various conditions of high and low concentrations of cytosolic ornithine with the wild-type and mutant strains of Neurospora crassa. In minimal medium, the wild-type strain has 1 to 2 nmol of putrescine and approximately 14 nmol of spermidine per mg (dry weight); no spermine is found in N. crassa. Exogenous ornithine was found to cause a rapid, but quickly damped, increase in the rate of polyamine synthesis. This effect was greater in a mutant (ota) unable to catabolize ornithine. No turnover of polyamines was detected during exponential growth. Exogenous spermidine was not taken up efficiently by N. crassa; thus, the compound could not be used directly in studies of regulation. However, by nutritional manipulation of a mutant strain, aga, lacking arginase, cultures were starved for ornithine and thus ultimately for putrescine and spermidine. During ornithine starvation, the remaining putrescine pool was not converted to spermidine. The pattern of polyamine synthesis after restoration of ornithine to the polyamine-deprived aga strain indicated that, in vivo, spermidine regulates polyamine synthesis at the ornithine decarboxylase reaction. The results suggest that the regulatory process is a form of negative control which becomes highly effective when spermidine exceeds its normal level. The possible relationship between the regulation of polyamine synthesis and the ratio of free to bound spermidine is discussed.     

Polyamines and Flower Development in the Male Sterile Stamenless-2 Mutant of Tomato (Lycopersicon esculentum Mill.) : I. Level of Polyamines and Their Biosynthesis in Normal and Mutant Flowers

The levels of free putrescine, spermidine, and spermine, and the activities of ornithine decarboxylase and s-adenosylmethionine decarboxylase were determined in the floral organs of the normal and a male sterile stamenless-2 (sl-2/sl-2) mutant of tomato (Lycopersicon esculentum Mill.). Under the intermediate temperature regime, all mutant floral organs possessed significantly higher levels of polyamines and enzyme activities than their normal counterparts. In the low temperature-reverted mutant stamens, the polyamine levels and the activity of PA biosynthetic enzymes were not significantly different from the normal. It is suggested that the abnormal stamen development in the sl-2/sl-2 mutant is, in part, related to elevated levels of endogenous PAs.     

Spermidine Uptake by Mitochondria of Helianthus tuberosus

In the present work evidence is provided that spermidine, a polyamine largely present in plant tissues, may be transported, at physiological concentrations, into the matrix space of mitochondria isolated from tubers of Helianthus tuberosus L. cv OB1 (Jerusalem artichoke). It is concluded that the movement of spermidine strictly depends on membrane potential, since it is drastically blocked by valinomycin and only slightly sensitive to nigericin. Mg²⁺ and K⁺ inhibit the transport of spermidine in line with the general concept that these cations compete for the same binding sites on the mitochondrial membrane. In contrast to previous data on mammalian mitochondria, spermidine uptake by plant mitochondria does not depend on the presence of inorganic phosphate. This latter result, along with evidence that Ca²⁺ does not affect accumulation of spermidine, indicates that the control of the polyamine uptake mechanism in plant mitochondria is distinct from that of mammalian systems.