Phorbol esters augment polyamine transport by influencing Na(+)-K+ pump in murine leukemia cells.

In this report, we elucidate the role of Na(+)-K+ pump in the regulation of polyamine spermidine (Spd) transport in murine leukemia (L 1210) cells in culture. Ouabain, known to bind extracellularly to the alpha-subunit of the Na(+)-K+ pump, inhibits the pump activity. The L 1210 cells were found to possess ouabain binding sites at 7.5 fmol/10(6) cells. Ouabain significantly inhibited the Spd uptake in a dose-dependent manner. The maximum inhibition of Spd uptake by ouabain was observed beyond 200 microM. Spd transport was inversely correlated with the [3H]ouabain binding to L 1210 cells: an increase in the saturation of ouabain binding to L 1210 cells resulted in a decrease of the Spd uptake process. Treatment of L 1210 cells with protein kinase C activator phorbol esters increased the Spd transport and, also, ouabain-sensitive 86Rb+ uptake, a measure of the activity of the Na(+)-K+ pump. H-7, a protein kinase C inhibitor, significantly inhibited the ouabain-sensitive 86Rb+ uptake by L 1210 cells. Phorbol esters stimulated the level, but not the rate, of 22Na+ influx. Addition of H-7 to L 1210 cells inhibited the 22Na+ influx process. A concomitant phorbol ester-induced increase in 22Na+ influx, [14C]Spd uptake, together with the functioning of Na(+)-K+ pump, indicates the role of the "Na+ cycle" in the regulation of the polyamine transport process.     

Mechanism of polyamine spermidine uptake by Xenopus laevis oocytes

In this study, the mechanisms of polyamine spermidine (Spd) uptake were investigated in Xenopus laevis oocytes. Spd uptake followed a sigmoidal kinetics with [S]90/[S]10 = 3 microM and Hill interaction coefficient (n) = 2. The order of magnitude of uptake and efflux was similar (t1/2 = 45 min). The equilibrium potential for Spd, calculated by Nenrst equation, was 90.78 mV. Free energy change for the uptake (delta G) was found to be 2.31 Kcal/mole of Spd. During efflux, Spd was not converted into putrescine or spermine. It seems that there are two types of Spd uptake pathways: Na(+)-dependent and Na(+)-independent since replacement of Na+ from incubation medium did not completely abolish the Spd uptake. The Na(+)-dependent component of Spd uptake was shared neither by system A nor by system ASC amino acids.     

栽培和野生大豆及其杂交后代幼苗的耐氯性与多胺积累的关系

对经逐代耐盐性筛选的栽培和野生大豆杂交组合(‘Jackson’בBB52’)F4代‘JB185’株系及其亲本幼苗以不同浓度NaCl和等渗(-0.53 MPa)PEG-6000、NaCl、钠盐(无Cl-)和氯盐(无Na )溶液处理6d。结果表明:(1)随NaCl浓度的提高,3种遗传材料幼苗叶片相对电解质渗漏率和MDA含量均呈上升趋势,叶绿素含量除‘BB52’和‘JB185’在NaCl 50mmol/L处理时显著上升外,其余处理呈下降趋势,‘JB185’变化介于两亲本之间。(2)不同离子胁迫下,它们叶片相对电解质渗漏率和MDA含量较对照多表现增加趋势,其中‘BB52’和‘JB185’在钠盐(无Cl-)处理下的变化明显大于氯盐(无Na )处理。叶片中游离态和束缚态Put、Spd和Spm含量都较对照明显提高,但‘BB52’和‘JB185’在钠盐(无Cl-)处理下游离态(Spd Spm)/Put比值和束缚态多胺总量为3种盐处理中最低。表明‘JB185’与野生大豆‘BB52’种群一样对Na 敏感而对Cl-表现较强的耐性。     

多胺浸种改善盐胁迫大麦根系液泡膜功能的机理

研究了0.1 mmol/L 腐胺 (Put) 和0.5 mmol/L 亚精胺 (Spd) 浸种对200 mmol/L NaCl胁迫下大麦(Hordeum vulgare L.)幼苗生长速率、干物质积累、离子分布、液泡膜蛋白结合多胺含量以及液泡膜膜脂组分与功能的影响.结果表明,Put和Spd浸种均可缓解盐胁迫对大麦幼苗的盐害,促进生长和干物质积累,降低大麦幼苗体内[Na+]/[K+].与盐处理的对照植株相比,Put和Spd浸种均可提高大麦幼苗根系液泡膜磷脂含量,降低糖脂结合半乳糖含量,而膜上非共价结合多胺含量Spd+PAx (一种未知多胺) 与 Put+Dap (二氨基丙烷)之比((Spd+PAx)/(Put+Dap))、共价和非共价结合多胺总量均上升.统计分析结果表明,液泡膜非共价结合多胺(Spd+PAx)/(Put+Dap)与H+-ATPase和H+-PPase活性呈显著正相关关系.     

一氧化氮缓解盐胁迫对玉米生长的抑制作用

研究了一氧化氮(nitric oxide,NO)对NaCl 100mmol/L胁迫下玉米幼苗生长的影响.结果表明:0.1～200μmol/L的NO供体硝普钠(sodium nitroprusside,SNP),特别是100μmol/L SNP处理可以显著提高盐胁迫下玉米幼苗的干物质积累速率.100μmol/L的SNP处理还显著提高了叶绿素含量、植株体内K /Na 比和(Spd Spm)/Put的比值,降低膜透性.推测NO对盐胁迫下玉米生长抑制的缓解作用是由于NO促进根系对K 的选择性吸收及其向地上部的运输,而降低对Na 的吸收及其向地上部的运输,并促进Put向Spd和Spm的转化.     

Do exogenous polyamines have an impact on the response of a salt-sensitive rice cultivar to NaCl?

In order to analyze the putative impact of polyamines (PAs) on the plant response to salt, seedlings from the salt-sensitive rice cultivar I Kong Pao (IKP) were exposed for 5, 12 and 19 days to 0, 50 or 100 mM NaCl in the absence, or in the presence of exogenous PAs (putrescine (Put), spermidine (Spd) or spermine (Spm) 1mM) or inhibitors of PA synthesis (methylglyoxalbis-guanyl hydrazone (MGBG) 1mM, cyclohexylammonium (CHA) 5mM and D-arginine (D-Arg) 5mM). The addition of PAs in nutritive solution reduced plant growth in the absence of NaCl and did not afford protection in the presence of salt. PA-treated plants exhibited a higher K+/Na+ ratio in the shoots, suggesting an improved discrimination among monovalent cations at the root level, especially at the sites of xylem loading. The diamine Put induced a decrease in the shoot water content in the presence of NaCl, while Spd and Spm had no effects on the plant water status. In contrast to Spd, Spm was efficiently translocated to the shoots. Both PAs (Spd and Spm) induced a decrease in cell membrane stability as suggested by a strong increase in malondialdehyde content of PA-treated plants exposed to NaCl. These results are discussed in relation to the putative functions of PAs in stressed plant metabolism.     

Polyamine transport regulation by calcium and calmodulin: Role of Ca2+-ATPase

The study was conducted on human leukemia (K 562) cells to characterize the mechanisms implicated in the regulation of the polyamine spermicine (Spd) transport process. The antagonists of calmodulin, trifluoperazine (TFP), W-7 (N-[6-aminohexyl]-5-chloro-1-naphthelenesulfonamide), or mellitin inhiblted significantly polyamine Spd uptake in these cells. The translocation of calmodulin towards plasma membrane and a concomitant decrease in its contents in cytosol were directly correlated with the time course increases similar to that of Spd uptake, indicating that calmodulin is recruited towards plasma membrane during the Spd transport process. Diminution of free intracellular calcium, (Ca²⁺)i, by preincubating the cells in BAPTA (bis[2-amino-5-methylphenoxyl]-ethane-N,N′,N′,-tetraacetate) buffer inhibited Spd transport significantly. Addition of lanthanum (LAN), a molecule known to inhibit Ca² efflux via Ca²⁺-ATPase, curtailed Spd uptake by these cells. LAN inhibited Vmax, but not the Km, of Spd uptake, indicating that the former does not directly interact with the polyamine transporter; rather it regulates the transport process, probably via its action on Ca²⁺-ATPase. Calmodulin-stimulated uptake of ⁴⁵Ca²⁺ by inside-out vesicles of K 562 cells, a measure of Ca²⁺-ATPase activity. Furthermore, addition of LAN inhibited both basal and calmodulin-stimulated activity of Ca²⁺-ATPase. Thapsigargin (THAP), a molecule known to elevate (Ca²⁺) i due to its action on the endoplasmic reticulum, increased Spd transport whereas addition of LAN inhibited THAP-stimulated Spd transport activity. THAP increased free (Ca²⁺)i in these cells, and a pre-addition of LAN to these cells curtailed the THAP-stimulated increases of (Ca²⁺)i concentrations. Addition of Spd brought about elevations in (Ca²⁺)i contents. Caffeine also increased (Ca²⁺)i in these cells; however, it failed to stimulate significantly the Spd uptake process, indicating that (Ca²⁺)i which is involved in the regulation of polyamine transport pathways does not belong to the calcium-induced calcium-release (CICR) pool. Replacement of Ca²⁺ from the incubation medium (i.e., 0% Ca²⁺) resulted in higher uptake activity as compared to that in 100% Ca²⁺ medium, demonstrating that in 100% Ca²⁺ medium the calcium efflux process is quickly compensated by calcium refilling/influx from the extracellular medium, while in 0% Ca²⁺ medium there is perpetual efflux of (Ca²⁺)i which contributes to higher Spd uptake process. The results of this study suggest that an increase in free (Ca²⁺)i and its release from the cells via Ca²⁺ ATPase, and concomitant activation of calmodulin, which controls Ca²⁺-pump activity, are involved in the regulation of the Spd uptake process in human leukemia cells. © 1993 Wiley-Liss, Inc.     

外源Spd对盐碱胁迫下番茄幼苗氮代谢及主要矿质元素含量的影响

采用水培方法,研究了盐碱与Spd处理对两品种番茄（中杂9号和金棚朝冠）幼苗氮代谢及主要矿质元素含量的影响.结果表明： 盐碱胁迫下,番茄幼苗干生物量显著减少,植株生长受到抑制;叶片和根系硝酸还原酶（NR）、谷氨酰胺合成酶（GS）、谷氨酸合成酶（GOGAT）活性及硝态氮（NO₃^--N）、全N、全K、Ca²⁺、Mg²⁺含量显著降低,铵态氮（NH₄⁺-N）、Na⁺含量显著增加;两品种叶片及中杂9号根系谷氨酸脱氢酶（GDH）活性显著升高,金棚朝冠根系GDH活性变化不显著;叶片全P含量显著降低,根系全P含量显著升高（金棚朝冠）或无显著变化（中杂9号）.Spd处理通过增强NR、GS、GOGAT活性提高了植株对NH₄⁺的同化利用率,有效缓解了盐碱胁迫导致的氮代谢紊乱,进而促进不同器官对P、K、Ca、Mg、Na的吸收、释放或转运,在一定程度上维持了各元素之间的相对平衡,从而增强植株对逆境的适应能力.此外,盐碱对中杂9号的抑制作用及外源Spd对其氮代谢紊乱和营养失衡的缓解作用高于金棚朝冠.     

Spermidine oxidase‐derived H2O2 regulates pollen plasma membrane hyperpolarization‐activated Ca2+‐permeable channels and pollen tube growth

Spermidine (Spd) has been correlated with various physiological and developmental processes in plants, including pollen tube growth. In this work, we show that Spd induces an increase in the cytosolic Ca²⁺ concentration that accompanies pollen tube growth. Using the whole‐cell patch clamp and outside‐out single‐channel patch clamp configurations, we show that exogenous Spd induces a hyperpolarization‐activated Ca²⁺ current: the addition of Spd cannot induce the channel open probability increase in excised outside‐out patches, indicating that the effect of Spd in the induction of Ca²⁺ currents is exerted via a second messenger. This messenger is hydrogen peroxide (H₂O₂), and is generated during Spd oxidation, a reaction mediated by polyamine oxidase (PAO). These reactive oxygen species trigger the opening of the hyperpolarization‐activated Ca²⁺‐permeable channels in pollen. To provide further evidence that PAO is in fact responsible for the effect of Spd on the Ca²⁺‐permeable channels, two Arabidopsis mutants lacking expression of the peroxisomal‐encoding AtPAO3 gene, were isolated and characterized. Pollen from these mutants was unable to induce the opening of the Ca²⁺‐permeable channels in the presence of Spd, resulting in reduced pollen tube growth and seed number. However, a high Spd concentration triggers a Ca²⁺ influx beyond the optimal, which has a deleterious effect. These findings strongly suggest that the Spd‐derived H₂O₂ signals Ca²⁺ influx, thereby regulating pollen tube growth.     

Binding of polyamines by the double-helical DNA molecule in unfolded and compact forms

The influence of the natural polyamines [spermine (Sp) and spermidine (Spd)] on the conformation of thymus DNA molecule (M = 4 and 15 MDa) was studied by means of the viscometric method over the range of low supporting electrolyte concentrations (CNaCl = 0.6 divided by 8.4 mM). In was shown that at sufficiently low degrees of ligand binding (theta PA) which satisfy the condition ZPA theta PA less than 0.76 (where ZPA is the valence of PA), the PA addition results in a slight decrease of the volume effects in the DNA molecule due to the increase of the ionic strength (mu) of solution conditioned by the presence of polyvalent PA cations and also to the supplanting of "bound" Na+ cations. The further increase in CPA induces the corresponding increase in theta PA up to the value which provides ZPA theta PA greater than 0.76, and is accompanied by drastic decrease of macromolecule's dimensions and partial DNA condensation as well. At larger degrees of binding (ZPA theta PA approximately 0.90) a transition from the expanded to compact form of the DNA molecule is observed. The calculations of theta 1 = theta Na + theta PA and rcr = theta 1 + ZPA theta PA as a function of mu were carried out according to Manning's two-variables theory on the basis of the obtained dependences of the critical PA concentrations (Ccr PA), which correspond to the midpoint of the condensational transition, versus CNaCl. The increase of rcr and/or decrease of the effective site dimensions (ZPA) was shown to be necessary for the DNA molecule collapse over the range of low mu less than 0.01. The binding constants of the PA association to the compact DNA form were evaluated by the simplest model of McGhee and von Hippel. On the basis of the results obtained for Spd it was hypothesized that the non-electrostatic interactions are significant by the binding of the PA to the compact form of the DNA molecule.     

The interactions of plant growth regulators and H<Subscript>2</Subscript>O<Subscript>2</Subscript> during germination improvement of sweet corn seed through spermidine application

Low seed vigor was the main constraint on the production of sweet corn in China. Spermidine (Spd) was proved to enhance sweet corn seed germination. However, little was known about the metabolisms and interactions of plant growth regulators (PGRs) and H₂O₂ in the enhancement of Spd upon sweet corn seed germination. Spd, GA, C₂H₄ and H₂O₂ soaking treatments significantly enhanced seed vigor; while their respective biosynthesis inhibitors and ABA significantly declined seed vigor. Besides, as compared with control, seed vigor showed no significant difference in Spd+ProG (prohexadione-calcium, the inhibitor of GA), however it decreased significantly in Spd+ABA. The seed vigor treated by Spd+AVG (aviglycine hydrochloride, the inhibitor of C₂H₄) and Spd+NAC (n-acetyl-l-cysteine, a scavenger of H₂O₂) were significantly lower than those soaked in Spd solution, but still significantly higher than the control. Spd+NAC with significantly lower H₂O₂ content still up-regulated GA and C₂H₄ contents and down-regulated ABA content during seed germination. The results suggested that it was Spd rather than H₂O₂ (produced through Spd) made a direct effect on PGRs metabolism regulation in seed germination enhancement by Spd. The metabolism of GA and ABA played crucial rolesas compared with C₂H₄ and H₂O₂. Besides, complicated PGRs interactions and crosstalk between H₂O₂ and PGRs existed during sweet corn seed germination after Spd soaking, and ABA might be a key hormone in this process.     

Effect of heparin-binding growth factors on monovalent cation transport in Balb/C 3T3 cells

The changes in monovalent cation fluxes induced by class 1 and class 2 heparin-binding growth factors purified from bovine brain were studied in confluent quiescent Balb/C 3T3 cells. Both classes of HBGF's rapidly stimulate the activity of the Na+-K+ pump in a concentration-dependent manner that parallels their mitogenic activity. This effect requires the presence of external Na+ and is abolished by 1 mM amiloride. As with other growth factors, HBGF's increase the activity of the Na+-K+ pump by increasing Na+ influx into the cells via the amiloride-sensitive Na+-H+ exchange. These results indicate that rapid activation of cation transport is an early cellular response that follows binding of HBGF's to specific receptors on the surface of target cells.     

盐适应过程中香根草内源游离态、结合态、束缚态多胺含量的变化

研究了不同浓度NaCl胁迫下,香根草（Vetiteria zizanioides）根、叶中的游离态、结合态、束缚态多胺（PAs）[包括腐胺（Put）,尸胺（Cad）,亚精胺（Sod）和精胺（Spm）]含量的变化。在中度盐胁迫（100,200mmol L^-1NaCl）9天时,香根草基本能够正常生长,但在重度盐胁迫（300mmol L^-1NaCl）下,其生长受到严重抑制。在上述3个不同浓度的NaCl胁迫下,香根草根、叶中游离态Put,Cad,spd,Stma和总的游离态PAs含量明显下降,在高盐浓度下下降幅更大;结合态Put,Cad,Sod,Spm和总的结合态PAs含量显著上升,但在重度盐胁迫下升幅较小或与对照相当;束缚态Put,Cad和总的束缚态PAs含量均减少,而束缚态Spd和Spm含量在叶中是下降的,在根中则增加,且在中度盐胁迫下更明显。对根和叶片而言,除游离态（Spd＋Spm）,Put比值在重度盐胁迫下较对照显著下降外,其它游离态、结合态、束缚态和总的（Spd＋Spm）／Put比值在不同盐胁迫下均上升,在中度盐胁迫下更明显。这表明,维持多胺总量的稳态和较高的（Spd＋Spm）／Put比值是香根草适应中度盐胁迫的一个重要机制。     

The Relationship between Polyamines and Hormones in the Regulation of Wheat Grain Filling

The grain weight of wheat is strongly influenced by filling. Polyamines (PA) are involved in regulating plant growth. However, the effects of PA on wheat grain filling and its mechanism of action are unclear. The objective of the present study was to investigate the relationship between PAs and hormones in the regulation of wheat grain filling. Three PAs, spermidine (Spd), spermine (Spm), and putrescine (Put), were exogenously applied, and the grain filling characteristics and changes in endogenous PA and hormones, i.e., indole-3-acetic acid (IAA), zeatin (Z) + zeatin riboside (ZR), abscisic acid (ABA), ethylene (ETH) and gibberellin 1+4 (GAs), were quantified during wheat grain filling. Exogenous applications of Spd and Spm significantly increased the grain filling rate and weight, but exogenous Put had no significant effects on these measures. Exogenous Spd and Spm significantly increased the endogenous Spd, Spm, Z+ZR, ABA, and IAA contents and significantly decreased ETH evolution in grains. The endogenous Spd, Spm and Z+ZR contents were positively and significantly correlated with the grain filling rate and weight of wheat, and the endogenous ETH evolution was negatively and significantly correlated with the wheat grain filling rate and weight. Based upon these results, we concluded that PAs were involved in the balance of hormones that regulated the grain filling of wheat.     

Exogenous polyamines enhance copper tolerance of Nymphoides peltatum

The protective effects of polyamines (PAs) against copper (Cu) toxicity were investigated in the leaves of Nymphoides peltatum. Cu treatment increased the putrescine (Put) level and lowered spermidine (Spd) and spermine (Spm) levels, thereby reducing the (Spd+Spm)/Put ratio in leaves. Exogenous application of Spd or Spm markedly reversed these Cu-induced effects for all three PAs and partially restored the (Spd+Spm)/Put ratio in leaves. It also significantly enhanced the level of proline, retarded the loss of soluble protein, decreased the rate of O2*- generation and H2O2 content, and prevented Cu-induced lipid peroxidation. Furthermore, exogenous Spd and Spm reduced the accumulation of Cu and effectively maintained the balance of nutrient elements in plant leaves under Cu stress. These results suggest that exogenous application of Spd or Spm can enhance the tolerance of N. peltatum to Cu by increasing the levels of endogenous Spd and Spm as well as the (Spd+Spm)/Put ratio.     

GA3和Spd对杜鹃开花期光合特性和抗氧化系统的影响

为探讨GA_3和Spd对杜鹃(Rhododendron simsii)开花花期和开花品质的影响,研究了外源GA_3和Spd对杜鹃开花期光合特性和抗氧化系统的变化。结果表明,外源GA_3对花期有显著的提前作用,Spd对花期有明显的延迟作用,但两者均使花期延长、花径增大且成花率提高。GA_3和Spd处理提高了花期叶片的光合色素含量和净光合速率(Pn)、气孔导度(Gs)和胞间CO_2浓度(Ci);GA_3处理提高了叶片的蒸腾速率(Tr),而Spd使叶片的Tr下降,两者均有效缓解了末花期叶绿素含量的下降。GA_3和Spd处理显著降低了花瓣MDA含量,提高了抗氧化酶SOD、POD和CAT活性,并减缓了末花期SOD的下降,有效延缓了衰老进程,延长花期。以1 600 mg L~(–1) GA_3和0.10 mmol L~(-1) Spd处理效果较好,能有效提高杜鹃花的观赏品质。     

外源多胺对铜胁迫下水鳖叶片多胺代谢、抗氧化系统和矿质营养元素的影响

采用营养液水培的方法,研究了外源亚精胺(Spd)和精胺(Spm)对Cu胁迫下水鳖叶片3种形态多胺(PAs)、抗氧化系统及营养元素的影响。结果表明:(1)Cu胁迫使水鳖叶片腐胺(Put)急剧积累,Spd和Spm明显下降,从而使(Spd+Spm)/Put比值也随之下降。外源Spd和Spm显著或极显著逆转Cu诱导的PAs变化,抑制Put的积累,缓解Spd和Spm的下降,从而提高了(Spd+Spm)/Put比值。(2)外源Spd和Spm抑制了Cu胁迫诱导的多胺氧化酶(PAO)的增加,缓解了二胺氧化酶(DAO)的下降。(3)与单一Cu胁迫相比,Spd和Spm显著或极显著提高了超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)和谷胱甘肽还原酶(GR)活性和抗坏血酸(AsA)、谷胱甘肽(GSH)、游离脯氨酸(Pro)含量,从而降低了超氧阴离子(O2.-)产生速率和过氧化氢(H2O2)含量,极显著降低了丙二醛(MDA)含量,缓解了Cu诱导的氧化胁迫。(4)外源Spd和Spm显著或极显著缓解了Cu胁迫下矿质营养元素吸收平衡的紊乱。以上结果均说明了外施Spd和Spm可增加水鳖对Cu胁迫的耐受性。     

Characterization of the ascorbic acid transport by 3T6 fibroblasts

Ascorbic acid transport by 3T6 mouse skin fibroblasts has been characterized using radiometric technique with L-[1-14C]ascorbic acid under the conditions in which oxidation of ascorbic acid was prevented by addition of 1 mM thiourea. The ascorbate transport is temperature-dependent with the energy of activation E and Q10 of 13.3 kcal/mol and 2.0, respectively. The transport requires energy and exhibits Michaelis-Menten kinetics with an apparent Km of 112 microM and Vmax of 158 pmol/min per mg protein, when the extracellular Na+ concentration is 150 mM. The ascorbate transport requires presence of extracellular Na+ and can be inhibited by ouabain treatment. At 40 and 200 microM ascorbate concentrations, respectively, 1.4 and 1.0 moles of Na+ bound the transporter molecule per each mole of ascorbate transported. Increased Na+ binding to the transporter at lower ascorbate concentration may signify multiple Na+-binding sites or ascorbate concentration dependent conformational changes in the transporter molecule. Increasing Na+ concentration decreases Km without affecting Vmax, suggesting that Na+ increases affinity of ascorbate for the transporter molecule without affecting translocation process. An increase in ascorbate concentration reduces the number of Na+ bound to the transporter from 1.4 to 1.0. The ascorbate transport is stimulated by Ca2+ and other divalent cations. The mechanism of stimulation by Ca2+ is not clear. Calcium increases both the Km and Vmax. The data presented support the hypothesis that the ascorbate transport by 3T6 fibroblasts is an energy and temperature-dependent active process driven by the Na+ electrochemical gradient. A potent inhibitor of ascorbate transport is also demonstrated in human serum.     

NaCl胁迫对菜用大豆种子多胺代谢的影响

采用蛭石栽培,在100 mmol·L-1NaCl胁迫下,对耐盐性不同的两个品种菜用大豆种子的丙二醛(MDA)含量和多胺(PAs)代谢进行了研究.结果表明:NaCl胁迫显著增加了菜用大豆种子的MDA含量,但耐盐品种‘绿领特早’(LL)的增幅低于盐敏感品种‘理想高产95-1’(LX).与LX相比,LL种子在整个NaCl胁迫期间均维持了相对较高的游离态精胺(Spm)、结合态Spm、结合态亚精胺(Spd)、束缚态Spd和束缚态腐胺(Put)含量,较高的(Spd +Spm )/Put 和(cPAs+bPAs)/fPAs值及较低的Put/PAs值,在胁迫中、后期(9～15 d)维持了相对较高的游离态Spd含量;胁迫期间,LL的精胺酸脱羧酶(ADC)长时期(6～15 d)保持相对较高的活性,而多胺氧化酶(PAO)则长时期(6～15 d)维持相对较低的活性.综上,LL具有较强的多胺合成能力及较强的Put向Spd和Spm以及游离态多胺向结合态和束缚态多胺转化的能力,进而有效抑制了细胞的膜脂过氧化,这可能是其耐盐性较强的重要原因之一.