Stress-induced changes in the free amino acid composition in transgenic soybean plants having increased proline content

Following drought stress at supraoptimal temperature the increase in proline (Pro) content in transgenic (T) soybean [Glycine max (L.) Merr. cv. Ibis] plants overexpressing the gene coding for the last enzyme of Pro biosynthesis, L-Δ¹-pyrroline-5-carboxylate reductase, was much greater than in wild type (W) plants (105-fold versus 19-fold after 7 d). Under control conditions arginine accounted for nearly 60 % of the total free amino acid content. After stress treatment the content of Pro was more than 50 % in both T and W genotypes, and at the end of recovery the γ-aminobutyrate content reached 27 and 53 % in the W and T plants, respectively. Without stress treatment there was only a 2-fold difference between T and W in the tyrosine content. However, during the stress period and the subsequent recovery a similar difference was found for many amino acids. The present results indicate that manipulating of the content of a single amino acid influences the whole free amino acid composition in soybean.     

高温和干旱胁迫对鳞叶藓游离脯氨酸和可溶性糖含量的影响

研究了高温和干旱胁迫对鳞叶藓 (Taxiphyllumtaxirameum)游离脯氨酸和可溶性糖含量的影响。结果显示 ,高温和干旱均能诱导植物体内可溶性糖的积累。在 60℃高温胁迫下处理 ,可溶性糖含量随处理时间的延长而增加 ,最高值比对照增加了 2倍。PEG 60 0 0胁迫下处理可使可溶性糖含量分别增加 2 .4倍。经统计学检验 ,逆境条件与游离脯氨酸含量变化无关     

Genetic manipulation of proline levels affects antioxidants in soybean subjected to simultaneous drought and heat stresses

It was assumed that the genetic manipulation of the proline (Pro) level would also affect the (homo)glutathione content as both compounds have a common precursor, glutamate. To test this hypothesis, the levels of Pro, reduced and oxidized (homo)glutathione [(h)GSH and (h)GSSG] and other antioxidants were compared under simultaneous drought and heat stress conditions and in a control treatment in a time course experiment on wild-type soybean ( Glycine max cv. Ibis) and on transgenic plants containing the cDNA coding for l -Δ¹-pyrroline-5-carboxylate reductase (EC 1.5.1.2), the last enzyme involved in Pro synthesis, in the sense and antisense directions. At the end of the recovery period, the highest H₂O₂ and lipid hydroperoxide concentrations were observed in the antisense transformants, which exhibited the greatest injury, while the lowest H₂O₂ content was detected in the sense transformants, which exhibited the lowest injury percentage. During stress treatment, the highest Pro and ascorbate (AA) levels were detected in the sense transformants, while the highest GSH and hGSH contents, AA/dehydroascorbate (DHA) and (h)GSH/(h)GSSG ratios and ascorbate peroxidase (APX) activity were found in the antisense transformants. The greatest APX (EC 1.11.1.11) activity was observed in the first part of the stress treatment in the antisense transformants, and the greatest glutathione reductase (EC 1.6.4.2) activity was observed in the second part of the treatment in the same genotype. The present experiments indicate that the manipulation of Pro synthesis affects not only the (h)GSH concentrations, but also the levels of other antioxidants.     

Effect of proline on nitrogenase activity in symbiosomes from root nodules of soybean (Glycine max L.) subjected to drought stress

Experiments were carried out to investigate if drought stressaffects the ability of bacteroids from soybean (Glycine maxL.) root nodules to utilize proline and malate to support nitrogenaseactivity. The bacteroids were isolated in sub-ambient oxygenand nitrogenase activity was measured by acetylene reduction.Nitrogenase activity supported by proline was 8-fold higherin bacteroids from drought-stressed nodules than in bacteroidsfrom control nodules. In contrast to the results with prolinethere was no significant response to drought stress in the rateof bacteroid nitrogenase activity supported by malate. The effectof drought stress on transport of proline and malate acrossthe symbiosome membrane was investigated by incubation of symbiosomesisolated in sub-ambient oxygen with radioactive tracers. Droughtstress tended to increase the rate of proline uptake relativeto a minor decrease in malate uptake into symbiosomes in responseto drought. There was no indication of a saturable camer inthe symbiosome membrane for either substrate at concentrationsin the range 0.1-2 mM. The rate of malate uptake into symbiosomeswas twice as high as the rate of proline uptake at all substratelevels tested. The protein composition of the symbiosome membranewas altered in response to drought stress and these changesmay relate .to the permeability of the symbiosome membrane. Key words: Drought stress, nitrogenase activity, proline, soybean nodules, symbiosome membrane, transport     

NaCl胁迫对结荚期菜用大豆叶片游离态多胺水平的影响

采用蛭石栽培,在100mmol·L-1NaCl胁迫下,对耐盐性不同的2个菜用大豆[Glycinemax(L.)Merr.]品种结荚期干物质积累、单株产量及叶片游离态多胺(PAs)水平的变化进行了研究。结果表明:NaCl胁迫显著降低了菜用大豆植株干重及单株产量,但耐盐品种"绿领特早"的降幅低于盐敏感品种"理想高产95-1";与"理想高产95-1"相比,"绿领特早"叶片在整个NaCl胁迫期间均维持了相对较低的H2O2含量、游离态腐胺(Put)含量及较高的游离态亚精胺(Spd)含量,在胁迫6～15d期间维持了相对较高的游离态精胺(Spm)含量、(Spd+Spm)/Put值及较低的Put/PAs值。说明耐盐品种"绿领特早"叶片具有较强的由游离态Put向游离态Spd和Spm转化的能力,维持了较低的游离态Put含量和较高的游离态Spd及Spm含量,进而抑制了活性氧过量积累。     

Drought-induced proline accumulation is uninvolved with increased nitric oxide,which alleviates drought stress by decreasing transpiration in rice

Accumulation of proline is trusted to be an adaptive response of plants against drought stress, and exogenous application of nitric oxide (NO) enhances proline accumulation in Cu-treated algae. In order to investigate whether NO works as a necessary signaling molecule in drought-induced proline accumulation in rice leaves, effects of drought stress on endogenous NO content and proline accumulation were studied in rice leaves, using sodium nitroprusside (SNP, a NO donor) and 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO, a NO scavenger). The results showed that drought treatment increased both endogenous NO and proline contents in rice leaves, while foliar spray of various concentrations of SNP failed to induce proline accumulation in the leaves of well-watered rice and foliar spray of cPTIO failed to inhibit proline accumulation in the leaves of drought-stressed rice. These results indicate that increase of endogenous NO is dispensable for proline accumulation in the leaves of rice under drought stress. Further studies indicate that exogenous application of NO alleviates drought-induced water loss and ion leakage by decreasing transpiration rate of rice leaves.     

Effect of water stress on proline content and transcript levels in Lathyrus sativus

Response of Lathyrus sativus plants to water stress showed that ABA responsive genes such as PLE 25, TAS 14 and RAB 17 are synthesized constitutively, the levels of which decline gradually with increase in water stress or ABA levels. Proline accumulation was highest in leaves (65-fold) followed by stem (56-fold), root (38-fold) and marginal increase in etiolated seedlings. Proline increase was also observed in plant parts not exposed to light.     

Effect of disabling bacteroid proline catabolism on the response of soybeans to repeated drought stress

The aim of this study is to evaluate the contribution of bacteroidproline catabolism as an adaptation to drought stress in soybeanplants. To accomplish this, soybeans (Glycine max L. Merr.)were inoculated with either a parental strain of Bradyrhizobiumjaponicum which was able to catabolize proline, or a mutantstrain unable to catabolize proline. A large strain-dependentdifference in nodule number and size was observed. In orderto separate inoculant-dependent effects on nodulation from effectson bacteroid proline catabolism, plants inoculated with eachstrain were only compared to other plants inoculated with thesame strain, thus removing the observed inoculant-dependentdifferences in nodulation as a bar to interpretation of theresults. This experimental design allowed a comparison of thedrought penalty on yield for plants with parental bacteroidsand for plants with mutant bacteroids. The two results werethen compared to each other in order to evaluate the impactof the ability of bacteroids to catabolize proline on the responseto drought stress. When water stress was mild, soybean plants inoculated with bacteriaunable to catabolize proline suffered twice the percentage decreasein seed yield as did plants inoculated with bacteria able tocatabolize proline. However, when stress was severe there wasno significant effect of the ability of bacteroids to catabolizeproline on drought imposed decrease in seed yield. These resultssuggest that increasing the oxidative flux of proline in bacteroidsmight provide an agronomically significant yield advantage whenstress is modest, but that severe drought stress would probablyoverwhelm this yield benefit. Key words: N₂-fixation, proline dehydrogenase, drought stress     

Effect of NaCl and mannitol iso-osmotic stresses on proline and free polyamine levels in embryogenic Fraxinus angustifolia callus

With the aim to differentiate the ionic and osmotic components of salt stress, short and long-term changes in free polyamines and proline induced by iso-osmotic concentrations of NaCl (0.1 mol/L and 0.2 mol/L) and mannitol (0.2 mol/L and 0.4 mol/L) were determined in Fraxinus angustifolia callus. The peculiarities of the short-term responses were: i) a very early (30 min) and temporary increase in Putrescine (Pu) and Spermine (Spm) as a consequence of salt treatment, and ii) a continuous accumulation of Spermidine (Spd) and Spm in response to mannitol. The changes of Proline (Pro) were quite limited both in the short and in the long term, and generally occurred later than Polyamine (PAs) changes took place, suggesting a regulatory mechanism of PAs metabolism on Pro biosynthesis. In the long-term, no drastic accumulations of Pro or PAs in response to NaCl and mannitol were observed, suggesting that their physiological role is unlikely to be that of osmo-compatible solutes in this plant system. The salt induced a higher callus growth inhibition effect than did mannitol and this inhibition was associated with the reduction of endogenous levels of PAs, especially Pu. However, while a diverging time course was observed under lethal salt concentration (0.2 mol/L NaCl), a high parallelism in the endogenous changes of Pro and Pu was observed under all non-lethal conditions (control--0.2 and 0.4 mol/L mannitol--0.1 mol/L NaCl). Therefore the synchronous changes of Pro and Pu can be considered as a physiological trait associated with cell survival. These results indicate a strong metabolic co-ordination between PAs and Pro pathways and suggest that the metabolic fluxes through these pathways start competing only when the stress level is high enough to be lethal for cells.     

Effects of free proline accumulation in petunias under drought stress

Petunias (Petunia hybrida cv. 'Mitchell') accumulate free proline (Pro) under drought-stress conditions. It is therefore believed that Pro acts as an osmoprotectant in plants subjected to drought conditions. Petunia plants were transformed by Delta(1)-pyrroline-5-carboxylate synthetase genes (AtP5CS from Arabidopsis thaliana L. or OsP5CS from Oryza sativa L.). The transgenic plants accumulated Pro and their drought tolerance was tested. The Pro content amounted to 0.57-1.01% of the total amino acids in the transgenic plants, or 1.5-2.6 times that in wild-type plants grown under normal conditions. The transgenic plant lines tolerated 14 d of drought stress, which confirms that both P5CS transgenes had full functionality. Exogenous L-Pro treatment caused the plants to accumulate Pro; plants treated with 5 mM L-Pro accumulated up to 18 times more free Pro than untreated plants. Exogenous L-Pro restricted the growth of wild-type petunias more than that of Arabidopsis plants. The capacity for free Pro accumulation might depend on the plant species. The growth of petunia plants was influenced not only by the Pro concentration in the plants, but by the ratio of the Pro content to the total amino acids, because the growth of the transgenic petunia plants appeared normal.     

Separately and simultaneously induced dark chilling and drought stress effects on photosynthesis, proline accumulation and antioxidant metabolism in soybean

The effects of separately or simultaneously induced dark chilling and drought stress were evaluated in two Glycine max (L.) Merrill cultivars. For the separately induced dark chilling treatment (C), plants were incubated at 8 °C during 9 consecutive dark periods. During the days, plants were kept at normal growth temperatures. For the separately induced drought treatment (D), plants were maintained at normal growth temperatures without irrigation. For the simultaneously induced dark chilling and drought stress treatment (CD), plants were dark chilled without irrigation. All treatments caused similar decreases in pre-dawn leaf water potential, but resulted in distinct physiological and biochemical effects on photosynthesis. In Maple Arrow, where C had the smallest effect on photosynthesis, prolonged CD caused less inhibition of photosynthesis compared to D. Compared to Fiskeby V, the photosynthetic apparatus of Maple Arrow appears to possess superior dark chilling tolerance, a property which probably also conveyed enhanced protection against CD. Proline accumulation was prevented by CD at the ψ_PD where D already resulted in considerable accumulation. The superior capacity for proline accumulation in Maple Arrow would seem to be an important factor in its stress tolerance. Antioxidant activity evoked by CD and D was higher than for C alone. In Fiskeby V, the small increase in ascorbate peroxidase (EC 1.11.1.7) activity, which was in most cases not accompanied by increased gluthatione reductase (EC 1.6.4.2) activity, could impact negatively on its stress tolerance. These results demonstrate large genotypic differences in response to chilling and drought stress, even between soybean cultivars regarded as chilling tolerant.     

外源α-萘乙酸对花期干旱大豆碳代谢的影响

以耐旱性大豆品种晋豆21和干旱敏感性大豆品种徐豆22为试验材料,通过盆栽试验,研究α-萘乙酸(NAA)对花期干旱大豆碳代谢的影响.结果表明: 干旱胁迫下,与徐豆22相比,晋豆21净光合速率(P_n)下降幅度较小,光呼吸速率(P_r)和叶片可溶性糖含量增加幅度较小,而叶片蔗糖磷酸合成酶(SPS)、蔗糖合成酶(SS)(合成方向)活性、根系蔗糖含量增加幅度较大.NAA处理提高了干旱胁迫下P_n,并降低了P_r,进而明显缓解了干旱胁迫对大豆植株的生长抑制;降低了叶片淀粉分解酶、酸性转化酶(AI)和SS(分解方向)活性,从而抑制了干旱胁迫诱导的可溶性糖积累;NAA处理也能增加干旱胁迫下叶片SPS、SS(合成方向)活性、根系蔗糖含量、根冠比,表明NAA处理促进了叶片中蔗糖向根系的转运.总之,在干旱胁迫下,外源NAA能够通过调控碳代谢增强大豆植株对干旱胁迫的耐受性.     

Effect of drought on enzymes and free proline in rice varieties

Drought tolerant rice variety TKM-1 and susceptible variety Improved Sabarmati (I.S.) showed characteristic differences in peroxidase, RNase, nitrate r     

干旱胁迫对苗期大豆异黄酮合成的影响

以不同耐旱性的2个大豆品种(高耐旱JP-6、低耐旱JP-16)为研究材料,采用高效液相色谱和实时荧光定量PCR技术,分析不同时间持续干旱胁迫下,大豆叶片和根系中异黄酮的积累变化及关键酶基因的表达情况.结果表明:大豆根部异黄酮含量显著高于叶部,而异黄酮关键酶基因的表达量则在叶片中更高,耐旱品种JP-6根部的异黄酮积累量更大.随着干旱胁迫持续时间的增加,不同耐旱品种的异黄酮合成与积累变化规律存在显著差异:强耐旱品种JP-6的根和叶中,异黄酮积累量均呈现先下降后升高的趋势;而弱耐旱品种JP-16则相反,异黄酮积累量在不同部位中均呈现先上升后降低的趋势;除JP-6叶中C4H、4CL、IFS2等异黄酮合成上游基因外,其他不同品种、不同部位的关键酶基因表达量均随着干旱胁迫持续时间的增加,呈现先下降后上升的趋势.大豆叶片是异黄酮的主要合成部位,大豆根部也存在少量的异黄酮合成.弱耐旱大豆根部的异黄酮合成和最终积累量均较低,强耐旱品种则较高.根部异黄酮积累量高的大豆品种,其耐旱性更强.     

Association of increased polyamine levels with isoproterenol-stimulated mucin secretion in the rat submandibular gland

Incubation of rat submandibular gland slices with 50 microM isoproterenol for 10-40 min stimulated mucin secretion and induced a 3- to 4-fold increase in tissue concentrations of the polyamines putrescine, spermidine and spermine. alpha-Difluoromethylornithine, a specific inhibitor of ornithine decarboxylase, suppressed the isoproterenol-induced increase in submandibular polyamines and inhibited mucin secretion. Exogenous putrescine restored tissue polyamine levels and partially reversed the inhibitory effect of alpha-difluoromethylornithine on mucin secretion. Rapid increases in polyamine levels appear to mediate isoproterenol-stimulated mucin secretion in the rat submandibular gland.     

Physiologo-biochemical characteristics of Candida tropicalis yeasts, cultivated on n-alkanes at supraoptimal temperature]

Cultivation of Candida tropicalis IBEM 303 without thermostatic regulation on n-alkanes results in an increase of the temperature in the fermenter to supraoptimal values and to the linear growth of the culture without distinct differentiation according to the growth phases. The cells grown at supraoptimal temperature differ from the cells cultivated at optimal temperature by the amount of some amino acids and oligopeptides liberated by the yeast into the cultural broth, by the chemical composition of the cells and their morphology.     

Effect of NaCl concentrations in irrigation water on growth and polyamine metabolism in two citrus rootstocks with different levels of salinity tolerance

Six-months-old, uniform sized seedlings of two citrus rootstocks; Cleopatra mandarin (Citrus reshni Hort. ex Tan) and Troyer citrange (Poncirus trifoliata × Citrus sinensis) were irrigated with half-strength Hoagland nutrient solution containing 0, 40 or 80 mM NaCl for 12 weeks. Shoot height, leaf number and fresh weights of the seedlings, and relative chlorophyll contents, chlorophyll fluorescence yields (Fv/Fm), net photosynthetic and respiration rates in the leaves decreased with the increase in salinity level in the irrigation water. The decrease was greater in Troyer citrange as compared to Cleopatra mandarin. The concentrations of sugars i.e. fructose, glucose and sucrose in the leaves of Cleopatra mandarin and both leaves and roots of Troyer citrange decreased with the increase in salinity level. However, the concentrations in the roots of Cleopatra mandarin increased with the increase in salinity level. Free proline content in the leaves of Troyer citrange and root tissue of Cleopatra mandarin also increased with the increased salinity level. Among the polyamines, spermine titer increased in the leaves of both rootstocks as a response to salinity treatments. Na⁺ concentrations were higher in leaf and root tissue of Cleopatra mandarin, while that of Cl⁻ were higher in Troyer citrange.