Physiological responses of wheat seedlings to drought and UV-B radiation. Effect of exogenous sodium nitroprusside application

Physiological and biochemical responses of wheat seedlings to drought, UV-B radiation, and combined stress were investigated. Drought, UV-B, and combined stresses retarded seedling growth by 26.5, 29.1, and 55.9%, respectively. One reason for growth retardation may be the oxidative damage indicated by an increase in the H₂O₂ content and lipid peroxidation degree. Furthermore, there was negative correlation between shoot fresh weight and H₂O₂ content, fresh weight and the content of thiobarbituric acid-reacting substances (TBARS), and the positive correlation between H₂O₂ content and TBARS (R ² = 0.9251, 0.9005, and 0.9007, respectively). The activities of superoxide dismutase, guaiacol peroxidase, and ascorbate peroxidase increased under drought, UV-B, and the combination of stresses, while catalase activity decreased under the combined stress as compared to the control. The combination of drought and UV-B caused more severe damage to wheat seedlings than stress factors applied separately. Thus, the combined application of drought and UV-B had more strong adverse effects on wheat seedlings. The addition of 0.2 mM sodium nitroprusside (SNP) enhanced wheat seedling growth under drought, UV-B, and combined stress, likely, due to decreasing the accumulation of H₂O₂ and lipid peroxidation as well as activating the antioxidant enzymes. However, SNP treatment decreased the proline content. Published in Russian in Fiziologiya Rastenii, 2007, Vol. 54, No. 5, pp. 763–769. The text was submitted by the authors in English.     

外源脯氨酸对镉胁迫下小麦幼苗生长的影响

以高蛋白小麦品种“北农9549”为试材,研究喷施不同浓度脯氨酸(0、1.0、5.0和10.0 mmol·L-1)对镉胁迫下小麦幼苗生长和重金属吸收的影响.结果表明:以不施镉为对照,1.0 mmol·L-1CdCl2胁迫下,小麦幼苗的根长、株高和干质量分别显著下降24.0％、15.0％和27.5％,叶绿素a、b和类胡萝卜素含量分别显著下降23.3％、6.7％和30.8％,超氧化物歧化酶(SOD)活性降低了18.4％,内源脯氨酸、抗坏血酸和丙二醛(MDA)含量分别显著上升78.6％、31.5％和17.9％,细胞膜相对透性显著升高24.8％,过氧化物酶(POD)活性为对照的2.4倍,并且促进对铜的吸收,抑制锌的吸收.随外源脯氨酸浓度的增加,小麦幼苗的根长、株高、干质量、叶绿素和类胡萝卜素含量均逐渐恢复到对照水平,抗坏血酸、内源游离脯氨酸含量和SOD活性均上升,可溶性蛋白含量先上升后下降,POD活性、MDA含量和细胞膜相对透性下降,而锌积累量升高,镉、铜积累量下降.叶面喷施外源脯氨酸可缓解镉对小麦幼苗生长的胁迫,以喷施5.0～10.0 mmol·L-1外源脯氨酸效果最佳.     

内生细菌对盐胁迫下小麦幼苗脯氨酸和丙二醛的影响

以周麦18为试验材料,以内生菌252和254为供试菌株,试验采用盆栽法设置盐胁迫组、盐胁迫接菌组和对照组,研究不同盐浓度胁迫下接菌处理对小麦幼苗脯氨酸(Pro,proline)和丙二醛(MDA,malondialdehyde)含量的影响。结果表明:小麦幼苗在盐胁迫环境下,随着培养时间和盐浓度增加,盐胁迫组Pro含量先升后降。在前中期,盐胁迫组小麦Pro含量逐渐积累,提高了小麦抗逆性;在后期Pro含量较中期有一定程度下降,小麦逐渐对盐环境产生适应性。随着盐浓度升高,盐胁迫组小麦在不同培养阶段对盐环境的抵抗能力不同,每个时期对盐抵抗能力有一阈值,超过此盐浓度Pro含量下降,抵抗能力减弱。接菌处理后,小麦Pro含量升高,提高了抗盐胁迫能力,第14天时修复效果最明显,接菌252处理组和254处理组分别在盐浓度为200 mmol/L和250 mmol/L时高出盐胁迫组133.48%和91.48%。盐胁迫组MDA含量随时间延长先降后升,与Pro含量变化趋势相反。在前中期,盐胁迫组小麦膜质过氧化程度不高,对小麦正常代谢活动尚未造成严重影响,在后期MDA含量升高,盐胁迫组小麦逐渐枯萎。接菌后,降低了幼...     

Protective effect of inhibitors of succinate dehydrogenase on wheat seedlings during osmotic stress

The effect of malonate and sedaxane, a compound with the fungicidal effect which act as succinate dehydrogenase inhibitors, on the resistance of etiolated wheat seedlings (Triticum aestivum L.) to osmotic stress caused by 12% PEG 6000 solution, was studied. The presowing treatment of seeds with 0.3 mM sedaxane solution significantly reduced the inhibitory effect of osmotic stress on seedling growth. The protective effect of 10 mM malonate was significant when it was added to the incubation medium of the roots; the effect of preseeding treatment with malonate was less significant. Unlike malonate, malate had no positive effect on seedling growth under osmotic stress. The activity of succinate dehydrogenase and the hydrogen peroxide content decreased in seedlings after the treatment of roots with malonate and sedaxane. Pretreatment with sedaxane and the addition of malonate to the incubation medium of roots prevented the accumulation of a lipid peroxidation product, malondialdehyde, which is caused by osmotic stress, and increased peroxidase activity. It was concluded that the stress-protective effect of sedaxane and malonate on wheat seedlings might be due to the inhibition of succinate dehydrogenase-dependent formation of reactive oxygen species and the prevention of oxidative cell damage.     

Effect of osmotic stress on glutathione and hydroxymethylglutathione accumulation in wheat

The effect of osmotic stress on glutathione and hydroxymethylglutathione levels was compared in three wheat genotypes and two 5A chromosome substitution lines. Freezing-tolerant genotypes seemed also to be tolerant to osmotic stress induced by polyethylene glycol (PEG), since their fresh weight was not affected by the treatment. However, the growth of freezing-sensitive genotypes was reduced by 7-day PEG treatment and they had greater injuries after osmotic stress. The reduced forms of the two glutathione precursors, cysteine and gamma-glutamylcysteine, and of hydroxymethylglutathione (hmGSH) and glutathione (GSH) were present in greater quantities after PEG treatment in the two tolerant genotypes than in the sensitive ones. Similarly, osmotic stress resulted in a higher ratio of the reduced to the oxidised form of these thiols and in greater activity of gamma-glutamylcysteine synthetase and glutathione reductase in the tolerant genotypes compared to the sensitive ones. Following in vivo glutathione synthesis, a greater incorporation of radioactivity from [35S]sulphate into the four thiols was found in the tolerant genotypes than in the sensitive ones during osmotic stress. The present results indicate that hmGSH and GSH may contribute to the improvement of tolerance against osmotic stress in wheat and that the 5A chromosome influences the stress-induced changes in GSH and hmGSH levels.     

ROS generation and proline metabolism in calli of halophyte Nitraria tangutorum Bobr. to sodium nitroprusside treatment

Nitric oxide (NO) is a stress factor or a signal molecule involved in various plant physiological and developmental processes. In the present study, the generation of reactive oxygen species and the metabolism of proline due to different sodium nitroprusside (SNP, an NO donor) concentrations were investigated in callus from halophyte Nitraria tangutorum Bobr. Treatment with SNP led to significant increases of hydrogen peroxide (H₂O₂) content and cell viability but notable reductions in hydrogen radical level and lipid peroxidation degree, and superoxide onion (O₂ ^?) content also enhanced in 100 μM SNP-treated calli. Using a chemical inhibitor for plasma membrane (PM) NADPH oxidase diphenylene iodonium (DPI), we found low O₂ ^? generation in untreated and 25 μM SNP-treated calli, whereas in those treated with 100 μM SNP O₂ ^? level exhibited a very little alteration, comparable to the absence of DPI. These suggest a high activity of PM NADPH oxidase in untreated calli. H₂O₂ scavenging enzymes (catalase, peroxidase [POD] and ascorbate peroxidase) and H₂O₂ forming enzymes (superoxide dismutase [SOD], cell wall-POD and diamine oxidase [DAO]) stimulated significantly in calli treated with different SNP concentrations while glutathione reductase activity decreased. In addition, a reduction in proline content was observed in SNP-treated calli. Moreover, different SNP concentrations stimulated proline dehydrogenase (PDH) and ornithine δ-aminotransferase but inhibited r-glutamyl kinase (GK). In conclusion, our results suggest that the increasing H₂O₂ generation was associated with the stimulation of SOD, cell wall-POD and DAO, and that the reduction of proline content might be the consequence of increased PDH activity and decreased GK activity in N. tangutorum Bobr. calli under SNP treatment.     

Weak microwave can alleviate water deficit induced by osmotic stress in wheat seedlings

The aim of the investigation is to determine the effect of microwave pretreatment of wheat seeds on the resistance of seedlings to osmotic stress. Changes in biophysical, physiological and biochemical characters were measured. The results showed: (1) The magnetic field intensity and seeds temperature increased progressively with microwave pretreatments of 5, 10, 15, 20 s and 25 s compared with controls. Although each microwave pretreatment resulted in an increase in alpha-amylase activity and photon emission intensity, the increase of alpha-amylase activity and photon emission intensity was maximal at a microwave pretreatment of 10 s. (2) Osmotic stress induced by PEG treatment enhanced the concentration of malondialdehyde, while decreasing the activities of nitricoxide synthase, catalase, peroxidase, superoxide dismutase and the concentration of nitric oxide, ascorbic acid, glutathione in the seedlings compared with controls. However, compared to osmotic stress alone, in the seedlings treated with microwave irradiation plus osmotic stress the concentration of malondialdehyde decreased, while the activities of nitricoxide synthase, catalase, peroxidase, superoxide dismutase and the concentration of nitric oxide, ascorbic acid and glutathione increased. These results suggest that a suitable dose of microwave radiation can enhance the capability to eliminate free radicals induced by osmotic stress in wheat seedlings resulting in an increase in resistance to osmotic stress.     

Nitrogen fixation in Klebsiella pneumoniae during osmotic stress. Effect of exogenous proline or a proline overproducing plasmid

Osmotic stress, imposed by 0.5 M NaCl or other electrolytes and non-electrolytes, caused over a 100-fold reduction in the whole-cell nitrogen fixation activity of Klebsiella pneumoniae, wild-type strain M5A1. This reduction of nitrogen fixation activity could be reversed by the addition of proline to the culture medium at 0.5 mM concentration. With 0.5 M NaCl, in the presence of proline, nitrogenase activity was 47-fold greater than in the absence of proline. A mutation, originally isolated in Salmonella typhimurium, which resulted in proline over-production and enhanced osmotolerance, was transferred into K. pneumoniae by F' conjugation. Intracellular proline, synthesized at high levels because of the mutation, had similar stimulatory effects on nitrogen fixation under osmotic stress as proline provided exogenously. In the overproducing strain, the cellular level of proline is elevated as much as 125-fold during stress over that seen in the control strain. To determine the mechanism of stimulation of nitrogen fixation by proline during stress, the biosynthesis of nitrogenase polypeptides was studied. Net nitrogenase biosynthesis and the biosynthesis of other unidentified peptides, is strongly inhibited during osmotic stress; proline reverses the inhibition. The role of proline in enhancing nitrogen fixation during osmotic stress is discussed.     

渗透胁迫下不同抗旱性小麦幼苗氨同化差异

在渗透胁迫下,测定了不同抗旱性小麦（抗旱性强的品种洛旱6号和抗旱性弱的品种周麦18）幼苗氨同化酶及相关参数的变化.结果表明:小麦生物量在渗透胁迫下明显降低,且抗旱性弱的周麦18降幅较大.铵态氮含量随胁迫程度的增加而增加,且周麦18增加较明显;谷氨酰胺合成酶(GS)活性在不同抗旱性品种间表现不同,抗旱性强的洛旱6号在低渗透胁迫下显著增加,在高渗透胁迫下明显降低,而周麦18随胁迫程度的增加逐渐降低;依赖还原型辅酶Ⅰ的谷氨酸脱氢酶(NADH-GDH)活性随胁迫程度的增加逐渐加大,低渗透胁迫下周麦18增加较明显,高渗透胁迫下洛旱6号增幅较大;依赖氧化型辅酶Ⅰ的谷氨酸脱氢酶(NAD^+-GDH)和依赖氧化型辅酶Ⅱ的异柠檬酸脱氢酶(NADP-ICDH)活性均随胁迫程度的增加而增加,周麦18的NAD^+-GDH活性、洛旱6号的NADP-ICDH活性增幅较大.表明小麦抗旱性的提高与铵态氮同化的增强有关,低渗透和高渗透胁迫下分别依赖GS和NADH-GDH活性的增加.     

Salicylic acid and nitric oxide alleviate osmotic stress in wheat (Triticum aestivum L.) seedlings

Salicylic acid (SA) and nitric oxide (NO) are reported to alleviate the damaging effects of stress in plants rather similarly when applied at appropriate low concentrations. An experiment was therefore conducted to study the impact of SA, sodium nitroprusside (SNP; as NO donor), and methylene blue (MB; as a guanylate cyclase inhibitor) on wheat seedling performance under osmotic stress. Osmotic stress significantly reduced shoot fresh weight (SFW), chlorophyll contents (Chla, Chlb, total Chl), and membrane stability index (MSI) and also increased malondialdehyde (MDA) level, lipoxygenase (LOX) activity, and hydrogen peroxide production. Moreover, enzymatic antioxidant activities including superoxide dismutase, guaiacol peroxidase, and glutathione reductase activity were enhanced under osmotic stress. On the contrary, SA or SNP pretreatment reduced the damaging effects of osmotic stress by further enhancing the antioxidant activities that led to increased SFW, Chl, and MSI and reduced MDA level and LOX activity. However, pretreatment of plants with MB reversed or reduced the protective effects of SA and SNP suggesting that the protective effects were likely attributed to NO signaling. Therefore, NO may act as downstream of SA signaling in reduction of induced oxidative damage in wheat seedlings.     

Changes in proline level in response to osmotic stress and exogenous amino acids in Raphanus sativus L. seedlings

The changes in endogenous proline levels of Raphanus sativus L. seedlings was monitored in presence of exogenous amino acids in normal and osmotically stressed seedlings. In unstressed seedlings, proline uptake was detected only at higher (1 mM) concentration of applied L-proline. however, proline uptake was promoted at all (1 μM to 1000 μM) concentrations of applied L-proline under osmotic stress conditions. Amongst other exogenous amino acids, L-leucine, L-glutamic acid, L-alanine, and L-histidine enhanced endogenous levels of proline, while exogenous hydorxyproline and γ-amino butyric acid reduced it.     

Effect of water stress on growth and proline metabolism of Phaseolus vulgaris L.

Summary The effect of water stress on growth (fresh weight, dry weight), water relations (water saturation deficit, water potential, osmotic pressure), and proline metabolism in Phaseolus vulgaris were studied.Experimentally, water deficit was produced by reduced watering of the bean plants. This resulted in a decrease in water potential and leaf fresh and dry weight. Increases in the water saturation deficit and the osmotic pressure of the sap were, however, recorded. Water stress was also induced by treatment of the plants with polyethylene glycol, but its effects on the above mentioned parameters were different. In addition, necrosis of the foliage was observed. According to the present results, polyethylene glycol seems to be suitable only for the induction of short-termed water stress conditions.The effects of water stress on growth and on water relations of the plants were accompanied by a marked increase in the free amino acid content, especially that of the free proline content of the plants. The activities of the proline dehydrogenase and glutamate dehydrogenase were stimulated under water stress conditions, indicating that proline accumulation in water stressed plants is not attributed to an inhibited proline breakdown. The accumulated proline was metabolized rapidly once the water deficit of the plant was relieved by watering. The ability of the plant to accumulate proline might be of ecological importance for the plant and might be an adaption mechanism of the plant to overcome short periods of drought.Abbreviations -Kg -ketoglutarate - GDH glutamate dehydrogenase - PDH proline dehydrogenase - P5C -pyrroline-5-carboxylic acid - PEG polyethylene glycol - WSD water saturation deficit     

不同CO2浓度下渗透胁迫对小麦膜伤害的影响

研究了常规CO     

Effects of the nitric oxide donor sodium nitroprusside on antioxidant enzymes in wheat seedling roots under nickel stress

The inhibitory effect of nickel on the growth of wheat (Triticum aestivum L.) seedlings and the alleviation of nickel toxicity by nitric oxide (NO) were investigated. Nickel (Ni) at 100 μM caused striking reduction in seedling growth and significant overproduction of MDA and H₂O₂ in the roots. Supplementation with NO donor sodium nitroprusside (SNP) could significantly reverse the inhibitory effect of nickel in a dose-dependent manner. K₃Fe(CN)₆, a SNP analogue, which does not release NO, had no ameliorative effect on Ni toxicity in wheat.. In addition, application of 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO), a NO scavenger, could dramatically counteract the stimulatory effects of SNP on the growth of wheat seedling roots under Ni stress, confirming that NO rather than other compounds derived from SNP was responsible for the alleviating effect of Ni toxicity. Further results showed that SNP enhanced the activities of guaiacol peroxidase (POD, EC 1.11.1.7), ascorbate peroxidase (APX, EC 1.11.1.11), superoxide dismutase (SOD, EC 1..1..5.1..1), glutathione reductase (GR, EC 1.6.4.2), and glutathione S-transferase (GST, EC 2.5.1.18) in wheat seedling roots under nickel stress, while no significant difference in the activity of catalase (CAT, EC 1.11.1.6) in wheat roots supplemented with SNP or without it was observed. These results clearly indicate that NO has a protective role in Ni-induced oxidative damage through modulation of antioxidant enzymes.     

钙离子对盐胁迫小麦幼苗氮代谢的影响

为探讨增强小麦抗盐能力的调控途径,以普通小麦豫麦34为材料,研究了Ca2+对盐胁迫下小麦幼苗氮代谢及生长的影响.采用全营养液培养小麦幼苗至第一片叶完全展开,更换无钙营养液,并开始不同处理.处理分别为低盐胁迫(150 mmol · L-1 NaCl)、低盐胁迫+4 mmol · L-1 Ca2+、高盐胁迫(300 mmol · L-1 NaCl)、高盐胁迫+4mmol · L-1 Ca2+,以无NaCl胁迫的小麦为对照.5 d后取样,测定了氮同化酶活性、代谢物含量、积累量及幼苗生长状况.结果表明,Ca2+明显缓解了低盐胁迫对小麦幼苗的生长抑制,表现在鲜重、叶绿素及可溶性蛋白含量的增加,而对高盐胁迫下小麦幼苗的生长无明显改善效果;Ca2+改善了低盐胁迫下小麦幼苗的氮营养状况,表现在氮积累量的增加,这一效应主要是通过硝酸还原酶(NR)、谷氨酰胺合成酶(GS)以及异柠檬酸脱氢酶(NADP-ICDH)活性的增强而实现的.Ca2+未能改善高盐胁迫下小麦幼苗氮营养状况的主要限制因子在于NADP-ICDH活性未明显增加.     

Moderately increased constitutive proline does not alter osmotic stress tolerance

Proline-overproducing carrot cell lines were isolated by selection in medium containing hydroxyproline, a toxic analogue of proline. During growth of the cells in culture, length of lag phase, doubling time, and maximum fresh weight were the same for the hydroxyproline-resistant cell line (HP) and the wild-type cell line (JW). Proline content and resistance to hydroxyproline in the HP and JW lines were not strictly correlated indicating that another reason besides the constitutive level of proline is involved in hydroxyproline resistance. Tolerance to polyethylene glycol-induced desiccation stress was not different between the two lines except perhaps at the early stages of culture growth when the proline levels of the two cell lines were nearly the same. The complexity of the relationship between proline accumulation and osmotolerance is discussed and strategies to achieve constitutive high levels of proline accumulation in plants are proposed.