Interactions between osmoregulation and the alternative respiratory pathway in Plantago coronopus as affected by salinity

Plantago coronopus L., a species from the coastal zone, was grown in culture solution with and without 50 mM NaCl. In addition it was transferred from a non-saline solution to a solution containing 50 mM NaCl. Short term effects of NaCl on growth and various aspects of energy metabolism, including photosynthesis, shoot dark respiration, root respiration and the contribution of the SHAM-sensitive alternative pathway to root respiration were investigated. The concentrations of soluble and insoluble non-structural carbohydrates and of sorbitol a compatible osmotic solute in Plantago, in both shoots and roots were also determined. Growth of shoots and roots was largely unaffected by addition of 50 mM NaCl. Net photosynthesis, shoot dark respiration and the concentration of non-structural carbohydrates in both shoots and roots were also unaffected by salinity. The rate of root respiration immediately decreased upon addition of 50 mM NaCl. This decrease was almost exclusively attributed to a decreased activity of the SHAM-sensitive alternative pathway. The concentration of sorbitol in the roots increased quickly after addition of 50 mM NaCl, whilst the increase in sorbitol concentration in the shoots started later. The time course of the increase of sorbitol concentration was similar to that of the decrease in activity of the alternative pathway. During the first 12 h after exposure to 50 mM NaCl, the amount of carbohydrates which was saved in respiration, due to the decreased activity of the alternative pathway, was the same as that used for sorbitol synthesis in the roots. It is concluded that the activity of the alternative pathway decreased due to increased utilization of carbohydrates for sorbitol synthesis, according to a proposed ‘energy overflow model’. After 24 h, the sorbitol concentration in the cytoplasm of the root cells of plants transferred to a saline solution reached a level that was sufficient to compensate for 50 mM NaCl, assuming a cytoplasmic volume of ca. 10% of the total cell volume. The sorbitol concentration in roots of plants grown in a saline environment for several weeks was lower than that in roots of plants transferred to a saline environment for c. 24 h. It is suggested that sorbitol accumulated in roots of Plantago coronopus as an immediate reaction upon salinity, whilst other adaptations may occur thereafter.     

水杨酸对低温胁迫香蕉幼苗呼吸作用的影响

探讨了水杨酸 (salicylicacid ,SA)对低温胁迫香蕉幼苗叶片呼吸作用的影响。在常温下用 0 .5mmol/LSA水溶液处理香蕉幼苗 ,能明显提高香蕉幼苗的抗氰呼吸和细胞色素呼吸 ,增加总呼吸量 ,提高产热量 ;在随后 7℃低温胁迫与常温恢复期间SA预处理 ,能抑制总呼吸速率的下降 ,这种对总呼吸下降的抑制与此时细胞色素途径维持在较高的水平有关 ,而与抗氰呼吸无关。此时也未检测到SA预处理植株叶片产热量增加的现象     

Effect of cadmium on growth and respiration of barley plants grown under two temperature regimes

We studied cadmium effect on the respiratory pathways ratio in the organs of barley (Hordeum distichum L., cv. Novichok) plants grown in water culture at two temperature regimes. Mineral nutrients were supplied daily in exponentially increasing amounts in order to provide for steady-state growth. CdSO₄ (30, 60, or 100 μmol/l) was added to nutrient solution at a single time in the beginning of the exponential growth period (19 days after germination). In further 6 days, the relative growth rate and biomass accumulation declined stronger with the increase in the cadmium concentration in plants grown at 13/8°C (day/night) than at 21/17°C (day/night). Cadmium suppressed root respiration (down to 60% of control) stronger than leaf respiration, and the roots manifested a higher sensitivity to the inhibitor of alternative oxidase, salicylhydroxamic acid. The respiratory pathways ratio in the roots occurred against the background of activated lipid peroxidation (POL). The highest POL activity and the highest proportion of alternative respiration pathway (AP) (up to 46% of total respiration) were observed in the roots in the presence of the highest cadmium concentration (100 μM) under lower temperature (13/8°C). Thus, high cadmium concentrations affected strongly the total rate of respiration and respiratory pathways ratio. Growth temperature modulated Cd effects on respiration. AP activation is one of the mechanisms for maintenance of root cell homeostasis under cadmium-induced stress.     

Alternative Respiration Pathways and Secondary Metabolism in Plants with Different Adaptive Strategies under Mineral Deficiency

The costs of adaptation respiration, the contribution of different biochemical pathways of respiration and alternative oxidases to the adaptation to mineral deficiency were compared in plant species representing different types of adaptive strategies: ruderal (Ru) (Amaranthus retroflexus L. and Leonurus quinquelobatus Gilib.) and predominantly stress-tolerant type (St) (Dactylis glomerata L. and Medicago sativa L.). The adaptation component of the total dark respiration was calculated on the basis of the relative growth rate and the ratio of dark respiration to gross photosynthesis. Adaptation costs were greater in less tolerant species. The inhibitory analysis showed that the contribution of glycolytic pathway decreased and the proportion of oxidative pentose phosphate pathway and residual respiration increased in the intolerant Ru-species under the conditions of abiotic stress. Conversely, in the tolerant St-species, the contribution of glycolysis increased. In all species studied, the contribution of the cytochrome pathway of substrate oxidation was reduced and the contribution of the alternative cyanide-insensitive and residual respiration increased under conditions of mineral deficiency; this phenomenon was particularly pronounced in a less tolerant species L. quinquelobatus. In the species characterized by Ru-strategy, stress increased the content of phenolic compounds and shikimic acid. We suppose that the adaptation respiration costs are associated with alternative biochemical pathways and alternative cyanide-resistant oxidase. The role of these pathways in the plants with St-strategy consists in maintaining the active state of oxidative pathways, whereas in the plants with Ru-strategy, they serve to burn excess metabolites and enhance the synthesis of secondary metabolites, which perform protective functions.     

成熟和褐变荔枝果实呼吸作用和脂氧合酶活性

荔枝果实完全成熟和果皮变鮮红时,呼吸速率降低,仅相当于果皮带绿时的39.4％。此时果皮和果肉的脂氧合酶活性亦明显降低,分别相当于后者的60.2％和49.1％。成熟荔枝果实果皮呼吸作用对KCN抑制敏感。2mM KCN抑制果皮总呼吸的91.8％,而仅抑制果肉的56.9％。荔枝果皮呼吸的电了传递主要是通过细胞色素氧化酶途径,而果肉則可能一半是通过其它氧化酶途径。2mKCN和1.5mM SHAM抑制成熟果皮总呼吸97.9％,为SHAM抑制的交替途径呼吸占总呼吸5.28％。相同浓度KCN和SHAM抑制褐变果皮总呼吸79.7％,则SHAM抑制的交替途径呼吸占27.1％。果实褐变时,果成交替途径呼吸比例增高。这一变化可能促进H_2O_2积累、乙烯产生和果皮褐变深化。     

Growth, photosynthesis and respiration in Plantago coronopus as affected by salinity

Plantago coronopus was grown in a non-saline culture solution and in a culture solution containing 50 m M NaCl. The rates of dry matter accumulation in both roots and shoots were not affected by 50 m M NaCl. Photosynthesis, expressed per shoot, was also the same in both environments. Neither the rate of shoot respiration nor that of root respiration was affected by salinity. In both environments the alternative respiratory pathway contributed to the same extent in root respiration. The activity of the alternative pathway decreased with increasing age. Since the respiratory activities were the same in plants grown under both saline and non-saline conditions and since the alternative respiratory pathway was also equally active in roots under both environmental conditions, it is concluded that respiratory costs involved in growth in 50 m M NaCl are negligible in terms of the plant's total energy costings.     

高温干旱对不同品种辣椒生长及呼吸作用的影响

研究了高温干旱胁迫对不同品种辣椒生长及呼吸作用的影响。结果表明,高温胁迫对正椒13号的生长无影响,对鸡爪×吉林的生长稍有抑制;干旱及高温干旱严重地抑制了辣椒的生长。干旱导致叶片相对电导率的增加高于高温,而高温加剧了干旱伤害程度,并且对鸡爪×吉林的伤害更大。高温处理引起了辣椒总呼吸、细胞色素呼吸和交替呼吸的增加。干旱胁迫抑制了细胞色素呼吸,但诱导了交替呼吸的增强;高温干旱共同胁迫加剧了总呼吸和细胞色素呼吸的下降,交替呼吸只在胁迫第一天被促进,随后立即下降。高温、干旱和高温干旱胁迫下正椒13号表现出了较鸡爪×吉林更强的交替呼吸和总呼吸。说明高温、干旱和高温干旱胁迫下辣椒保持较高的总呼吸和交替呼吸与其抗高温和/或干旱能力相关。     

盐逆境下转基因耐盐小麦与其受体呼吸途径的动态变化

以转基因耐盐品种８９１２２和其受体陇春１３号两种小麦为实验材料,研究科幼苗在不同盐浓度胁迫下呼吸途径动态变化。结果表明,８９１２２出现盐呼吸明显迟于其受体;两听Ｖａｌｔ与ρＶａｌｔ变化并不同步,且Ｖａｌｔ均受高盐浓度的抑制,但低盐浓度能诱导其受体的Ｖａｌｔ;两品种的ρＶａｌｔ与ρ′Ｖｃｙｔ彼此协同调节适应盐境,且ρ′Ｖｃｙｔ仍是盐胁迫过程中线粒体电子传递的主要途径。同时讨论了盐逆境下抗氰呼吸的一些     

Salinity tolerance is related to cyanide‐resistant alternative respiration in Medicago truncatula under sudden severe stress

Salt respiration is defined as the increase of respiration under early salt stress. However, the response of respiration varies depending on the degree of salt tolerance and salt stress. It has been hypothesized that the activity of the alternative pathway may increase preventing over‐reduction of the ubiquinone pool in response to salinity, which in turn can increase respiration. Three genotypes of Medicago truncatula are reputed as differently responsive to salinity: TN1.11, A17 and TN6.18. We used the oxygen‐isotope fractionation technique to study the in vivo respiratory activities of the cytochrome oxidase pathway (COP) and the alternative oxidase pathway (AOP) in leaves and roots of these genotypes treated with severe salt stress (300 mM) during 1 and 3 days. In parallel, AOX capacity, gas exchange measurements, relative water content and metabolomics were determined in control and treated plants. Our study shows for first time that salt respiration is induced by the triggered AOP in response to salinity. Moreover, this phenomenon coincides with increased levels of metabolites such as amino and organic acids, and is shown to be related with higher photosynthetic rate and water content in TN6.18.     

干旱胁迫下表观遗传机制对转C4型PEPC基因水稻种子萌发的影响

为探究干旱胁迫下表观遗传机制对高表达玉米(Zea mays) C₄型PEPC转基因水稻(Oryza sativa)种子萌发的影响, 以转C₄型PEPC水稻(PC)和野生型水稻Kitaake (WT)为试材, 采用10% (m/v)聚乙二醇6000 (PEG6000)模拟干旱条件, 通过单独和联合施用PEG6000、DNA甲基化抑制剂5-氮杂胞苷(5azaC)和可变剪接抑制剂大环内酯类(PB)进行种子发芽实验, 测定种子活力、萌发过程中可溶性糖和可溶性蛋白含量、α-淀粉酶活性以及PEPC、糖信号相关基因和部分剪接因子基因的表达。结果表明, 0.25 µmol·L^-1PB处理对2种供试水稻在干旱条件下种子萌发均表现出显著抑制作用, 使干旱条件下种子萌发过程中可溶性总糖、蔗糖、葡萄糖和果糖含量以及可溶性蛋白含量均有所下降, PB也抑制糖信号-蔗糖非发酵1 (SNF1)相关蛋白激酶(SnRKs)家族和剪接因子丝氨酸/精氨酸富集蛋白家族(SR proteins)相关基因的表达以及α-淀粉酶的活性, 但对PC的抑制作用小于WT。5 µmol·L^-15azaC处理对干旱条件下种子萌发的效果与可变剪接抑制剂相反。5 µmol·L ^-1 5azaC联合PEG6000干旱处理部分减缓了干旱对水稻种子发芽率的抑制作用, 使供试材料发芽率升高, 表明DNA甲基化和可变剪接机制参与了水稻芽期干旱耐性, 其中对PC的作用更大。     

Effects of Epigenetic Mechanisms on C4 Phosphoenolpyruvate Carboxylase Transgenic Rice (Oryza sativa) Seed Germination Under Drought Stress

为探究干旱胁迫下表观遗传机制对高表达玉米(Zea mays) C₄型PEPC转基因水稻(Oryza sativa)种子萌发的影响, 以转C₄型PEPC水稻(PC)和野生型水稻Kitaake (WT)为试材, 采用10% (m/v)聚乙二醇6000 (PEG6000)模拟干旱条件, 通过单独和联合施用PEG6000、DNA甲基化抑制剂5-氮杂胞苷(5azaC)和可变剪接抑制剂大环内酯类(PB)进行种子发芽实验, 测定种子活力、萌发过程中可溶性糖和可溶性蛋白含量、α-淀粉酶活性以及PEPC、糖信号相关基因和部分剪接因子基因的表达。结果表明, 0.25 μmol·L^-1PB处理对2种供试水稻在干旱条件下种子萌发均表现出显著抑制作用, 使干旱条件下种子萌发过程中可溶性总糖、蔗糖、葡萄糖和果糖含量以及可溶性蛋白含量均有所下降, PB也抑制糖信号-蔗糖非发酵1 (SNF1)相关蛋白激酶(SnRKs)家族和剪接因子丝氨酸/精氨酸富集蛋白家族(SR proteins)相关基因的表达以及α-淀粉酶的活性, 但对PC的抑制作用小于WT。5 μmol·L^-15azaC处理对干旱条件下种子萌发的效果与可变剪接抑制剂相反。5 μmol·L ^-1 5azaC联合PEG6000干旱处理部分减缓了干旱对水稻种子发芽率的抑制作用, 使供试材料发芽率升高, 表明DNA甲基化和可变剪接机制参与了水稻芽期干旱耐性, 其中对PC的作用更大。     

The alternative oxidase in roots of poa annua after transfer from high-light to low-light conditions

The activity of the alternative pathway can be affected by a number of factors, including the amount and reduction state of the alternative oxidase protein, and the reduction state of the ubiquinone pool. To investigate the importance of these factors in vivo, we manipulated the rate of root respiration by transferring the annual grass Poa annua L. from high-light to low-light conditions, and at the same time from long-day to short-day conditions for four days. As a result of the low-light treatment, the total respiration rate of the roots decreased by 45%, in vitro cytochrome c oxidase capacity decreased by 49%, sugar concentration decreased by 90% and the ubiquinone concentration increased by 31%, relative to control values. The absolute rate of oxygen uptake via the alternative pathway, as determined using the 18O-isotope fractionation technique, did not change. Conversely, the cytochrome pathway activity decreased during the low-light treatment; its activity increased upon addition of exogenous sugars to the roots. Interestingly, no change was observed in the concentration of the alternative oxidase protein or in the reduction state of the protein. Also, there was no change in the reduction state of the ubiquinone pool. In conclusion, the concentration and activity of the alternative oxidase were not changed, even under severe light deprivation.     

The relationship between phosphate status and cyanide-resistant respiration in bean roots

Bean ( Phaseolus vulgaris L.) seedlings were cultured on complete or phosphate-deficient nutrient medium. After 14 days of culture on phosphate-deficient medium the visible symptoms of P_i deficiency were observed only in the shoot, the fresh and dry weights of the roots were slightly higher than in control plants. The decreased P_i content in the roots had little effect on total respiration rate but had an effect on the level of inhibition of respiration by cyanide. The high resistance of respiration to cyanide observed in P_i-deficient roots was the result of the suppression of cytochrome path activity and an increased participation of the alternative, cyanide-resistant pathway. The cytochrome pathway activity increased when inorganic phosphate was supplied to P_i-deficient roots for 1 or 3.5 h. It is speculated that the suppression of cytochrome pathway in P_i-deficient roots may result from restriction of the phosphorylating capacity or a partial inhibition of cytochrome oxidase activity.     

Importance of the cytochrome pathway of mitochondrial electron transport over the alternative pathway during the Kok effect in leaf discs of pea (Pisum sativum)

The Kok effect refers to the progressive light-induced inhibition of dark respiration at low light intensities, which saturates around the light compensation point. This appears as a sudden break around the light compensation point in the plot of photosynthesis versus light intensity. The magnitude of the break can be considered as a measure of the Kok effect. In the present work, the importance of different components of dark respiration during the Kok effect was investigated by using low concentrations of mitochondrial inhibitors in leaf discs of pea ( Pisum sativum L. cv. Azad P1). The effects of glucose (stimulates respiration) and 0.8 M sorbitol (imposes osmotic stress and inhibits photosynthesis) were also studied for comparison. The magnitude of the break decreased significantly in the presence of antimycin A or oligomycin (inhibitors of cytochrome pathway of mitochondrial electron transport and ATP synthase, respectively). In contrast, there was no significant change with salicylhydroxamic acid (SHAM; an inhibitor of alternative pathway of mitochondrial electron transport). The magnitude of the break increased significantly with glucose, and decreased on exposure to osmotic stress. Our results suggest that the Kok effect (inhibition of dark respiration in light) is modulated by inhibitors of cytochrome pathway and ATP synthesis, but not that of the alternative pathway.     

水分胁迫下小麦幼苗呼吸代谢的改变

水分胁迫下小麦幼苗叶和根的呼吸速率变化模式不同:叶片呼吸在胁迫初期升高,然后随相对含水量进一步递减而急剧下降;根的呼吸速率随相对含水量降低成指数下降。自然干旱和PEG渗透胁迫下得到的结果基本一致。小麦叶片在轻度水分胁迫下呼吸上升与磷酸化解偶联有关。水分胁迫也引起呼吸代谢途径的改变。轻度水分胁迫使叶片呼吸速率升高时,EMP途径运行程度稍有上升;增加的呼吸主要通过TCAC;线粒体呼吸中通过细胞色素主链的电子流量增加,抗氰交替途径的相对运行程度下降。当水分胁迫降低根呼吸速率时,EMP和TCAC的运行程度明显降低;细胞色素途径的运行程度也下降,但仍传递大约一半的呼吸电子流。     

Changes in the Root System of Wheat Seedlings Following Root Anaerobiosis I. Anatomy and Respiration in Triticum aestivum L.

Anatomical changes in roots of wheat seedlings (Triticum aestivumL. cv. Hatri) following oxygen deficiency in the rooting mediumwere investigated. The response of the plant to stress was testedat a very early developmental stage when the first adventitiousroots had just emerged. In order to analyze the adaptation ofdifferent roots, respiration rates of the roots 1–3 and4–n were compared with the respiration rates of the totalroot system. Oxygen deficiency was induced either by flushingnutrient solution with nitrogen or flooding of sand. In contrast to plants grown in well aerated media, both stressvariants led to a significant increase of the intercellularspace of the root cortex in seminal and first adventitious roots.Radial cell enlargement of cortical cells near the root tip,cell wall thickenings in flooded sand cultures and an increasein phloroglucinol-stainable substances were found to be furtherindicators of low oxygen supply. The roots 4–n which were promoted in growth under hypoxiashowed higher respiration rates; hence the total root respirationwas not restricted. Triticum aestivum L. cv. Hatri, wheat, roots, anatomy, anaerobiosis, stress, root respiration, intercellular space     

Inheritance of cyanide-resistant respiration in two cultivars of pea (Pisum sativum L.)

Abstract Two pea cultivars (Pisum sativum L., cvs. Alaska and Progress No. 9) shown previously to differ with regard to the appearance of the cyanide-resistant (alternative) pathway of respiration in axis tissue, were found to show this same difference in mature leaf tissue and in epicotyl mitochondria. The possible relationship between dwarf growth form and lack of alternative respiration in cv. Progress No. 9 was tested in two ways. When dwarfism was alleviated in Progress No. 9 by application of exogenous gibberellin A₁, no appearance of the alternative pathway was observed. In a survey of eight other dwarf pea cultivars, five were found to have an alternative pathway comparable to that shown by the tall cv. Alaska, while three lacked the pathway (cf. Progress No. 9). In reciprocal crosses between Alaska and Progress No. 9, the alternative pathway capacity of F₁ progeny resembled that of the maternal parent. This pattern was maintained in all the F₂ generation, indicating maternal inheritance of the trait. These data suggest that alternative respiration in pea is, to some extent, under the control of an organellar genome.     

Effect of Drought on Metabolism and Partitioning of Carbon in Two Wheat Varieties Differing in Drought-tolerance

A model was constructed to describe the partitioning of carbonon the third and seventh day from anthesis for well-wateredand droughted plants of two wheat varieties (Triticum aestivumL. cv. Warigal and Condor). The glasshouse-grown plants weredetillered so that a simplified model could be derived for themain stem. The 9-d drought treatment, imposed just after anthesisduring the period of cell division in the grains, reduced grainyield by 18 per cent in Warigal and 30 per cent in Condor. Netcarbon fixation was up to 60 per cent higher in Warigal thanCondor towards the end of the drought period and this correlatedwith better osmotic adjustment in the flag leaf. Carbon partitioningbetween plant organs responded to water deficit more rapidlythan net carbon fixation. On day 3, carbon allocation to theroots of droughted plants was maintained in Condor and increasedby 14 per cent in Warigal, whereas carbon allocation to theear decreased in both varieties. However the roots did not competewell with the ear when the water deficit became more severe.Warigal accumulated 3 times more stem reserves than Condor underdrought. In the roots, the pattern of carbon allocation betweenrespiration and carbon accumulation changed soon after impositionof drought. Although total root respiration decreased underdrought it became more energy efficient, particularly for Warigal,as less respiration took place via the alternative pathway.On day 3, the larger carbon allocation to the roots and thelower root respiration accounted for the 4-times larger sugaraccumulation in droughted roots of Warigal compared with thoseof Condor. Osmotic adjustment in mature leaves and roots maybe of importance for the maintenance of vital processes andfor recovery after drought. Triticum aestivum L., wheat, drought, carbon, partitioning     

Cytochrome and alternative pathway respiration in white spruce (Picea glauca) roots. Effects of growth and measurement temperature

Interactions between growth temperature and measurement temperature were examined for their effects on white spruce [ Picea glauca (Moench) Voss] root respiration. Total dark respiration rates increased with measurement temperature and were unaffected by growth temperature. Partitioning of respiratory electron flow between the cytochrome and alternative pathways was also unaffected by growth temperature. The proportion of respiration mediated by the alternative pathway was constant at measurement temperatures between 4°C and 18°C, but was increased at higher temperatures. Changes in alternative pathway activity were paralleled by changes in capacity, and the alternative pathway was almost fully engaged at all temperatures. Roots grown at low temperature displayed higher carbohydrate levels than roots grown at higher temperatures, but respiration rate was unaffected. Spruce root respiration did not appear to acclimate to growth temperature, and the alternative pathway was not preferentially engaged at low temperature.     

镉及其与钙组合对褐脉少花龙葵毛状根生长、抗氧化酶活性和吸收镉的影响

为了探讨利用褐脉少花龙葵毛状根来修复重金属镉(Cd)污染的可能性,采用溶液培养法研究了Cd单独及其与钙(Ca)组合对褐脉少花龙葵毛状根生长、抗氧化酶超氧化物歧化酶(SOD)和过氧化物酶(POD)活性及对Cd吸收的影响。结果表明,Cd≤50μmol/L时能促进毛状根生长,而高于100μmol/LCd则抑制毛状根生长,使其侧根根尖变褐和变短,数目减少。与对照相比,不同浓度Cd培养的毛状根可溶性蛋白含量和SOD活性先升高后逐渐下降;其丙二醛(MDA)含量显著提高;100μmol/LCd使毛状根POD活性逐渐升高,但300μmol/LCd则使毛状根POD活性逐渐降低。与对照(仅添加100μmol/L或300μmol/LCd的毛状根)相比,Cd和10～30mmol/LCaCl2组合培养使毛状根可溶性蛋白含量和MDA含量降低;但提高其SOD活性;而100μmol/LCd和10～30mmol/LCaCl2结合培养的毛状根POD活性均比对照低;而300μmol/LCd和10～30mmol/LCaCl2结合培养的毛状根POD活性则均比对照提高。原子吸收分光光度法测定结果表明,毛状根吸收和吸附的重金属Cd含量随着培养基中Cd浓度的升高而增加。但外源加入10～30mmol/LCaCl2能减少毛状根对Cd的吸收,并调节其抗氧化酶SOD和POD活性,降低其膜脂过氧化水平而解除重金属Cd对毛状根生长的抑制或毒害。