Single seed viability checked by delayed luminescence

Time resolved spectral components of delayed luminescence (DL) from single dry soybean seeds were measured using a device with single photon sensitivity. The seeds were aged by a thermal treatment to change their viability. A correlation was observed between the seeds viability and some DL parameters, i.e. the total number of photons emitted and the relative decay probability of excited states. This relevant result confirms the close connection between the state of biological systems and their DL, and it can allow the development of a quick selection technique for single dry seeds, a goal impossible up today.     

Lipid peroxidation, carbohydrate hydrolysis, and Amadori-Maillard reaction at early stages of dry seed aging

Processes underlying aging of air-dry seeds were investigated. Naturally aged seeds of pea (Pisum sativum L.), cucumber (Cucumis sativus L.), and buckwheat (Fagopyrum esculentum Moench.) were separated into three fractions of different quality according to their room temperature phosphorescence (RTP): fraction I contained strong seeds; fraction II comprised weak seeds; and fraction III was composed of dead seeds. These seed fractions were used to identify the processes in air-dry seeds that account for the initial deterioration in seed quality at early stages of aging and for the possible transient improvement of seed quality at further aging. Experiments with seed powders showed that the increase in thermochemiluminescence (TCL) in the temperature range of 50?C110°C was determined by the presence of lipid peroxidation products. No difference was observed between TCL levels in fraction I and fraction II seeds; hence, lipid peroxidation is not responsible for the transition of strong seeds to the fraction of weak seeds. The TCL intensity monitored upon heating in the range of 50?C110°C increased only in the fraction of dead seeds. In fraction II seeds, a twofold increase in TCL upon heating at 150°C was observed in aged seeds; this indicates that the products of oligosaccharide hydrolysis (glucose) were more abundant in fraction II seeds than in fraction I seeds under similar conditions. This assumption was confirmed by direct determination of glucose content with a glucometer. Hence, the transition of air-dry seeds from fraction I (strong seeds) to fraction II (weak seeds) occurred due to the activation of carbohydrate hydrolysis in aging seeds. Since air-dry seeds contain no free water during aging, the seed moisture content decreases during hydrolysis, presumably, because the bound water participates in the hydrolysis reaction. The decrease in ??improved?? seeds of glucose content and the increase in moisture content suggest the activation of amino-carbonyl reaction. It is proposed that the amino-carbonyl (Amadori-Maillard) reaction is responsible for closing water channels in improved seeds, as well as for the decreased water permeability of cell membranes during seed imbibition.     

Classification of Chinese herbs based on the cluster analysis of delayed luminescence

Traditional Chinese material medica are an important component of the Chinese pharmacopeia. According to the traditional Chinese medicinal concept, Chinese herbal medicines are classified into different categories based on their therapeutic effects, however, the bioactive principles cannot be solely explained by chemical analysis. The aim of this study is to classify different Chinese herbs based on their therapeutic effects by using delayed luminescence (DL). The DL of 56 Chinese herbs was measured using an ultra‐sensitive luminescence detection system. The different DL parameters were used to classify Chinese herbs according to a hierarchical cluster analysis. The samples were divided into two groups based on their DL kinetic parameters. Interestingly, the DL classification results were quite consistent with classification according to the Chinese medicinal concepts of ‘cold’ and ‘heat’ properties. In this paper, we show for the first time that by using DL technology, it is possible to classify Chinese herbs according to the Chinese medicinal concept and it may even be possible to predict their therapeutic properties. Copyright © 2015 John Wiley & Sons, Ltd.     

Lipid peroxidation and peroxide-scavenging in soybean seeds during aging

The possible role of lipid peroxidation in seed deterioration was investigated during natural aging and accelerated aging of seeds of edible soybean ( Glycine max [L], Merr. cv. Kaohsiung Selection No. 1). Natural aging was achieved by sealing the seeds in aluminum foil bags coated with polyethylene and storing the seeds at room temperature for 3 to 12 months. Accelerated aging was obtained by incubating the seeds at 45°C and close to 100% relative humidity for 3 to 12 days, after which the seeds were air dried to their original moisture level (8%). The results indicate that both natural and accelerated aging enhanced lipid peroxidation, as germination was depressed. Aging also inhibited the activity of superoxide dismutase, catalase, ascorbate peroxidase and peroxidase. The changes in germination and physiological activities, expressed as a function of aging duration, were somewhat similar in the two aging treatments.     

Protein repair L-isoaspartyl methyltransferase in plants. Phylogenetic distribution and the accumulation of substrate proteins in aged barley seeds.

Protein L-isoaspartate (D-aspartate) O-methyltransferases (MTs; EC 2.1.1.77) can initiate the conversion of detrimental L-isoaspartyl residues in spontaneously damaged proteins to normal L-aspartyl residues. We detected this enzyme in 45 species from 23 families representing most of the divisions of the plant kingdom. MT activity is often localized in seeds, suggesting that it has a role in their maturation, quiescence, and germination. The relationship among MT activity, the accumulation of abnormal protein L-isoaspartyl residues, and seed viability was explored in barley (Hordeum vulgare cultivar Himalaya) seeds, which contain high levels of MT. Natural aging of barley seeds for 17 years resulted in a significant reduction in MT activity and in seed viability, coupled with increased levels of "unrepaired" L-isoaspartyl residues. In seeds heated to accelerate aging, we found no reduction of MT activity, but we did observe decreased seed viability and the accumulation of isoaspartyl residues. Among populations of accelerated aged seed, those possessing the highest levels of L-isoaspartyl-containing proteins had the lowest germination percentages. These results suggest that the MT present in seeds cannot efficiently repair all spontaneously damaged proteins containing altered aspartyl residues, and their accumulation during aging may contribute to the loss of seed viability.     

Relevance of amadori and maillard products to seed deterioration

The possible role of Amadori and Maillard reactions in the deterioration of dry seeds was investigated using model systems and whole soybean seeds, Glycine max cv Hodgson. In model systems of glucose plus an enzyme (lysozyme), the production of Amadori products was accelerated by higher temperature and relative humidity. The reaction between glucose and lysozyme at 50°C, 75% relative humidity, leads to a progressive decline in enzymatic activity. During accelerated aging of soybean seeds (40°C, 100% relative humidity), a sequence is observed in which the Amadori products increase with time and then decline under conditions in which the Maillard products increase in the axes. Loss of germinability occurs at the time when the Maillard products increase in the soybean axes. These results are suggestive of a role for nonenzymic glycation in soybean seed deterioration during accelerated aging.     

Changes in malondialdehyde content and in superoxide dismutase, catalase and glutathione reductase activities in sunflower seeds as related to deterioration during accelerated aging

Sunflower ( Helianthus annuus L.) seeds progressively lost their ability to germinate at 25°C, the optimal temperature for germination, after accelerated aging was carried out at 45°C (a temperature too high to permit germination) in water or at 76 or 100% relative humidity (RH). The deleterious effects of the high-temperature treatment increased with increasing seed moisture content. Incubation of seeds at 45°C in water resulted in electrolyte leakage, which indicated a loss of membrane integrity. A relationship between leakage and loss of seed viability could not be assumed, since no increase in electrolyte efflux occurred after aging al 100% RH. Accelerated aging induced accumulation of malondialdehyde, suggesting that seed deterioration was associated with lipid peroxidation. However, there was no direct relationship between lipid peroxidation and deterioration in membrane integrity. Loss of seed viability was also associated with a decrease in superoxide dismutase, catalase and glutathione reductase activities. Finally, the results obtained suggest that sunflower seed deterioration during accelerated aging is closely related to a decrease in the activities of detoxifying enzymes and to lipid peroxidation.     

The Maillard reaction and oxidative stress during aging of soybean seeds

The chemical reactions that may lead to the loss of seed viability were investigated both during the accelerated aging and natural aging of soybeans ( Glycine max Merrill cv. Chippewa 64). Under conditions of accelerated aging (36°C and 75% RH), fluorescence of soluble proteins accumulated, which was closely correlated with the loss of seed germinability and vigor. We were able to show this correlation by using partially purified proteins for the assay. Fluorescence also increased in seeds under good storage conditions (5°C for up to 21 years), although there was a less significant correlation between seed viability and the accumulation of fluorescent products during the time of natural aging. The rise in protein fluorescence is interpreted as an increase of Maillard products. The carbonyl content of soluble proteins (a measure of the oxidative damage) did not change significantly during either accelerated aging or natural aging: however the elimination of carbonyls during germination seemed to be hindered in seeds that had poor germination. The Maillard reaction may be a consequence of the formation of reducing sugars through a gradual hydrolysis of oligosaccharides during aging. Preliminary evidence from the natural aging study showed that, when seeds were in the glassy state, the sugar hydrolysis was inhibited. These results suggest that the Maillard reaction and oxidative reaction may play an important role in seed deterioration.     

Reversal of the effects of aging in soybean seeds

Accelerated aging predisposed seeds to imbibition injury. Slowing the rate of hydration prevented the loss of germinability due to imbibition injury. Germinability of accelerated aged seeds (50 hours) was increased from 10 to 90% by controlling the rate of imbibition. Slow hydration also prevented seed electrolyte leakage. This may indicate that cell membrane permeability or rupture was a major factor contributing to the loss of germinability after aging.

Reversal of the effects of aging (repair) was accomplished by slowly inbibing and then redrying seeds (priming). This treatment lowered steep water conductivity by a factor of 2 to 5. Priming also increased the per cent germination of low vigor seeds. The mechanism of this reversal was probably metabolic because it depended on temperature, seed moisture, and treatment duration.

Priming doubled the survival of seeds in the accelerated aging vigor test. The `rejuvenation' was accepted as evidence for metabolic repair. Since the `vigor' of seeds was increased by priming, metabolic repair probably included other subcellular components as well as the plasma membrane.

     

Proteomics reveals potential biomarkers of seed vigor in sugarbeet

To unravel biomarkers of seed vigor, an important trait conditioning crop yield, a comparative proteomic study was conducted with sugarbeet seed samples of varying vigor as generated by an invigoration treatment called hydropriming and an aging treatment called controlled deterioration. Comparative proteomics revealed proteins exhibiting contrasting behavior between seed samples. Thus, 18 proteins were up-regulated during priming and down-regulated during aging and further displayed an up-regulation upon priming of the aged seeds, meaning that down-regulation of these spot volumes during aging was reversible upon subsequent priming. Also, 11 proteins exhibited the converse behavior characterized by a decrease and an increase of the spot volumes during priming and aging of the control seeds, respectively, and a decrease in the spot volumes upon priming of the aged seeds. The results underpinned the role in seed vigor of several metabolic pathways involved in lipid and starch mobilization, protein synthesis or the methyl cycle. They also corroborate previous studies suggesting that the glyoxylate enzyme isocitrate lyase, the capacity of protein synthesis and components of abscisic acid signaling pathways are likely contributors of seed vigor.     

Ce^3+和La^3+对人工老化沙葱种子活力及生理特性的影响

以未老化和人工老化后的沙葱(Allium mongolicum Regel.)种子为材料,采用氯化铈(Ce3+)和氯化镧(La3+)浸种,测定种子萌发和生理指标,探讨Ce3+和La3+浸种对种子萌发、老化种子活力和生理特性的影响。结果显示:(1)在老化0~5 h时,Ce3+和La3+处理可显著促进沙葱种子萌发,提高种子活力;在老化5 h后,Ce3+和La3+处理对种子萌发无明显促进作用。(2)在老化0~15 h时,Ce3+和La3+处理的沙葱种子中抗氧化酶活性和抗坏血酸(AsA)含量提高,其超氧阴离子自由基(O2-·)产生速率、过氧化氢(H2O2)含量和丙二醛(MDA)含量显著降低;在老化15 h后,Ce3+和La3+处理的种子抗氧化酶活性提高、AsA含量降低,O2-·产生速率和MDA含量提高。(3)在老化5 h时,沙葱种子呼吸速率发生跃变达到最大,Ce3+和La3+处理显著降低了种子呼吸速率。(4)Ce3+和La3+处理在老化0~5 h时提高了沙葱种子超弱发光(UWL)强度,但在老化5 h后沙葱种子的UWL强度降低。研究认为,在沙葱种子人工老化初期,Ce3+和La3+浸种处理可以诱导增强种子抗氧化酶活性和提高AsA含量,有效清除因老化产生积累的过量活性氧(ROS),减轻过氧化伤害,提高种子活力;种子老化中后期,其内部ROS产生与清除系统发生紊乱,加剧了ROS对种子结构的损伤,Ce3+和La3+浸种处理的缓解效应丧失。     

Post-dispersal seed mortality of exotic and native species: Effects of fungal pathogens and seed predators

The invasive behaviour of exotic species is assumed to be due to the reduced impact of enemies on their performance, along with other possible mechanisms. I studied whether the seeds of exotics (6 species) are less impacted by seed predators and seed fungal pathogens than the seeds of their related natives (5 species). I also explored whether the co-occurrence of related natives and the time since introduction increased the percentage of lost seeds in exotics. Seeds were either left unprotected during a period of seven months or treated with fungicide, protected by seed predator exclosures or subjected to both treatments. Both treatments improved seed survival rate. Fungicide treatment had more positive effect on seeds of native than of exotic species but the fungicide-by-origin interaction was insignificant. When exotic species only were considered, fungicide had neutral effect on survival of their seeds, irrespective of the co-occurrence of related natives in the vegetation. Time since introduction was shown not to influence the proportion of seeds lost due to fungi or seed predators. Though the results of this study did not support enemy release as a possible mechanism causing the invasiveness of exotic species, it identified fungal pathogens as an enemy group with possibly differential impacts on native and exotic seeds, which thus deserves attention in future studies.     

种子老化的生理生化与分子机理研究进展

种子作为植物遗传资源的有效保存体以及重要的种质创新原料,其老化或者劣变将直接导致发芽率、活力、生活力降低,抑制种胚正常发育以及幼苗生长,由此造成植物生产水平及其品质大幅下降。这也将进一步涉及因种质资源匮乏、土壤种子库系统功能紊乱所引发的全球生物多样性减小、草地退化和荒漠化加剧等生态危机问题。对种子老化生理生化特性和分子机理等研究进行了综述。总结了近年来关于种子老化涉及的理化反应包括保护酶活性的改变、核酸以及蛋白质的分解、内源激素的消长、质膜完整性降低等相关研究;并从蛋白代谢、核酸代谢、种子含水量以及基因重组等多角度总结和阐述了与老化机理有关的最新研究观点,以期为种子老化、种子活力修复和种子寿命延长等机理研究提供基础理论参考。目前对种子老化的研究多集中于传统的生理生化过程和内外影响因子相对独立变化的片段性研究,缺乏系统综合的多层面体系研究。种子作为生命体,随着探讨生命衰老机理的生物技术日新月异,通过蛋白组学、酶学、基因工程技术、转录组测序等新技术的应用,必将对未来种子老化机理机制的揭示有突破性推进作用。     

Crop protection by seed coating

Providence of sufficient and healthy food for increasing human population clears the importance of notice to increasing crop production in company with environmental loss reduction. Growth and yield of every plant with sexual reproduction, depends on germination & emergence of sown seeds. Seed is a small alive plant that its biological function is protection and nutrition of embryo. Biological, chemical and physiological characteristics of seed, affect on plant performance & its resistance to undesirable environmental conditions, and even on its total yield. So attention to seed and try to increase its performance is so important. One of the factors that cause reduction in germination percentage and seedling establishment, is seed disease. It's possible to control these diseases by treating the seed before planting it. Coating the seed with pesticides, is one of the ways to gain this goal. Seed coating is a technique in which several material as fertilizers, nutritional elements, moisture attractive or repulsive agents, plant growth regulators, rhizobium inocolum, chemical & pesticide etc, add to seed by adhesive agents and cause to increase seed performance and germination. Seed coating, leads to increase benefits in seed industry, because seeds can use all of their genetic vigor. This technique is used for seeds of many garden plants, valuable crops (such as corn, sunflower, canola, alfalfa,...) and some of the grasses. In this technique that was first used in coating cereal seeds in 1930, a thin and permeable layer of pesticide is stuck on seed surface and prevent damage of seedborn pathogens. This layer is melted or splited after absorption of moisture and suitable temperature by seed, and let the radical to exit the seed. In this approach materials are used accurately with seed, evaporation & leakage of pesticide and also adverse effects of some pesticides on seeds are diminished, and these factors cause to increase the accuracy and performance of pesticide, decrease their consumption, environmental pollution and costs. This technique in new and there is a few information about it. So after searching and studying about this technique this paper is written to introduce it and its applications in crop protection.     

Enhancing seed quality and viability by suppressing phospholipase D in Arabidopsis

Seed aging decreases the quality of seed and grain and results in agricultural and economic losses. Alterations that impair cellular structures and metabolism are implicated in seed deterioration, but the molecular and biochemical bases for seed aging are not well understood. Ablation of the gene for a membrane lipid-hydrolyzing phospholipase D (PLDalpha1) in Arabidopsis enhanced seed germination and oil stability after storage or exposure of seeds to adverse conditions. The PLDalpha1-deficient seeds exhibited a smaller loss of unsaturated fatty acids and lower accumulation of lipid peroxides than did wild-type seeds. However, PLDalpha1-knockdown seeds were more tolerant of aging than were PLDalpha1-knockout seeds. The results demonstrate the PLDalpha1 plays an important role in seed deterioration and aging in Arabidopsis. A high level of PLDalpha1 is detrimental to seed quality, and attenuation of PLDalpha1 expression has the potential to improve oil stability, seed quality and seed longevity.     

人工老化处理对结球甘蓝种子生理生化特性的影响

以结球甘蓝品种‘冬升’种子为材料,研究高温(40℃)高湿(相对湿度100%)人工老化处理过程中种子的萌发特性、种子浸出液相对电导率和丙二醛、可溶性蛋白、可溶性糖含量以及抗氧化酶活性的变化,以揭示种子劣变的机理。结果表明:(1)人工老化处理甘蓝种子的含水量和不正常苗率均随着老化时间的延长逐渐增加,而种子发芽势、发芽率、发芽指数和活力指数的增加均逐渐降低。(2)随着处理天数的延长,老化处理甘蓝种子的浸出液电导率显著增大,浸出液可溶性糖含量逐渐升高,可溶性蛋白含量表现出显著下降趋势,而种子MDA含量呈先升高后逐渐下降的趋势。(3)在结球甘蓝种子老化进程中,其种子中SOD、POD、CAT活性变化的趋势相似,均随老化程度的加深而逐渐降低;而APX活性在老化处理的最初2d显著增加,第6天显著降低。研究发现,在结球甘蓝种子老化进程中,种子活力和萌发率显著降低,其种子浸出液电导率、可溶性蛋白含量、可溶性糖含量、保护酶活性变化与种子老化及劣变程度密切相关,膜脂过氧化作用可能是引起或加剧种子老化劣变的重要原因之一。     

Optimal hydration status for cryopreservation of intermediate oily seeds: Citrus as a case study

BACKGROUND AND AIMS: The purpose of this study was to investigate the basis of the optimal hydration status for cryopreservation of intermediate oily seeds using Citrus as a model. METHODS: The relationships between equilibrium relative humidity (RH), seed water content, presence of freezable water as determined by DSC analysis, and germination percentage after immersion in liquid nitrogen (LN) were investigated in Citrus aurantifolia, C. grandis, C. madurensis and C. reticulata. The relationship between the lipid content of seeds and their unfrozen water content was also investigated. KEY RESULTS: Independent of their level of seed desiccation tolerance, the optimal desiccation RH for seed tolerance to LN exposure was 75-80 % in the four species studied. This optimal hydration status always coincided with that at which presence of frozen water could not be detected in seed tissues during the cooling/thawing process. The unfrozen water content of seeds was variable between species and negatively correlated to seed lipid content. Using the present data, those obtained previously in seven coffee species and those reported by other authors for five other species, a significant linear relationship was found between the lipid content and the unfrozen water content of seeds. CONCLUSIONS: This study provides additional evidence that intermediate oily seeds do not withstand the presence of freezable water in their tissues during the cooling/warming process. Moreover, it offers two important applied perspectives: (1) independent of their level of desiccation tolerance, testing germination of seeds of a given oily seed species after equilibration in 75-80 % RH at 25 degrees C and LN exposure, gives a rapid and reliable evaluation of the possibility of cryopreserving whole seeds of this given species; (2) it is now possible to calculate the interval of water contents in which non-orthodox oily seeds of a given species are likely to withstand LN exposure as a function of their lipid content.     

Number of aberrations per cell as a parameter of chromosome instability. 2. Comparative analysis of the factors of different nature

The average number of aberrations per aberrant cell was concluded to carry out information on chromosome instability peculiarities induced by different mutagens as it was shown in our previous work. The purpose of the current study was to present comparative analysis of intercellular distribution of number of aberrations and their theoretical approximations. Distribution of numbers of aberrations per cell in Allium cepa L. and Allium fistulosum L. root tip cells induced by different mutagenic factors (gamma-irradiation, thiotepa, formaldehyde and seed aging) have been studied. The results were approximated to theoretical Poisson, geometric and negative binomial distributions. The intercellular distribution of aberrations did not correspond to any of the used theoretical distributions when A. cepa seeds were gamma-irradiated. There was some, but not regular, accordance with theoretical distributions when chemical mutagens thiotepa in A. cepa and formaldehyde in A. fistulosum and seed aging in both species were evaluated. During seed aging frequency of aberrant cells increased more quickly in A. fistulosum in comparison with A. cepa.     

费氏中华根瘤菌HN01DL在大豆根圈能定殖动态与结瘤研究

以发光酶基因luxAB为标记,在根盒缩影条件下研究了费氏中华根瘤菌HN01DL在大豆根圈的定殖动态、分布范围及其结瘤情况．结果表明,HN01DL在根盒．灭菌土壤和非灭菌土壤缩影中的大豆全根系定殖动态与水平明显不同,前者在第12d时达到最高定殖密度(8．65log cfu·g^-1),而后者的早期定殖数量下降较快,且于第15d时达到最高定殖密度(6．88log cfu·g^-1)．HN01DL在大豆播种5d后在大豆根部的A(0～4cm)区根段上达到最高定殖密度(7．05log cfu·g^-1),然后开始缓慢下降,至第19d时仍维持相对稳定,在第33d时又开始回升．至播种后第46d时HN01DL可散布至种子下方16cm处的根段部位．HN01DL在A区根段的定殖密度持续较高,所形成的发光根瘤总数(16．3个)及发光比例(68．8％)最高,且发光根瘤主要集中于该区段主根上．发光根瘤比例沿A-E区段逐渐下降,在E区段未检测到发光根瘤．