Control of macaw palm seed germination by the gibberellin/abscisic acid balance

The hormonal mechanisms involved in palm seed germination are not fully understood. To better understand how germination is regulated in Arecaceae, we used macaw palm (Acrocomia aculeata (Jacq.) Lodd. Ex Mart.) seed as a model. Endogenous hormone concentrations, tocopherol and tocotrienol and lipid peroxidation during germination were studied separately in the embryo and endosperm. Evaluations were performed in dry (D), imbibed (I), germinated (G) and non‐germinated (NG) seeds treated (+GA₃) or not treated (control) with gibberellins (GA). With GA₃ treatment, seeds germinated faster and to a higher percentage than control seeds. The +GA₃ treatment increased total bioactive GA in the embryo during germination relative to the control. Abscisic acid (ABA) concentrations decreased gradually from D to G in both tissues. Embryos of G seeds had a lower ABA content than NG seeds in both treatments. The GA/ABA ratio in the embryo was significantly higher in G than NG seeds. The +GA₃ treatment did not significantly affect the GA/ABA ratio in either treatment. Cytokinin content increased from dry to germinated seeds. Jasmonic acid (JA) increased and 1‐aminocyclopropane‐1‐carboylic acid (ACC) decreased after imbibition. In addition, α‐tocopherol and α‐tocotrienol decreased, while lipid peroxidation increased in the embryo during germination. We conclude that germination in macaw palm seed involves reductions in ABA content and, consequently, increased GA/ABA in the embryo. Furthermore, the imbibition process generates oxidative stress (as observed by changes in vitamin E and MDA).     

Regulation of storage lipid metabolism in developing and germinating lupin (<Emphasis Type="Italic">Lupinus</Emphasis> spp.) seeds

The main storage compound in lupin seeds is protein, whose content can reach up to 45–50 % of dry matter. However, seeds of some lupin species can also contain quite a large amount of storage lipid. The range of lipid content in lupin seeds is from about 6 to about 20 % of dry matter. Storage lipid in developing seeds is synthesized mainly from sugars delivered by mother plants. During seed germination, one of the main end-products of storage lipid breakdown is also sugars. Thus, the sugar level in tissues is considered an important regulatory agent, during both lipid accumulation and lipid breakdown. Generally, in developing legume seeds, there is a strong negative relation between accumulation of storage protein and storage lipid. Results obtained in developing lupin cotyledons cultured in vitro pointed to the possibility of a positive relation between protein and lipid accumulation. Such a positive effect could be caused by nitrate. During lupin seed germination and seedling development, the utilization of storage lipid is enhanced under sugar deficiency conditions in tissues and is controlled at the gene expression level. However, under sugar starvation conditions, autophagy is significantly enhanced, and it can cause disturbances in storage lipid breakdown. The hypothesis of pexophagy, i.e., autophagic degradation of peroxisomes under sugar starvation conditions during lupin seed germination, has been taken into consideration. The flow of lipid-derived carbon skeletons to amino acids was discovered in germinating lupin seeds, and this process is clearly more intense in sucrose-fed embryo axes. At least four alternative or mutually complementary pathways of carbon flow from storage lipid to amino acids in germinating lupin seeds are postulated. The different strategies of storage compound breakdown during lupin seed germination are also discussed.     

Cyto-physiological events during radish germination in the presence of a Ruta graveolens L. infusion

ABSTRACT

An infusion of Ruta graveolens L. was tested for its inhibitory effects upon radish germination at the cyto-physiological level. Radish seeds were placed under optimum conditions for germination either in water (control) or in the presence of rue infusion (treated seeds). Morpho-physiological observations indicate that in treated radish seeds the inhibition of germination is accompanied by reduced water uptake and delayed reactivation of the outermost living layer, i.e. the aleurone cells. Compared to the control, aleurone cells of treated seeds present many large lipid droplets and protein bodies, without differentiated organelles. Moreover, chemical and biochemical analyses show that the treatment impairs the metabolic pathways of germination, such as the mobilization and utilization of seed reserves, and the loosening of cell walls. In fact, in treated seeds we found i) increased contents of glucose and galactose, ii) higher concentration of malic acid and iii) lower activities of some glycosidases compared to the control. Results suggest that aleurone cells may play an active part in controlling the embryo's metabolism.     

萌发前处理和种子大小对瓜拉那(Paullinia cupana var.sorbilis)种子萌发的影响

为了增加对瓜拉那(Paullinia cupana var.sorbilis)种子萌发特性的了解,寻求提高瓜拉那种子萌发的最佳条件,本研究用控制实验,研究了瓜拉那种子去/不去假种皮、不同种子大小和酸处理下的萌发行为.结果表明,去假种皮且酸处理的大种子发芽率最高,为100%;不去假种皮且无酸处理的小种子基本不萌发;去假种皮种子发芽率显著高于未去假种皮种子;种子大小对萌发率有显著影响,大种子比小种子趋于有更高的萌发率;酸处理能进一步提高去假种皮种子萌发率.     

Changes in Nucleic Acid Levels Associated with Improved Germination Performance of Tomato Seeds After Low Temperature Presowing Treatment

Low temperature presowing treatment (LTPST) of tomato seeds,var. Moneymaker, increases their rate of germination. Duringthis treatment there is a large increase in nucleic acid content,especially rRNA, within the seeds. Denaturing gel electrophoresisindicates that the quality of this RNA improves during LTPST.Although replacement of fragmented rRNA may be an importantprerequisite for successful germination, the data show thatthis is unlikely to be the immediate cause of more rapid seedgermination. When compared with untreated controls during subsequentgermination, treated seeds show reduced rates of nucleic acidaccumulation and reduced RNA polymerase activity per unit DNA,implying that rRNA synthesis within these seeds is under somemeasure of stringent control. The association between nucleicacid metabolism and germination is discussed. tomato, Lycopersicon esculentum Mill., seed germination, presowing treatment, RNA, RNA polymerase     

Imbibition and Germination: Influence of Hard Seed Coats on RNA Metabolism

RNA metabolism of Indian rice grass seeds was studied in relation to imbibition and germination. These seeds germinate only after scarification of the seed coats. The hard seed coats restrict germination but not water intake or changes in the quantity and quality of RNA formed during early hours of soaking. These changes differ markedly from those in scarified (H₂SO₄ treated) seeds which are able to germinate. Gibberellic acid hastens germination of scarified seeds and causes changes in the population of RNA transcribed.     

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.     

The impact of freezing during maturation on storage products in canola seeds

Mature canoia ( Brassica napus cv. Westar) seeds contain large quantities of the storage proteins cruciferin and napin and storage lipids rich in C18: 1 and C18:2 fatty acids. Both the quantity and quality of these products are altered by freezing during development. Further, the response to freezing changes during seed development. The effects include decreased fatty acid chain elongation, altered fatty acid unsaturation, higher lipid levels and lower protein levels. In addition, seeds in the pivotal moisture range (55%) may be predisposed to precocious germination, which is then inhibited by a lack of adequate seed moisture. The results indicate that freezing imparts its effect in two ways. Initially, there is a freezing (low temperature) component and this is followed by rapid desiccation of the seeds. Although most responses probably result from a combination of the stresses, it appears that inhibition of fatty acid chain elongation is caused by the freezing component and the gradual inhibition of storage protein accumulation is a result of accelerated seed desiccation.     

Effects of plant hormones on germination of Coelomomyces psorophorae resistant sporangia

The optimum concentration of the plant hormone, indole-3-butyric acid (IBA), was determined for the stimulation of Coelomomyces psorophorae resistant sporangia (RS) germination. The effects of continuous incubation of RS in 19 hormones and related substances were assessed. IBA strongly enhanced germination; whereas, maleic acid hydrazide and β-(-2-furyl)acrylic acid inhibited germination.     

Attività Fosfatasica Acida in Rapporto a CCC,Idrazide Maleica e Colchicina

Abstract

Acide phosphatase activity in relation to ccc, maleic hydrazide and colchicine — The acid phosphatase at pH 5 were determined on homogenates of roots and seedlings obtained from barley seeds germinated in a solution of CCC, maleic hydrazide, colchicine and water.

The acid phosphatase is strongly stimulated from colchicine, CCC and maleic hydrazide, but the minimum time of treatment to obtain the above activation is different.

It is discussed if the obtained results can be put in relation to the ATP level required for mitosis and to the auxin's properties to intervene on the phosphor's transfer.     

黄皮种子脱水敏感性与脂质过氧化作用

黄皮种子自然脱水时,种子的发芽率和发芽指数迅速下降;种子浸泡液的电导率和可溶性物质的量大大增加;线粒体膜和质膜ATPase的活性下降;种子中SOD活性先上升,然后下降;脂质过氧化产物MDA和脂质氢过氧化物的量大大增加。DDC、MDA和Fe2 促进脂质过氧化作用,降低种子生活力;ASA和甘露醇对脂质过氧化有抑制作用,提高种子生活力。     

Engineering seed dormancy by the modification of zeaxanthin epoxidase gene expression

Abscisic acid (ABA) is a plant hormone synthesized during seed development that is involved in the induction of seed dormancy. Delayed germination due to seed dormancy allows long-term seed survival in soil but is generally undesirable in crop species. Freshly harvested seeds of wild-type Nicotiana plumbaginifolia plants exhibit a clear primary dormancy that results in delayed germination, the degree of primary dormancy being influenced by environmental culture conditions of the mother plant. In contrast, seeds, obtained either from ABA-deficient mutant aba2-s1 plants directly or aba2-s1 plants grafted onto wild-type plant stocks, exhibited rapid germination under all conditions irrespective of the mother plant culture conditions. The ABA biosynthesis gene ABA2 of N. plumbaginifolia, encoding zeaxanthin epoxidase, was placed under the control of the constitutive 35S promoter. Transgenic plants overexpressing ABA2 mRNA exhibited delayed germination and increased ABA levels in mature seeds. Expression of an antisense ABA2 mRNA, however, resulted in rapid seed germination and in a reduction of ABA abundance in transgenic seeds. It appears possible, therefore, that seed dormancy can be controlled in this Nicotiana model species by the manipulation of ABA levels.     

The inhibited seed germination by ABA and MeJA is associated with the disturbance of reserve utilizations in Astragalus membranaceus

Astragalus membranaceus is a major traditional Chinese medicinal plant. Here, we investigated the mobilizations of seed reserves during its germination and post-germination growth, as well as the effects of exogenous abscisic acid (ABA) and methyl jasmonate (MeJA). It was found that both starch and protein were rapidly mobilized during the seed germination. However, lipid was mostly utilized during the post-germination. Exogenous ABA and MeJA treatments significantly inhibited the germination and post-germination growth. Meanwhile, the treatments decreased the weight of mobilized seed reserves and seed reserves utilization efficiency, retarded the mobilizations of protein and lipid, and led to excessive consumption of carbon energy. Moreover, the treatments changed fatty acid compositions in cotyledons, with the decreasing of the double bond index and average carbon chain length. This study will help us to understand the inhibition mechanism of exogenous ABA and MeJA on the germination and post-germination growth of A. membranaceus.     

Drought tolerance of Periploca sepium during seed germination: antioxidant defense and compatible solutes accumulation

Periploca sepium Bunge is a native and widespread shrub on the Loess Plateau, an arid and semi-arid region in China. To understand the adaptability of its seed germination to dry environments, we investigated the germination rate, water relations, lipid peroxidation, antioxidant capacity and accumulation of major organic solutes during seed germination under water deficit conditions. Results showed that seeds pre-treated by hydration–dehydration or ?0.9 MPa PEG germinated faster than control seeds, indicating strong resistance of P. sepium to drought condition. The re-dried seeds showed higher proline, total free amino acids (TFAA) and soluble proteins (SP) contents than control dry seeds, indicating the maintenance of physiological advancement when dehydrated. Osmotic stress made seed germination stay on the plateau phase (phase II). However, germinating seeds moved into phase III immediately once transferred into distilled water. Large increases in SP and soluble sugars (SS) of both re-dried and osmotic stressed seeds help themselves to resist drought stress. The re-hydrated seeds showed significantly higher levels of proline, TFAA, SP and SS than control seeds. The largely accumulated SS during osmotic stress declined sharply when transferred into distilled water. Our data demonstrate that P. sepium’s tolerance to drought stresses during germination is associated with enhanced activity of antioxidant enzymes and accumulation of some compatible solutes. Seed physiological advancement progressed slowly under low water conditions and it was maintained when seeds were air dried. This strategy ensures high and more rapid seed germination of P. sepium under drying and wetting conditions in drought-prone regions.     

Effect of β-indoleacetic acid,maleic hydrazide,and 2,3,5-triiodobenzoic acid on N,P, K,and Ca accumulation by pea plants

A study was performed on the effect of various concentrations of IAA, 2,3,6-triiodobenzoic acid, and maleic hydrazide, supplied to Richter’s nutrient solution, on growth of pea plants in water cultures. After a 18-day cultivation growth was evaluated and in the plants gathered the content of total N, P, K, and Ca was estimated. Growth of experimental plants (as evaluated from fresh and dry weight) was affected by all three regulators in dependence on the concentration used. It was stimulated by lower concentrations and inhibited by higher, the production of both fresh and dry weight of the root system being stimulated by all IAA concentrations used. The ratio of root dry weight to that of the entire plant was markedly increased after application of IAA and 2,3,5-triiodobenzoic acid, whereas when applying maleic hydrazide it was only slightly increased in comparison with control. Stimulation or inhibition of growth induced by IAA treatment was accompanied by an accordingly increased or decreased accumulation of N, P, K, and Ca. Thus their utilization did not change in comparison with control. On the other hand, both inhibitory and stimulatory effects of 2,3,5-triiodobenzoic acid and maleic hydrazide on growth were associated with a relatively lower accumulation of the elements in question, resulting in an increased utilization. The distribution index of N, P, K, and Ca decreased with increasing concentrations of IAA, 2,3,5-triiodobenzoic acid and maleic hydrazide. Only the highest 2,3,5-triiodobenzoic acid and maleic hydrazide concentrations used brought about a more marked increase in the distribution index of potassium, simultaneously with a marked decrease in the distribution index of calcium.     

Variation in temperature and light but not salinity invokes antioxidant enzyme activities in germinating seeds of Salsola drummondii

Seeds with efficient antioxidant defence system show higher germination under stress conditions; however, such information is limited for the halophyte seeds. We therefore studied lipid peroxidation and antioxidant responses of a leaf-succulent halophyte Salsola drummondii during seed germination under different salinity levels (0, 200 and 800 mM NaCl), temperature (10/20, 20/30 and 25/35°C) and light regimes. Seeds absorbed water and germinated in less than 1 h in non-saline control while increases in salinity decreased the rate of water uptake as well as seed germination. Non-optimal temperatures (10/20 and 25/35°C) and complete dark condition reduced seed germination in comparison to those seeds germinated under optimal temperature (20/30°C) and 12-h photoperiod, respectively. Generally, higher lipid peroxidation and antioxidant enzyme activities were observed in seeds at non-optimal temperature and in those seeds germinated in dark. Decrease in reduced ascorbic acid content was found in highest salinity and temperature treatments, while reduced glutathione content did not change significantly with changes in salinity, temperature and light regimes. These results indicate variation in temperature and light but not salinity enhances antioxidant enzyme activities in germinating seeds of Salsola drummondii.     

N-acylethanolamines are metabolized by lipoxygenase and amidohydrolase in competing pathways during cottonseed imbibition

Saturated and unsaturated N-acylethanolamines (NAEs) occur in desiccated seeds primarily as 16C and 18C species with N-palmitoylethanolamine and N-linoleoylethanolamine (NAE 18:2) being most abundant. Here, we examined the metabolic fate of NAEs in vitro and in vivo in imbibed cotton (Gossypium hirsutum) seeds. When synthetic [1-(14)C]N-palmitoylethanolamine was used as a substrate, free fatty acids (FFA) were produced by extracts of imbibed cottonseeds. When synthetic [1-(14)C]NAE 18:2 was used as a substrate, FFA and an additional lipid product(s) were formed. On the basis of polarity, we presumed that the unidentified lipid was a product of the lipoxygenase (LOX) pathway and that inclusion of the characteristic LOX inhibitors nordihydroguaiaretic acid and eicosatetraynoic acid reduced its formation in vitro and in vivo. The conversion of NAE 18:2 in imbibed cottonseed extracts to 12-oxo-13-hydroxy-N-(9Z)-octadecanoylethanolamine was confirmed by gas chromatography-mass spectrometry, indicating the presence of 13-LOX and 13-allene oxide synthase, which metabolized NAE 18:2. Cell fractionation studies showed that the NAE amidohydrolase, responsible for FFA production, was associated mostly with microsomes, whereas LOX, responsible for NAE 18:2-oxylipin production, was distributed in cytosol-enriched fractions and microsomes. The highest activity toward NAE by amidohydrolase was observed 4 to 8 h after imbibition and by LOX 8 h after imbibition. Our results collectively indicate that two pathways exist for NAE metabolism during seed imbibition: one to hydrolyze NAEs in a manner similar to the inactivation of endocannabinoid mediators in animal systems and the other to form novel NAE-derived oxylipins. The rapid depletion of NAEs by these pathways continues to point to a role for NAE metabolites in seed germination.     

野生秀丽四照花种子生物学特性及萌发研究

对野生秀丽四照花(Cornus hongkongensis subsp. elegans)种子的生物学特性进行观察测定,比较变温、低温层积、化学处理对种子萌发的影响。结果表明,秀丽四照花种子千粒重76.91 g,长5.81 mm、宽5.10 mm、厚3.99 mm。种子在整个试验过程中吸水率低于8%,说明有吸水性障碍的坚硬种皮抑制了种子萌发。变温条件下,温差较大的30℃/15℃处理对秀丽四照花种子萌发有较好的促进作用,萌发时滞短,萌发率和发芽势较高。秀丽四照花种子经30%NaOH浸泡10 min,可明显缩短萌发时间,但4℃低温层积处理对种子萌发没有显著效果。     

磁化水浸种对苦瓜种子萌发及对其幼苗生理指标的影响

目的 :研究磁化水对苦瓜种子萌发的影响。方法 :用不同强度的磁化水浸种处理苦瓜种子 ,测定其以下几个生理指标 :种子的发芽率、发芽指数、活力指数和幼苗中的酯酶以及抗坏血酸的含量。实验结果显示 :磁化水能够提高苦瓜种子的发芽率、发芽指数、活力指数 ,同时也能提高苦瓜幼苗的酯酶活性 ,但对抗坏血酸含量影响不大。结论 :一定强度的磁化水能提高苦瓜种子的萌发能力 ,并使幼苗生长整齐一致。     

普甜玉米种子萌发期糖代谢和水解酶活性动态变化

种子萌发是一个较复杂的生理生化过程,是种子贮藏物质在酶的作用下经过一系列反应生成蔗糖、葡萄糖、果糖等各种糖类化合物,为种子萌发提供碳源和能量。该研究利用两个不同来源、籽粒营养成分具有差异的普甜玉米种子动态分析了种子萌发期蔗糖、果糖和葡萄糖代谢及关键水解酶活性的变化。结果表明:在种子萌发过程中,E22和T26两个普甜玉米种子的物质动员量、物质利用率、蔗糖、葡萄糖和果糖含量均存在遗传差异,其中淀粉含量较高的T26种子具有较突出的物质利用率,表明淀粉是影响普通甜玉米种子萌发的关键因子;在种子萌发4~8 d、6~10 d时,E22分别具有较高的蔗糖和葡萄糖含量,而T26是在萌发10 d时具有较高的果糖含量。随着种子发芽进程,蔗糖合成酶活性、淀粉酶活性都呈逐渐上升的趋势,但淀粉酶活性变幅较明显;进一步关联分析8个种子萌发物质利用性状间关系,结果表明种子萌发期间,种子物质动员量主要受淀粉酶活性影响,而种子物质利用率则主要受糖含量多少制约。因此,提高甜玉米种子萌发期物质利用率对其种子发芽和幼苗生长,增强其与杂草生长的竞争力,提高甜玉米产量均具有重要意义。