Increase in calmodulin level in the early phases of radish seed (Raphanus sativus) germination

Abstract Calmodulin (Cam), the heat-stable, ubiquitous, Ca²⁺-dependent regulator protein, has been purified to apparent homogeneity from germinating radish seeds (Raphanus sativus). The characteristics of radish Cam-molecular weight, absorption spectrum, Ca²⁺-dependent activation of brain phosphodiesterase (PDE)-are very similar to those described for Cam from other plant materials. Radish Cam, like other plant Cam, shows some differences to Cam of calf brain. The total amount of Cam in radish embryos at 24 h of germination is ca. 37 μg g⁻¹ fresh weight. Approximately 95% of the total amount of Cam is present in the soluble fraction (supernatant at 100,000 g). The level in the embryo axis strongly increases in the first 24 h of germination (+540%); this increase is strongly reduced when the germination is inhibited by abscisic acid (ABA). In the presence of Ca²⁺, no ‘free’ Cam (i.e. not bound to other structures) is present in the soluble fraction, suggesting that, during early germination, Cam level is a limiting factor for the activities of Ca²⁺ -Cam-dependent systems. These studies suggest that Cam plays an important role in the early phases of seed germination. An inhibitor of the Ca²⁺-Cam-dependent phosphodiesterase is present in the soluble fraction from radish embryos; this substance decreases during germination. A possible role of this inhibitor during the early germination phases is hypothesized.     

Response of seedlings of radish (Raphanus sativus) to osmotic shock and external hydrostatic pressure

The effects of an osmotic shock (300 m M mannitol, –0. 67 MPa) or/and increased external hydrostatic pressure on seedlings (42-h-germinated seeds) of radish ( Raphanus sativus L. cv. Tondo Rosso Quarantino) were investigated. The osmotic shock did not inhibit H⁺ extrusion and net K^- uptake, and did not affect the levels of malic acid, reducing sugars, sucrose or amino acids or of the energy charge (i. e. the synthesis of energy-rich phosphate bonds), but inhibited the synthesis of proteins. RNA and DNA, measured as incorporation of labelled precursors. When the osmotic shock was applied together with an increased external hydrostatic pressure of the same magnitude (+0. 67 MPa), the same metabolic parameters and the inhibition of synthesis of RNA and DNA were not substantially affected, while the inhibition of protein synthesis was practically reversed and the energy charge decreased; the recovery of protein synthesis was not due to a change in labelled leucine uptake capability. Increased external hydrostatic pressure alone decreased the energy charge without affecting the other parameters considered.
The possibility that protein synthesis activity is directly controlled by cell turgor pressure (internal hydrostatic pressure) is discussed.     

Calmodulin levels in radish (Raphanus sativus L.) seeds germinating at low calcium availability induced by EGTA treatments

Incubation of radish (Raphanus sativus L.) seeds in the presence of 1 or Smol m^?3 Ca-EGTA, which increased Ca²⁺ activity in the incubation medium (c. 0.24 or 0.37 mol m^?3 at 24 h with respect to c. 0.13 mol m^?3 in the control), did not affect germination, the restoration of K⁺ net influx, the increase in DNA and RNA levels or protein synthesis. Incubation in 1 mol m^?3 Na-EGTA, which reduced Ca²⁺ activity in the incubation medium (20 mmol m^?3 at 24 h), decreased the total Ca²⁺ level in embryo axes (-21%), but only slightly inhibited the increase in fresh weight without affecting the restoration of K⁺ net influx, the increase in DNA and RNA levels or protein synthesis. In the presence of 5 mol m^?3 Na-EGTA (Ca²⁺ activity in the incubation medium was 0.6 mmol m^?3), the decrease in the total Ca²⁺ level was greater (c. -27%) and the increases in fresh weight, DNA and RNA were inhibited by about 50, 39 and 40%, respectively. These results indicate that increased Ca²⁺ availability does not affect germination and suggest that the effect of Na-EGTA, at least up to 5 mol m^?3, is a result of an induction of Ca²⁺ deficiency. The amount and specific activity of calmodulin (CaM) present in the soluble fraction (100 000g) of radish embryo axes greatly increased during the first 24 h of incubation (c. 5-fold and 7-fold, respectively). This increase was very similar in the Ca-EGTA-treated seeds but was inhibited (c. -38%) by 1 mol m^?3 Na-EGTA, even if the increases in DNA and RNA levels and protein synthesis were not significantly reduced. The lower amount of CaM after 24 h of incubation in 1 mol m^?3 Na-EGTA (c. -30%) was due to a reduction in the fraction of CaM bound to a proteinaceous CaM inhibitor present in radish seeds [M. Cocucci & N. Negrini (1988) Plant Physiology 88, 910–914] and not involved in the metabolic reactivation of the seed. These results suggest that the level of CaM is controlled by Ca²⁺ availability and that the CaM inhibitor has a role in controlling the amount of Ca-CaM available for the Ca-CaM-dependent enzymes.     

Photoinhibition of radish (Raphanus sativus L) seed germination: control of growth potential by cell-wall yielding in the embryo

The biophysical mechanism underlying photoinhibition of radish (Raphanus sativus L.) seed germination was investigated using three cultivars differing in sensitivity to continuous irradiation with far-red light (high-irradiance reaction of phytochrome). Sensitivity of germination to the inhibitory action of light was assessed by probing germination under osmotic stress (incubation in media of low water potentials adjusted with polyethylene glycol 6000) and expressed in terms of ‘germination potential’ (positive value of the water potential at which germination is inhibited by 50%). Far-red light decreases the germination potential to various degrees in the different cultivars, reflecting the light-sensitivity of germination in water. Removal of the seed coat increases the germination potential by a constant amount in darkness and light. It is concluded that germination depends on the expansive force of the embryo which can be drastically diminished by far-red light. Seed-coat constraint and expansive force of the embryo interact additively on the level of the germination potential. Photoinhibition of germination was accompanied by an inhibition of water uptake into the seed. Analysis of seed water relations showed that osmotic pressure and turgor assumed higher levels in photoinhibited seeds, compared to seeds germinating in darkness, while the water potential was close to zero under both conditions. Far-red light produced a shift (to less negative values) in the curve relating water-uptake rate to external water potential, i.e. a reduction in the driving force for water uptake. It is concluded that photoinhibition of germination results from the maintenance of a high threshold of cell-wall extensibility in the embryo.     

Involvement of Ca2+-calmodulin in Cd2+ toxicity during the early phases of radish (Raphanus sativus L.) seed germination

The toxicity of Cd²⁺in vivo during the early phases of radish (Raphanus sativus L.) seed germination and the in vitro Cd²⁺ effect on radish calmodulin (CaM) were studied. Cd²⁺ was taken up in the embryo axes of radish seeds; the increase in fresh weight of embryo axes after 24 h of incubation was inhibited significantly in the presence of 10 mmol m^?3 Cd²⁺ in the external medium, when the Cd²⁺ content in the embryo axes was c. 1.1 μmol g^?1 FW. The reabsorption of K⁺, which characterizes germination, was inhibited by Cd²⁺, suggesting that Cd²⁺ affected metabolic reactivation. The slight effect of Cd²⁺ on the transmembrane electric potential of the cortical cells of the embryo axes excluded a generalized toxicity of Cd²⁺ at the plasma membrane level. After 24 h of incubation, Cd²⁺ induced no increase in total acid-soluble thiols and Cd²⁺-binding peptides able to reduce Cd²⁺ toxicity. Ca²⁺ added to the incubation medium partially reversed the Cd²⁺-induced inhibition of the increase in fresh weight of embryo axes and concomitantly reduced Cd²⁺ uptake. Equilibrium dialysis experiments indicated that Cd²⁺ bound to CaM and competed with Ca²⁺ in this binding. Cd²⁺ inhibited the activation of Ca²⁺-CaM-dependent calf-brain phosphodiesterase, inhibiting the Ca²⁺-CaM active complex. Cd²⁺ reduced the binding of CaM to the Ca²⁺-CaM binding enzymes present in the soluble fraction of the embryo axes of radish seeds. The possibility that Cd²⁺ toxicity in radish seed germination is mediated by the action of Cd²⁺ on Ca²⁺-CaM is discussed in relation to the in vivo and in vitro effects of Cd²⁺.     

The use of image analysis to monitor the germination of seeds of broccoli (Brassica oleracea) and radish (Raphanus sativus)

To study broccoli and radish seed germination under different temperature regimes the germination test has been used to assess final germination percentage, start and rate. This method has been integrated with a computer‐aided image analysis test which is more accurate in monitoring the extent of imbibition phases through the assessment of seed area increase and timing of radicle emergence detected on single seeds. In addition, seed area increase has been used also to establish a close relationship with radicle elongation rate in the time range when ‘visible germination’ is scored by a classical germination test. The results suggest that this image analysis parameter may be considered as a reliable seed imbibition marker to integrate the germination parameters obtained by a germination test.     

Effects of pollen load size and composition on pollen donor performance in wild radish, Raphanus sativus (Brassicaceae)

A critical concern in the debate over the importance of sexual selection in plants is whether the nonrandom mating demonstrable in greenhouse crosses can occur in the field. Field populations likely experience smaller and more variable pollen load sizes than those that have been used in many greenhouse experiments. Therefore, we performed a greenhouse experiment in which we varied both pollen load size and composition in wild radish, Raphanus sativus, and examined the paternity of seeds. We used five maternal plants and four pairs of pollen donors. We were able to produce pollen loads of 40, 118, and 258 grains per stigma. The smallest of the pollen loads was scant enough to result in a slight, but significant reduction in seed number per fruit. While variation in pollen load composition significantly affected the proportions of seeds fathered by different donors, variation in pollen load size did not. The relative performance of different donors was constant across pollen load sizes, suggesting that, for this species, differential performance of pollen donors can occur at pollen load sizes that are likely to occur in field populations.     

Effects of abscisic acid,gibberellic acid and fusicoccin on the transmembrane potential during the early phases of germination in radish (Raphanus sativus L.) seeds

During germination, the transmembrane electric potential (PD) of cortical cells of the embryonal axis of radish seeds (Raphanus sativus L.) rises from-120 mV initially to a maximum of-150 mV after 5 h incubation, then falls again to stable values of around-120 mV. Treatments inhibiting germination block the transitory PD increase. Administration of uncoupling agents or low temperatures, during the process of germination, produces a marked fall of the PD transitory increase. Abscisic Acid has a parallel inhibitory effect on PD and germination, while fusicoccin produces a rise in both; administration of abscisic acid with fusicoccin inhibits germination, while the PD remains at the high levels given by fusicoccin. These results are discussed in relation to ion exchange at membrane level.Abbreviations ABA abscisic acid - FC fusicoccin - GA₃ gibberellic acid - PD electric potential difference (between the vacuole and the external medium) - CH cycloheximide - DNP dinitrophenol - FCCP (p-trifluormethoxy)-carbonylcyanide-phenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide     

Dynamics of maternal and paternal effects on embryo and seed development in wild radish (Raphanus sativus)

Background and Aims

Variability in embryo development can influence the rate of seed maturation and seed size, which may have an impact on offspring fitness. While it is expected that embryo development will be under maternal control, more controversial hypotheses suggest that the pollen donor and the embryo itself may influence development. These latter possibilities are, however, poorly studied. Characteristics of 10-d-old embryos and seeds of wild radish (Raphanus sativus) were examined to address: (a) the effects of maternal plant and pollen donor on development; (b) the effects of earlier reproductive events (pollen tube growth and fertilization) on embryos and seeds, and the influence of embryo size on mature seed mass; (c) the effect of water stress on embryos and seeds; (d) the effect of stress on correlations of embryo and seed characteristics with earlier and later reproductive events and stages; and (e) changes in maternal and paternal effects on embryo and seed characteristics during development.

Methods

Eight maternal plants (two each from four families) and four pollen donors were crossed and developing gynoecia were collected at 10 d post-pollination. Half of the maternal plants experienced water stress. Characteristics of embryos and seeds were summarized and also compared with earlier and later developmental stages.

Key Results

In addition to the expected effects of the maternal plants, all embryo characters differed among pollen donors. Paternal effects varied over time, suggesting that there are windows of opportunity for pollen donors to influence embryo development. Water-stress treatment altered embryo characteristics; embryos were smaller and less developed. In addition, correlations of embryo characteristics with earlier and later stages changed dramatically with water stress.

Conclusions

The expected maternal effects on embryo development were observed, but there was also evidence for an early paternal role. The relative effects of these controls may change over time. Thus, there may be times in development when selection on the maternal, paternal or embryo contributions to development are more and less likely.     

萝卜颗粒引发大豆种子抗吸胀冷害能力的效应

以鲜萝卜颗粒和聚乙二醇(PEG)引发大豆种子抗吸胀冷害能力的研究结果表明,二者都能引发和控制种子在低温吸胀过程中的吸水,提高种子活力和萌发率,减少细胞中电解质和氨基酸外渗。     

Responses of radish (Raphanus sativus) to drought stress

With this study the effects of water deficit on radish growth, dry mass production and partitioning, source–sink relations, physiological responses and accumulation of secondary metabolites in storage roots and leaves have been investigated. Three water stress treatments were applied: (Control) 100% of water holding capacity (WHC), (WS50) 50% of WHC, (WS30) 30% of WHC. Water stress was effectively acquired starting from 287 growing degree days (GDD) as demonstrated by the lower values of relative water content (RWC), higher leaf temperature and NIR‐based water indices values in water stressed conditions. Water stress reduced storage root dry weight by 27% at WS50 and 53% at WS30 as well as leaf dry matter accumulation (by 23% and 31% in WS50 and WS30, respectively), expansion (by 28% and 45% in WS50 and WS30, respectively) and specific leaf area (by 7% and 20% in WS50 and WS30, respectively) at 403 GDD. The increasing of leaf‐to‐root mass (L/R) and leaf area‐to‐root mass (LA/R) ratios indicated less dry matter allocation into storage organs under water stress conditions. Besides, water shortage increased leaf greenness as estimated by the higher soil–plant analysis development (SPAD) values (+14% and +20% on average for WS50 and WS30, respectively); other reflectance indices only partially confirmed SPAD readings. Substantially, water limitation did not significantly influence total anthocyanin content, ABTS‐radical scavenging activity and total free phenolic compounds in storage roots, as well as the total free phenolic compounds in leaves. Radish showed a strong plasticity in its adaptation to drought thanks to avoidance mechanisms such as constrained leaf development, increased leaf thickness and adjusted source–sink relationships.     

Thiocyanate content in relation to the quality features of radish Raphanus sativus L

Relationships between radish thiocyanate content and its dry weight, the content of sugar, protein, fibre, ascorbic acid, some minerals, the incidence of plant shooting, the firmness and pithiness of storage-roots, and the ratio of leaves to storageroot (wt/wt) were investigated. The analysis of linear correlation was based on numerous data from the 4-year field experiment with six radish cultivars and different sowing and harvest dates. The content of thiocyanate in radish roots was found to be positively correlated with their dry weight, and the content of total protein, crude fibre, and soluble sugar. A strong relationship was found between the content of thiocyanate and dry weight of radish leaves. The negative correlation between the thiocyanate content in the leaves and the firmness of storageroots and the positive correlation with their pithiness might indicate the translocation of this compounds into green plant parts during the ageing of root tissue. The root thiocyanate content and the percentage of shooting correlated significantly only in the case of Tokinashi. The closeness of relations between the ratio of leaves/storage-root and thiocyanate content, though in general small, was affected also by a cultivar. A similar effect was observed for the correlations between the thiocyanate contents in leaves and storage-roots.     

Pollen donor performance can be consistent acrossmaternal plants in wild radish (Raphanus sativus,Brassicaceae): a necessary condition for the action of sexualselection

The possibility that sexual selection has played a role in theevolution of plant reproductive characters remains interesting, butcontroversial. One reason is that clear demonstration of the necessaryconditions for sexual selection is lacking. For sexual selection tooccur, differences in pollen donor performance must be consistent acrossmaternal plants and not be due to mechanisms such asself-incompatibility that produce interactions between maternal plantsand pollen donors. Here, I performed two experiments with wild radish totest whether differences in pollen donor performance are consistentacross maternal plants and not due to subtle effects of theincompatibility system. In the first, all maternal and paternal lineageshad different S-alleles. There were 16 maternal plants, four in each offour lineages and four pollen donors, one in each of four lineages. Rankorder of pollen donor performance, in terms of number of seeds siredafter mixed pollination, was highly consistent across maternal plantsand maternal lineages. In addition, maternal stress treatment had aneffect on mating success of pollen donors, but the effect was subtle anddid not affect the rank order of seeds sired by the four pollen donors.In the second experiment, pollinations were performed on both mature andimmature stigmas. Immature stigmas allowed some self seed set, so theincompatibility system was compromised. There was some nonrandom seedpaternity on both mature and immature stigmas. However, the amount ofnonrandom mating was less on immature stigmas. Taken together, theseexperiments show that the kind of consistent nonrandom mating necessaryfor sexual selection occurs in wild radish, but that the incompatibilitysystem and the mechanisms for sorting among compatible mates may overlapin time of development or in somepathways.     

Effect of chlorocholine chloride and gibberellic acid on the anthocyanin synthesis in radish seedlings

Anthocyanin synthesis in radish ( Raphanus sativus L. cv. Scarlet Globe) seedlings after treatment with chlorocholine chloride (CCC) and gibberellic acid (GA) has been investigated. CCC promotes and GA₃ inhibits the synthesis. When both substances are given together, CCC reverses the inhibition caused by GA₃. Simultaneous external feeding of anthocyanin precursors (sucrose and phenylalanine) reverses the GA₃ inhibition. A higher amount of total free amino acids, in particular phenylalanine, was present in CCC-treated seedlings compared to controls grown on distilled water. The amount of phenylalanine was lower in seedlings treated with both CCC and GA₃ as compared to seedlings treated with CCC alone, and total free sugars (reducing plus non-reducing) was lower in CCC treated seedlings than in controls grown on distilled water. We conclude that CCC and GA3 control the anthocyanin synthesis at the level of precursors.     

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.     

紫花苜蓿种子萌发及幼苗生理特性对PEG6000模拟渗透势的响应

用不同质量浓度PEG6000(0%、5%、10%、15%、20%、25%、30%,渗透势分别为0、-0.06、-0.17、-0.32、-0.53、-0.79、-1.10 MPa)控制渗透势,研究紫花苜蓿种子萌发及幼苗生理特性对不同渗透势的响应.结果表明: 种子5项萌发指标均随渗透势降低呈先升后降趋势,-0.06 MPa时萌发指数和活力指数最高,-0.17 MPa时发芽率、发芽势和发芽指数最高;幼苗过氧化物酶、超氧化物歧化酶、过氧化氢酶活性和叶绿素含量均随渗透势降低呈先升后降趋势,-0.17 MPa时各指标值最高;叶绿素a/b随渗透势降低呈先降后升趋势,-0.06 MPa时最低;游离脯氨酸、丙二醛含量和相对电导率随渗透势降低而持续升高.渗透势为-0.06～-0.17 MPa时,种子萌发和幼苗生理综合评价结果最优,是最适宜种子萌发的渗透势条件,而当渗透势低于-0.79 MPa时,对种子萌发产生抑制.     

Genetic analysis of the reaction level of self-incompatibility to a 4% CO2 gas treatment in the radish (Raphanus sativus L.).

In radishes, self-incompatibility (SI) is governed by the S-locus, which consists of a series of multiple alleles. This SI can be overcome by CO₂ gas treatment, a characteristic that is very useful in obtaining large amounts of parental seeds for F₁ commercial seeds. We know from experience that there are genetic variations in the reaction level of self-incompatibility (RLSI) to a 4% CO₂ gas treatment (hereafter described as RLSICO₂ ) in the radish. We have raised and analyzed an F₂ population derived from an F₁ cross between No. 9324 (S ²⁰⁶ -homozygote, low RLSICO₂) and LV364 (S ²⁰⁹ -homozygote, high RLSICO₂). The RLSICO₂ among three S-genotypes (S ²⁰⁶ -homozygotes, S ²⁰⁶ S ²⁰⁹ -heterozygotes, S ²⁰⁹ -homozygotes), which fit the theoretical ratio of one gene segregation in the F₂ population, did not show any significant statistical differences. Hence, we concluded that the RLSICO₂ was controlled by a gene other than the S-gene. In this F₂ population the segregation of the RLSICO₂ fit the 3(low RLSICO₂):1(high RLSICO₂) ratio well. This result and F₃ progeny tests suggest that high RLSICO₂ is controlled by a recessive gene. Reciprocal crosses among S ²⁰⁹ -homozygotes with different RLSICO₂ have shown that this gene would act in the stigma. Received: 25 February 2000 / Accepted: 10 April 2000     

The role of darkness, GA and fusicoccin (FC) in breaking photodormancy in Phacelia tanacetifolia seeds

The germination of the negatively photoblastic seeds of Phacelia tanacetifolia Benth. (cv. Bleu Clair) is promoted by gibberellic acid and fusicoccin. In the dark, or in the light in the presence of fusicoccin, seed germination is accompanied by an increase of gibberellic acid-like substances. In these conditions, the inhibition of the synthesis of gibberellic acid-like substances does not prevent seed germination, but it affects the growth and the survival of the seedlings. Seed germination, growth, and survival of seedlings are discussed in relation to phytochrome, fusicoccin, and gibberellic acid-iite substances.     

Disappearance of stored polyadenylic acid and mRNA during early germination of radish (Raphanus sativus L.) embryo axes

Polyadenylic acid [poly (A)] is detected, characterized and quantitated in dry radish embryo axis RNA using a ³H poly (U) probe. The amount of poly (A) gradually decreases after the onset of soaking, and, after a few hours, recovers to the initial level. This variation is shown to result from the addition of two opposed phenomena: the decay of stored poly (A) and the accumulation of newly synthesized poly (A). Stored poly (A), as well as the in vivo protein synthesis coded for by preformed mRNA, decreases during early germination with a half-life of two hours. As a whole, these results demonstrate that at least a fraction of the stored mRNA is translated as soon as the seed is soaked and that its role is rapidly taken over by newly-made mRNA.Abbreviations Poly (A) (+) RNA polyadenylated RNA - Poly (A) polyadenylic acid - Poly (U) polyuridylic acid