Responses of Tradescantia stamen hairs and pollen to UV-B irradiation

Clones 02 and 4430 of Tradescantia were tested in field, greenhouse and controlled environment chambers as monitors for the potentially hazardous UV-B irradiation increase that could result from stratospheric ozone decrease. In addition to about 16 hr of solar emissions at about 2100 micro-einsteins·m⁻²·s⁻¹ (400–700 nm) and 15 hr at about 1800 micro-einsteins·m⁻²·s⁻¹ in the field and greenhouse, respectively, plants were given 7 hr of supplemental UV-B irradiation per day for 27 days. After the first 7 days of UV-B irradiation exposure, cumulative data were recorded for 20 days. Cuttings of Tradescantia plants in controlled-environment, exposed to 16 hr of simulated solar emission of about 800 micro-einsteins·m⁻²·s⁻¹ (400–700 nm), were also exposed to 10 hr of supplemental UV-B irradiation per day for 1 or 2 days. All plants were checked for somatic aberrations (color changes in the flower petals and stamen hairs), number of hairs per stamen, and cells per hair. Pollen germination and pollen tube growth were noted after a 90-min UV-B irradiation period.Somatic aberrations occurred infrequently in the petals and were judged unreliable criteria for use in monitoring enhanced UV-B irradiation environments. The number of aberrant events within stamen hairs, however, was significantly increased by the UV-B irradiation treatments. while pollen germination and pollen tube growth were significantly reduced. These data indicate that color changes in stamen hairs and pollen viability are useful criteria for monitoring UV-B irradiation changes.     

Stimulation der Keimung von Kiefernpollen durch UV-Bestrahlung

Zusammenfassung Bei der Aufnahme der Dosis-Effekt-Kurve für die Keimung vonPinus-Pollen nach UV-Bestrahlung in Suspension (etwa 0,4 mW/cm², 265 nm) findet man bis zu 1,5 min Bestrahlungszeit eine deutliche Stimulation des Keimvorganges.

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Stimulation of the germination of Pine Pollen by ultra-violet irradiation

Summary When investigating the dose-effect-curve of the germination of pine pollen after uv irradiation in suspension (approx. 0.4 mW/cm²,265 nm) one gets a significant stimulation of the germination process up to 1.5 min of irradiation.

     

Dose effect of UV-B irradiation on pollen tube growth and seed-specific promoter activities in irradiated pollen grains of Nicotiana plumbaginifolia

Low doses of UV-B irradiation applied to mature Nicotiana plumbaginifolia pollen grains stimulated pollen tube growth. The most pronounced effect was achieved after 1.5 min of irradiation. Using transgenic N. plumbaginifolia plants expressing the GFP reporter gene under the control of the seed-specific promoters USP (unknown seed protein) or LegB4 (legumin B4) genes, it was shown that these promoters are also inducible by UV-B irradiation of the pollen grains. The improvement of pollen viability and germination by UV-light is discussed with respect to effects on plant flowering and reproduction. Received: 10 November 1999 / Revision accepted: 14 February 2000     

Evidence for DNA repair after ultraviolet irradiation of Petunia hybrida pollen

Summary Ultraviolet irradiation of Petunia hybrida pollen led to an unscheduled labelling of pollen DNA by ³H-thymidine during the early stages of germination. Hydroxyurea increased this DNA labelling, while added boron, required absolutely for pollen germination, tube elongation and tube generative cell mitosis, was not needed for this repair — like DNA synthesis.     

In vitro germination and growth of lily pollen tubes is affected by calcium inhibitor with reference to calcium distribution

The calcium inhibitors A23187, EGTA and La³⁺ inhibit pollen grain germination and growth of pollen tubes of Lilium davidii var. unicolor at different concentrations. Treatment with 10⁻⁴ or 10⁻⁵ M ionophores A23187 reduced germination rate and resulted in distortion of pollen tube. Addition of 2 or 10 mM of the chelator EGTA disturbed the direction of pollen tube growth and extended the diameter of pollen tube as observed by light and confocal microscopy. The Ca²⁺-channel blocker lanthanum chloride (La³⁺) restrained germination or markedly caused transformation of pollen tube. Furthermore, all treatments led to disappearance of any calcium gradient. Calcium distribution in pollen grain and pollen tube was altered as shown by confocal microscopy for each treatment. This indicates that the inhibitors influence pollen development by affecting the calcium gradient which may play a critical role in germination and tube growth. Fourier transform infrared (FTIR) spectra indicated slight increases in contents of amide I and a substantial decrease in the content of aliphatic esters and saturated esters in treated pollen tubes compared with normal pollen tubes. The FTIR analysis confirmed that EGTA and La³⁺ weakened the accumulation of ester in pollen tubes, which may be associated with an increased content of amide I.     

Ionophore A 23187 stops tip growth,but not cytoplasmic streaming,in pollen tubes ofLilium longiflorum

Summary The effects of the cationophore A 23187 on growing pollen tubes ofLilium longiflorum and on pollen germination were testedin vitro, and measured light microscopically. The ionophore is a very potent inhibitor of pollen tube growth: ionophore contentrations down to 10^–7 M stop tip growth. Cytoplasmic streaming is less sensitive: Only with added external Ca²⁺ and higher concentrations of the ionophore the cytoplasmic streaming is stopped. Pollen germination is less sensitive to ionophore than pollen tube growth at later stages. The ionophore inhibition is partially reversible in a medium containing no added external Ca²⁺, but is not reversible in a Ca²⁺-enriched medium. EDTA addition to the medium prevents pollen germination and growth totally. It is hypothesized that the pollen ofLilium longiflorum needs Ca²⁺ to sustain oriented exocytosis at the pollen tube tip. The ionophore A 23187 seems to interfere with the electrical pulse/Ca²⁺-orientation mechanism of exocytosis by equilibration of the Ca²⁺-gradient.     

The involvement of hydrogen peroxide in UV-B-inhibited pollen germination and tube growth of Paeonia suffruticosa and Paulownia tomentosa in vitro

Previous studies have shown that UV-B could affect pollen germination and tube growth. However, the mechanism of response of pollen to UV-B has not been clear. The purpose of this study was to investigate the role of hydrogen peroxide (H₂O₂) in the UV-B-induced reduction of in vitro pollen germination and tube growth of Paeonia suffruticosa Andr. and Paulownia tomentosa Steud. Exposure of pollen of the two species to 0.4 and 0.8 W m⁻² UV-B radiation for 3 h resulted in not only the reduction of pollen germination and tube growth, but also the H₂O₂ production in pollen grain and tube. Also, exogenous H₂O₂ inhibited pollen germination and tube growth of the two species in a dose-dependence manner. Two scavengers of H₂O₂, ascorbic acid and catalase, largely prevented not only the H₂O₂ generation, but also the reduction of pollen germination and tube growth induced by UV-B radiation in the two species. These results indicate that H₂O₂ is involved in the UV-B-inhibited pollen germination and tube growth.     

Molecular and physiological characterisation of a 14-3-3 protein from lily pollen grains regulating the activity of the plasma membrane H+ ATPase during pollen grain germination and tube growth

A 14-3-3 protein has been cloned and sequenced from a cDNA library constructed from mRNAs of mature pollen grains of Lilium longiflorum Thunb. Monoclonal antibodies (MUP 5 or MUP 15) highly specific against 14-3-3 proteins recognised a 30-kDa protein in the cytoplasmic fraction of many various lily tissues (leaves, bulbs, stems, anther filaments, pollen grains, stigmas) and in other plants (Arabidopsis seedlings, barley recombinant 14-3-3). In addition, 14-3-3 proteins were detected in a microsomal fraction isolated from pollen grains and tubes, and the amount of membrane-bound 14-3-3 proteins as well as the amount of the plasma membrane (PM) H⁺ ATPase increased during germination of pollen grains and tube growth. No change was observed in the cytoplasmic fraction. A further increase in the amount of 14-3-3 proteins in the microsomal fraction was observed when pollen grains were incubated in germination medium containing 1 μM fusicoccin (FC) whereas the number of 14-3-3s in the cytoplasmic fraction decreased. Fusicoccin also protected membrane-bound 14-3-3 proteins from dissociation after washing with the chaotropic salt KI. Furthermore, FC stimulated the PM H⁺ ATPase activity, the germination frequency and the growth rate of pollen tubes, thus indicating that a modulation of the PM H⁺ ATPase activity by interaction with 14-3-3 proteins may regulate germination and tube growth of lily pollen. Received: 20 June 2000 / Accepted: 2 October 2000     

Studies on the Germination of Pine Pollen (Pinus mugo) in vitro. III. Inhibition by D-Mannose and Deoxyhexoses

D-Mannose, 2-deoxy-D-glucose, 6-deoxy-D-galactose, and 2-deoxy-D-galactose inhibit germination of pine pollen (Pinus mugo Turra) probably competitively with a metabolizable sugar. Inhibition by D-mannose, 2-deoxy-D-glucose, or 6-deoxy-D-galactose is reversed by transfer of pollen to sucrose medium, if the inhibitors was added before tube growth has started. In contrast, inhibition by 2-deoxy-D-galactose is irreversible except after very short exposures to the inhibitor, in which case the transfer results in reduced growth and germination. Incubation with 2-deoxy-D-glucose, 6-deoxy-n-galactose, or 2-deoxy-D-galactose after tube growth has started, results in irreversible inhibition of growth. If D-mannose is used, growth is resumed if the pollen are transferred to sucrose medium. Addition of D-mannose or lowering of the temperature prior to incubation with the deoxyhexoses protected against the irreversible growth inhibition. Uptake of oxygen and ³²P-labelled phosphate is reduced upon addition of either of the inhibitors.     

The effect of exogenous Ca2+ ions on pollen grain germination and pollen tube growth

Summary The involvement of exogenous calcium ions in the regulation of pollen tube formation has been investigated in Haemanthus albiflos L. and Oenothera biennis L. by following the changes that occur in pollen germination, tube growth, and ⁴⁵⁺Ca²⁺ uptake and distribution upon application of Verapamil (an inhibitor of calcium channels), lanthanum (a Ca²⁺ substitute), and ruthenium red (believed to raise the intracellular calcium level). It was found that exogenous Ca²⁺ takes part in the formation of the calcium gradient present in germinating pollen grains and growing pollen tubes. Ca²⁺ ions enter the cells through calcium channels. Raising or reducing ⁴⁵Ca²⁺ uptake causes disturbances in the germination of the pollen grains and in the growth of the pollen tubes.     

Effect of smoke derivatives on in vitro pollen germination and pollen tube elongation of species from different plant families

Plant‐derived smoke stimulates seed germination in numerous plant species. Smoke also has a positive stimulatory effect on pollen germination and pollen tube growth. The range of plant families affected my smoke still needs to be established since the initial study was restricted to only three species from the Amaryllidaceae. The effects of smoke‐water (SW) and the smoke‐derived compounds, karrikinolide (KAR₁) and trimethylbutenolide (TMB) on pollen growth characteristics were evaluated in seven different plant families. Smoke‐water (1:1000 and 1:2000 v:v) combined with either Brewbaker and Kwack's (BWK) medium or sucrose and boric acid (SB) medium significantly improved pollen germination and pollen tube growth in Aloe maculata All., Kniphofia uvaria Oken, Lachenalia aloides (L.f.) Engl. var. aloides and Tulbaghia simmleri P. Beauv. Karrikinolide (10^?6 and 10^?7 m ) treatment significantly improved pollen tube growth in A. maculata, K. uvaria, L. aloides and Nematanthus crassifolius (Schott) Wiehle compared to the controls. BWK or SB medium containing TMB (10^?3 m ) produced significantly longer pollen tubes in A. maculata, K. uvaria and N. crassifolius. These results indicate that plant‐derived smoke and the smoke‐isolated compounds may stimulate pollen growth in a wide range of plant species.     

The effects of extracellular calmodulin on initiation of Hippeastrum rutilum pollen germination and tube growth

The effects of anti-calmodulin (CaM) serum, the CaM antagonist W7-agarose, the Ca²⁺ chelator ethyleneglycol-bis-(β-aminoethyl)-N,N,N′,N′-tetraacetic acid (EGTA) and exogenous pure CaM on pollen germination and tube growth of Hippeastrum rutilum Herb were studied. Pollen germination and tube growth were inhibited or completely stopped by anti-CaM serum in a dose-dependent manner, while the same amount of preimmune serum had no effect on either process. Pollen germination and tube growth were also inhibited or completely stopped by the CaM antagonist W7-agarose and the Ca²⁺ chelator EGTA. The addition of exogenous pure CaM enhanced pollen germination and tube growth, whereas the same amount of bovine serum albumin had no effect. The inhibitory effects caused by anti-CaM serum, W7-agarose and EGTA-washing could be reversed completely by the addition of exogenous pure CaM. These results indicate that extracellular CaM initiates pollen germination and tube growth, whereas exogenous CaM enhances the above processes, and may provide a novel view for understanding the control of pollen germination and tube growth. Received: 12 December 1996 / Accepted: 15 January 1997     

Protein synthesis of binucleate and trinucleate pollen and its relationship to tube emergence and growth

Under humid conditions, both bi- and trinucleate pollen species incorporate, on the average, very low amounts of leucine, e.g., 0.4 pmol min^-1mg pollen^-1. During germination in vitro, however, the two types of pollens greatly differ in their capacity for protein synthesis.Binucleate pollen species such as Typha, which are characterized by slow respiration in humid air and prolonged lag periods during germination in vitro, contain large amounts of monoribosomes at dehiscence. Polyribosomes are formed soon after the pollen is wetted in the germination medium, and a considerable incorporation of leucine is initiated after 10–15 min. More rapidly respiring, binucleate pollen showing a short lag period, such as Tradescantia, may already contain many polysomes at dehiscence and incorporate leucine within 2 min of germination. However, rapidly respiring, trinucleate Compositae pollen contains very limited amounts of ribosomal material and never attains any substantial level of incorporation. Cycloheximide completely inhibits both protein synthesis and tube emergence and growth in the slowly respiring, binucleate pollen species. The more rapidly respiring types are less dependent on protein synthesis, while germination of the phylogenetically advanced, trinucleate Compositae pollen proceeds completely independently. It is concluded that the level of phylogenetic advancement of the male gametophyte is characterized by its overall state of metabolic development at dehiscence rather than by the number of its generative cells.Abbreviations BSA bovine serum albumin - CHI cycloheximide - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N-tetraacetic acid - RH relative humidity - TCA trichloroacetic acid     

UV‐A/BLUE LIGHT–INDUCED REACTIVATION OF SPORE GERMINATION IN UV‐B IRRADIATED ULVA PERTUSA (CHLOROPHYTA)1

Recent reduction in the ozone shield due to manufactured chlorofluorocarbons raised considerable interest in the ecological and physiological consequences of UV‐B radiation (λ=280–315 nm) in macroalgae. However, early life stages of macroalgae have received little attention in regard to their UV‐B sensitivity and UV‐B defensive mechanisms. Germination of UV‐B irradiated spores of the intertidal green alga Ulva pertusa Kjellman was significantly lower than in unexposed controls, and the degree of reduction correlated with the UV doses. After exposure to moderate levels of UV‐B irradiation, subsequent exposure to visible light caused differential germination in an irradiance‐ and wavelength‐dependent manner. Significantly higher germination was found at higher photon irradiances and in blue light compared with white and red light. The action spectrum for photoreactivation of germination in UV‐B irradiated U. pertusa spores shows a major peak at 435 nm with a smaller but significant peak at 385 nm. When exposed to December sunlight, the germination percentage of U. pertusa spores exposed to 1 h of solar radiation reached 100% regardless of the irradiation treatment conditions. After a 2‐h exposure to sunlight, however, there was complete inhibition of germination in PAR+UV‐A+UV‐B in contrast to 100% germination in PAR or PAR+UV‐A. In addition to mat‐forming characteristics that would act as a selective UV‐B filter for settled spores under the parental canopy, light‐driven repair of germination after UV‐B exposure could explain successful continuation of U. pertusa spore germination in intertidal settings possibly affected by intense solar UV‐B radiation.     

A possible regulatory role for ethylene in the pollen-pistil interaction in a sporophytic self-incompatible system

The sporophytic type of self-incompatibility exhibited by Ipomoea cairica Sweet (Convolvulaceae) was partially overcome in vitro by treating the pollen and/or stigma with 10^–6 to 10^–1 M methionine, a precursor of ethylene. The implications of these observations are discussed in relation to other experiments involving use of the ethylene antagonist AgNO₃, individually and in combination with methionine and an optimum level of indole-3-acetic acid (10^–2 M). The results suggest a role for ethylene (which could also be IAA-induced) in regulating pollen germination and further tube growth in sporophytic self-incompatible systems. A hypothesis on the action of hormones in pollen germination and tube growth in a sporophytic self-incompatible (SSI) system is presented.     

Effects of γ-ray treatment onCannabis saliva pollen viability

The viability and thein vitro germination capability of hemp pollen (cv. Carmagnola) were studied. Viability tests were based on the microscopic observation of the fluorescence of loaded fluorescein diacetate (FDA), while, for germinability tests, five different media were tested. The effects of irradiation with γ-rays on pollen viability and germination and on seed set were also studied, at three different irradiation doses (20, 60 and 100krad). The results show that in one of the media tested, about 85–90% of the pollen grains are viable and able to germinate in control samples, and that while viability measured by FDA test is not affected by increased γ-ray doses, the pollenin vitro germinability drops to about one-half of the controls at the maximum γ-ray dose employed, 100krad. Seed set of hemp plants pollinated with the irradiated pollen dropped to less than 1% of that of plants pollinated by untreated pollen for the higher dose used. The different media suitable forin vitro germination of hemp pollen, and the observed lack of correspondence between viability and germination capacity tests are discussed.     

The Effect of Ultraviolet Radiation on the Germination of Nosema algerae Vávra and Undeen (Microsporida: Nosematidae) Spores1

Spores of Nosema algerae Vávra and Undeen were subjected to various dosages of 254 nm ultraviolet radiation (UV). Very high dosages of UV were required to block germination. Germination was normal immediately after UV dosages of 0.2 to 1.0 J/cm², followed by a delayed effect in which both percentage germination and the intrasporal concentration of trehalose decreased with time after UV exposure. Although a few spores were germinated, most of them were inactivated (rendered temporarily unable to germinate) by exposure to UV of 1.1 J/cm². Ultraviolet radiation between 1.1 and 3.4 J/cm² stimulated spores to germinate. However, spores were completely unable to germinate immediately after exposure to dosages above 3.8 J/cm². Ammonia had little effect on stimulation by UV but was inhibitory to germination after stimulation had occurred. These results demonstrate that UV behaves like a germination stimulus and are discussed in terms of the hypothesis that germination is initiated by the breakdown of barriers between trehalose and trehalase.     

Uptake and metabolism of flavonols during in-vitro germination of Petunia hybrida (L.) pollen

Flavonol-deficient petunia pollen [conditionally male fertile (CMF) pollen] is unable to germinate but application of nanomolar concentrations of flavonol aglycones completely restores function (Mo et al. 1992). In this study a chemically synthesized radioactive flavonol, [4′-O-¹⁴C]kaempferide, was used as a model compound to study the metabolism of flavonols during the first few hours of pollen germination. [4′-O-¹⁴C] Kaempferide was as efficient at inducing CMF pollen germination as kaempferol and quercetin, the aglycone form of the endogenous flavonols in petunia pollen. Analysis by high-performance liquid chromatography (HPLC) of extracts from both in-vitro-germinated pollen and the germination medium showed that more than 95% of the applied radioactivity was recovered as three kaempferide 3-O-glycosides and unmetabolized kaempferide; no flavonol catabolites were detected. Only HPLC fractions that contained the aglycone, or produced it upon acid hydrolysis, could induce CMF pollen germination in vitro. Structurally diverse flavonols could be classified according to how efficiently the aglycone was internalized and glycosylated during pollen germination. The ability of an individual flavonol to restore germination correlated with the total uptake of flavonols but not with the amount of glycoside formed in the pollen. Thus this study reinforces the conclusion that flavonol aglycones are the active compound for inducing pollen germination. Received: 4 November 1996/Accepted: 4 December 1996     

Fast loading ester fluorescent Ca<Superscript>2+</Superscript> and pH indicators into pollen of <Emphasis Type="Italic">Pyrus pyrifolia</Emphasis>

Loading of Ca²⁺-sensitive fluorescent probes into plant cells is an essential step to measure activities of free Ca²⁺ ions in cytoplasm with a fluorescent imaging technique. Fluo-3 is one of the most suitable Ca²⁺ indicators for CLSM. We loaded pollen with fluo-3/AM at three different temperatures. Fluo-3/AM was successfully loaded into pollen at both low (4°C) and high (37°C) temperatures. However, high loading temperature was best suited for pollen, because germination rate of pollen and growth of pollen tubes were relatively little impaired and loading time was shortened. Moreover, Ca²⁺ distribution increased in the three apertures of pollen after hydration and showed a Ca²⁺ gradient, similar to the tip of growing pollen tubes. The same protocol can be used with the AM-forms of other fluorescent dyes for effective labeling. When loading BCECF-AM into pollen at high temperature, the pollen did not show a pH gradient after hydration. Ca²⁺ activities and fluxes had the same periodicity as pollen germination, but pH did not show the same phase and mostly lagged behind. However, the clear zone was alkaline when pollen tube growth was slowed or stopped and turned acidic when growth recovered. It is likely that apical pH_i regulated pollen tube growth.