N. P. Matveyeva scite author profile

Production and scavenging of reactive oxygen species (ROS) in somatic plant cells is developmentally regulated and plays an important role in the modification of cell wall mechanical properties. Here we show that H2O2 and the hydroxyl radical ((•)OH) can regulate germination of tobacco pollen by modifying the mechanical properties of the pollen intine (inner layer of the pollen wall). Pollen germination was affected by addition of exogenous H2O2, (•)OH, and by antioxidants scavenging endogenous ROS: superoxide dismutase, superoxide dismutase/catalase mimic Mn-5,10,15,20-tetrakis(1-methyl-4-pyridyl)21H, 23H-porphin, or a spin-trap α-(4-pyridyl-1-oxide)-N-tert-butylnitrone, which eliminates (•)OH. The inhibiting concentrations of exogenous H2O2 and (•)OH did not decrease pollen viability, but influenced the mechanical properties of the wall. The latter were estimated by studying the resistance of pollen to hypo-osmotic shock. (•)OH caused excess loosening of the intine all over the surface of the pollen grain, disrupting polar growth induction. In contrast, H2O2, as well as partial removal of endogenous (•)OH, over-tightened the wall, impeding pollen tube emergence. Feruloyl esterase (FAE) was used as a tool to examine whether H2O2-inducible inter-polymer cross-linking is involved in the intine tightening. FAE treatment caused loosening of the intine and stimulated pollen germination and pollen tube growth, revealing ferulate cross-links in the intine. Taken together, the data suggest that pollen intine properties can be regulated differentially by ROS. (•)OH is involved in local loosening of the intine in the germination pore region, while H2O2 is necessary for intine strengthening in the rest of the wall through oxidative coupling of feruloyl polysaccharides.

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Generation of reactive oxygen species during pollen grain germination

Smirnova

Matveyeva

Polesskaya

et al. 2009

Russ J Dev Biol

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Antioxidant properties of the pollen exine polymer matrix

et al. 2012

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Transport of Cl^–across the Plasma Membrane during Pollen Grain Germination in Tobacco

Matveyeva

Andreyuk

Yermakov

2003

Biochemistry (Moscow)

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The role of Cl- transport across the plasma membrane was studied in an early step of pollen grain germination in tobacco Nicotiana tabacum L. The Cl- channel blockers, 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB) and niflumic acid, completely suppress the germination with IC(50) approximately 8 micro M. At this concentration NPPB reduces the rate of Cl- efflux out of pollen grain by 1.8-fold in the interval 5-12 min, and niflumic acid reduces the rate 1.2-fold. 4,4;-Diisothiocyanatostilbene-2,2;-disulfonic acid, a known inhibitor of Cl- channels and antiporters, completely suppresses germination as well (IC(50) = 240 micro M), but has no effect on the rate of Cl- efflux. Inhibitors of chloride co-transporters, such as furosemide, bumetanide, and bis(1,3-dibutylbarbituric acid)pentamethine oxonol, suppress the germination by less than 50%. This set of data suggests that NPPB-sensitive anion channels are involved in the activation of pollen grains in the early stage of germination.

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Features of ionogenic group composition in polymeric matrix of lily pollen wall

Meychik

Matveyeva

Nikolaeva

et al. 2006

Biochemistry (Moscow)

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The composition of ionogenic groups and ion-exchange capacity were studied in the polymeric matrix of cell walls isolated from the pollen grain and tissues of vegetative organs (leaves and stems) of Lilium longiflorum Thunb. The ion-exchange capacity was evaluated at different pH values and ionic strength of 100 mM. In the two-layered pollen wall and the somatic cell walls four types of ionogenic groups were found: amino groups, two carboxyl groups (represented by residues of uronic and hydroxycinnamic acids), and phenolic OH-groups. The groups of all four types are present in the intine, whereas the exine contains one type of anion-exchange and two types of cation-exchange groups. The contents of each type group and their ionization constants were determined. The qualitative and quantitative compositions of structural polymers of the pollen intine and somatic cell walls are significantly different. It is suggested that hydroxycinnamic acids should be involved in cross-linking of polysaccharide chains in both the intine and somatic cell primary walls, and such cross-links play a crucial role in the structural organization and integrity of the pollen grain wall.

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Ni2+ effects on Nicotiana tabacum L. pollen germination and pollen tube growth

et al. 2012

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To investigate the mechanisms of Ni(2+) effects on initiation and maintenance of polar cell growth, we used a well-studied model system-germination of angiosperm pollen grains. In liquid medium tobacco pollen grain forms a long tube, where the growth is restricted to the very tip. Ni(2+) did not prevent the formation of pollen tube initials, but inhibited their subsequent growth with IC(50) = 550 μM. 1 mM Ni(2+) completely blocked the polar growth, but all pollen grains remained viable, their respiration was slightly affected and ROS production did not increase. Addition of Ni(2+) after the onset of germination had a bidirectional effect on the tubes development: there was a considerable amount of extra-long tubes, which appeared to be rapidly growing, but the growth of many tubes was impaired. Studying the localization of possible targets of Ni(2+) influence, we found that they may occur both in the wall and in the cytoplasm, as confirmed by specific staining. Ni(2+) disturbed the segregation of transport vesicles in the tips of these tubes and significantly reduced the relative content of calcium in the aperture area of pollen grains, as measured by X-ray microanalysis. These factors are considered being critical for normal polar cell growth. Ni(2+) also causes the deposition of callose in the tips of the tube initials and the pollen tubes that had stopped their growth. We can assume that Ni(2+)-induced disruption of calcium homeostasis can lead to vesicle traffic impairment and abnormal callose deposition and, consequently, block the polar growth.

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Transmembrane transport of K+ and Cl− during pollen grain activation in vivo and in vitro

et al. 2012

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We studied the possibility of K + and Cl -efflux from tobacco pollen grains during their activation in vitro or on the stigma of a pistil. For this purpose the X ray microanalysis and spectrofluorometry were applied. We found that the relative content of potassium and chlorine in the microvolume of pollen grain decreases during its hydration and activation on stigma. Efflux of these ions was found both in vivo and in vitro. In model in vitro experiments anion channel inhibitor NPPB ((5 nitro 2 (3 phenylpropylamino) ben zoic acid) in the concentration that was blocking pollen germination, reduced Cl -efflux; potassium channel inhibitor TEA (tetraethylammonium chloride) partially reduced K + efflux and lowered the percent of acti vated cells. Another blocker of potassium channels Ba 2+ caused severe decrease in cell volume and blocked the activation. In general, the obtained data demonstrates that the initiation of pollen germination both in vivo and in vitro involves the activation of K + and Cl -release. An important role in these processes is played by NPPB , TEA and Ba 2+ sensitive plasmalemma ion channels.

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Sporopollenin accumulation in Nicotiana tabacum L. microspore wall during its development

et al. 2012

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N. P. Matveyeva

Reactive oxygen species are involved in regulation of pollen wall cytomechanics

Generation of reactive oxygen species during pollen grain germination

Antioxidant properties of the pollen exine polymer matrix

Transport of Cl^–across the Plasma Membrane during Pollen Grain Germination in Tobacco

Features of ionogenic group composition in polymeric matrix of lily pollen wall

Ni2+ effects on Nicotiana tabacum L. pollen germination and pollen tube growth

Transmembrane transport of K+ and Cl− during pollen grain activation in vivo and in vitro

Sporopollenin accumulation in Nicotiana tabacum L. microspore wall during its development

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N. P. Matveyeva

Reactive oxygen species are involved in regulation of pollen wall cytomechanics

Generation of reactive oxygen species during pollen grain germination

Antioxidant properties of the pollen exine polymer matrix

Transport of Cl–across the Plasma Membrane during Pollen Grain Germination in Tobacco

Features of ionogenic group composition in polymeric matrix of lily pollen wall

Ni2+ effects on Nicotiana tabacum L. pollen germination and pollen tube growth

Transmembrane transport of K+ and Cl− during pollen grain activation in vivo and in vitro

Sporopollenin accumulation in Nicotiana tabacum L. microspore wall during its development

Contact Info

Product

Resources

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Transport of Cl^–across the Plasma Membrane during Pollen Grain Germination in Tobacco