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Dive into the research topics where Valeria Scoccianti is active.

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Featured researches published by Valeria Scoccianti.


Environmental Pollution | 2010

Pd-nanoparticles cause increased toxicity to kiwifruit pollen compared to soluble Pd(II).

Anna Speranza; Kerstin Leopold; M. Maier; Anna Rita Taddei; Valeria Scoccianti

In the present study, endpoints including in vitro pollen performance (i.e., germination and tube growth) and lethality were used as assessments of nanotoxicity. Pollen was treated with 5-10 nm-sized Pd particles, similar to those released into the environment by catalytic car exhaust converters. Results showed Pd-nanoparticles altered kiwifruit pollen morphology and entered the grains more rapidly and to a greater extent than soluble Pd(II). At particulate Pd concentrations well below those of soluble Pd(II), pollen grains experienced rapid losses in endogenous calcium and pollen plasma membrane damage was induced. This resulted in severe inhibition and subsequent cessation of pollen tube emergence and elongation at particulate Pd concentrations as low as 0.4 mg L(-1). Particulate Pd emissions related to automobile traffic have been increasing and are accumulating in the environment. This could seriously jeopardize in vivo pollen function, with impacts at an ecosystem level.


Plant Biology | 2011

Reactive oxygen species are involved in pollen tube initiation in kiwifruit.

Anna Speranza; Rita Crinelli; Valeria Scoccianti; Anja Geitmann

The role of reactive oxygen species (ROS) during pollen tube growth has been well established, but its involvement in the early germination stage is poorly understood. ROS production has been reported in germinating tobacco pollen, but evidence for a clear correlation between ROS and germination success remains elusive. Here, we show that ROS are involved in germination and pollen tube formation in kiwifruit. Using labelling with dihydrofluorescein diacetate (H(2) FDA) and nitroblue tetrazolium (NBT), endogenous ROS were detected immediately following pollen rehydration and during the lag phase preceding pollen tube emergence. Furthermore, extracellular H(2) O(2) was found to accumulate, beginning a few minutes after pollen suspension in liquid medium. ROS production was essential for kiwifruit pollen performance, since in the presence of compounds acting as superoxide dismutase/catalase mimic (Mn-5,10,15,20-tetrakis(1-methyl-4-pyridyl)21H,23H-porphin, Mn-TMPP) or as NADPH oxidase inhibitor (diphenyleneiodonium chloride, DPI), ROS levels were reduced and pollen tube emergence was severely or completely inhibited. Moreover, ROS production was substantially decreased in the absence of calcium, and by chromium and bisphenol A, which inhibit germination in kiwifruit. Peroxidase activity was cytochemically revealed after rehydration and during germination. In parallel, superoxide dismutase enzymes, particularly the Cu/Zn-dependent subtype - which function as superoxide radical scavengers - were detected by immunoblotting and by an in-gel activity assay in kiwifruit pollen, suggesting that ROS levels may be tightly regulated. Timing of ROS appearance, early localisation at the germination aperture and strict requirement for germination clearly suggest an important role for ROS in pollen grain activation and pollen tube initiation.


Plant Science | 2003

Auxin and cytokinin modify methyl jasmonate effects on polyamine metabolism and ethylene biosynthesis in tobacco leaf discs

Stefania Biondi; Valeria Scoccianti; Sonia Scaramagli; Vanina Ziosi; Patrizia Torrigiani

Abstract In several in vitro systems, treatment with methyl jasmonate (MJ) stimulates polyamine biosynthesis as well as accumulation of acid-soluble and -insoluble conjugated polyamines. This effect is attributed to changes in gene expression and enzyme activity of arginine decarboxylase (ADC), ornithine decarboxylase (ODC) and S -adenosylmethionine decarboxylase (SAMDC). In the present study, we used tobacco ( Nicotiana tabacum L. cv. Samsun) leaf discs to investigate the interaction between this MJ-induced response and those triggered by indole-3-acetic acid (IAA), N 6 -benzyladenine (BA) and ethylene. Our results indicate that MJ-induced accumulation of conjugated polyamines is further stimulated by auxin and counteracted by BA. The MJ-induced stimulation of ODC and SAMDC, but not ADC, mRNA levels was diminished by IAA±BA, whereas the corresponding enzyme activities were further enhanced in the presence of hormones. MJ enhanced ethylene production only when combined with hormones, and this trend was reflected in 1-aminocyclopropane-1-carboxylate oxidase transcript levels. Results suggest that the induction by MJ of conjugated polyamine levels, and of the polyamine biosynthetic genes and activities are differentially modulated by hormones, and that ethylene does not seem to be directly involved in this response.


Plant Biology | 2011

The environmental endocrine disruptor, bisphenol A, affects germination, elicits stress response and alters steroid hormone production in kiwifruit pollen

Anna Speranza; P. Crosti; M. Malerba; O. Stocchi; Valeria Scoccianti

In vitro toxicity of the endocrine disruptor bisphenol A (BPA) to pollen, the male haploid generation of higher plants, was studied. BPA caused significant inhibition of both tube emergence and elongation of kiwifruit pollen in a dose-dependent manner, beginning at 10 mg · l(-1); morphological changes to tubes were also detected. Despite strong inhibition of pollen tube production and growth, a large percentage of treated cells remained viable. Immunoblotting experiments indicated that levels of BiP and 14-3-3, which are proteins involved in stress response, substantially increased in BPA-treated pollen compared to controls. The increases were dose-dependent in the range 10-50 mg · l(-1) BPA, i.e. even when germination ability was completely blocked. Steroid hormones (17 β-estradiol, progesterone and testosterone) were detected in kiwifruit pollen, and their levels increased during germination in basal medium. In a BPA treatment of 30 mg · l(-1), larger increases in both estrogen and testosterone concentrations were detected, in particular, a six-fold increase of 17 β-estradiol over control concentration (30 min). The increased hormone levels were maintained for at least the 90 min incubation. Increasing concentrations of exogenous testosterone and 17 β-estradiol increasingly inhibited pollen tube emergence and elongation. Current data for BPA-exposed kiwifruit pollen suggest a toxicity mechanism that is at least in part based on a dramatic imbalance of steroid hormone production during tube organisation, emergence and elongation. It may be concluded that BPA, a widespread environmental contaminant, can cause serious adverse effects to essential pollen functions. On a broader scale, this chemical poses a potential risk to the reproductive success of higher plants.


Chemosphere | 2008

Species-dependent chromium accumulation, lipid peroxidation, and glutathione levels in germinating kiwifruit pollen under Cr(III) and Cr(VI) stress.

Valeria Scoccianti; Marta Iacobucci; Maria Filomena Paoletti; Alessandra Fraternale; Anna Speranza

The accumulation of chromium by germinating kiwifruit pollen appears to be significantly affected by Cr species, Cr concentration and calcium availability. Cr(III) accumulation always occurred in a linear manner while Cr(VI) uptake followed a logarithmic model. In the absence of exogenous calcium, Cr(III) accumulation was much higher than that of Cr(VI). It was observed that, as the Cr(III) concentration increased, there was a significant decrease in the endogenous calcium content of pollen, ultimately leading to complete calcium depletion after 90 min of incubation at 150 microM Cr(III). This loss of calcium could be responsible for the strong inhibition of tube emergence and growth following exposure of pollen to Cr(III). Indeed, when exogenous calcium was added to the kiwifruit pollen culture medium, significant growth recovery and reduced Cr(III) uptake occurred; the opposite was true in Cr(VI)-treatments. A significant rise in lipid peroxide production occurs in the presence of both Cr species; the effect was more pronounced following Cr(VI) exposure. Finally, glutathione pool dynamics appears to be differentially affected by chromium species and concentrations. In conclusion, results of the present study have provided important information regarding the different activity profiles of Cr(III) and Cr(VI) in relation to kiwifruit pollen performance, and have also demonstrated differences in some biochemical responses of pollen to metal stress.


Plant Biology | 2009

The cell wall of kiwifruit pollen tubes is a target for chromium toxicity: alterations to morphology, callose pattern and arabinogalactan protein distribution

Anna Speranza; Anna Rita Taddei; G. Gambellini; E. Ovidi; Valeria Scoccianti

Trivalent chromium has previously been found to effectively inhibit kiwifruit pollen tube emergence and elongation in vitro. In the present study, a photometric measure of increases in tube wall production during germination showed that 25 and 50 mum CrCl(3) treatment induced a substantial reduction in levels of polysaccharides in walls over those in controls. Moreover, chromium-treated kiwifruit pollen tubes had irregular and indented cell walls. Callose, the major tube wall polysaccharide, was deposited in an anomalous punctuate pattern. Arabinogalactan proteins (AGPs), which are integral in maintaining correct tube growth and shape in kiwifruit pollen, were found to be strongly altered in their distribution after CrCl(3) treatment compared to control tube walls. Transmission electron microscopy-immunogold analysis using four monoclonal antibodies (JIM8, JIM13, JIM14 and MAC207) revealed discontinuous AGP distribution within the treated tube walls. Such clearly discernable alterations in the molecular and morphological architecture of pollen tube walls may be detrimental in vivo for the male gametophyte to accomplish its vital role in the fertilisation process.


Plant Physiology and Biochemistry | 2014

Role of the ubiquitin-proteasome pathway and some peptidases during seed germination and copper stress in bean cotyledons.

Inès Karmous; Abdelilah Chaoui; Khadija Jaouani; David Sheehan; Ezzedine El Ferjani; Valeria Scoccianti; Rita Crinelli

The role of the ubiquitin (Ub)-proteasome pathway and some endo- and aminopeptidases (EPs and APs, respectively) was studied in cotyledons of germinating bean seeds (Phaseolus vulgaris L.). The Ub system appeared to be important both in the early (3 days) and late (9 days) phases of germination. In the presence of copper, an increase in protein carbonylation and a decrease in reduced -SH pool occurred, indicating protein damage. This was associated with an enhancement in accumulation of malondialdehyde, a major product of lipid peroxidation, and an increase in content of hydrogen peroxide (H2O2), showing oxidative stress generation. Moreover, copper induced inactivation of the Ub-proteasome (EC 3.4.25) pathway and inhibition of leucine and proline aminopeptidase activities (EC 3.4.11.1 and EC 3.4.11.5, respectively), thus limiting their role in modulating essential metabolic processes, such as the removal of regulatory and oxidatively-damaged proteins. By contrast, total trypsin and chymotrypsin-like activities (EC 3.4.21.4 and EC 3.4.21.1, respectively) increased after copper exposure, in parallel with a decrease in their inhibitor capacities (i.e. trypsin inhibitor and chymotrypsin inhibitor activity), suggesting that these endoproteases are part of the protective mechanisms against copper stress.


Plant Physiology and Biochemistry | 2001

Biochemical and ultrastructural features related to male sterility in the dioecious species Actinidia deliciosa

Rita Biasi; Giuseppina Falasca; Anna Speranza; Angelo De Stradis; Valeria Scoccianti; Marina Franceschetti; Nello Bagni; Maria Maddalena Altamura

Kiwifruit (Actinidia deliciosa var. deliciosa) is a dioecious plant whose flowers are morphologically hermaphrodite yet functionally unisexual. The objective of this study was to investigate the male sterility of female flowers in kiwifruit through an integrated biochemical and cytohistological approach. High levels of free and trichloroacetic acid (TCA)-insoluble conjugated polyamines (PAs) were found to be associated with pollen degeneration. Carbohydrate levels greatly differed when comparing mature to degenerated pollen from the anthers of male-fertile and male-sterile flowers, respectively. In the cytoplasm, carbohydrates strongly decreased in the degenerated pollen, whereas in the cell wall, their levels remained consistent. The degenerated pollen showed a poorly sculptured sexine, an anomalous nexine, and an intine consisting of a single stratum only. Through in vitro culture of anthers from male-sterile plant, the pollen occasionally reached the binucleate stage. The structural anomalies in the pollen of the male-sterile plant and the alterations in PA and carbohydrate contents, together with the results of the in vitro anther culture, suggest that the male sterility in this species could be under both sporophytic and gametophytic control.


Protoplasma | 2000

Organogenesis fromSolanum melongena L. (eggplant) cotyledon expiants is associated with hormone-modulated enhancement of polyamine biosynthesis and conjugation

Valeria Scoccianti; E. Sgarbi; D. Fraternale; Stefania Biondi

SummaryEggplant (Solanum melongena L. cv. Violetta lunga 2) cotyledon expiants grown on hormone-free medium (controls) or on medium containing either naphthaleneacetic acid alone (root forming) or in combination with zeatin riboside (shoot forming) showed minor differences in free polyamine titres during culture. In contrast, conjugated polyamines (particularly those in the trichloroacetic acid-soluble fraction) accumulated only in hormonetreated explants, but not in controls. The extent and the temporal changes in soluble-conjugate levels differed between root-forming and shoot-forming expiants; in the former, accumulation began earlier (within 1 day of culture) and reached the highest levels. In both organogenic programmes, maximum conjugate accumulation occurred just before and during organ emergence. Adventitious roots and shoots were formed along the cut surfaces. The regions closest to these (“borders”) displayed a significantly higher ratio of conjugated to free spermidine and/or putrescine than the nonorganogenic regions (“centres”) of the explant. Ornithine decarboxylase activity was higher than arginine decarboxylase activity both in control and hormone-treated explants. However, both activities increased markedly on day 2 of culture in the presence of hormones. Thereafter ornithine decarboxylase activity remained high in shoot-forming explants, but not in root-forming ones. Putrescine oxidising activity was also enhanced by exogenously supplied hormones starting from day 4 of culture. This activity remained high up to day 12 in the presence of auxin plus cytokinin, whereas it peaked on day 6 in auxin-treated explants. Spermidine oxidising activity was the only enzyme activity which was consistently higher in controls than in hormone-treated tissue. Differences between the two organogenic programmes with respect to temporal changes in polyamine content, and putrescine biosynthetic and oxidative activities are discussed in relation to the timing of organ formation. The latter was monitored both histologically and macroscopically.


Environmental Pollution | 2013

In vitro toxicity of silver nanoparticles to kiwifruit pollen exhibits peculiar traits beyond the cause of silver ion release

Anna Speranza; Rita Crinelli; Valeria Scoccianti; Anna Rita Taddei; Marta Iacobucci; Priyanka Bhattacharya; Pu Chun Ke

The vast use of silver nanoparticles (AgNPs) mandates thorough investigation of their impact on biosystems at various levels. The cytotoxicity of PVP coated-AgNPs to pollen, the aploid male gametophyte of higher plants, has been assessed here for the first time. The negative effects of AgNPs include substantial decreases in pollen viability and performance, specific ultrastructural alterations, early changes in calcium content, and unbalance of redox status. Ag⁺ released from AgNPs damaged pollen membranes and inhibited germination to a greater extent than the AgNPs themselves. By contrast, the AgNPs were more potent at disrupting the tube elongation process. ROS deficiency and overproduction were registered in the Ag⁺- and AgNP-treatment, respectively. The peculiar features of AgNP toxicity reflected their specific modes of interaction with pollen surface and membranes, and the dynamic exchange between coating (PVP) and culture medium. In contrast, the effects of Ag⁺ were most likely induced through chemical/physicochemical interactions.

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