Your search keyword '"Stefania Biondi"' showing total 56 results

1. Polyphenol-enriched spelt husk extracts improve growth and stress-related biochemical parameters under moderate salt stress in maize plants

Author

Andrea Gorassini, Giancarlo Verardo, Chiara Ceccarini, Alessandra Fraternale, Stefania Biondi, Valeria Scoccianti, Fabiana Antognoni, Ceccarini C., Antognoni F., Biondi S., Fraternale A., Verardo G., Gorassini A., and Scoccianti V.

Subjects

Crops, Agricultural, Proline, Triticum dicoccum, Physiology, Phenolic acids, Phytochemicals, Agricultural by-products, Biostimulant, Oxidative stress, Phenolic acids, Salt stress, Triticum dicoccum, Zea mays, Salt stress, Plant Science, medicine.disease_cause, Zea mays, Husk, Acclimatization, Antioxidants, Gas Chromatography-Mass Spectrometry, Lipid peroxidation, chemistry.chemical_compound, Salt stre, Genetics, medicine, Food science, Photosynthesis, Agricultural by-products, Biostimulant, Oxidative stress, Triticum, Plant Proteins, Phenolic acid, Pigmentation, Plant Extracts, Sodium, Polyphenols, food and beverages, Hydrogen Peroxide, Salt Tolerance, Glutathione, Plant Leaves, chemistry, Polyphenol, Shoot, Potassium, Oxidative stre, Lipid Peroxidation, Agricultural by-product

Abstract

Biostimulants improve yield, quality, and stress acclimation in crops. In this work, we tested the possibility of using phenolics-rich extracts from spelt (Triticum dicoccum L.) husks to attenuate the effects of salt stress (100–200 mM NaCl) in maize. Two methanolic extracts were prepared from the soluble-conjugated (SC), and the insoluble-bound (IB) phenolic acid fractions of the spelt husk, and their effects were investigated on several stress-associated biochemical parameters, such as proline, lipid peroxidation, H2O2, GSH levels, and ion content. Results show that SC and IB fractions of husk extracts behaved very differently, no doubt due to their greatly divergent chemical composition, as revealed by both GC-MS and HPLC analyses. The efficacy of treatments in mitigating salt stress was also dose- and timing-dependent. IB, even at the lower concentration tested, was able to recover the performance of stressed plants in terms of growth, photosynthetic pigments content, and levels of salt stress markers. Recovery of shoot growth to control levels and reduction of stress-induced proline accumulation occurred regardless of whether plants were pre-treated or post-treated with IB, whereas only pre-treatment with the higher dose of IB was effective in mitigating oxidative stress. Although in some cases SC and even methanol alone exerted some positive effects, they could also be deleterious whereas IB never was. Overall, results indicate that a polyphenol-containing extract obtained from spelt by-products can behave as biostimulant in maize plants and can mitigate their response to salt stress, by acting on different biochemical targets.

Published

2019

2. Effect of polyamine biosynthesis inhibitors on mycelial growth and concentrations of polyamines in Ophiostoma ulmi (Buism.) Nannf

Author

Nello Bagni, I. Polgrossi, and Stefania Biondi

Subjects

Arginine decarboxylase activity, Physiology, Spermine, Plant Science, Biology, biology.organism_classification, Ornithine decarboxylase, Spermidine, chemistry.chemical_compound, chemistry, Biochemistry, Ophiostoma ulmi, Putrescine, DFMA, Polyamine

Abstract

Several inhibitors of polyamine biosynthesis reduced mycelial growth of the fungus Ophiostoma ulmi (Buism.) Nannf. cultured on malt extract-agar medium. Growth inhibition was particularly evident when expressed in terms of fresh weight rather than colony diameter. Of the different drugs tested, the most effective was difluoromethylarginine (DFMA), while difluoromethylornithine (DFMO) and methylglyoxal(bis)guanyl-hydrazone (MGBG) plus cyclohexylamine (CHA) reduced growth only by 75 and 62% respectively. The growth inhibition by DFMO + DFMA, measured as colony diameter, was apparently reversed by putrescine (PUT), but not when expressed in terms of fresh weight. Spermidine (SPD) was the most abundant polyamine in control cultures, followed by PUT and spermine (SPM). PUT was no longer detectable 8 d after inoculation. On day 10, DFMO and DFMA, alone and in combination, caused a significant reduction in cellular SPD concentrations, while exogenously supplied PUT restored the levels of this polyamine to control values. MGBG + CHA caused a conspicuous accumulation of PUT and an approximately 50% reduction in SPD titres. DFMA, alone or in combination with DFMO and with or without PUT, led to increased cellular levels of SPM. The latter polyamine, but not PUT or SPD, strongly retarded growth when added to the growth medium. As suggested by the effectiveness of DFMA in inhibiting growth, arginine decarboxylase activity was shown to be prevalent over ornithine decarboxylase activity in this fungus.

Published

2021

3. Polyamine metabolism is upregulated in response to tobacco mosaic virus in hypersensitive, but not in susceptible, tobacco

Author

Sonia Scaramagli, Francesca Marini, Lucietta Betti, Patrizia Torrigiani, and Stefania Biondi

Subjects

biology, Physiology, viruses, Nicotiana tabacum, fungi, food and beverages, Spermine, Plant Science, biology.organism_classification, Ornithine decarboxylase, Spermidine, chemistry.chemical_compound, Biochemistry, chemistry, Adenosylmethionine decarboxylase, Putrescine, Tobacco mosaic virus, Polyamine

Abstract

• Change is reported in the biosynthetic and oxidative activity of hypersensitive (NN) and susceptible (nn) tobacco (Nicotiana tabacum) plants in response to tobacco mosaic virus (TMV). • Mature leaves of nn and NN tobacco were collected over 0–72 h as uninoculated controls or after inoculation with TMV or phosphate buffer (mock-inoculation). The polyamine response to inoculation was analysed by measuring activity and gene expression of S-adenosylmethionine decarboxylase (SAMDC), arginine-(ADC) and ornithine decarboxylases (ODC); incorporation of labelled putrescine; and activity of diamine oxidase (DAO). • In NN leaves SAMDC activity and transcript levels, and DAO activity increased in the TMV-inoculated plants but not in the other treatments; a two-fold increase in DAO activity was seen after 72 h. Both ADC and ODC activity increased in NN leaves at 72 h in TMV-inoculated plants; ADC mRNA increased with activity. The increase in SAMDC mRNA (24 h) preceded the rise in activity (72 h). [3H]putrescine added to NN leaves led to enhanced label recovery and incorporation into spermidine and spermine in TMV-inoculated plants. No significant changes in biosynthetic or oxidative activity occurred in nn plants. • After TMV inoculation, NN, unlike nn, tobacco plants upgrade polyamine synthesis and oxidation; this leads to changes in cellular components which might induce programmed cell death.

Published

2021

4. Quinoa seed coats as an expanding and sustainable source of bioactive compounds: An investigation of genotypic diversity in saponin profiles

Author

Sven-Erik Jacobsen, Bekzod Khakimov, Karina B. Ruiz, Stefania Biondi, Søren Bak, Søren B. Engelsen, Ruiz, Karina B., Khakimov, Bekzod, Engelsen, Søren B., Bak, Sã¸ren, Biondi, Stefania, and Jacobsen, Sven-Erik

Subjects

Seed coat, 0106 biological sciences, Triterpenoid, Saponin, Biology, 01 natural sciences, Chenopodium quinoa, chemistry.chemical_compound, Nutraceutical, Quinoa waste-product, Sugar, Oleanolic acid, chemistry.chemical_classification, business.industry, 010401 analytical chemistry, 0104 chemical sciences, Biotechnology, Hederagenin, Biopesticide, Aglycone, chemistry, business, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Saponins (SAPs) are a diverse family of plant secondary metabolites and due to their biological activities, SAPs can be utilised as biopesticides and as therapeutic compounds. Given their widespread industrial use, a search for alternative sources of SAPs is a priority. Quinoa ( Chenopodium quinoa Willd) is a valuable food source that is gaining importance worldwide for its nutritional and nutraceutical properties. SAPs from quinoa seed coats could represent a new sustainable source to obtain these compounds in high quantities due to the increasing production and worldwide expansion of the crop. This research aims to characterise saponins of seed coat waste products from six different quinoa varieties for their potential use as a saponin source. Gas chromatography (GC)- and Liquid chromatography (LC)- with mass spectrometry (MS) were applied for qualitative and relative quantitative analysis of saponins. GC–MS led to the identification of three main aglycones, oleanolic acid (Ole), hederagenin (Hed), and a phytolaccagenic acid (Phy), while LC–MS enabled characterization of 24 SAPs with varying sugar moieties. Hed was the most abundant aglycone, followed by Phy and Oledepending on the genotype. Saponin distribution and relative abundances are discussed in the light of genotype provenance and agronomic features. Improved knowledge on the phytochemicals present in quinoa varieties might help in finding valuable and sustainable uses for quinoa SAPs in agroindustry as biopesticides as well as in the production of food and pharmaceuticals.

Published

2017

5. Comparing salt-induced responses at the transcript level in a salares and coastal-lowlands landrace of quinoa (Chenopodium quinoa Willd)

Author

Karina B. Ruiz, Francesca Rapparini, Herman Silva, Stefania Biondi, Patrizia Torrigiani, G. Bertazza, Ruiz, Karina B., Rapparini, Francesca, Bertazza, Gianpaolo, Silva, Herman, Torrigiani, Patrizia, and Biondi, Stefania

Subjects

0106 biological sciences, 0301 basic medicine, Polyamine, Halophyte, Plant Science, Biology, 01 natural sciences, Chenopodium quinoa, Abscisic acid, 03 medical and health sciences, chemistry.chemical_compound, Salt stre, Botany, Ecology, Evolution, Behavior and Systematics, Ecotype, biology.organism_classification, Ecology, Evolution, Behavior and Systematic, Salinity, 030104 developmental biology, Ion homeostasis, chemistry, Seedling, Quinoa, Shoot, Gene expression, Ion transporter, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

To further our understanding of the mechanisms governing salt stress responses and adaptation in halophytes, we explored morphological, metabolic, and gene expression responses to high salinity in quinoa (Chenopodium quinoa Willd). The main objective of this study was to analyze selected responsive genes in a time-course experiment to test for expression kinetics and to compare short-term salt-induced effects at the transcript level between two Chilean landraces belonging to different ecotypes. Quinoa genotypes exhibit a large variability in their responses to salinity, but it is not clear whether this is strictly related to the ecotype to which they belong. We tested this hypothesis by comparing the expression levels of genes involved in growth, ion homeostasis, abscisic acid (ABA) biosynthesis, perception, and conjugate cleavage, polyamine (PA) biosynthesis and oxidation, and proline biosynthesis as well as genes encoding ABA-dependent and −independent transcription factors. Landraces R49 (salares ecotype) and Villarrica (VR, coastal-lowlands ecotype) were analyzed from 0.5 to 120Âh after transfer to saline (300ÂmM NaCl) or non-saline (control) medium. All the genes, except CqSOS1 and CqNHX, were investigated here for the first time in quinoa under salt stress. Transcript levels were determined by quantitative Reverse Transcription-Polymerase Chain Reaction (qRT-PCR) analysis. Germination, seedling growth, ABA, and PA contents were evaluated in parallel. Even though on saline medium germination was inhibited in VR but not in R49, seedling growth reduction at 120Âh was not substantially different in the two landraces. The ABA biosynthetic enzyme NCED was the most strongly salt-induced gene; ABA content was similarly enhanced (shoots) or unaffected (roots) in both R49 and VR. NaCl treatment also altered transcript levels of some PA metabolic enzymes and the PA profile leading to an enhanced ratio between the higher PAs and putrescine. All other genes also exhibited similar expression profiles in response to salinity in the two landraces especially in roots, while in shoots some differences were observed. Our results provide new information indicating that crucial salt adaptation strategies at the molecular level and in terms of ABA and PA contents are shared by the coastal-lowlands and salares landraces; however, the timing of the onset of transcriptional changes (e.g., NCED, ABF3, and RD22) may reflect genotype-dependent constitutive and/or inducible adaptive strategies.

Published

2017

6. Jasmonates induce over-accumulation of methylputrescine and conjugated polyamines in Hyoscyamus muticus L. root cultures

Author

Kirsi-Marja Oksman-Caldentey, S. Fornalé, S. Agostani, Nello Bagni, Stefania Biondi, and M. Eeva

Subjects

0106 biological sciences, Jasmonates, Hydroxycinnamoyl amides, Spermine, Plant Science, Biology, 01 natural sciences, Ornithine decarboxylase, Methylputrescine, 03 medical and health sciences, chemistry.chemical_compound, 030304 developmental biology, 0303 health sciences, Hairy roots, General Medicine, Ornithine, Spermidine, Biochemistry, chemistry, Hyoscyamus muticus, Putrescine, Arginine decarboxylase, Polyamine, Agronomy and Crop Science, Tropane alkaloid, 010606 plant biology & botany

Abstract

Jasmonic acid (JA) and its methyl ester (MeJA) at concentrations ranging from 0.001 to 10 μM provoked large increases in methylputrescine levels in normal and hairy roots of Hyoscyamus muticus L.; generally, levels of free putrescine and perchloric acid-soluble conjugated putrescine, spermidine and spermine also increased dramatically. More 14C-putrescine was formed when hairy roots were incubated with labelled ornithine than with arginine; conjugated 14C-putrescine was also rapidly formed. In accord with these results, ornithine decarboxylase (EC 4.1.1.17) activity was higher than that of arginine decarboxylase (EC 4.1.1.19), and MeJA enhanced these activities about two- and fourfold, respectively. Although treatment of root cultures with jasmonates enhanced precursor (putrescine, methylputrescine) levels and accumulation of secondary metabolites such as acid-soluble conjugated di-/polyamines, it provoked only modest increases in tropane alkaloid tissue levels.

Published

2019

7. Copper-Induced Responses in Poplar Clones are Associated with Genotype- and Organ-Specific Changes in Peroxidase Activity and Proline, Polyamine, ABA, and IAA Levels

Author

Stefania Biondi, Saša Orlović, G. Bertazza, Luisa Neri, Marko Kebert, Francesca Rapparini, Kebert, M, Rapparini, F, Neri, L, Bertazza, G, Orlović, S, and Biondi, S

Subjects

0106 biological sciences, 0301 basic medicine, Abscisic acid Auxin Heavy metals Phytoremediation ? Polyamines Populus, Plant Science, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Abscisic acid, Auxin, Polyamines, Proline, chemistry.chemical_classification, biology, fungi, Plant physiology, food and beverages, Phytoremediation, 030104 developmental biology, Populus, Biochemistry, chemistry, Heavy metals, Shoot, biology.protein, Guaiacol, Growth inhibition, Agronomy and Crop Science, 010606 plant biology & botany, Peroxidase

Abstract

The involvement of auxin, abscisic acid (ABA), polyamines (PAs), and proline in adaptation to long-term exposure of woody plants to high levels of heavy metals in soil has received scant attention, even in poplar which is a good candidate for phytoremediation of metal-polluted soils and is regarded as a model for basic research in tree species. Three poplar clones (M1, PE19/66, and B229) were comparatively analyzed in a pot experiment for their responses to 300 mg kg -1 Cu(NO 3 ) 2 at morphological, physiological, and biochemical levels. After 4 months, despite the prevalent accumulation of Cu in roots, where the metal reached potentially toxic concentrations, the three clones showed distinct Cu accumulation and translocation capacities, whereas they did not display evi- dent toxicity symptoms or growth inhibition. Several pro- tective mechanisms, namely decreased photosynthetic functionality, enhanced guaiacol peroxidase (GPOD) activity, and accumulation of proline and PAs, were dif- ferentially activated in Cu-treated plants in an organ- and clone-specific manner. Overall, a positive relationship between root Cu concentration with GPOD, proline, and PAs was observed. In M1, higher Cu accumulation in roots and leaves compared with other clones was reflected in stimulation of GPOD activity in both organs and in enhanced proline, and PA levels. In PE19/66, these responses were observed only in roots concomitant with high Cu accumulation. Clone B229 accumulated very low amounts of Cu, therefore, these defense responses were attenuated compared with other clones. Enhanced ABA concentrations in response to Cu were observed in PE19/66 and B229; this was likely responsible for stomatal limita- tion of photosynthesis in PE19/66, whereas in B229 this effect may have been counteracted by increased IAA. Essentially unchanged leaf auxin levels under Cu stress may account for the lack of shoot growth inhibition observed in all three clones; B229 was the only clone that displayed Cu-induced IAA accumulation in roots. Results are discussed in terms of clone-specific adaptive mecha- nisms to Cu stress in tolerant poplars.

Published

2017

8. Polyaspartate, a biodegradable chelant that improves the phytoremediation potential of poplar in a highly metal-contaminated agricultural soil

Author

Stefania Biondi, Valeria Todeschini, Michele Grimaldi, Stefano Castiglione, Antonio Proto, Daniela Baldantoni, Angela Cicatelli, Guido Lingua, Patrizia Torrigiani, Guido Lingua, Valeria Todeschini, Michele Grimaldi, Daniela Baldantoni, Antonio Proto, Angela Cicatelli, Stefania Biondi, Patrizia Torrigiani, and Stefano Castiglione

Subjects

Environmental Engineering, chemistry.chemical_element, Zinc, EDTA/EDDS, Management, Monitoring, Policy and Law, White poplar, chemistry.chemical_compound, EDDS, Chelant, Copper, Phytoremediation, Soil Pollutants, Chelation, Waste Management and Disposal, Edetic Acid, Environmental Restoration and Remediation, Chelating Agents, biology, Waste management, fungi, Succinates, General Medicine, Biodegradation, biology.organism_classification, Ethylenediamines, Biodegradation, Environmental, Populus, chemistry, Environmental chemistry, Soil water, Polyaspartic acid, Peptides

Abstract

Phytoremediation is a cost-effective and environment friendly in situ technique for the reclamation of heavy metal-polluted soils. The efficacy of this technique, which relies on tolerant plant species, can be improved by the use of chelating agents. A pot experiment was carried out to evaluate the phytoextraction and phytostabilisation capacities of a white poplar (Populus alba L.) clone named AL35 previously selected for its marked tolerance to copper (Cu) and zinc (Zn). Cuttings were grown on agricultural soil highly contaminated with Cu and Zn, in the presence or not (controls) of a chelant mixture (EDTA/EDDS) known to enhance metal bioavailability and, hence, uptake by plant roots, or the not yet investigated synthetic, highly biodegradable polyaspartic acid (PASP). Both chelant treatments improved the phytostabilisation of Cu and Zn in AL35 plants, whilst the phytoextraction capacity was enhanced only in the case of Cu. Considering that the effectiveness of PASP as phytostabilizer was comparable or better than that of EDTA/EDDS, the low cost of its large-scale chemical synthesis and its biodegradability makes it a good candidate for chelant-enhanced metal phytoextraction from soil while avoiding the toxic side-effects previously described for both EDTA and EDDS.

Published

2014

9. Oxidative stress and antioxidant responses to increasing concentrations of trivalent chromium in the Andean crop species Chenopodium quinoa Willd

Author

Anahi Bucchini, Marta Iacobucci, Valeria Scoccianti, Karina B. Ruiz, Stefania Biondi, Scoccianti, Valeria, Bucchini, Anahi E., Iacobucci, Marta, Ruiz, Karina B., Biondi, Stefania, DIPARTIMENTO DI SCIENZE BIOLOGICHE, GEOLOGICHE E AMBIENTALI, Facolta' di SCIENZE MATEMATICHE FISICHE e NATURALI, and AREA MIN. 05 - Scienze biologiche

Subjects

0106 biological sciences, Chromium, Polyamine, Antioxidant, DPPH, Chenopodium quinoa, Oxidative stress, Polyamines, Tocopherols, Tyrosine aminotransferase, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Pollution, medicine.medical_treatment, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Plant Roots, Antioxidants, chemistry.chemical_compound, Food science, Photosynthesis, Hydrogen peroxide, Tocopherol, Plant Stems, Chemistry, food and beverages, General Medicine, Health, Seeds, Public Health, Oxidation-Reduction, Chenopodium quinoa, Chromium, Oxidative stress, Polyamines, Tocopherols, Tyrosine aminotransferase, Proline, Botany, medicine, Toxicology and Mutagenesis, 0105 earth and related environmental sciences, Tyrosine Transaminase, Flavonoids, Dose-Response Relationship, Drug, Abiotic stress, Environmental and Occupational Health, Polyphenols, Hydrogen Peroxide, Health, Toxicology and Mutagenesi, Plant Leaves, Oxidative Stress, Oxidative stre, Lipid Peroxidation, 010606 plant biology & botany

Abstract

none 5 no This research was supported by funds from the University of Bologna (RFO2014) to S.B.and from the University of Urbino (RFO 2014) to V.S.. Quinoa (Chenopodium quinoa Willd), an ancient Andean seed crop, exhibits exceptional nutritional properties and resistance to abiotic stress. The species' tolerance to heavy metals has, however, not yet been investigated nor its ability to take up and translocate chromium (Cr). This study aimed to investigate the metabolic adjustments occurring upon exposure of quinoa to several concentrations (0.01–5mM) of CrCl3. Young hydroponically grown plants were used to evaluate Cr uptake, growth, oxidative stress, and other biochemical parameters three and/or seven days after treatment. Leaves accumulated the lowest amounts of Cr, while roots and stems accumulated the most at low and at high metal concentrations, respectively. Fresh weight and photosynthetic pigments were reduced only by the higher Cr(III) doses. Substantially increased lipid peroxidation, hydrogen peroxide, and proline levels were observed only with 5mM Cr(III). Except for a significant decrease at day 7 with 5mM Cr(III), total polyphenols and flavonoids maintained control levels in Cr(III)-treated plants, whereas antioxidant activity increased in a dose-dependent manner. Maximum polyamine accumulation was observed in 1mM CrCl3-treated plants. Even though α- and γ-tocopherols also showed enhanced levels only with the 1mM concentration, tyrosine aminotransferase (TAT, EC 2.6.1.5) activity increased under Cr(III) treatment in a dose- and time-dependent manner. Taken together, results suggest that polyamines, tocopherols, and TAT activity could contribute to tolerance to 1mM Cr(III), but not to the highest concentration that, instead, generated oxidative stress. open Scoccianti, Valeria; Bucchini, Anahi E.; Iacobucci, Marta; Ruiz, Karina B.; Biondi, Stefania Scoccianti, Valeria; Bucchini, Anahi E.; Iacobucci, Marta; Ruiz, Karina B.; Biondi, Stefania

Published

2016

10. Rhodococcus fascians Impacts Plant Development Through the Dynamic Fas-Mediated Production of a Cytokinin Mix

Author

Danny Vereecke, Katerina Václavíková, Ine Pertry, Michael Riefler, Stephen Depuydt, Miroslav Strnad, Petr Galuszka, Annick De Keyser, Lukáš Spíchal, Petr Tarkowski, Stefania Biondi, Markéta Gemrotová, Elisabeth Stes, Marcelle Holsters, Thomas Schmülling, Wim Temmerman, Ondřej Novák, PERTRY I., VÁCLAVÍKOVÁ K., GEMROTOVÁ M., SPÍCHAL L., GALUSZKA P., DEPUYDT S., TEMMERMAN W., STES E., DEKEYSER A., RIEFLER M., BIONDI S., NOVÁK O., SCHMÜLLING T., STRNAD M., TARKOWSKI P., HOLSTERS M., and VEREECKE D.

Subjects

Cytokinins, GENES, ENDOGENOUS CYTOKININS, Physiology, Operon, LEAFY GALL FORMATION, TRANSFER-RNA, Mutant, Arabidopsis, PROTEIN, Virulence, Saccharomyces cerevisiae, Microbiology, chemistry.chemical_compound, Rhodococcus fascians, Gene Expression Regulation, Plant, Escherichia coli, Rhodococcus, BIOSYNTHESIS, heterocyclic compounds, CIS-ZEATIN, Leafy, ARABIDOPSIS CYTOKININ RECEPTORS, Chromatography, High Pressure Liquid, Plant Proteins, IDENTIFICATION, biology, fungi, Biology and Life Sciences, food and beverages, PLANT PATHOLOGY, General Medicine, Plants, Genetically Modified, ARABIDOPSIS, Fas receptor, biology.organism_classification, Cell biology, CORYNEBACTERIUM-FASCIANS, chemistry, RHODOCOCCUS FASCIANS, Mutation, Cytokinin, Agronomy and Crop Science

Abstract

The phytopathogenic actinomycete Rhodococcus fascians D188 relies mainly on the linear plasmid-encoded fas operon for its virulence. The bacteria secrete six cytokinin bases that synergistically redirect the developmental program of the plant to stimulate proliferation of young shoot tissue, thus establishing a leafy gall as a niche. A yeast-based cytokinin bioassay combined with cytokinin profiling of bacterial mutants revealed that the fas operon is essential for the enhanced production of isopentenyladenine, trans-zeatin, cis-zeatin, and the 2-methylthio derivatives of the zeatins. Cytokinin metabolite data and the demonstration of the enzymatic activities of FasD (isopentenyltransferase), FasE (cytokinin oxidase/dehydrogenase), and FasF (phosphoribohydrolase) led us to propose a pathway for the production of the cytokinin spectrum. Further evaluation of the pathogenicity of different fas mutants and of fas gene expression and cytokinin signal transduction upon infection implied that the secretion of the cytokinin mix is a highly dynamic process, with the consecutive production of a tom initiation wave followed by a maintenance flow.

Published

2010

11. Proteomic analysis of chromate-induced modifications in Pseudokirchneriella subcapitata

Author

Marcella Bracale, Fabiana Antognoni, Candida Vannini, Guido Domingo, Milena Marsoni, Stefania Biondi, C. Vannini, M. Marsoni, G. Domingo, F. Antognoni, S. Biondi, and M. Bracale

Subjects

Proteomics, STRESS, Environmental Engineering, Arginine, Health, Toxicology and Mutagenesis, Chlamydomonas reinhardtii, Fresh Water, PSEUDOKIRCHNERIELLA SUBCAPITATA, CHLAMYDOMONAS-REINHARDTII, TOXICITY, CADMIUM, chemistry.chemical_compound, CHROMIUM, Chlorophyta, HEAVY METALS, Chromates, DECARBOXYLASE, Environmental Chemistry, CHLAMYDOMONAS-REINHARDTII, GENE-EXPRESSION, LEAF DISCS, CADMIUM, STRESS, TOXICITY, DECARBOXYLASE, POLYAMINES, CHROMIUM, GROWTH, Electrophoresis, Gel, Two-Dimensional, Amino Acids, Photosynthesis, Potassium dichromate, GENE-EXPRESSION, chemistry.chemical_classification, Methionine, biology, Pigmentation, Algal Proteins, RuBisCO, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Metabolism, biology.organism_classification, Pollution, POLYAMINES, Amino acid, Glutamine, LEAF DISCS, chemistry, Biochemistry, biology.protein, GROWTH, Water Pollutants, Chemical

Abstract

In this work, we have analyzed the changes in the protein expression profile elicited by chromium (Cr) exposure in the freshwater green alga Pseudokirchneriella subcapitata, a well known bio-indicator of water pollution. We tested two experimental conditions, namely 0.2 and 1 ppm of potassium dichromate; this concentration range includes the environmentally-relevant concentrations. Results show that neither concentration of potassium dichromate tested inhibited algal growth. However, the proteomic approach allowed the identification of relevant modifications in protein expression. In fact, among 800 protein spots detected by two-dimensional electrophoresis, 16 Cr-regulated proteins, including predicted and novel ones, were identified using tandem mass spectromic protein analysis. The results demonstrate a Cr-specific action in altering several photosynthetic proteins, such as ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO), RuBisCO activase, Light Harvesting Chla/b protein complex, and stress related Chla/b binding protein1. Although Cr toxicity with respect to photosynthesis has been already documented, here we have identified, for the first time, the target proteins of this toxicity. Cr also induced a modulation of some proteins involved in the metabolism of the amino acids glutamine, arginine and methionine. These data are supported by changes in cellular polyamine (PA) accumulation. Present findings provide new insight into the molecular mechanisms underlying Cr toxicity in P. subcapitata.

Published

2009

12. Jasmonate-induced transcriptional changes suggest a negative interference with the ripening syndrome in peach fruit

Author

Vanina Ziosi, Stefania Biondi, Livio Trainotti, Anna Maria Bregoli, Satoru Kondo, Guglielmo Costa, Setha Sutthiwal, Claudio Bonghi, Patrizia Torrigiani, V. Ziosi, C. Bonghi, A. M. Bregoli, L. Trainotti, S. Biondi, S. Sutthiwal, S. Kondo, G. Costa, and P. Torrigiani

Subjects

METHYL JASMONATE, Time Factors, Physiology, PRUNUS PERSICA, AMINOETHOXYVINYLGLYCINE AVG, Cyclopentanes, Plant Science, Acetates, Biology, Transcriptome, Prunus, chemistry.chemical_compound, Gene Expression Regulation, Plant, Oxylipins, Jasmonate, Pectinase, ALLENE OXIDE SYNTHASE, Methyl jasmonate, Gene Expression Profiling, Jasmonic acid, PROPYL DIHYDROJASMONATE, JASMONIC ACID, food and beverages, Ripening, Ethylenes, Intramolecular Oxidoreductases, Biochemistry, chemistry, Fruit, Pectate lyase

Abstract

Peach (Prunus persica L. Batsch) was chosen as a model to shed light on the physiological role of jasmonates (JAs) during fruit ripening. To this aim, the effects of methyl jasmonate (MJ, 0.40 mM) and propyl dihydrojasmonate (PDJ, 0.22 mM), applied in planta at different fruit developmental stages, on the time-course of ethylene production and fruit quality traits were evaluated. MJ-induced changes in fruit transcriptome at harvest and the expression profiling of relevant JA-responsive genes were analysed in control and JA-treated fruit. Exogenously applied JAs affected the onset of ripening depending upon the fruit developmental stage, with PDJ being more active than MJ. Both compounds enhanced the transcription of allene oxide synthase (PpAOS1), the first specific enzyme in the biosynthesis of jasmonic acid, and altered the pattern of jasmonic acid accumulation. Microarray transcriptome profiling showed that MJ down-regulated some ripening-related genes, such as 1-aminocyclopropane-1-carboxylic acid oxidase (PpACO1) and polygalacturonase (PG), and the transcriptional modulator IAA7. MJ also altered the expression of cell wall-related genes, namely pectate lyase (PL) and expansins (EXPs), and up-regulated several stress-related genes, including some of those involved in JA biosynthesis. Time-course expression profiles of PpACO1, PL, PG, PpExp1, and the transcription factor LIM confirmed the array results. Thus, in peach fruit, exogenous JAs led to a ripening delay due to an interference with ripening- and stress/defence-related genes, as reflected in the transcriptome of treated fruit at harvest.

Published

2008

13. Epigenetic control of heavy metal stress response in mycorrhizal versus non-mycorrhizal poplar plants

Author

Guido Lingua, Stefania Biondi, Patrizia Torrigiani, Valeria Todeschini, Angela Cicatelli, Stefano Castiglione, Angela Cicatelli, Valeria Todeschini, Guido Lingua, Stefania Biondi, Patrizia Torrigiani, and Stefano Castiglione

Subjects

Health, Toxicology and Mutagenesis, Arbuscular mycorrhizal fungi, White poplar, DNA methylation, Epigenome, Heavymetals, MSAP technique, Poplar, Epigenesis, Genetic, chemistry.chemical_compound, Soil, Stress, Physiological, Metals, Heavy, Mycorrhizae, Gene expression, Botany, Environmental Chemistry, Soil Pollutants, Epigenetics, Gene, biology, Inoculation, fungi, General Medicine, Methylation, biology.organism_classification, Pollution, Plant Leaves, Heavy metal, Populus, chemistry, Cytosine

Abstract

It was previously shown that arbuscular mycorrhizal fungi (AMF) exert a significant improvement of growth in a tolerant white poplar (Populus alba L.) clone (AL35) grown on Cu- and Zn-polluted soil via foliar alterations in the levels of defence/stress-related transcripts and molecules. However, nothing is known about the epigenetic changes which occur during tolerance acquisition in response to heavy metals (HMs) in the same mycorrhizal vs. non-mycorrhizal poplar plants. In order to analyse the epigenome in leaves of AL35 plants inoculated or not with AMF and grown in a greenhouse on multimetal polluted or unpolluted soil, the Methylation Sensitive Amplification Polymorphism (MSAP) approach was adopted to detect cytosine DNA methylation. Modest changes in cytosine methylation patterns were detected at first sampling (4 months from planting), whereas extensive alterations (hypomethylation) occurred at second sampling (after 6 months) in mycorrhizal plants grown in the presence of HMs. The sequencing of MSAP fragments led to the identification of genes belonging to several Gene Ontology categories. Seven MSAP fragments, selected on the basis of DNA methylation status in treated vs control AL35 leaves at the end of the experiment, were analysed for their transcript levels by means of qRT-PCR. Gene expression varied in treated samples relative to controls in response to HMs and/or AMF inoculation; in particular, transcripts of genes involved in RNA processing, cell wall and amino acid metabolism were upregulated in the presence of AMF with or without HMs.

Published

2013

14. Salares versus coastal ecotypes of quinoa: Salinity responses in Chilean landraces from contrasting habitats

Author

Iris Aloisi, Karina B. Ruiz, Valentina Canelo, Herman Silva, Stefano Del Duca, Patrizia Torrigiani, Stefania Biondi, Ruiz, KARINA BEATRIZ, Aloisi, Iri, DEL DUCA, Stefano, Canelo, Valentina, Torrigiani, Patrizia, Silva, Herman, and Biondi, Stefania

Subjects

Polyphenol, 0106 biological sciences, 0301 basic medicine, Salinity, Physiology, Growth, Plant Science, Sodium Chloride, 01 natural sciences, Chenopodium quinoa, Plant Roots, 03 medical and health sciences, chemistry.chemical_compound, Genetic, Gene Expression Regulation, Plant, Genetics, Extreme environment, Adaptation, Chile, Ecosystem, Plant Proteins, Ecotype, biology, food and beverages, Plant physiology, biology.organism_classification, Plant Leaves, 030104 developmental biology, chemistry, Agronomy, Seed quality/protein, Seedling, Germination, Chlorophyll, 010606 plant biology & botany

Abstract

Quinoa (Chenopodium quinoa Willd.) is a highly salt-tolerant species subdivided into five ecotypes and exhibiting broad intra-specific differences in tolerance levels. In a greenhouse study, Chilean landraces belonging either to the salares (R49) or coastal lowlands (VI-1, Villarrica) ecotype with contrasting agro-ecological origins were investigated for their responses to high salinity. The effects of two levels of salinity, 100 (T1) and 300 (T2) mM NaCl, on plant growth and on some physiological parameters were measured. Leaf and root Na(+) accumulation differed among landraces. T2 reduced growth and seed yield in all landraces with maximum inhibition relative to controls in R49. Salinity negatively affected chlorophyll and total polyphenol content (TPC) in VI-1 and Villarrica but not R49. Germination on saline or control media of seeds harvested from plants treated or not with NaCl was sometimes different; the best performing landrace was R49 insofar as 45-65% of seeds germinated on 500 mM NaCl-containing medium. In all landraces, average seedling root length declined strongly with increasing NaCl concentration, but roots of R49 were significantly longer than those of VI-1 and Villarrica up to 300 mM NaCl. Salt caused increases in seed TPC relative to controls, but radical scavenging capacity was higher only in seeds from T2 plants of R49. Total SDS-extractable seed proteins were resolved into distinct bands (10-70 kDa) with some evident differences between landraces. Salt-induced changes in protein patterns were landrace-specific. The responses to salinity of the salares landrace are discussed in relation to its better adaptation to an extreme environment.

Published

2015

15. Re-cultivation of Neochloris oleoabundans in exhausted autotrophic and mixotrophic media: the potential role of polyamines and free fatty acids

Author

Alessandra Sabia, Lorenzo Ferroni, Annalisa Maietti, Stefania Biondi, Paola Tedeschi, Simonetta Pancaldi, Martina Giovanardi, Roberta Marchesini, Costanza Baldisserotto, Sabia, Alessandra, Baldisserotto, Costanza, Biondi, Stefania, Marchesini, Roberta, Tedeschi, Paola, Maietti, Annalisa, Giovanardi, Martina, Ferroni, Lorenzo, and Pancaldi, Simonetta

Subjects

Polyamine, Photosynthetic apparatu, Photobioreactor, Chlorophyta, Photosynthetic efficiency, Fatty Acids, Nonesterified, Photosynthesis, Cell morphology, Free fatty acids, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Botany, Polyamines, Food science, Recycling culture media, Neochloris oleoabundan, Growth medium, Free fatty acid, biology, Neochloris oleoabundans, Recycling culture media, Photosynthetic apparatus, Biomass production, Polyamines, Free fatty acids, Ambientale, Photosynthetic apparatus, General Medicine, Neochloris oleoabundans, biology.organism_classification, Culture Media, Biomass production, chemistry, Mixotroph, Biotechnology

Abstract

Neochloris oleoabundans (Chlorophyta) is widely considered one of the most promising microalgae for biotechnological applications. However, the large-scale production of microalgae requires large amounts of water. In this perspective, the possibility of using exhausted growth media for the re-cultivation of N. oleoabundans was investigated in order to simultaneously make the cultivation more economically feasible and environmentally sustainable. Experiments were performed by testing the following media: autotrophic exhausted medium (E+) and mixotrophic exhausted medium after cultivation with glucose (EG+) of N. oleoabundans cells grown in a 20-L photobioreactor (PBR). Both exhausted media were replenished with the same amounts of nitrate and phosphate as the control brackish medium (C). Growth kinetics, nitrate and phosphate consumption, photosynthetic pigments content, photosynthetic efficiency, cell morphology, and lipid production were evaluated. Moreover, the free fatty acid (FFA) composition of exhausted media and the polyamine (PA) concentrations of both algae and media were analyzed in order to test if some molecules, released into the medium, could influence algal growth and metabolism. Results showed that N. oleoabundans can efficiently grow in both exhausted media, if appropriately replenished with the main nutrients (E+ and EG+), especially in E+ and to the same extent as in C medium. Growth promotion of N. oleoabundans was attributed to PAs and alteration of the photosynthetic apparatus to FFAs. Taken together, results show that recycling growth medium is a suitable solution to obtain good N. oleoabundans biomass concentrations, while providing a more sustainable ecological impact on water resources.

Published

2015

16. Expression of an antisense Datura stramonium S-adenosylmethionine decarboxylase cDNA in tobacco: changes in enzyme activity, putrescine-spermidine ratio, rhizogenic potential, and response to methyl jasmonate

Author

Melinda J. Mayer, Sonia Scaramagli, Vanina Ziosi, Stefania Biondi, Patrizia Torrigiani, TORRIGIANI P., SCARAMAGLI S., ZIOSI V., MAYER M., and BIONDI S.

Subjects

METHYL JASMONATE, Adenosylmethionine Decarboxylase, Datura stramonium, DNA, Plant, RHIZOGENESIS, Spermidine, Physiology, Nicotiana tabacum, Down-Regulation, Spermine, Cyclopentanes, Plant Science, Acetates, Biology, Plant Roots, DNA, Antisense, chemistry.chemical_compound, Gene Expression Regulation, Plant, Tobacco, Putrescine, Oxylipins, ANTISENSE TRANSFORMATION, Methyl jasmonate, Biogenic Polyamines, fungi, food and beverages, Ethylenes, Plants, Genetically Modified, biology.organism_classification, POLYAMINES, Plant Leaves, chemistry, Biochemistry, Adenosylmethionine decarboxylase, S-ADENOSYLMETHIONINE DECARBOXYLASE, Polyamine, Agronomy and Crop Science

Abstract

S-adenosylmethionine decarboxylase activity (SAMDC; EC 4.1.1.21) leads to spermidine and spermine synthesis through specific synthases which use putrescine, spermidine and decarboxylated S-adenosylmethionine as substrates. In order to better understand the regulation of polyamine, namely spermidine and spermine, biosynthesis, a SAMDC cDNA of Datura stramonium was introduced in tobacco (Nicotiana tabacum L. cv. Xanthi) in antisense orientation under the CaMV 35S promoter by means of Agrobacterium tumefaciens and leaf disc transformation. The effect of the genetic manipulation on polyamine metabolism, ethylene production and plant morphology was analysed in primary transformants (R0) and in the transgenic progeny (second generation, R1) of self-fertilised primary transformants, relative to empty vector-transformed (pBin19) and wild-type (WT) controls, all of which were maintained in vitro by micropropagation. Primary transformants, which were confirmed by Southern and northern analysis, efficiently transcribed the antisense SAMDC gene, but SAMDC activity and polyamine titres did not change. By contrast, in most transgenic R1 shoots, SAMDC activity was remarkably lower than in controls, and the putrescine-to-spermidine ratio was altered, mainly due to increased putrescine, even though putrescine oxidising activity (diamine oxidase, EC 1.4.3.6) did not change relative to controls. Despite the reduction in SAMDC activity, the production of ethylene, which shares with polyamines the common precursor SAM, was not influenced by the foreign gene. Some plants were transferred to pots and acclimatised in a growth chamber. In these in vivo-grown second generation transgenic plants, at the vegetative stage, SAMDC activity was scarcely reduced, and polyamine titres did not change. Finally, the rhizogenic potential of in vitro-cultured leaf explants excised from antisense plants was significantly diminished as compared with WT ones, and the response to methyl jasmonate, a stress-mimicking compound, in terms of polyamine conjugation was higher and differentially affected in transgenic leaf discs relative to WT ones. The effects of SAMDC manipulation are discussed in relation to plant generation, culture conditions and response to stress.

Published

2005

17. Pre-harvest polyamine and aminoethoxyvinylglycine (AVG) applications modulate fruit ripening in Stark Red Gold nectarines (Prunus persica L. Batsch)

Author

Patrizia Torrigiani, Guglielmo Costa, Anna Maria Bregoli, Angela Rasori, Sonia Scaramagli, Stefania Biondi, Vanina Ziosi, Tommaso Ciriaci, TORRIGIANI P, BREGOLI AM, ZIOSI V, SCARAMAGLI S, CIRIACI T, RASORI A, BIONDI S., and COSTA G

Subjects

PRUNUS PERSICA, AMINOETHOXYVINYLGLYCINE, Ripening, Titratable acid, Horticulture, ETHYLENE, POLYAMINES, Ornithine decarboxylase, FRUIT RIPENING, Spermidine, chemistry.chemical_compound, Prunus, chemistry, Botany, Putrescine, Polyamine, Arginine decarboxylase, Agronomy and Crop Science, Food Science

Abstract

Putrescine (5, 10 and 20 mM), spermidine (0.5, 1 and 2 mM) and aminoethoxyvinylglycine (AVG; 0.32, 0.64 and 1.28 mM) were applied to peach trees (Prunus persica L. Batsch cv Stark Red Gold) under open field conditions. Treatments were performed 28 (polyamines; PAs) and 21 or 7 (AVG) days before harvest at 115 dAFB. Both PAs and AVG reduced ethylene production of fruit, delayed loss of firmness, retained titratable acidity, and prevented the increase in dry matter (DM) and soluble solids concentration (SSC). Fruit drop was consistently reduced by AVG at both application times, and by the highest spermidine concentration. Endogenous PA levels in treated fruit were transiently affected (7 days after treatment), but returned to control values at harvest in both mesocarp and epicarp tissues. Northern analysis of ethylene biosynthetic genes, 1-aminocyclopropane-1-carboxylate synthase (ACS) and 1-aminocyclopropane-1-carboxylate oxidase (ACO), and of those involved in PA biosynthesis, arginine decarboxylase (ADC), ornithine decarboxylase (ODC) and S-adenosylmethionine decarboxylase (SAMDC), was performed in mesocarp tissue at harvest. AVG and putrescine reduced the accumulation of ACO and SAMDC message, putrescine also influenced ACS transcript levels, while spermidine did not affect any of these genes. Results are discussed on the basis of the reduction by PAs and AVG of ethylene production, and confirm the capacity of these naturally occurring substances to modulate fruit ripening.

Published

2004

18. Medium composition and methyl jasmonate influence the amount and spectrum of secondary metabolites in callus cultures ofZanthoxylum stenophyllumHemsl

Author

Gianni Sacchetti, Anacleto Minghetti, N Crespi Perellino, Ferruccio Poli, Stefania Biondi, Fabiana Antognoni, Biondi S., Antognoni F., Crespi Perellino N., Sacchetti G., Minghetti A., and Poli F.

Subjects

food.ingredient, PLANT TISSUE CULTURE, Plant Science, casein hydrolysate, Secondary metabolite, ZANTHOXYLUM STENOPHYLLUM, chemistry.chemical_compound, food, ELICITATION, Zanthoxylum, Auxin, Botany, medicine, Food science, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, Methyl jasmonate, biology, callus growth, fungi, food and beverages, musculoskeletal system, biology.organism_classification, SECONDARY METABOLITES, chemistry, Callus, Kinetin, Cotyledon, elicitation, Zanthoxylum stenophyllum, medicine.drug, Explant culture

Abstract

In the present study callus cultures of Zanthoxylum stenophyllum were initiated in vitro and the effect of different growth regulators and elicitors was tested both upon callus growth and secondary metabolite production. On a medium containing naphthalenacetic acid (NAA), kinetin and 2,4 dichlorophenoxyacetic acid (2,4D), a yellowish and friable callus was obtained from 90% of cotyledon explants, while no callus appeared from other portions of the seedlings. The time course of callus growth and secondary metabolite accumulation was followed after subculturing the established callus culture on different media containing various hormonal combinations. Results indicate that medium containing NAA and a higher concentration of 2,4-D compared to maintenance medium gave the highest stimulation of callus growth, suggesting that this auxin has a critical role in influencing growth. Addition of an organic nitrogen source such as casein hydrolysate also had a positive effect on growth. HPLC analysis of methanol extractable secondary metabolites from Z. stenophyllum calli grown on different media showed that phytohormones and nutrients were able to modify the chromatographic pattern of compounds. Calli grown on the medium giving the highest stimulation of growth show a reduced accumulation of some secondary products. Under the same hormonal conditions, the presence or absence of casein also altered the metabolites produced, both qualitatively and quantitatively. In response to elicitation by methyl jasmonate (MJ), metabolite production was different for the different classes of compounds, and hormonal composition of the culture medium turned out to be very important in determining the response to MJ. Thus, results confirm the importance of the reciprocal interactions between hormones, nutrients and elicitors when attemps are made to enhance secondary metabolite accumulation in in vitro cultures.

Published

2004

19. Downregulation of ethylene production and biosynthetic gene expression is associated to changes in putrescine metabolism in shoot-forming tobacco thin layers

Author

Stefania Biondi, Sonia Scaramagli, Maria Maddalena Altamura, Stefano Castiglione, and Patrizia Torrigiani

Subjects

diamine oxidase, aminoethoxyvinylglycine, 1-aminocyclopropane-1-carboxylic acid, tobacco, polyamine biosynthesis, ethylene biosynthesis, Spermine, Plant Science, General Medicine, Biology, Ornithine decarboxylase, Spermidine, chemistry.chemical_compound, chemistry, Biochemistry, Genetics, Putrescine, 1-Aminocyclopropane-1-carboxylic acid, Diamine oxidase, Polyamine, Arginine decarboxylase, Agronomy and Crop Science

Abstract

The effect of aminoethoxyvinylglycine (AVG), an inhibitor of 1-aminocyclopropane-1-carboxylate synthase (ACS) activity, on ethylene emission and biosynthetic gene expression, on gene expression and/or activity of polyamine (putrescine, spermidine and spermine) biosynthetic enzymes, and on diamine oxidase (DAO, EC 1.4.3.6) activity was evaluated in tobacco (Nicotiana tabacum L. cv. Samsun) thin layers cultured on a shoot-forming medium (1 μM indol-3-acetic acid (IAA) plus 10 μM benzyladenine (BA)). Northern analyses showed that ACS and 1-aminocyclopropane-1-carboxylate oxidase (ACO) transcripts were present throughout culture with a maximum accumulation on day 7. Besides ethylene emission, AVG (0.5 μM) increasingly reduced ACS and ACO messages. The time course of labelled methionine incorporation into spermidine and spermine, which share with ethylene the common precursor S-adenosylmethionine (SAM), as well as SAM decarboxylase (SAMDC, EC 4.1.1.21) activity and gene expression, were not affected by AVG treatment. On the contrary, labelled putrescine incorporation into the higher polyamines (spermidine and spermine) and into trichloroacetic acid (TCA)-soluble polyamine conjugates was enhanced early in culture (day 2) by the drug. Putrescine biosynthetic enzyme activities, arginine decarboxylase (ADC, EC 4.1.1.19) and ornithine decarboxylase (ODC, EC 4.1.1.17), were also increased in AVG-treated explants. Moreover, inhibition of ethylene synthesis by AVG led to a strong reduction in diamine oxidising activity, especially the one associated with a cell wall-enriched fraction. Changes in putrescine biosynthesis, oxidation and flux into higher polyamines are discussed in the light of the rejuvenating effect of AVG.

Published

2003

20. Transglutaminase activity during senescence and programmed cell death in the corolla of tobacco (Nicotiana tabacum) flowers

Author

M. Della Mea, Donatella Serafini-Fracassini, Gianni Sacchetti, Stefania Biondi, F Monti, Anna Maria Bregoli, Ferruccio Poli, and S. Del Duca

Subjects

Senescence, Programmed cell death, senescence, Nicotiana tabacum, Spermine, Apoptosis, DNA Fragmentation, Biology, DNA laddering, Flower, glutamyl polyamines, programmed cell death, spermine, chemistry.chemical_compound, Endopeptidases, Tobacco, Polyamines, Molecular Biology, Cell wall modification, Cellular Senescence, Transglutaminases, Cell Biology, biology.organism_classification, Molecular biology, Spermidine, chemistry, Biochemistry, Phthalic Anhydrides, Putrescine

Abstract

Corolla life span of undetached flowers of Nicotiana tabacum was divided into stages from the closed corolla (stage 1) through anthesis (stage 5) to death (stage 9). Senescence began around stage 6 in the proximal part, concomitantly with DNA laddering. Nuclear blebbing, DNA laddering, cell wall modification, decline in protein, water, pigment content and membrane integrity were observed during senescence and PCD. Transglutaminase activity was measured as mono- and bis-derivatives of putrescine (mono-PU; bis-PU) and bis-derivatives of spermidine (bis-SD). Bis-derivatives decreased with the progression of senescence, while mono-PU increased during early senescence; derivatives were present in different amounts in the proximal and distal parts of the corolla. In excised flowers, exogenous spermine delayed senescence and PCD, and caused an increase in free and acid-soluble conjugated PA levels. Bis-PU was the most abundant PA-derivative before DNA laddering stage; thereafter, bis-PU generally decreased and mono-PU became the most abundant derivative.

Published

2002

21. Methylglyoxal(bis-guanylhydrazone) inhibition of organogenesis is not due to S-adenosylmethionine decarboxylase inhibition/polyamine depletion in tobacco thin layers

Author

Sonia Scaramagli, Stefania Biondi, and Patrizia Torrigiani

Subjects

Carboxy-lyases, Methionine, biology, Physiology, Methylglyoxal, Spermine, Cell Biology, Plant Science, General Medicine, Spermidine, chemistry.chemical_compound, chemistry, Biochemistry, Enzyme inhibitor, Genetics, biology.protein, Putrescine, Polyamine

Abstract

Previous results indicated that in shoot-forming tobacco thin layers the putative inhibitor of S-adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.21) activity methylglyoxal(bis-guanylhydrazone) (MGBG) inhibited meristemoid/primordia formation while enhancing conjugated polyamine accumulation and ethylene biosynthesis, thus showing an inverse relationship between the two phenomena ( Scaramagli et al. 1999). In order to better understand how MGBG causes polyamine overproduction and by using the same model system, we further examined the effect of 0.5 mM MGBG on the incorporation of labelled methionine into spermidine and spermine, on SAMDC transcript levels and activity and on putrescine oxidising (DAO) activity at different times in culture. MGBG-induced ethylene accumulation was also evaluated by gas chromatography (GC). In shoot-forming controls (grown on a medium supplemented with IAA+BA) label was mainly incorporated into free spermidine (82–86% of the total amount incorporated into polyamines) while only 6–12% of radioactivity was recovered in free spermine. Some label was also found in putrescine. In the presence of MGBG, spermidine biosynthetic capacity was enhanced throughout the culture by 28–45% compared with controls. The same occurred for spermine and putrescine. MGBG-enhanced spermidine synthesis was supported by increased SAMDC activity (days 1–2) and higher levels of SAMDC message (days 1–7). On the contrary, the effect of the drug on putrescine oxidation was inhibitory starting from day 2. These results, together with the previous ones, suggest that MGBG, in fact, does not behave as a SAMDC inhibitor in shoot-forming tobacco thin layers and that its negative effect on organised growth is not due to SAMDC inhibition/polyamine depletion.

Published

1999

22. Métabolisme et rôle des polyamines dans le développement de la plante

Author

El-Hassania Daoudi and Stefania Biondi

Subjects

0106 biological sciences, 0303 health sciences, Cell division, DNA replication, Spermine, Plant Science, Metabolism, Biology, 01 natural sciences, Spermidine, 03 medical and health sciences, chemistry.chemical_compound, Biochemistry, chemistry, Biosynthesis, Putrescine, Polyamine, 030304 developmental biology, 010606 plant biology & botany

Abstract

Summary Aliphatic polyamines, putrescine, spermidine and spermine are ubiquitous in all living organisms. They occur in the free form as cations, but are often conjugated to small molecule like phenolics acids and also to various macromolecules. Polyamines and their biosynthetic enzymes may play an important role in many aspects of plants development including growth, differentiation, senescence and response to differents types of stress. Recent work suggest, but has not proven, a regulatory role of polyamines in these processes. Putrescine accumulation in response to stress, suggests a protective role. By contrast, increased spermidine and spermine synthesis appears essential for DNA replication and cell division.

Published

1995

23. Bacterial and plant signal integration via D3-type cyclins enhances symptom development in the Arabidopsis-Rhodococcus fascians interaction

Author

Elisabeth Stes, Stefania Biondi, Danny Vereecke, Marcelle Holsters, Stes E., Biondi S., Holsters M., and Vereecke D.

Subjects

Cytokinins, Physiology, Carboxy-Lyases, Arabidopsis, Plant Science, Arginine, Models, Biological, chemistry.chemical_compound, Rhodococcus fascians, Gene Expression Regulation, Plant, Cyclins, Genetics, Putrescine, Rhodococcus, Plants Interacting with Other Organisms, RNA, Messenger, Plant Diseases, biology, Arabidopsis Proteins, Gene Expression Profiling, fungi, food and beverages, PLANT MORPHOGENESIS, Cell cycle, biology.organism_classification, Plant Leaves, Kinetics, Phenotype, chemistry, Biochemistry, RHODOCOCCUS FASCIANS, Cytokinin, Host-Pathogen Interactions, biology.protein, Spermidine synthase, Arginine decarboxylase, Polyamine, Signal Transduction

Abstract

The phytopathogenic actinomycete Rhodococcus fascians drives its host to form a nutrient-rich niche by secreting a mixture of cytokinins that triggers plant cell division and shoot formation. The discrepancy between the relatively low amount of secreted cytokinins and the severe impact of R. fascians infection on plant development has puzzled researchers for a long time. Polyamine and transcript profiling of wild-type and cytokinin receptor mutant plants revealed that the bacterial cytokinins directly stimulated the biosynthesis of plant putrescine by activating arginine decarboxylase expression. Pharmacological experiments showed that the increased levels of putrescine contributed to the severity of the symptoms. Thus, putrescine functions as a secondary signal that impinges on the cytokinin-activated pathway, amplifying the hormone-induced changes that lead to the formation of a leafy gall. Exogenous putrescine and treatment with polyamine biosynthesis inhibitors combined with transcript and polyamine analyses of wild-type and mutant plants indicated that the direct target of both the bacterial cytokinins and plant putrescine was the expression of D3-type cyclins. Hence, the activated d-type cyclin/retinoblastoma/E2F transcription factor pathway integrates both external and internal hormonal signals, stimulating mitotic cell divisions and inducing pathological plant organogenesis.

Published

2011

24. Variation in salinity tolerance of four lowland genotypes of quinoa (Chenopodium quinoa Willd.) as assessed by growth, physiological traits, and sodium transporter gene expression

Author

Karina Ruiz-Carrasco, Stefania Biondi, Fabiana Antognoni, Andrés Zurita-Silva, Amadou Coulibaly, Susana Lizardi, Marco A. Molina-Montenegro, Adriana Covarrubias, Enrique A. Martínez, RUIZ-CARRASCO K, ANTOGNONI F, KONOTIE COULIBALY A, LIZARDI S, COVARRUBIAS A, MARTÍNEZ E.A., MOLINA-MONTENEGRO M. A., BIONDI S, and ZURITA-SILVA A.

Subjects

Genotype, Proline, CHENOPODIUM QUINOA, Physiology, Germination, Plant Science, Sodium Chloride, Chenopodium quinoa, Plant Roots, chemistry.chemical_compound, Halophyte, Botany, parasitic diseases, Genetics, Putrescine, Biomass, Cloning, Molecular, Plant Proteins, biology, Genetic Variation, Biological Transport, Salt-Tolerant Plants, Salt Tolerance, biology.organism_classification, POLYAMINES, Spermidine, Salinity, SALT STRESS, chemistry, Seedling, Seedlings, Shoot, SODIUM TRANSPORTERS, CHILEAN GENOTYPES, Plant Shoots, geographic locations

Abstract

Chenopodium quinoa (Willd.) is an Andean plant showing a remarkable tolerance to abiotic stresses. In Chile, quinoa populations display a high degree of genetic distancing, and variable tolerance to salinity. To investigate which tolerance mechanisms might account for these differences, four genotypes from coastal central and southern regions were compared for their growth, physiological, and molecular responses to NaCl at seedling stage. Seeds were sown on agar plates supplemented with 0, 150 or 300mM NaCl. Germination was significantly reduced by NaCl only in accession BO78. Shoot length was reduced by 150mM NaCl in three out of four genotypes, and by over 60% at 300mM (except BO78 which remained more similar to controls). Root length was hardly affected or even enhanced at 150mM in all four genotypes, but inhibited, especially in BO78, by 300mM NaCl. Thus, the root/shoot ratio was differentially affected by salt, with the highest values in PRJ, and the lowest in BO78. Biomass was also less affected in PRJ than in the other accessions, the genotype with the highest increment in proline concentration upon salt treatment. Free putrescine declined dramatically in all genotypes under 300mM NaCl; however (spermidine+spermine)/putrescine ratios were higher in PRJ than BO78. Quantitative RT-PCR analyses of two sodium transporter genes, CqSOS1 and CqNHX, revealed that their expression was differentially induced at the shoot and root level, and between genotypes, by 300mM NaCl. Expression data are discussed in relation to the degree of salt tolerance in the different accessions.

Published

2011

25. Enhancing effects of 24-epibrassinolide and putrescine on the antioxidant capacity and free radical scavenging activity of Raphanus sativus seedlings under Cu ion stress

Author

Mukesh Kumar Kanwar, Renu Bhardwaj, Sikander Pal Choudhary, Rachna Gupta, Prabhu Dutt, Stefania Biondi, B. D. Gupta, CHOUDHARY S. P., BHARDWAJ R., GUPTA B. D., DUTT P., GUPTA R. K., KANWAR M., and BIONDI S.

Subjects

stress abiotico, Antioxidant, biology, Physiology, Chemistry, medicine.medical_treatment, Glutathione reductase, RAME, ORMONI VEGETALI, BRASSINOSTEROIDI, Plant Science, PUTRESCINA, Malondialdehyde, Ascorbic acid, Lipid peroxidation, Superoxide dismutase, Horticulture, chemistry.chemical_compound, Biochemistry, Catalase, biology.protein, medicine, STRESS OSSIDATIVO, Proline, Agronomy and Crop Science

Abstract

The present investigation recorded significant restoration of seedling growth (root length, shoot length and fresh weight) upon application of 24-epibrassinolide (EBL) and putrescine (Put) to 7-day-old seedlings of Raphanus sativus L. cv. Pusa chetki grown under copper (Cu) ion stress. EBL and Put with/or without Cu ion treated seedlings showed increased titers of ascorbic acid, total phenols and proline when compared with Cu-stressed seedlings. Differential responses in the activities of guaiacol peroxidase (GPOX) and catalase (CAT) were noted for EBL and Put alone or with/or without Cu ion treatment. Decreased activities of glutathione reductase (GR) and superoxide dismutase (SOD) noted for EBL and Put alone were observed to enhance significantly when applied in combination with Cu ion solution. A remarkable decrease in malondialdehyde contents was observed in seedlings treated with EBL and Put alone and with/or without Cu ion stress. Enhanced free radical scavenging activities were also recorded for seedlings given EBL and Put alone or in combination over Cu ion stressed seedlings. Maximum DPPH activity was observed in seedlings treated with Put and EBL 10−9 M + Put. Significant enhancements in deoxyribose and reducing power activities were too recorded for Put, EBL and Put + 10−9 M EBL treatments. Improved seedling growth, antioxidant levels (ascorbic acid, total phenols and proline) and enzymic (GPOX, CAT, SOD and GR) activities and free radical scavenging capacities along with reduced membrane damage in seedlings given EBL and Put with/or without Cu stress suggests significant and positive interactions of EBL and Put in alleviating the Cu ion induced oxidative damage in radish seedlings.

Published

2011

26. Polyamine metabolism and ethylene biosynthesis in normal and habituated sugar beet callus

Author

Daniel Hagege, Nello Bagni, Stefania Biondi, and Paolo Rossini

Subjects

Physiology, fungi, food and beverages, Cell Biology, Plant Science, General Medicine, Ornithine, Ornithine decarboxylase, body regions, Spermidine, chemistry.chemical_compound, chemistry, Biochemistry, Callus, Genetics, Diamine oxidase, Pyridoxal phosphate, Polyamine, Arginine decarboxylase

Abstract

The optimal assay conditions and the trend with time in culture (28 days) of arginine decarboxylase (ADE; EC 4.1.1.19), omithine decarboxylase (ODC; EC 4.1.1.17) and diamine oxidase (DAO; EC 1.4.3.6) activities in habituated (H) and normal (N) auxin- and cytokinin-requiring sugar beet callus were compared. Although the response to variations in buffer pH and EDTA and pyridoxal phosphate (PLP) concentrations varied for ADC and ODC activities between the two callus types, pH 8.3, 50 μM PLP and 5 mM EDTA were generally optimal or near-optimal for both H and N callus. In most cases the addition of ornithine or arginine in the ADC and ODC assays, respectively, given to block the interconversion between the two substrates, resulted in lower 14CO2 recovery. DAO activity was very differently affected in H and N callus by the presence of polyvinylpyrrolidone in the extration buffer. However, in both cases, this activity increased with time in culure. ADC activity was always predominant in both cell lines and always higher in N callus. In the latter, ADC activity rose sharply between days 14 and 21 and then leveled off while in H callus it incresed steadily from day 14 onwards. ODC activity was also higher in N callus and peaked sharply on day 21 while in H callus it was not detectable in the second half of the culture period. In both cell lines this activity was low or nil on day 28. 3,4-[14C]-methionine incorporation into ethylene and polyamines was also compared in N and H callus. In the latter, ethylene synthesis was lower and [14C]-spermidine formation higher than in N callus. This is in accord with the significantly higher spermidine titres found in H callus.

Published

1993

27. Methyl jasmonate differentially affects tocopherol content and tyrosine amino transferase activity in cultured cells of Amaranthus caudatus and Chenopodium quinoa

Author

Stefania Biondi, Fabiana Antognoni, M. Faudale, and Ferruccio Poli

Subjects

food.ingredient, Cytokinins, alpha-Tocopherol, Tocopherols, Plant Science, Cyclopentanes, Acetates, Chenopodium quinoa, chemistry.chemical_compound, food, Tyrosine aminotransferase, Plant Growth Regulators, Botany, Amaranthus caudatus, Tocopherol, Oxylipins, Ecology, Evolution, Behavior and Systematics, Cells, Cultured, Tyrosine Transaminase, Methyl jasmonate, Amaranthus, biology, fungi, food and beverages, General Medicine, biology.organism_classification, Biochemistry, chemistry, Callus, Cotyledon, Explant culture

Abstract

Tocopherols are lipid-soluble compounds synthesised exclusively by photosynthetic organisms. In this study, in vitro callus cultures were established from two plants that are naturally rich in tocopherols, Amaranthus caudatus and Chenopodium quinoa, in order to examine whether callus cultures were able to produce these compounds at levels comparable to those observed in planta. In both species, cotyledon explants produced the best callus induction and, once established, callus cultures were grown under two different hormonal treatments to check for effects of growth and to induce chloroplast differentiation in the cells. A rapid differentiation of chloroplasts occurred only in C. quinoa cell aggregates grown in the presence of benzyladenine, leading to the production of a homogeneous green callus. In both species, only alpha-tocopherol was produced by callus cultures, although levels were much lower than in planta, and the production was not influenced by the hormonal conditions. Interestingly, cell cultures of the two species responded in different ways to methyl jasmonate (MJ). In A. caudatus cultures, treatment with 100 mum MJ increased the production of alpha-tocopherol up to fivefold, and the inductive effect was influenced by the hormonal composition of the medium. This increase in alpha-tocopherol was associated with a proportional increase in tyrosine aminotransferase (TAT) activity, one of the key enzymes involved in tocopherol biosynthesis. By contrast, in C. quinoa cultures, elicitation with MJ did not have any effect, neither on tocopherol production, nor on TAT activity. These results are discussed in relation to chloroplast differentiation and the interplay between jasmonates and phytohormones.

Published

2009

28. Clonal differences in survival capacity, copper and zinc accumulation, and correlation with leaf polyamine levels in poplar: A large-scale field trial on heavily polluted soil

Author

Stefano Castiglione, Angela Cicatelli, Caterina Rinaudo, Guido Lingua, Valeria Todeschini, Graziella Berta, Patrizia Torrigiani, Cinzia Franchin, Daniela Gastaldi, Stefania Biondi, Castiglione S., Todeschini V., Franchin C., Torrigiani P., Gastaldi D., Cicatelli A., Rinaudo C., Berta G., Biondi S., and Lingua G.

Subjects

Health, Toxicology and Mutagenesis, Clone (cell biology), Spermine, chemistry.chemical_element, COPPER, Zinc, Biology, Toxicology, Plant Roots, Soil, chemistry.chemical_compound, ZINC, Metals, Heavy, Genotype, Botany, Soil Pollutants, POPULUS, Ecology, Plant Stems, PHYTOREMEDIATION, General Medicine, Pollution, Clone Cells, POLYAMINES, Plant Leaves, Spermidine, Italy, chemistry, Putrescine, Amplified fragment length polymorphism, Polyamine

Abstract

Three ex situ collections of poplar clones from natural populations of Populus alba and P. nigra growing in northern Italy were assessed for their genetic dissimilarity (GD) by means of amplified fragment length polymorphism (AFLP). The high GD evidenced within populations was exploited for screening 168 clones in a field trial on heavy metal-polluted soil. After one growth season, clonal differences in plant survival and growth were observed. On the basis of performance, six clones were singled out, and used to evaluate copper and zinc accumulation in different organs. Clonal differences in metal concentrations were most evident for leaves and stems; one clone of P. alba (AL35) had a distinctly higher concentration of both metals in the roots. Leaf polyamine (putrescine, spermidine, spermine) profiles correlated with tissue metal concentrations, depending on the clone, plant organ and metal. In particular, the high metal-accumulating clone AL35 exhibited a dramatically higher concentration of free and conjugated putrescine. Overall, the results indicate that, given the high GD of Populus even within populations, it is possible to identify genotypes best suited for soil clean-up, and useful also for investigating physiological markers associated with high metal accumulation/tolerance.

Published

2009

29. Long-sized oligogalacturonides inhibit, whereas spermidine enhances, xylogenesis in tobacco leaf explants

Author

S. D'Angeli, Maria Maddalena Altamura, Stefania Biondi, Giuseppina Falasca, F. Capitani, FALASCA G., CAPITANI F., D’ANGELI S., BIONDI S., and ALTAMURA M.M.

Subjects

chemistry.chemical_classification, xylogenesis, tobacco leaf explants, polyamines, Morphogenesis, Organogenesis, Plant Science, Biology, Spermidine, chemistry.chemical_compound, cytokinin, Biochemistry, chemistry, Auxin, Cytokinin, spermidine, Putrescine, auxin, oligogalacturonides, IN VITRO CULTURE, Polyamine, Ecology, Evolution, Behavior and Systematics, Explant culture

Abstract

Long-sized oligogalacturonides (OGs) are plant cell wall fragments involved in defence responses and developmental processes. A hormone/OG interaction in the control of different organogenic processes is known. However, hormones also modulate polyamine (PA) effects on organogenesis. Furthermore, OGs are known to affect mitotic activity leading to specific morphogenic events, and PAs are known to affect mitotic activity leading to xylogenesis. Thus, it may be reasonable to assume that OGs and PAs affect mitotic activity in the same cell types, and in the same hormone-induced morphogenic processes, e.g., xylogenesis. To gain further insight into this aspect, the effects of OGs, and of putrescine (Put) and spermidine (Spd), on auxin (indoleacetic acid, IAA) plus benzyladenine (BA)-induced morphogenesis in tobacco leaf explants were investigated histologically. The effect of PA biosynthetic inhibitors in the culture medium was also monitored, as well as the combined application of the inhibitor with ...

Published

2008

30. Oligogalacturonides enhance cytokinin-induced vegetative shoot formation in tobacco explants, inhibit polyamine biosynthetic gene expression, and promote long-term remobilisation of cell calcium

Author

Maria Maddalena Altamura, Federica Della Rovere, Cinzia Franchin, D. Zaghi, Stefania Biondi, Giuseppina Falasca, F. Capitani, Falasca G., Capitani F., Della Rovere F., Zaghi D., Franchin C., Biondi S., and Altamura M.M.

Subjects

Cytokinins, Spermidine, chemistry.chemical_element, Plant Science, Calcium, Biology, Cell wall, chemistry.chemical_compound, Calcium Chloride, CAULOGENESI, TABACCO, Auxin, Cell Wall, Tobacco, Genetics, Polyamines, Putrescine, POLIAMMINE, chemistry.chemical_classification, Indoleacetic Acids, Hexuronic Acids, fungi, CALCIO, food and beverages, calcium, cytokinin, adventitious vegetative shoot formation, leaf explants, polyamines, tobacco, oligogalacturonides, chemistry, Biochemistry, Cytokinin, OLIGOGALATTURONIDI, Polyamine, Plant Shoots, Explant culture

Abstract

Long-sized oligogalacturonides (OGs) are cell wall fragments that induce defence and developmental responses. The Ca(2+)-dependent "egg-box" conformation is required for their activity, and polyamines may prevent them from adopting this conformation. Although OGs are known to inhibit auxin-induced growth processes, their effect on cytokinin-induced ones requires investigation. In the present work OGs were shown to promote cytokinin (benzyladenine, BA)-induced vegetative shoot formation from tobacco leaf explants, independent of the presence of CaCl(2) in the medium and of auxin (indoleacetic acid, IAA) supply. The effect of polyamines, putrescine (PU) and spermidine (SD) supplied with/without their biosynthetic inhibitors (DFMO, CHA) was also investigated, and showed that spermidine enhanced adventitious vegetative shoot formation, but only on medium containing Ca(2+) and IAA. Treatments with inhibitors blocked this promotive effect. OGs did not alter free polyamine concentrations, but caused a moderate increase of conjugated ones, and exhibited an early inhibitory effect on polyamine biosynthetic gene expression. OGs, but not SD, caused long-term changes in calcium-associated epifluorescent signals in the cell walls, and, later, inside the cells of specific tissues. Electron microscopy analysis (ESI system) demonstrated that calcium accumulated in the cell walls and vacuoles of OG-cultured explants. The relationship between OGs, cytokinin, calcium, and polyamines in adventitious vegetative shoot formation is discussed.

Published

2008

31. Polyamines and ethylene in relation to adventitious root formation in Prunus avium shoot cultures

Author

Isabel Iglesias, Grazia Gamberini, Teresa Diaz, Nello Bagni, and Stefania Biondi

Subjects

chemistry.chemical_classification, Ethylene, Physiology, Spermine, Cell Biology, Plant Science, General Medicine, Biology, Spermidine, chemistry.chemical_compound, chemistry, Biochemistry, Auxin, Shoot, Genetics, Putrescine, 1-Aminocyclopropane-1-carboxylic acid, Polyamine

Abstract

An attempt was made to identify some of the hormonal factors that control adventitious root formation in our Prunus avium micropropagation system in order to improve rooting in difficult‐to‐root genotypes. Changes in endogenous contents of free polyamines were determined at intervals during auxin‐induced rooting of shoot cultures. Accumulation of putrescine and spermidine peaked between days 9 and 11. Spermine was only present in traces, Exogenously supplied putrescine or spermine (50‐500 μM), in the presence of optimal or suboptimal levels of indolebutyric acid (IBA), had no effect on rooting percentage or root density, except for spermine at 500 μM. At this external concentration spermine caused a substantial accumulation in both free spermine and putrescine. The use of several inhibitors of polyamine biosynthesis, namely α‐difluoromethylornithine (DFMO), α‐difluoromethylarginine (DFMA), dicyclohexylammonium sulphate (DCHA) and methylglyoxal‐bis‐guanyl‐hydrazone (MGBG) alone or in combination in the 0.1 to 5 μM range, resulted in an inhibition of rooting that was partially reversed by the addition of the corresponding polyamine. Cellular polyamine levels were significantly reduced by DFMO and DFMA but not by DCHA and MGBG, Labeled putrescine incorporation into spermidine increased somewhat in the presence of the ethylene synthesis inhibitor aminoethoxyvinylglycine (AVG). A system based on [3,4‐14C]methionine incorporation was used to measure ethylene synthesis by the in vitro cultured shoots. Label incorporation was drastically reduced by 10 μM AVG and increased 3.5‐fold in the presence of 50 μM IBA with respect to controls (no IBA). Labeled methionine incorporation into spermidine increased to some extent when ethylene synthesis was inhibited by AVG. Adding the ethylene precursor 1‐aminocyclopropane‐l‐carboxylic acid (ACC) to the rooting medium significantly inhibited rooting percentage; AVG caused the formation of a greater number of roots per shoot but delayed their growth. Supplying the shoots with both compounds resulted in an intermediate rooting response, in which both rooting percentage and root density were affected. These results indicate that polyamines may play a significant role at least in some stages of root formation. The polyamine and ethylene biosynthetic pathways seem to be competitive but under our conditions, the enhancement of one pathway when the other was inhibited, was not dramatic. Although IBA promoted ethylene synthesis, AVG, which drastically reduced it, also promoted root formation. Thus, the auxin effect on root induction cannot be directly related to its ability to enhance ethylene synthesis. Copyright © 1990, Wiley Blackwell. All rights reserved

Published

1990

32. Induction of flavonoid production by UV-B radiation in Passiflora quadrangularis callus cultures

Author

Cristina Pagnucco, Stefania Biondi, Suiping Zheng, Ferruccio Poli, Fabiana Antognoni, Rita Baraldi, Antognoni F., Zheng S., Pagnucco C., Baraldi R., Poli F., and Biondi S.

Subjects

METHYL JASMONATE, Isoorientin, Ultraviolet Rays, Isovitexin, Vitexin, Passiflora, chemistry.chemical_compound, ELICITATION, Drug Discovery, Botany, Humans, Food science, Pharmacology, Orientin, Methyl jasmonate, biology, fungi, food and beverages, FLAVONOIDS, General Medicine, biology.organism_classification, CULTURES IN VITRO, chemistry, Callus, Kinetin, PASSIFLORA QUADRANGULARIS, Phytotherapy

Abstract

Callus cultures from several species of Passiflora were initiated in vitro, and their capacity to produce four glycosyl flavonoids (orientin, isoorientin, vitexin, isovitexin) was analysed. The aim of the present work was to examine the possible role of UV-B irradiation and elicitation with methyljasmonate (MJ) on the production of these compounds in callus cultures. All the species tested (P incarnata, P. quadrangularis, P edulis) formed friable callus from leaf explants after 4 weeks on medium supplemented with kinetin and 2,4-dichlorophenoxyacefic acid. Among them, R quadrangularis turned out to have a faster growth rate and a more friable texture, and was therefore chosen for experiments with elicitors. In callus cultures only small amounts of isoorientin were found, while the concentration of the other flavonoids was below the detection limit. UV-B irradiation of calluses was able to increase the production of all four glycosyl flavonoids. After a 7-day exposure of cultures to UV-B light, the production of isoorientin reached concentrations similar to those found in fresh leaves from glasshouse-grown plants. Elicitation with methyl jasmonate also enhanced orientin, vitexin and isovitexin concentrations, even though the stimulation was about 6-fold weaker for orientin and vitexin and about 40-fold for isovitexin, than that exerted by UV-B treatment. Callus cultures treated with the UV-B dose which most enhanced flavonoid production showed a higher antioxidant activity compared to untreated calluses, with an increase ranging from 28% to 76%. Results show that the secondary metabolite biosynthetic capacity of Passiflora tissue cultures can be enhanced by appropriate forms of elicitation. (c) 2007 Elsevier B.V All rights reserved.

Published

2007

33. Jasmonates delay ripening by interfering with ethylene biosynthesis and perception and with polyamine accumulation in peach fruit

Author

Guglielmo Costa, Claudio Bonghi, Anna Maria Bregoli, Vanina Ziosi, Patrizia Torrigiani, Stefania Biondi, Angela Rasori, A. RAMINA, C. CHANG, J. GIOVANNONI, H. KLEE, P. PERATA, E. WOLTERING, SPRINGER, Ziosi V., Bregoli A.M., Bonghi C., Rasori A., Biondi S., Costa G., Torrigiani P., and A. RAMINA

Subjects

METHYL JASMONATE, Methyl jasmonate, Chemistry, PRUNUS PERSICA, JA-INDUCED PROTEINS (JIPS), food and beverages, PROPYL JASMONATE, Ripening, METHYL JASMONATE (MJ), chemistry.chemical_compound, ANTISENESCENT EFFECT, Biochemistry, Ethylene biosynthesis, Botany, PROPYL JASMONATE (PJ), Polyamine, ALLENE OXIDE SYNTHASE (AOS)

Abstract

Jasmonates (JAs), which derive from α -linolenic acid through allene oxide synthase (AOS), are signal molecules which elicit stress responses through JA-induced proteins (JIPs). They are also involved in growth processes such as cell division, tuber formation and fruit development. JAs induce various biological responses mostly correlated with defense responses; however, their reciprocal relationships with ethylene are not well established. In apple and cherries endogenous JAs peak during the early phase of fruit growth; but only in apple they rise again at climacteric. A JA derivative, methyl jasmonate (MJ), stimulates ethylene production in pre-climacteric apples but inhibits it in climacteric ones. However, MJ-induced apple degreening is partly independent of ethylene. A better established relation is be that between JAs and PAs. PAs are ubiquitous growth regulators involved in fruit set and development; when applied to developing fruit they inhibit ethylene production and delay ripening in peach and other climacteric fruit. To better understand the relationships JA-ethylene in a climacteric fruit, in the present study, MJ and its synthetic analogous propyl jasmonate (PJ) were applied to peach (Prunus persica L. Batsch, cv Stark Red Gold) branches during S2 phase (rapid growth). In treated fruit ethylene production and the evolution of the main fruit quality parameters were inhibited and transcript levels of PpACO1, PpERS1 and PpETR1 were altered in comparison to respective controls. Increases in polyamine titres were associated to JA-induced ripening delay probably contributing to the observed antisenescent effect. A fragment of PpAOS cDNA was isolated and its expression monitored during fruit ripening showing that the corresponding transcript was enhanced in JA-treated fruit. Finally, a microarray comparative trascriptome profiling of treated versus control fruit indicated that MJ down-regulate genes positively involved in ripening thus confirming that JAs slow down such process in peach fruit.

Published

2007

34. High zinc concentrations reduce rooting capacity and alter metallothionein gene expression in white poplar (Populus alba L. cv. Villafranca)

Author

Stefania Biondi, Guido Lingua, Stefano Castiglione, Cinzia Franchin, T. Fossati, and Patrizia Torrigiani

Subjects

Chlorophyll, Environmental Engineering, Health, Toxicology and Mutagenesis, Cloning, Organism, chemistry.chemical_element, Zinc, White poplar, medicine.disease_cause, Plant Roots, Environmental, Rhizogenesis, chemistry.chemical_compound, Salicaceae, Botany, medicine, Metallothionein, Environmental Chemistry, Chlorosis, biology, Plant Stems, Heavy metals, In vitro culture, Biodegradation, Environmental, Gene Expression Regulation, Plant Leaves, Plant Shoots, Populus, Chemistry (all), Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, biology.organism_classification, Pollution, chemistry, Shoot, Zinc toxicity, Biodegradation, Organism, Cloning

Abstract

Poplar is a good candidate for phytoremediation purposes because of its rapid growth, extensive root system, and ease of propagation and transformation; however its tolerance to heavy metals has not been fully investigated yet. In the present work, an in vitro model system with shoot cultures was used to investigate the tolerance to high concentrations of zinc (Zn) of a commercial clone (Villafranca) of Populus alba. Based on chlorophyll content (leaf chlorosis) and the rate of adventitious root formation from shoot cuttings as parameters of damage, 0.5-4mM zinc concentrations were all toxic albeit to different extents. Northern blot and reverse transcriptase (RT)-PCR analyses were used to examine the expression profiles of types 1, 2 and 3 PaMT genes in stems, leaves and roots of plants exposed to Zn treatments. In leaves, MT1 and MT3 mRNA levels were enhanced by Zn, while MT2 transcripts were not affected. The PaMT expression profiles were differentially affected by Zn in an organ-specific manner, and the relationship with Zn concentration and exposure time was rarely linear. The developmental and molecular data reveal that the in vitro model is a sensitive and reliable system to study heavy metal stress responses.

Published

2007

35. High concentrations of zinc and copper induce differential polyamine responses in micropropagated white poplar (Populus alba)

Author

Stefano Castiglione, Patrizia Torrigiani, T. Fossati, Guido Lingua, Stefania Biondi, Cinzia Franchin, and Elena Pasquini

Subjects

biology, Physiology, chemistry.chemical_element, Cell Biology, Plant Science, General Medicine, Zinc, White poplar, biology.organism_classification, Phytoremediation, Spermidine, chemistry.chemical_compound, chemistry, Biosynthesis, Biochemistry, Toxicity, Shoot, Genetics, Putrescine, Polyamine

Abstract

An in vitro model system of micropropagated shoots of the commercial clone ‘Villafranca’ of Populus alba (L.) was used to investigate polyamine (PA) biosynthesis and accumulation in response to high concentrations of zinc (Zn) and copper (Cu). Based on leaf symptoms, rate of adventitious root formation and ethylene production, 0.5–1 mM Zn was transiently toxic while 2–4 mM Zn concentrations were increasingly toxic. Free and conjugated putrescine and spermidine accumulated in a dose–response manner and proportionally to toxicity. The expression profiles of the PA biosynthetic genes were analysed by reverse transcriptase polymerase chain reaction in plants exposed to Zn. In both leaves and stems, PaADC and PaODC transcript levels were early enhanced by all Zn concentrations, while those of PaSAMDC were not. In adventitious roots, free and conjugated PA levels also rose, although their composition and reciprocal ratios were different from those of leaves and no changes in transcript levels of PA biosynthetic genes were detected. Several Cu concentrations (5–500 mM) were tested in shoots showing severe leaf toxicity, strongly impaired adventitious root formation and high ethylene production. No changes in PA levels were detected until end of culture. The different timing of the PA response to Zn and Cu, despite their rapid uptake and translocation already at 24 h, is discussed in relation to the extent of leaf toxicity.

Published

2007

36. A comparison between intact fruit and fruit explants to study the effect of polyamines and aminoethoxyvinylglycine (AVG) on fruit ripening in peach and nectarine (Prunus persica L. Batch)

Author

Anna Maria Bregoli, Guglielmo Costa, Stefania Biondi, Patrizia Torrigiani, Bonghi Claudio, Vanina Ziosi, Bregoli A.M., Ziosi V., Biondi S., Bonghi C., Costa G., and Torrigiani P.

Subjects

Ethylene, Rosaceae, S-ADENOSYLMETHIONINE, ETHYLENE BIOSYNTHESIS, Horticulture, chemistry.chemical_compound, Prunus, Botany, AMINOETHOXYVINYLGLYCINE (AVG), PEACH FRUIT, EXOGENOUS POLYAMINES, Methionine, biology, food and beverages, Ripening, biology.organism_classification, POLYAMINES, Spermidine, chemistry, Putrescine, 1-AMINOCYCLOPROPANE-1-CARBOXYLATE OXIDASE (ACO), Agronomy and Crop Science, Food Science, Explant culture

Abstract

In order to establish whether in vitro model systems are suitable to study the reciprocal relationships between ethylene and polyamines (PAs) in peach fruit, whole detached fruit and fruit explants from “Redhaven” peaches and “Stark Red Gold” nectarines at two different ripening stages were subjected to in vitro treatments with 10mM putrescine (Pu), 1mMspermidine (Sd) or 0.32mM aminoethoxyvinylglycine (AVG) in the presence or in the absence of labelled Pu or methionine. Labelled Pu uptake studies showed that, in the short-term, much more label was recovered in intact nectarines than in peaches. In fact, in the former, ethylene productionwas strongly impaired by Pu and Sd at both stages, while itwas substantially unaffected in the latter. In treated fruit, flesh firmness, soluble solids content and fresh weight were only sporadically affected. Under the same experimental conditions, AVG almost totally inhibited ethylene production although fruit quality was practically unaltered. In explants obtained from fruit at the firmer ripening stage, Pu and Sd did not alter and even enhanced methionine incorporation into ethylene, while in those from softer fruit only Sd was able to counteract ethylene biosynthesis. Also in this case, AVG dramatically reduced ethylene biosynthesis. Short-term treatments of fruit explants showed that only Sd and AVG counteracted ripening. Comparing results from intact fruit and fruit explants indicates that Pu and Sd exert a differential effect on ethylene and fruit quality, depending upon ripening stage and cultivar. © 2006 Elsevier B.V. All rights reserved.

Published

2006

37. Transcription of ethylene perception and biosynthesis genes is altered by putrescine, spermidine and aminoethoxyvinylglycine (AVG) during ripening in peach fruit (Prunus persica)

Author

Guglielmo Costa, Vanina Ziosi, Patrizia Torrigiani, T. Fossati, Claudio Bonghi, Anna Maria Bregoli, Stefania Biondi, Ziosi V., Bregoli A.M., Bonghi C., Fossati T., Biondi S., Costa G., and Torrigiani P.

Subjects

Ethylene, Physiology, Spermidine, Glycine, Receptors, Cell Surface, Plant Science, Biology, Genes, Plant, FRUIT RIPENING, chemistry.chemical_compound, Prunus, Abscission, Gene Expression Regulation, Plant, 1-AMINOCYCLOPROPANE-1-CARBOXYLATE OXIDASE, Putrescine, AMINOETHOXYVINYLGLYCINE (AVG), Plant Proteins, POLYAMINE BIOSYNTHESIS, ARGININE-DECARBOXYLASE, food and beverages, Ripening, Ethylenes, ETHYLENE RECEPTORS, POLYAMINES, chemistry, Biochemistry, Fruit, Amino Acid Oxidoreductases, Polyamine, Arginine decarboxylase

Abstract

The time course of ethylene biosynthesis and perception was investigated in ripening peach fruit (Prunus persica) following treatments with the polyamines putrescine (Pu) and spermidine (Sd), and with aminoethoxyvinylglycine (AVG). Fruit treatments were performed in planta. Ethylene production was measured by gas chromatography, and polyamine content by high-performance liquid chromatography; expression analyses were performed by Northern blot or real-time polymerase chain reaction. Differential increases in the endogenous polyamine pool in the epicarp and mesocarp were induced by treatments; in both cases, ethylene production, fruit softening and abscission were greatly inhibited. The rise in 1-aminocyclopropane-1-carboxylate oxidase (PpACO1) mRNA was counteracted and delayed in polyamine-treated fruit, whereas transcript abundance of ethylene receptors PpETR1 (ethylene receptor 1) and PpERS1 (ethylene sensor 1) was enhanced at harvest. Transcript abundance of arginine decarboxylase (ADC) and S-adenosylmethionine decarboxylase (SAMDC) was transiently reduced in both the epicarp and mesocarp. AVG, here taken as a positive control, exerted highly comparable effects to those of Pu and Sd. Thus, in peach fruit, increasing the endogenous polyamine pool in the epicarp or in the mesocarp strongly interfered, both at a biochemical and at a biomolecular level, with the temporal evolution of the ripening syndrome.

Published

2006

38. 1-MCP effects in nectarines: dependence on storage temperature, and relationship with polyamines

Author

Anna Maria Bregoli, Angela Rasori, Vanina Ziosi, Guglielmo Costa, Patrizia Torrigiani, Stefania Biondi, F. Mencarelli, P. Tonutti, V. Ziosi, S. Biondi, P. Torrigiani, A. Rasori, A.M. Bregoli, and G. Costa

Subjects

1-AMINOCYCLOPROPANE-1-CARBOXYLIC ACID SYNTHASE, Carboxy-lyases, Ethylene, biology, Horticulture, ETHYLENE, 1-AMINOCYCLOPROPANE-1-CARBOXYLIC ACID OXIDASE, chemistry.chemical_compound, Prunus, chemistry, Biochemistry, Adenosylmethionine decarboxylase, S-ADENOSYLMETHIONINE DECARBOXYLASE, Biophysics, biology.protein, Postharvest, FRUIT QUALITY, Polyamine, 1-aminocyclopropane-1-carboxylate synthase, Receptor

Abstract

1-Methylcyclopropene (1-MCP) inhibits ethylene action and fruit quality achievement by binding to ethylene receptors. Developmental stage, timing, concentration and storage temperature may modulate 1-MCP effects. Ethylene and the antisenescent growth regulators polyamines (PAs) share a common precursor and may exert opposite effects. Nectarines (Prunus persica L. Batsch ‘Stark Red Gold’) were harvested and treated with 1-MCP for 12 h at 25°C, and then stored for 3 days at 25 or 4°C. At 25°C, 1-MCP strongly inhibited ethylene production and Pp-ACO gene expression, and development of quality parameters (softening, SSC, loss of acidity). At 4°C, ethylene production was not inhibited, but enhanced on the third day. A transient increase in endogenous PAs is associated with 1-MCP treatment, which at 4°C is accentuated, suggesting a combined negative effect of 1-MCP and cold stress. In fact, the 1-MCP-induced increase in PA levels seems to be more correlated with the cold stress than with preventing post-harvest ripening. Thus, in nectarines a single dose of 1-MCP is sufficient to improve post-harvest storage at 25°C, but has a less beneficial effect at 4°C.

Published

2005

39. Postharvest 1-methylcyclopropene application in ripening control of ‘Stark Red Gold’ nectarines: Temperature-dependent effects on ethylene production and biosynthetic gene expression, fruit quality, and polyamine levels

Author

Angela Rasori, Guglielmo Costa, Patrizia Torrigiani, Anna Maria Bregoli, Stefania Biondi, Vanina Ziosi, Massimo Ciccioni, Bregoli A.M., Ziosi V., Biondi S., Rasori A., Ciccioni M., Costa G., and Torrigiani P.

Subjects

1-METHYLCYCLOPROPENE, Ethylene, PRUNUS PERSICA, Spermine, food and beverages, Ripening, Titratable acid, ETHYLENE BIOSYNTHESIS, Horticulture, 1-Methylcyclopropene, POLYAMINES, chemistry.chemical_compound, chemistry, Biochemistry, S-ADENOSYLMETHIONINE DECARBOXYLASE, Postharvest, Putrescine, Polyamine, Agronomy and Crop Science, Food Science

Abstract

“Stark Red Gold” nectarines were harvested at 30 N of flesh firmness (FF) and 1 nl g −1 h −1 of ethylene production, and treated in sealed plastic containers with 1 μl l −1 (1 ppm) 1-methylcyclopropene (1-MCP) for 12 h at 25 °C. Treated and control fruit were then transferred either to a growth chamber at 25 °C or to a cold room at 4 °C for 3 days. At the end of treatment with 1-MCP; ethylene production in control fruit had increased relative to production at harvest, and this rise was abolished by the presence of the chemical. Moreover, treated fruit showed lower soluble solids content (SSC) and higher FF and titratable acidity (TA) compared to control ones, and putrescine and spermine levels were moderately enhanced in the mesocarp at the end of treatment. In contrast with the inhibition of ethylene production, 1-aminocyclopropane-1-carboxylate synthase (ACS) and especially 1-aminocyclopropane-1-carboxylate oxidase (ACO1 and ACO2) transcript levels were enhanced relative to controls. During storage, 1-MCP affected ethylene production and biosynthetic gene expression, fruit softening and other quality parameters in a temperature-dependent manner: in fruit held at 25 °C a strong decrease in ethylene production, a delay in ripening and lower ACS and ACO1/ACO2 levels were recorded, while in fruit held at 4 °C an opposite trend was observed. Results suggest that 1-MCP application followed by storage at 25 °C appears effective in controlling postharvest ripening. The lack of efficacy of the chemical in cold-stored fruit is discussed in relation to changes in SAMDC gene expression and putrescine accumulation in treated fruit relative to controls, which may be part of a stress response.

Published

2005

40. Ectopic expression of maize polyamine oxidase and pea copper amine oxidase in the cell wall of tobacco plants

Author

Giuseppina Rea, Paola Ferrante, Maria Concetta de Pinto, Valentina Gobbi, Rodolfo Federico, Stefania Biondi, Raffaela Tavazza, Laura De Gara, Riccardo Angelini, Paraskevi Tavladoraki, REA G, DE PINTO MC, TAVAZZA R, BIONDI S., GOBBI V, FERRANTE P, DE GARA L, FEDERICO R, ANGELINI R, TAVALDORAKI P, Rea, G, DE PINTO M., C, Tavazza, R, Biondi, S, Gobbi, V, Ferrante, P, DE GARA, L, Federico, R, Angelini, R, Tavladoraki, Paraskevi, Rea, G., DE PINTO, M. C., Tavazza, R., Biondi, S., Gobbi, V., Ferrante, P., DE GARA, L., Federico, R., Angelini, Riccardo, Federico, Rodolfo, and Angelini, R.

Subjects

Hypersensitive response, DIAMINE OXIDASE, DNA, Complementary, Physiology, Transgene, Nicotiana tabacum, pea, HYDROGEN-PEROXIDE, COPPER AMINE OXIDASE, GENE-EXPRESSION, SUBCELLULAR-LOCALIZATION, HYPERSENSITIVE RESPONSE, SUSPENSION-CULTURES, OXIDATIVE STRESS, POLYAMINE OXIDASE, hydrogen peroxide, Plant Science, POLYAMINE OXIDASE, Biology, maize, Lignin, Zea mays, copper amine oxidase, Gene Expression Regulation, Enzymologic, chemistry.chemical_compound, Cell Wall, Gene Expression Regulation, Plant, Tobacco, Genetics, Extracellular, Polyamines, Cloning, Molecular, Oxidase test, Oxidoreductases Acting on CH-NH Group Donors, fungi, Peas, food and beverages, Hydrogen Peroxide, Sequence Analysis, DNA, Plants, biology.organism_classification, Plants, Genetically Modified, GENETIC ENGINEERING, polyamine oxidase, Polyamine Catabolism, chemistry, Biochemistry, Amine Oxidase (Copper-Containing), Polyamine, Polyamine oxidase, Oxidation-Reduction, Research Article

Abstract

To test the feasibility of altering polyamine levels by influencing their catabolic pathway, we obtained transgenic tobacco (Nicotiana tabacum) plants constitutively expressing either maize (Zea mays) polyamine oxidase (MPAO) or pea (Pisum sativum) copper amine oxidase (PCuAO), two extracellular and H2O2-producing enzymes. Despite the high expression levels of the transgenes in the extracellular space, the amount of free polyamines in the homozygous transgenic plants was similar to that in the wild-type ones, suggesting either a tight regulation of polyamine levels or a different compartmentalization of the two recombinant proteins and the bulk amount of endogenous polyamines. Furthermore, no change in lignification levels and plant morphology was observed in the transgenic plants compared to untransformed plants, while a small but significant change in reactive oxygen species-scavenging capacity was verified. Both the MPAO and the PCuAO tobacco transgenic plants produced high amounts of H2O2 only in the presence of exogenously added enzyme substrates. These observations provided evidence for the limiting amount of freely available polyamines in the extracellular space in tobacco plants under physiological conditions, which was further confirmed for untransformed maize and pea plants. The amount of H2O2 produced by exogenously added polyamines in cell suspensions from the MPAO transgenic plants was sufficient to induce programmed cell death, which was sensitive to catalase treatment and required gene expression and caspase-like activity. The MPAO and PCuAO transgenic plants represent excellent tools to study polyamine secretion and conjugation in the extracellular space, as well as to determine when and how polyamine catabolism actually intervenes both in cell wall development and in response to stress.

Published

2004

41. Methyl jasmonate disrupts shoot formation in tobacco thin cell layers by over-inducing mitotic activity and cell expansion

Author

Alma Balestrazzi, F. Capitani, Stefania Biondi, Vanina Ziosi, Daniela Carbonera, Maria Maddalena Altamura, Giuseppina Falasca, Patrizia Torrigiani, CAPITANI F., BIONDI S., FALASCA G., ZIOSI V., BALESTRAZZI A., CARBONERA D., TORRIGIANI P., and ALTAMURA M.M.

Subjects

Cell division, Nicotiana tabacum, Cell, Mitosis, Plant Science, Cyclopentanes, Biology, Acetates, mitotic activity, chemistry.chemical_compound, Plant Growth Regulators, nicotiana tabacum thin cell layers, Tobacco, Genetics, medicine, Primordium, Oxylipins, TOBACCO THIN CELL LAYERS, Cells, Cultured, In Situ Hybridization, Cell Size, Methyl jasmonate, food and beverages, Meristem, methyl jasmonate, biology.organism_classification, Molecular biology, ETHYLENE, medicine.anatomical_structure, Biochemistry, chemistry, RNA, Plant, cell expansion, g1/s phase-specific genes, shoot formation, Shoot, Cell Division, Plant Shoots

Abstract

Methyl jasmonate (MJ) has been shown to reduce the number of shoots formed at the end of culture in tobacco (Nicotiana tabacum L.) thin cell layers (TCLs, Biondi et al. – J Exp Bot 52:1-12, 2001). The principal aim of the present study was to determine early cyto-histological events related with this inhibition of shoot formation. To this end, 0.1, 1 and 10 M MJ were applied to TCLs cultured under shoot-forming conditions, and the explants were microscopically analysed during culture. The effect of MJ on the expression of two cell proliferation marker genes, ubi-CEP (ubiquitin carboxyl-extension protein) and top1 (topoisomerase 1), was also examined. Results show that MJ strongly stimulated mitotic activity early in culture (24-48 h) relative to untreated controls, both in superficial and deep layers. Enhanced proliferative growth was still present on days 5-7, in particular in the presence of the lower concentrations of MJ, and confirmed by both ubi-CEP and top1 transcript accumulation. The formation of meristematic cell clusters (MCC) on day 5 was also enhanced by 1 M MJ. Subsequent development of MCC into meristemoids (M) and shoot primordia (S) was, however, reduced by all MJ concentrations in a dose-dependent manner. Treatments with MJ also induced anomalous mitoses, whose presence was precociously (48 h) enhanced by the highest concentration, and later (day 9) by the lowest concentration. Cell expansion was stimulated by MJ, from 24 h up to day 12, especially around and within M and S. The expanded cells displayed thickened and suberized walls; cell wall thickness increased with increasing MJ concentration. Cell expansion and wall thickening/suberization caused alterations in the tunica and stem differentiation of the shoot dome. MJ also inhibited vascular differentiation, and promoted accumulation of phenolics in the vacuoles, especially in the presence of the highest concentration of MJ. All three concentrations of MJ stimulated ethylene biosynthesis, with the strongest effect being exerted by the intermediate one (1 M) at 30 - 48 h in culture. The apparently paradoxical role of MJ which deregulated shoot formation through a stimulation of growth events (i.e., mitotic activity and cell expansion) is discussed, also in relation to its early stimulation of ethylene biosynthesis. Keywords Cell expansion - Ethylene - Methyl jasmonate - Mitotic activity - Shoot formation - Tobacco thin cell layers

Published

2004

42. Peach (Prunus persica L.) fruit growth and ripening: transcript levels and activity of polyamine biosynthetic enzymes in the mesocarp

Author

Vanina Ziosi, Sonia Scaramagli, Patrizia Torrigiani, Anna Maria Bregoli, and Stefania Biondi

Subjects

Adenosylmethionine Decarboxylase, Carboxy-lyases, Physiology, Carboxy-Lyases, Biogenic Polyamines, Ripening, Plant Science, Biology, Ornithine Decarboxylase, Ornithine decarboxylase, chemistry.chemical_compound, Prunus, chemistry, Biochemistry, Adenosylmethionine decarboxylase, RNA, Plant, Fruit, Putrescine, RNA, Messenger, Polyamine, Arginine decarboxylase, Plant Structures, Agronomy and Crop Science

Abstract

Transcript levels and activities of the polyamine biosynthetic enzymes arginine decarboxylase (ADC, EC 4.1.1.19), ornithine decarboxylase (ODC, EC 4.1.1.17) and S-adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.21), as well as free polyamine titres, were analysed throughout the four growth stages S1-S4 leading up to ripening in the mesocarp from peach fruit (Prunus persica L. Batsch cv. Redhaven) grown under field conditions. SAMDC mRNA, which was northern analysed by using a PCR-generated homologous SAMDC probe, and ADC mRNA levels appeared quite stable during fruit development, while ODC transcript accumulation showed a discontinuous trend. The pattern of transcript levels during growth did not correlate with that of the relative enzyme activity, which instead correlated well with free polyamine levels. Both exhibited maximum levels in S1 and a smaller peak in S3. The behaviour of the polyamine biosynthetic machinery is discussed in relation to the different cell growth rates occurring during fruit development.

Published

2003

43. Methyl Jasmonate and Ethylene Interfere with Polyamine Metabolism and Organogenesis in Tobacco Thin Cell Layers

Author

Sonia Scaramagli, F. Capitani, Stefania Biondi, Patrizia Torrigiani, and Maria Maddalena Altamura

Subjects

chemistry.chemical_compound, Ethylene, Methyl jasmonate, medicine.anatomical_structure, chemistry, Biochemistry, Cell, Second messenger system, Niche, medicine, Organogenesis, Receptor, In vitro

Abstract

Studying the interrelationships between the various plant growth regulators is a necessary step for the understanding of the physiological and morphogenic responses in vivo and in vitro. Polyamines (PAs) occupy a particular niche amongst the plant growth regulators in that, although they share some of the features of traditional phytohormones, such as gradients of synthesis/accumulation associated with juvenility, and growth and differentiation processes (Bagni and Torrigiani 1992), other characteristics, namely order of magnitude and lack of specific receptors, differentiate them and suggest similarities with second messengers. Further research on PA-binding proteins (Tassoni et al 1998) may help to clarify this issue.

Published

2003

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

Author

Patrizia Torrigiani, Valeria Scoccianti, Sonia Scaramagli, Vanina Ziosi, and Stefania Biondi

Subjects

chemistry.chemical_classification, Methyl jasmonate, Nicotiana tabacum, Plant Science, General Medicine, Biology, biology.organism_classification, Ornithine decarboxylase, chemistry.chemical_compound, chemistry, Biochemistry, Adenosylmethionine decarboxylase, Auxin, Cytokinin, Genetics, Polyamine, Arginine decarboxylase, Agronomy and Crop Science

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.

Published

2003

45. Peach (Prunus persica) fruit ripening: aminoethoxyvinylglycine (AVG) and exogenous polyamines affect ethylene emission and flesh firmness

Author

Anna Maria Bregoli, Sonia Scaramagli, Vanina Ziosi, Guglielmo Costa, Patrizia Torrigiani, E. Sabatini, and Stefania Biondi

Subjects

Ethylene, Physiology, food and beverages, Spermine, Ripening, Cell Biology, Plant Science, General Medicine, Spermidine, chemistry.chemical_compound, Horticulture, chemistry, Adenosylmethionine decarboxylase, Botany, Genetics, Putrescine, Polyamine, Fruit tree

Abstract

The effect of various concentrations of aminoethoxyvinylglycine (AVG; 0.32 and 1.28 mM), an ethylene biosynthesis inhibitor, and of the polyamines putrescine (10 mM), spermidine (0.1, 1 and 5 mM) and spermine (2 mM) on peach (Prunus persica L. Batsch cv. Redhaven) fruit ripening was evaluated under field conditions. Treatments were performed 19 (polyamines) and 8 (AVG) days before harvest. Fruit growth (diameter, fresh and dry weight), flesh firmness, soluble solids content and ethylene emission were determined on treated and untreated (controls) fruits. Moreover, endogenous polyamine content and S-adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.21) activity were determined to check for a possible competition between polyamines and ethylene for their common precursor S-adenosylmethionine (SAM). Both treatments strongly inhibited ethylene emission and delayed flesh softening. On a biochemical level, AVG and exogenous polyamines both reduced the free-to-conjugate ratio of endogenous polyamines, and transiently altered SAMDC activity. The possible use of these compounds to control fruit ripening is discussed also in the light of their rejuvenating effect on peach fruits.

Published

2002

46. Secondary metabolism in root and callus cultures of Hyoscyamus muticus L.:The relationship between morphological organisation and response to methyl jasmonate

Author

Ferruccio Poli, Sonia Scaramagli, Stefania Biondi, and Kirsi-Marja Oksman-Caldentey

Subjects

Methyl jasmonate, fungi, Tropane alkaloids, Plant Science, General Medicine, Biology, Ornithine decarboxylase, Polyamine metabolism, chemistry.chemical_compound, Tissue culture, chemistry, Biochemistry, Callus, Botany, Genetics, Putrescine, Hyoscyamus muticus, Diamine oxidase, Secondary metabolism, Arginine decarboxylase, Agronomy and Crop Science, Tropane alkaloid

Abstract

Production of acid-soluble conjugated di- and polyamines, like that of other secondary metabolites, is enhanced by exposure to methyl jasmonate (MJ). We investigated this metabolic response, and activities of enzymes involved in putrescine (Put) and tropane alkaloid biosynthesis, in root cultures of Hyoscyamus muticus and compared it with that of callus cultures. In root cultures, free Put and N-methylputrescine (mPut) increased upon treatment with MJ, whereas in callus cultures mPut levels were not affected. Differently from roots, conjugated amines were scarce or absent in callus cultures, and accumulated only transiently upon treatment with MJ. Arginine decarboxylase, ornithine decarboxylase and diamine oxidase activities in root cultures were strongly stimulated by treatment with MJ, but were inhibited in callus cultures. Exposure to MJ also enhanced putrescine N-methyltransferase activity in root cultures more than in callus cultures. These results are discussed in relation to the different capacity for tropane alkaloid production in the two culture systems.

Published

2002

47. Methyl jasmonate upregulates biosynthetic gene expression, oxidation and conjugation of polyamines, and inhibits shoot formation in tobacco thin layers

Author

Stefania Biondi, Patrizia Torrigiani, Maria Maddalena Altamura, Sonia Scaramagli, and F. Capitani

Subjects

Adenosylmethionine Decarboxylase, Physiology, Carboxy-Lyases, Spermidine, nicotiana tabacum, Spermine, Plant Science, Cyclopentanes, Biology, Acetates, Ornithine Decarboxylase, Ornithine decarboxylase, chemistry.chemical_compound, Plant Growth Regulators, Gene Expression Regulation, Plant, Culture Techniques, Tobacco, Morphogenesis, Polyamines, Putrescine, Oxylipins, thin layers, Methyl jasmonate, methyl jasmonate, Blotting, Northern, Up-Regulation, Plants, Toxic, shoot formation, polyamine metabolism, chemistry, Biochemistry, RNA, Plant, Amine Oxidase (Copper-Containing), Chromatography, Thin Layer, Diamine oxidase, Arginine decarboxylase, Polyamine, Oxidation-Reduction, Plant Shoots

Abstract

The effect of methyl jasmonate (MJ) on de novo shoot formation and polyamine metabolism was investigated in thin layer explants of tobacco (Nicotiana tabacum L. cv. Samsun). A relatively low concentration of MJ (0.1 microM) enhanced explant fresh weight, but had no effect on the final number of shoots per explant while higher concentrations (1 and 10 microM) significantly inhibited organogenesis. The histological study revealed that, with increasing concentrations of MJ, the formation of meristemoids and shoot domes declined and the incidence of cell hypertrophy increased. In explants cultured with 0.1, 1 or 10 microM MJ, the endogenous levels of free putrescine, spermidine and spermine generally declined compared with controls, after 7 and 15 d. Perchloric acid-soluble conjugated polyamines accumulated dramatically during culture, but much more so in the presence of MJ than in controls. Acid-insoluble conjugated spermidine alone increased in response to the elicitor. Activities of the putrescine biosynthetic enzymes arginine decarboxylase (ADC, EC 4.1.1.19) and ornithine decarboxylase (ODC, EC 4.1.1.17) in the soluble fraction of MJ-treated explants displayed up to 3-fold increases relative to control explants. However, the most relevant increases in these enzyme activities occurred in the particulate fraction. The activity of S:-adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.21), an enzyme involved in spermidine and spermine biosynthesis, was also stimulated by exposure to MJ. Northern analyses revealed MJ-induced, generally dose-dependent, increases in the mRNA levels of all three enzymes. Diamine oxidase (DAO, EC 1.4.3.6) activity was stimulated by MJ mainly in the cell wall fraction. The upregulation of polyamine metabolism is discussed in relation to the morphogenic behaviour of MJ-treated explants.

Published

2001

48. Organogenesis from Solanum melongena L. (eggplant) cotyledon explants is associated with hormone-modulated enhancement of polyamine biosynthesis and conjugation

Author

Valeria Scoccianti, E. Sgarbi, D. Fraternale, and Stefania Biondi

Subjects

Arginine decarboxylase activity, food and beverages, Cell Biology, Plant Science, General Medicine, Biology, Ornithine decarboxylase, Spermidine, chemistry.chemical_compound, Tissue culture, Biochemistry, chemistry, Putrescine, Solanum melongena, polyamines, organogenesis, arginine decarboxylase, ornithine decarboxylase, amine oxidases, Arginine decarboxylase, Polyamine, Explant culture

Abstract

Eggplant (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.

Published

2000

49. Polyamine conjugate levels and ethylene biosynthesis: inverse relationship with vegetative bud formation in tobacco thin layers

Author

F. Capitani, Maria Maddalena Altamura, Stefania Biondi, P. Gerola, Sonia Scaramagli, and Patrizia Torrigiani

Subjects

biology, Physiology, Callus formation, Nicotiana tabacum, Spermine, Cell Biology, Plant Science, General Medicine, biology.organism_classification, Molecular biology, Spermidine, chemistry.chemical_compound, Tissue culture, chemistry, Biochemistry, Genetics, Putrescine, Polyamine, Explant culture

Abstract

The effects of two inhibitors of polyamine (spermidine and spermine) biosynthesis, cyclohexylamine (CHA; 5 and 10 mM) and methylglyoxal(bis-guanylhydrazone) (MGBG; 0.1, 0.5 and 1 mM), on the organogenic response in vegetative bud-forming tobacco (Nicotiana tabacum L. cv. Samsun) thin layer explants were evaluated micro- and macroscopically at different times during culture. The final number of buds formed and the percentage of organogenic explants was significantly reduced by both inhibitors, but much more so by MGBG than CHA. This inhibitory effect was already evident in MGBG-treated explants on day 5, in terms of the number of meristemoids per explant. On the contrary, in the presence of CHA, the number of meristemoids on day 5 was higher than that in the controls. Between days 9 and 13, meristemoid formation slowed down considerably in inhibitor-treated explants compared with controls. On day 13, the number of bud primordia was similar in control and CHA-treated explants, but significantly lower in MGBG-treated explants. This inhibitor also induced peculiar cytohistological events, such as a reduced formation of oval-shaped cell aggregates on the explant surface and more frequent cases of nucleolar extrusion, while CHA led to the appearance of hypertrophic epidermal cells; callus formation at the basal end of the explant and xylogenesis were also affected by the inhibitors. Ethylene biosynthesis, measured as [ C]methionine incorporation, was stimulated 2- (day 2) to 3-fold (15 h) by 0.5 mM MGBG, whereas CHA (10 mM) had little effect and aminoethoxyvinylglycine (AVG; 0.1 μM), an ethylene synthesis inhibitor, was strongly inhibitory. In control explants, the incorporation of labelled methionine into ethylene and spermidine followed an inverse trend up to day 8. In these explants, free putrescine increased 32-fold and spermidine increased about 10-fold between days 0 and 8. Trichloroacetic acid (TCA)-soluble conjugated putrescine also accumulated dramatically during culture. While CHA provoked a decline in spermidine levels, MGBG caused an unexpected increase in free spermidine and spermine titres; however, its most conspicuous effect was on the further enhancement of putrescine conjugate accumulation, while CHA and AVG had the opposite effect. Results are discussed in view of establishing a putative link between MGBG-enhanced ethylene synthesis, increased conjugate titres and inhibition of meristemoid formation.

Published

1999

50. Auxin and Ethylene in Hairy Root Cultures of Hyoscyamus muticus

Author

Nello Bagni, Stefania Biondi, and Marisa Mengoli

Subjects

chemistry.chemical_classification, Ethylene, biology, Chemistry, Agrobacterium, Lateral root, food and beverages, Stimulation, Root hair, biology.organism_classification, Horticulture, chemistry.chemical_compound, Auxin, Botany, Hyoscyamus muticus, Elongation

Abstract

Treatment of normal and Agrobacterium rhizogenes-transformed root cultures of Hyoscyamus muticus with three different auxins (IAA, IBA, NAA) revealed that the response varied considerably between auxins, between transformed and normal roots and depending on the parameter examined (length of primary root, number and length of lateral roots). While IBA reduced primary root elongation only at the highest concentration tested, the other two auxins were strongly inhibitory at all concentrations in both root lines. All three auxins promoted branching in normal roots (except 2.5 μM IAA) but not in transformed roots where they were generally without effect (IBA) or inhibitory. In normal roots, which produced less ethylene than transformed roots, the auxin stimulation of ethylene formation was more pronounced than in transformed roots. The ethylene precursor ACC and its conjugated form MACC were undetectable in both root lines but accumulated considerably when NAA was supplied. The ethylene synthesis inhibitor AVG had, at high concentrations, a drastic effect on root growth and development while silver thiosulphate, an ethylene antagonist, did not. The latter compound, however, resulted in no or very limited root hair formation in transformed and normal roots, respectively.

Published

1995