Your search keyword '"Barbulova A"' showing total 14 results

1. The Growth Differentiation Factor 11 is Involved in Skin Fibroblast Ageing and is Induced by a Preparation of Peptides and Sugars Derived from Plant Cell Cultures

Author

Flavia Anna Mercurio, Maria Gabriella Colucci, Annalisa Tito, Fabio Apone, Claudia Zappelli, Rosita Russo, Menotti Ruvo, Angela Chambery, Ani Barbulova, Marilisa Leone, Tito, Annalisa, Barbulova, Ani, Zappelli, Claudia, Leone, Marilisa, Ruvo, Menotti, Mercurio, Flavia Anna, Chambery, Angela, Russo, Rosita, Colucci, Maria Gabriella, and Apone, Fabio

Subjects

0106 biological sciences, Adult, Aging, Collagen induction, Somatic cell, Peptide/sugar extract, Bioengineering, Smad Proteins, SMAD, Biology, Periostin, 01 natural sciences, Applied Microbiology and Biotechnology, Biochemistry, Collagen Type I, 03 medical and health sciences, 010608 biotechnology, Humans, Growth differentiation factor 11, sugar extract, Molecular Biology, Cells, Cultured, 030304 developmental biology, Skin, Neonatal and adult fibroblasts, 0303 health sciences, Plant Extracts, Infant, Newborn, Growth differentiation factor, Embryo, Fibroblasts, Phenotype, Cell biology, Growth Differentiation Factors, Collagen Type III, Gene Expression Regulation, Skin ageing, Ageing, Peptide, GDF11, Bone Morphogenetic Proteins, Lotus, Neonatal and adult fibroblast, Peptides, Sugars, Biotechnology, Signal Transduction

Abstract

Ageing is a complex and progressive phenomenon, during which the accumulation of morphological and chemical changes seriously compromises the capacity of the cells to proliferate and fulfil their biological tasks. The increase in the average age of the world population, associated with a higher occurrence of age-related diseases, is prompting scientific research to look for new strategies and molecular targets that may help in alleviating age-related phenotypes. Growth factors, responsible for modulating several aging markers in many tissues and organs, represent valuable targets to fight age-associated dysfunctions. The growth differentiation factor GDF11, a TGF-β family member, has been associated with the maintenance of youth phenotypes in different human tissues and organs, and in the skin has been related to an inhibition of the inflammatory response. We investigated the role of GDF11 in skin dermal fibroblasts, and we observed that its expression and activity were reduced in fibroblasts deriving from adult donors compared to neonatal ones. The main effect of GDF11 was the induction of collagen I and III, in both neonatal and adult fibroblasts, by triggering Smad signalling in a TGF-β-like fashion. Moreover, by analysing a number of plant extracts having GDF11 inducing activity, we found that a peptide/sugar preparation, obtained from Lotus japonicus somatic embryo cultures, was capable of restoring GDF11 expression in older fibroblasts and to activate the synthesis of collagen I, collagen III and periostin, an important protein involved in collagen assembly. [Figure not available: see fulltext.].

Published

2019

2. The hydrophobin HYTLO1 secreted by the biocontrol fungus Trichoderma longibrachiatum triggers a NAADP-mediated calcium signalling pathway in Lotus japonicus

Author

Roberto Moscatiello, Sebastiano Nigris, Maurizio Chiurazzi, Ani Barbulova, Barbara Baldan, Simone Sello, Matteo Lorito, Paola Mariani, Michelina Ruocco, Enrico Cortese, Lorella Navazio, Moscatiello, Roberto, Sello, Simone, Ruocco, Michelina, Barbulova, Ani, Cortese, Enrico, Nigris, Sebastiano, Baldan, Barbara, Chiurazzi, Maurizio, Mariani, Paola, Lorito, Matteo, and Navazio, Lorella

Subjects

aequorin, biocontrol fungi, calcium signalling, Lotus japonicus, hydrophobins, HYTLO1, NAADP, Trichoderma, 0106 biological sciences, 0301 basic medicine, Trichoderma longibrachiatum, 01 natural sciences, Catalysi, lcsh:Chemistry, chemistry.chemical_compound, Genes, Reporter, Hydrophobins, Cloning, Molecular, lcsh:QH301-705.5, Spectroscopy, Plant Proteins, biology, Calcium signalling, food and beverages, Computer Science Applications1707 Computer Vision and Pattern Recognition, General Medicine, Plants, Genetically Modified, Computer Science Applications, Cell biology, Biological Control Agents, Hydrophobin, Article, Catalysis, Cell wall, Fungal Proteins, Inorganic Chemistry, 03 medical and health sciences, Aequorin, Biocontrol fungi, Molecular Biology, Physical and Theoretical Chemistry, Organic Chemistry, Extracellular, Calcium Signaling, Mitogen-Activated Protein Kinase Kinases, Nicotinic acid adenine dinucleotide phosphate, Host Microbial Interactions, fungi, biology.organism_classification, Lotus japonicu, 030104 developmental biology, chemistry, lcsh:Biology (General), lcsh:QD1-999, Cell culture, Lotus, Calcium, NADP, 010606 plant biology & botany

Abstract

Trichoderma filamentous fungi are increasingly used as biocontrol agents and plant biostimulants. Growing evidence indicates that part of the beneficial effects is mediated by the activity of fungal metabolites on the plant host. We have investigated the mechanism of plant perception of HYTLO1, a hydrophobin abundantly secreted by Trichoderma longibrachiatum, which may play an important role in the early stages of the plant-fungus interaction. Aequorin-expressing Lotus japonicus suspension cell cultures responded to HYTLO1 with a rapid cytosolic Ca2+ increase that dissipated within 30 min, followed by the activation of the defence-related genes MPK3, WRK33, and CP450. The Ca2+-dependence of these gene expression was demonstrated by using the extracellular Ca2+ chelator EGTA and Ned-19, a potent inhibitor of the nicotinic acid adenine dinucleotide phosphate (NAADP) receptor in animal cells, which effectively blocked the HYTLO1-induced Ca2+ elevation. Immunocytochemical analyses showed the localization of the fungal hydrophobin at the plant cell surface, where it forms a protein film covering the plant cell wall. Our data demonstrate the Ca2+-mediated perception by plant cells of a key metabolite secreted by a biocontrol fungus, and provide the first evidence of the involvement of NAADP-gated Ca2+ release in a signalling pathway triggered by a biotic stimulus.

Published

2018

3. Brassica rapahairy root extracts promote skin depigmentation by modulating melanin production and distribution

Author

Claudia Zappelli, Gabriella Colucci, Antonella Leone, Fabio Apone, Ani Barbulova, Luigi Michele Sena, Vincenzo Fogliano, Teresa Oliviero, Annalisa Tito, and Rosalia Ferracane

Subjects

Collagen Type IV, Keratinocytes, Hairy root cultures, 0301 basic medicine, Cell biology, Melanogenesis, Active ingredient, Skin Lightening Preparations, Skin Pigmentation, Human skin, Dermatology, Biology, Plant Roots, Melanin, Extracellular matrix, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Depigmentation, Cell Line, Tumor, Botany, Brassica rapa, medicine, Humans, Gene expression, 2708, Pigmentation disorder, Skin, VLAG, Melanins, Microphthalmia-Associated Transcription Factor, integumentary system, Plant Extracts, Skin whitening, medicine.disease, Extracellular Matrix, Food Quality and Design, 030104 developmental biology, Biochemistry, Protein Biosynthesis, Melanocytes, Laminin, medicine.symptom, Cell Adhesion Molecules, Explant culture

Abstract

SummaryBackground Skin whitening products, used for ages by Asian people for cultural and esthetic purposes, are very popular nowadays in Western countries as well, where the need to inhibit skin spots after sun exposure has become not only a cosmetic but also a health-related issue. Thus, the development of effective and safe depigmenting agents derived from natural products gets continuous attention by cosmetic brands and consumers. Objectives The aim of this study was to determine the effects of two preparations, obtained from the hairy root cultures of the species Brassica rapa, on melanogenesis and the expression of the extracellular matrix proteins involved in a correct pigment distribution. Methods The two preparations, obtained by water-ethanol extraction and by digestion of cell-wall glycoproteins of the root cells, were chemically characterized and tested on skin cell cultures and on human skin explants to investigate on their dermatological activities. Results Both the extracts were able to decrease melanin synthesis pathway in melanocytes and modulate the expression of genes involved in melanin distribution. One of the extracts was also effective in inducing the expression of laminin-5 and collagen IV, involved into the maintenance of tissue integrity. The two extracts, when tested together on human skin explants, demonstrated a good synergic hypopigmenting activity. Conclusions Taken together, the results indicate that the extracts from B. rapa root cultures can be employed as cosmetic active ingredients in skin whitening products and as potential therapeutic agents for treating pigmentation disorders.

Published

2017

4. Plant Cell Cultures as Source of Cosmetic Active Ingredients

Author

Gabriella Colucci, Ani Barbulova, and Fabio Apone

Subjects

Aging, media_common.quotation_subject, Pharmaceutical Science, Dermatology, Biology, Cosmetics, lcsh:Chemistry, Liquid suspension, Plant cell culture, Chemical Engineering (miscellaneous), Medicinal plants, media_common, Pharmaceutical industry, Active ingredient, business.industry, cosmetics, Industrial scale, fungi, food and beverages, Plant cell, Biotechnology, lcsh:QD1-999, active ingredients, Surgery, plant cell cultures, business

Abstract

The last decades witnessed a great demand of natural remedies. As a result, medicinal plants have been increasingly cultivated on a commercial scale, but the yield, the productive quality and the safety have not always been satisfactory. Plant cell cultures provide useful alternatives for the production of active ingredients for biomedical and cosmetic uses, since they represent standardized, contaminant-free and biosustainable systems, which allow the production of desired compounds on an industrial scale. Moreover, thanks to their totipotency, plant cells grown as liquid suspension cultures can be used as “biofactories” for the production of commercially interesting secondary metabolites, which are in many cases synthesized in low amounts in plant tissues and differentially distributed in the plant organs, such as roots, leaves, flowers or fruits. Although it is very widespread in the pharmaceutical industry, plant cell culture technology is not yet very common in the cosmetic field. The aim of the present review is to focus on the successful research accomplishments in the development of plant cell cultures for the production of active ingredients for cosmetic applications.

Published

2014

5. PII Overexpression in Lotus japonicus Affects Nodule Activity in Permissive Low-Nitrogen Conditions and Increases Nodule Numbers in High Nitrogen Treated Plants

Author

Maria Martha Sainz, Vladimir Totev Valkov, Aurora Parlati, Sergio Esposito, Alessandra Rogato, Selim Omrane, Enrica D’Apuzzo, Marco Lentini, Maurizio Chiurazzi, Ani Barbulova, D’Apuzzo, E, Parlati, Aurora, Totev Valkov, V, Omrane, S, Barbulova, A, Sainz, Mm, Lentini, Marco, Esposito, Sergio, Rogato, Alessandra, and Chiurazzi, M.

Subjects

Nodule (geology), Physiology, Nitrogen, Transgene, PII Nitrogen Regulatory Proteins, Photoperiod, Lotus japonicus, engineering.material, chemistry.chemical_compound, Nitrogen fixation, Gene Expression Regulation, Plant, Transcriptional regulation, N metabolism, Gene, Phylogeny, Plant Proteins, nodule organogenesis, biology, fungi, Nitrogenase, General Medicine, biology.organism_classification, Subcellular localization, Plants, Genetically Modified, Phenotype, Biochemistry, chemistry, engineering, Lotus, SIGNAL TRANSDUCTION PROTEINS, N-ACETYLGLUTAMATE-KINASE, ACETYL GLUTAMATE KINASE, PII, ARABIDOPSIS THALIANA, MEDICAGO-TRUNCATULA, SINORHIZOBIUM-MELILOTI, NITRIC-OXIDE, Polyamine, Root Nodules, Plant, Agronomy and Crop Science

Abstract

We report here the first characterization of a GLNB1 gene coding for the PII protein in leguminous plants. The main purpose of this work was the investigation of the possible roles played by this multifunctional protein in nodulation pathways. The Lotus japonicus LjGLB1 gene shows a significant transcriptional regulation during the light-dark cycle and different nitrogen availability, conditions that strongly affect nodule formation, development, and functioning. We also report analysis of the spatial profile of expression of LjGLB1 in root and nodule tissues and of the protein’s subcellular localization. Transgenic L. japonicus lines overexpressing the PII protein were obtained and tested for the analysis of the symbiotic responses in different conditions. The uncoupling of PII from its native regulation affects nitrogenase activity and nodule polyamine content. Furthermore, our results suggest the involvement of PII in the signaling of the nitrogen nutritional status affecting the legumes’ predisposition for nodule formation.

Published

2014

6. Tissue-specific down-regulation of LjAMT1;1 compromises nodule function and enhances nodulation in Lotus japonicus

Author

Catalina Stedel, Maurizio Chiurazzi, Selim Omrane, Enrica D’Apuzzo, Alessandra Rogato, Ulrike Simon-Rosin, Panagiotis Katinakis, Manolis Flemetakis, Michael K. Udvardi, and Ani Barbulova

Subjects

Lotus japonicus, Lotus, Nodule, Down-Regulation, Plant Science, Nitrogen Fixation, Gene expression, Genetics, Symbiosis, Leghemoglobin, In Situ Hybridization, Vascular tissue, DNA Primers, Plant Proteins, Base Sequence, biology, Reverse Transcriptase Polymerase Chain Reaction, fungi, food and beverages, General Medicine, Plants, Genetically Modified, Vascular bundle, Plant cell, biology.organism_classification, Ammonium transport, Biochemistry, Agronomy and Crop Science

Abstract

Plant ammonium transporters of the AMT1 family are involved in N-uptake from the soil and ammonium transport, and recycling within the plant. Although AMT1 genes are known to be expressed in nitrogen-fixing nodules of legumes, their precise roles in this specialized organ remain unknown. We have taken a reverse-genetic approach to decipher the physiological role of LjAMT1;1 in Lotus japonicus nodules. LjAMT1;1 is normally expressed in both the infected zone and the vascular tissue of Lotus nodules. Inhibition of LjAMT1;1 gene expression, using an antisense gene construct driven by a leghemoglobin promoter resulted in a substantial reduction of LjAMT1;1 transcript in the infected tissue but not the vascular bundles of transgenic plants. As a result, the nitrogen-fixing activity of nodules was partially impaired and nodule number increased compared to control plants. Expression of LjAMT1;1-GFP fusion protein in plant cells indicated a plasma-membrane location for the LjAMT1;1 protein. Taken together, the results are consistent with a role of LjAMT1;1 in retaining ammonium derived from symbiotic nitrogen fixation in plant cells prior to its assimilation.

Published

2008

7. Genetic Modification of Alfalfa(Medicago Sativa L.)for Quality Improvement and Production of Novel Compounds

Author

M. Vlahova, P. Petkov, Atanas Atanassov, D. Petkova, G. Stefanova, A. Barbulova, and Plamen Kalushkov

Subjects

Agronomy, Medicago sativa, Biology, Biotechnology

Abstract

(2005). Genetic Modification of Alfalfa (Medicago Sativa L.) for Quality Improvement and Production of Novel Compounds. Biotechnology & Biotechnological Equipment: Vol. 19, 20th Anniversary AgroBioInstitute—R&D, pp. 56-62.

Published

2005

8. Primary Asymmetric Division and Embryo Formation in a Single Cell Suspension of EmbryogenicMedicago Falcata

Author

Anelia Iantcheva, Atanas Atanassov, Mariana Vlahova, and A. Barbulova

Subjects

Medicago falcata, Tobacco BY-2 cells, biology, Somatic embryogenesis, Cell division, Somatic cell, Cell, Embryo, Cell cycle, biology.organism_classification, Cell biology, medicine.anatomical_structure, Botany, medicine, Biotechnology

Abstract

cell suspension culture of highly embryogenic line 47/1/150 M. falcata was initi- ated. The cell suspension was composed of different types of single cells. Most of the cells were capable to give rise to embryos following asymmetric division. In order to visualise and study this process and cells active and competent for division, transgenic Medicago falcata plants carrying the β-glucoronidase gene (gus A ) under the control of the two promoters cdc2aAt and cyc3aAt from cell cycle regulating genes, have been obtained. Cell suspension cultures initiated from controls and transgenic plants were induced fol- lowing the procedure for direct somatic embryogenesis in liquid medium. The fine fraction of single cells obtained after 15 days following culture initiation was used to investigate the asymmetry of the first cell division. The process of plant regeneration via somatic em- bryogenesis was characterised from single cell until conversion to plantlets.

Published

2004

9. Characterization of a developmental root response caused by external ammonium supply in Lotus japonicus

Author

Selim Omrane, Fiorella Lo Schiavo, Alex Costa, Alessandra Rogato, Enrica D’Apuzzo, Sergio Esposito, Aurora Parlati, Maurizio Chiurazzi, Simona Carfagna, Ani Barbulova, Rogato, A, D’Apuzzo, E, Barbulova, A, Omrane, S, Parlati, A, Carfagna, Simona, Costa, A, Lo Schiavo, F, Esposito, Sergio, and Chiurazzi, M.

Subjects

Transcription, Genetic, root development, Physiology, Lotus japonicus, Environmental Stress and Adaptation to Stress, Plant Science, Plant Roots, chemistry.chemical_compound, Gene Expression Regulation, Plant, nutrients, Arabidopsis, Botany, Genetics, Lotus corniculatus, Ammonium, Biomass, Amino Acids, Lotu, biology, Plant physiology, food and beverages, Plants, Genetically Modified, Transceptor, biology.organism_classification, Ammonium transporter, Phenotype, Cell biology, Quaternary Ammonium Compounds, ammonium, chemistry, Shoot, transport, Lotus, signaling, Plant nutrition, Plant Shoots

Abstract

Plants respond to changes of nutrient availability in the soil by modulating their root system developmental plan. This response is mediated by systemic changes of the nutritional status and/or by local perception of specific signals. The effect of nitrate on Arabidopsis (Arabidopsis thaliana) root development represents a paradigm of these responses, and nitrate transporters are involved both in local and systemic control. Ammonium (NH4 +) represents an important nitrogen (N) source for plants, although toxicity symptoms are often associated with high NH4 + concentration when this is present as the only N source. The reason for these effects is still controversial, and mechanisms associating ammonium supply and plant developmental programs are completely unknown. We determined in Lotus japonicus the range of ammonium concentration that significantly inhibits the elongation of primary and lateral roots without affecting the biomass of the shoot. The comparison of the growth phenotypes in different N conditions indicated the specificity of the ammonium effect, suggesting that this was not mediated by assimilatory negative feedback mechanisms. In the range of inhibitory NH4 + conditions, only the LjAMT1;3 gene, among the members of the LjAMT1 family, showed a strong increased transcription that was reflected by an enlarged topology of expression. Remarkably, the short-root phenotype was phenocopied in transgenic lines by LjAMT1;3 overexpression independently of ammonium supply, and the same phenotype was not induced by another AMT1 member. These data describe a new plant mechanism to cope with environmental changes, giving preliminary information on putative actors involved in this specific ammonium-induced response.

Published

2010

10. Establishment of Embryogenic Potential of Economically Important Bulgarian Alfalfa Cultivars (Medicago SativaL.)

Author

A. Barbulova, A. Iantcheva, M. Zhiponova, M. Vlahova, and A. Atanassov

Subjects

Somatic embryogenesis, food and beverages, Biology, Plantlet, chemistry.chemical_compound, chemistry, Callus, Botany, Ammonium, Cultivar, Proline, Medicago sativa, Biotechnology, Explant culture

Abstract

Five Bulgarian alfalfa cultivars (Medicago sativa L.) with valuable economic traits were screened for their regeneration capability via indirect somatic embryogenesis. As explants, leaves and petioles of in vitro grown plants were used. Different media and growth regulators were tested. The screened varieties showed different regeneration capacity. All of them formed friable embryogenic callus on media, containing 2, 4-D for almost equal period of time—45–60 days. Media with ammonium and sulfur ions, 3g/l proline, 1g/l casein hydrolysate, 0,5mg/l BAP+250mg/l casein hydrolysate and MS basal were suitable for development, maturation and conversation of somatic embryos for three of the tested cultivars. Regenerants from Obnova 10, Pleven 6 and Vera cultivars were successfully transferred in green house conditions. Highly regenerable genotype—Obnova 10 was selected and R4 line with superior embryogenic potential was isolated. Low frequency of embryo formation without following conversion into plantlet...

Published

2002

11. Differential Effects of Combined N Sources on Early Steps of the Nod Factor-Dependent Transduction Pathway in Lotus japonicus

Author

Enrica D’Apuzzo, Alessandra Rogato, Selim Omrane, Ani Barbulova, and Maurizio Chiurazzi

Subjects

Lipopolysaccharides, Root nodule, Physiology, Nitrogen, Mutant, Lotus japonicus, Biology, Microbiology, Nod factor, chemistry.chemical_compound, Bacterial Proteins, Nitrogen Fixation, Ammonium, Secretion, Alphaproteobacteria, Nitrates, General Medicine, biology.organism_classification, Mesorhizobium loti, Quaternary Ammonium Compounds, Biochemistry, chemistry, Mutation, Nitrogen fixation, Lotus, Root Nodules, Plant, Agronomy and Crop Science, Signal Transduction

Abstract

The development of nitrogen-fixing nodules in legumes is induced by perception of lipochitin-oligosaccharide signals secreted by a bacterial symbiont. Nitrogen (N) starvation is a prerequisite for the formation, development, and function of root nodules, and high levels of combined N in the form of nitrate or ammonium can completely abolish nodule formation. We distinguished between nitrate and ammonium inhibitory effects by identifying when and where these combined N sources interfere with the Nod-factor-induced pathway. Furthermore, we present a small-scale analysis of the expression profile, under different N conditions, of recently identified genes involved in the Nod-factor-induced pathway. In the presence of high levels of nitrate or ammonium, the NIN gene fails to be induced 24 h after the addition of Nod factor compared with plants grown under N-free conditions. This induction is restored in the hypernodulating nitrate-tolerant har1-3 mutant only in the presence of 10 and 20 mM KNO3. These results were confirmed in Lotus plants inoculated with Mesorhizobium loti. NIN plays a key role in the nodule organogenesis program and its downregulation may represent a crucial event in the nitrate-dependent pathway leading to the inhibition of nodule organogenesis.

Published

2007

12. A procedure for in vitro nodulation studies

Author

Ani Barbulova and Maurizio Chiurazzi

Subjects

Biochemistry, biology, Symbiotic interaction, Mutant, Nitrogen fixation, Wild type, food and beverages, Rhizobium, biology.organism_classification, Gene, Phenotype, In vitro

Abstract

Standardised in vitro conditions yielding successful, synchronised, reproducible cycles of symbiotic nitrogen fixation are essential experimental tools for investigating the different stages of the Rhizobium-legume interaction. A standard in vitro procedure can facilitate analysis of the kinetics of phenotype at the molecular level occurring after Rhizobium infection. This is essential when comparing, for instance, the expression pattern of nodulin or marker genes or the phenotypes of wild type and mutant lines. We present here a feasible, reliable procedure for in vitro nodulation studies of L. japonicus. All the different steps of the symbiotic interaction have been analysed and different parameters of plant growth followed to demonstrate the reproducibility of the procedure.

Published

2006

13. Improved procedures for in vitro regeneration and for phenotypic analysis in the model legume Lotus japonicus

Author

Maurizio Chiurazzi, Enrica D’Apuzzo, Ani Barbulova, and Alessandra Rogato

Subjects

biology, Somatic embryogenesis, in vitro cultures, Lotus, Lotus japonicus, fungi, food and beverages, morphogenesis, Organogenesis, Plant Science, biology.organism_classification, Petiole (botany), symbiosis, Hypocotyl, Mesorhizobium loti, Botany, embryogenesis, Agronomy and Crop Science, Explant culture

Abstract

As a prerequisite for the development of an efficient gene transfer methodology, the possibility of inducing direct somatic embryogenesis in Lotus japonicus (Regel) K. Larsen explants was investigated. Petiole bases, cotyledons, hypocotyls and stem segments were cultivated in the presence of different amounts of benzylaminopurine (BAP) and / or thidiazuron (TDZ). Regeneration was achieved differentially in the different explants and a higher efficiency of shoot formation was obtained with TDZ. By maintaining the same TDZ regime a second cycle of morphogenesis was achieved and the histological analysis of these structures indicated unambiguously their somatic embryogenic nature. Thidiazuron was also tested as an agent to improve the kinetics of shoot formation in a Lotus japonicus transformation–regeneration procedure based on indirect organogenesis. A very significant, highly reproducible, increase in the rate of the shoot formation was observed in independent transformation experiments. We also present an extensive analysis of the feasibility and reproducibility of an in vitro procedure, which can be very useful for the screening of symbiotic phenotypes in transgenic Lotus plants and for the analysis of the cascade of molecular and cytological events occurring soon after Mesorhizobium loti infection.

Published

2005

14. “Characterisation of three functional high affinity ammonium transporters in Lotus japonicus with differential transcriptional regulation and spatial expression”

Author

Maria Dimou, Maurizio Chiurazzi, Ani Barbulova, Enrica D’Apuzzo, Ulrike Simon-Rosin, Panagiotis Katinakis, Hicham El Alaoui, Alessandra Rogato, Michael K. Udvardi, Marco Betti, Anne-Marie Marini, and Antonio J. Márquez

Subjects

Physiology, Nitrogen assimilation, Saccharomyces cerevisiae, Lotus japonicus, Plant Science, Biology, biology.organism_classification, Legumes, symbiosis, ammonium, chemistry.chemical_compound, chemistry, Biochemistry, Gene expression, transport, Genetics, Nitrogen fixation, Ammonium, Cellular localization, Ammonium transport

Abstract

Ammonium is a primary source of nitrogen for plants. In legume plants ammonium can also be obtained by symbiotic nitrogen fixation, and \batchmode \documentclass[fleqn,10pt,legalpaper]{article} \usepackage{amssymb} \usepackage{amsfonts} \usepackage{amsmath} \pagestyle{empty} \begin{document} \(\mathrm{NH}_{4}^{{+}}\) \end{document} is also a regulator of early and late symbiotic interaction steps. Ammonium transporters are likely to play important roles in the control of nodule formation as well as in nitrogen assimilation. Two new genes, LjAMT1;2 and LjAMT1;3, were cloned from Lotus japonicus. Both were able to complement the growth defect of a yeast (Saccharomyces cerevisiae) ammonium transport mutant. Measurement of [14C]methylammonium uptake rates and competition experiments revealed that each transporter had a high affinity for \batchmode \documentclass[fleqn,10pt,legalpaper]{article} \usepackage{amssymb} \usepackage{amsfonts} \usepackage{amsmath} \pagestyle{empty} \begin{document} \(\mathrm{NH}_{4}^{{+}}\) \end{document}. The K i for ammonium was 1.7, 3, and 15 μ m for LjAMT1;1, 1;2, and 1;3, respectively. Real-time PCR revealed higher expression of LjAMT1;1, 1;2, and 1;3 genes in leaves than in roots and nodule, with expression levels decreasing in the order LjAMT1;1 > 1;2 > 1;3 except in flowers, in which LjAMT1;3 was expressed at higher level than in leaves, and LjAMT1;1 showed the lowest level of expression. Expression of LjAMT1;1 and 1;2 in roots was induced by nitrogen deprivation. Expression of LjAMT1;1 was repressed in leaves exposed to elevated CO2 concentrations, which also suppress photorespiration. Tissue and cellular localization of LjAMT1 genes expression, using promoter-β-glucuronidase and in situ RNA hybridization approaches, revealed distinct cellular spatial localization in different organs, including nodules, suggesting differential roles in the nitrogen metabolism of these organs.

Published

2004