LORELLA NAVAZIO
Title: Professore ordinario
SSD: BIO/01 - General Botanics
Address: VIA U. BASSI, 58/B - PADOVA
Phone: 0498276295
E-mail: lorella.navazio@unipd.it
Curriculum
LORELLA NAVAZIO Date and place of birth: 03/04/1969; Padova, Italy. Current position: Associate Professor in Botany, Department of Biology (DeBio), University of Padova (UNIPD). Education 1997: Ph.D. in Evolutionary Biology, UNIPD 1992: M.Sc. in Biology, summa cum laude, UNIPD Positions held and research experience 2017: National Scientific Qualification as Full Professor in Botany 2017-present: Coordinator of the Biotechnology and Differentiation Work Group of the Italian Botanical Society 2015-present: Deputy Director (“Vice Prefetto”) of the Botanical Garden of Padova 2014-present: Associate Professor in Botany, DeBio UNIPD 2012: National Scientific Qualification as Associate Professor in Botany and in Plant Physiology 2000-2014: Academic Researcher/Assistant Professor in Botany, DeBio, UNIPD 2000: Academic visitor (2 months), Glycobiology Institute, Dept. Biochemistry, University of Oxford (UK) 1999-2000: Post-doctoral research fellowship, Plant Cell Biology laboratory, DeBio, UNIPD 1998-1999: European Molecular Biology Organization (EMBO) long-term fellowship (1 year), Plant Laboratory, Dept. Biology, University of York (UK) [supervisor: Prof. D. Sanders] 1997: National University Consortium for Plant Molecular Biology contract, DeBio, UNIPD 1996: European Commission short-term fellowship (3 months) (Project of Technological Priority, PTP), Institut für Genetik, Technische Universität Braunschweig (Germany) [supervisor: Prof. W. Martin] 1995: EMBO short-term fellowship (3 months), Bijvoet Center for Biomolecular Research, Dept. Bio-Organic Chemistry, Utrecht University (The Netherlands) [supervisor: Prof. J.F.G. Vliegenthart] 1994-1996: Research activity as PhD student, Plant Cell Biology laboratory, DeBio, UNIPD [supervisor: Prof. P. Mariani] 1993: Italian Association for Cancer Research (AIRC) fellowship (1 year), Mutagenesis laboratory, DeBio, UNIPD [supervisor: Prof. A.G. Levis] 1991-1992: Research activity as undergraduate student, Mutagenesis laboratory, DeBio, UNIPD [supervisor: Prof. A.G. Levis] Research interest: plant cell biology with specific focus on plant calcium homeostasis and signalling. Author of 36 papers published in peer-reviewed journals with impact factor, and of 4 book chapters. First author in 13 papers, last author in 8 papers. h-index: 18. Total citations: 928 (Web of Science). Reviewer for international journals (18), invited speaker at international conferences and foreign Universities (15). Participation and contribution to 42 international and 25 national conferences.
Curriculum in PDF: English CV
Research area
The main research activity of my laboratory is focused on the involvement of calcium as signalling element in a wide variety of physiological processes in the plant signalling network. In particular, we are interested in the analysis of the signalling mechanisms underlying two of the most important beneficial plant-microbe interactions – the nitrogen-fixing symbiosis and the arbuscular mycorrhizal (AM) symbiosis. We are trying to dissect the symbiotic signalling pathways activated in the microbial partners by plant-derived molecules (i.e. flavonoids and strigolactones). Bacteria and fungi involved in these symbioses provide plants with essential mineral nutrients, increasing crop yields and favoring a sustainable agriculture, through a drastic reduction of the need for chemical fertilizers. The results obtained so far have highlighted how transient intracellular Ca2+ changes are used as a common “chemical language” spoken by all symbiotic partners. A detailed analysis of the molecular determinants of plant-microbe symbioses may improve, via modulation of these communication circuits, the ability of microorganisms to interact with plants and/or the ability of plants to take advantage of these interactions. Insights into basic processes underpinning communication between plants and beneficial microbes are essential to develop future strategies to improve plant nutrition and stress resistance, in order to meet an ever increasing demand on a sustainable and secure food production. Another line of investigation concerns the monitoring of Ca2+ dynamics in plastids, unique organelles of the plant cell. Chloroplast calcium signalling is a recent field of investigation of up-to-date importance, in view of the role attributed to calcium in the regulation of photosynthesis. In this context, our research aims to unravel the precise mechanisms of Ca2+ handling by chloroplasts as well as non-green plastids, also by using genetic tools represented by mutant plants defective in putative organellar Ca2+-permeable channels. A toolkit of aequorin chimeras targeted to the chloroplast stroma, the envelope, the thylakoid membrane and thylakoid lumen is now available. Arabidopsis thaliana lines stably expressing these differentially targeted bioluminescent Ca2+ indicators are used in Ca2+ measurement assays in response to different environmental cues. The research work carried out so far has shown that chloroplasts may generate specific intra-organellar Ca2+ signals and contribute to the fine-tuning of cytosolic calcium signalling in response to both abiotic and biotic stimuli.