Matteo Ballottari

foto Ballottari,  October 27, 2017
Position
Full Professor
Academic sector
BIOS-02/A - Plant Physiology
Research sector (ERC-2024)
LS9_2 - Applied genetics, gene editing and transgenic organisms

LS9_4 - Microbial biotechnology and bioengineering

LS1_9 - Molecular mechanisms of signalling processes

Research sector (ERC)
LS9_6 - Forestry and biomass production (including biofuels)

LS9_4 - Plant sciences (including crop production, plant breeding, agroecology, soil biology)

Office
Ca' Vignal 1,  Floor 1,  Room 1.70c
Telephone
045 802 7823
E-mail
matteo|ballottari*univr|it <== Replace | with . and * with @ to have the right email address.
Personal web page
https://www.solelab.org/

Office Hours

Wednesday, Hours 10:00 AM, ,  

Curriculum

Prof. Matteo Ballottari research activities are focused on the bio-exploitation of solar energy for the production of food, fuels and high value products. Different metabolic processes at the base of solar energy utilization are subject of investigation mostly in microalgae but also in plants, focusing on how biomass and metabolites accumulation can be improved through an interdisciplinary approach from plant physiology to biochemistry, biophysics, genetics and bioinformatics. Microalgae are organisms of interest due to their application as alternative and innovative system for solar light utilization, which are not in competition with traditional agriculture.  Research works are extended to genomic and transcriptomic approaches to target  biotechnological intervention. Research activities are substained by several national (PRIN) and european (ERC-Starting Grant SOLENALGAE) grants, and joint projects with national and international companies involved in different industry sectors. Matteo Ballottari is a member of SIBV (Società Italiana di Biologia Vegetale), ISPR (International Society of Photosynthesis Research) and was selected as a member of the Young Academy of Europe

Modules

Modules running in the period selected: 47.
Click on the module to see the timetable and course details.

Course Name Total credits Online Teacher credits Modules offered by this teacher
Bachelor's degree in Biotechnology Biomasses and bio-products (2024/2025)   6    (Laboratorio)
(Teoria)
Bachelor's degree in Biotechnology Cell Biology (2024/2025)   12  eLearning BIOLOGIA GENERALE E CELLULARE: II [3° turno] (laboratorio)
Master's degree in Biotechnology for bioresources and sustainable development Metabolic engineering for the production of high value products (2024/2025)   6  eLearning (TEORIA)
(ESERCITAZIONI)
PhD in Molecular, Industrial and Environmental Biotechnologies Metabolic engineering to increase biomass/biomolecules productivity: from fundamental science to industrial applications (2024/2025)   3  eLearning
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2023/2024)   6  eLearning (teoria)
(laboratorio)
Master's degree in Biotechnology for bioresources and sustainable development Metabolic engineering for the production of high value products (2023/2024)   6  eLearning (TEORIA)
(ESERCITAZIONI)
Bachelor's degree in Bioinformatics Molecular biology laboratory (2023/2024)   6  eLearning [II turno] (Laboratorio)
PhD in Biotechnology How to measure photosynthetic traits in plants (2023/2024)   1   
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2022/2023)   6  eLearning (laboratorio)
(teoria)
Master's degree in Biotechnology for bioresources and sustainable development Metabolic engineering for the production of high value products (2022/2023)   6  eLearning (TEORIA)
(ESERCITAZIONI)
Bachelor's degree in Bioinformatics Molecular biology laboratory (2022/2023)   6  eLearning [II turno] (Laboratorio)
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2021/2022)   6  eLearning (teoria)
(laboratorio)
Master's degree in Biotechnology for bioresources and sustainable development Metabolic engineering for the production of high value products (2021/2022)   6  eLearning
Bachelor's degree in Bioinformatics Molecular biology laboratory (2021/2022)   6  eLearning [II turno] (Laboratorio)
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2020/2021)   6  eLearning (teoria)
(laboratorio)
Master's degree in Biotechnology for bioresources and sustainable development Metabolic engineering for the production of high value products (2020/2021)   6  eLearning
Bachelor's degree in Bioinformatics Molecular biology laboratory (2020/2021)   6  eLearning [II turno] (Laboratorio)
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2019/2020)   6  eLearning (laboratorio)
(teoria)
Master's degree in Biotechnology for bioresources and sustainable development Metabolic engineering for the production of high value products (2019/2020)   6  eLearning
Bachelor's degree in Bioinformatics Molecular biology laboratory (2019/2020)   6  eLearning [II turno] (Laboratorio)
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2018/2019)   6  eLearning (teoria)
(laboratorio)
Bachelor's degree in Bioinformatics Molecular biology laboratory (2018/2019)   6  eLearning [II turno] (Laboratorio)
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2017/2018)   6  eLearning (teoria)
(laboratorio)
Master's degree in Science and Technology of Bio and Nanomaterials (interuniversity) Principles of Biochemistry (2017/2018)   6   
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2016/2017)   6  eLearning (laboratorio)
(teoria)
Master's degree in Science and Technology of Bio and Nanomaterials (interuniversity) Principles of Biochemistry (2016/2017)   6   
Bachelor's degree in Biotechnology Bio-exploitation of solar energy (2015/2016)   6    (laboratorio)
(teoria)
Master's degree in Science and Technology of Bio and Nanomaterials (interuniversity) Principles of Biochemistry (2015/2016)   6   
Master's degree in Science and Technology of Bio and Nanomaterials (interuniversity) Principles of Biochemistry (2014/2015)   6   
Master's degree in Science and Technology of Bio and Nanomaterials (interuniversity) Principles of Biochemistry (2013/2014)   6   
Bachelor's degree in Biotechnology Cell Biology [Cognomi A-E] (2010/2011)   12    BIOLOGIA GENERALE E CELLULARE: I
BIOLOGIA GENERALE E CELLULARE: II (Laboratorio)
BIOLOGIA GENERALE E CELLULARE: II (Teoria)
Bachelor's degree in Bioinformatics (until 2008-2009) General Biology (2008/2009)   5   

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Research interests
Topic Description Research area
Genomic and transcriptomic analyzes of unicellular algae Genomic and transcriptomic analyzes of unicellular algae Structural , functional and expression proteomics
Bioinformatics
Genomic and transcriptomic analyzes of unicellular algae Genomic and transcriptomic analyzes of unicellular algae Bioinformatica e Biologia Computazionale
Bioinformatics
Plant Physiology Molecular physiology of abiotic stress response in photosynthetic organisms, plant and unicellular algae Biotecnologie vegetali
Plant Sciences
Genetic engineering for the production of high value products Genetic engineering applied to photosynthetic organisms (unicellular algae and higher plants) for the production of high added value molecules such as pigments, antioxidants, omega-3 and biofuels Biotecnologie vegetali
Plant Sciences
Protein chemistry and Enzymology Comprensione delle relazioni struttura, dinamica e funzione di proteine, e dei meccanismi di funzionamento degli enzimi Structural , functional and expression proteomics
Biochemistry & Molecular Biology
Recupero di bio-molecole e nutrienti da rifiuti Studio di processi di natura biologica, chimica, fisica, e loro combinazioni per la produzione di molecole organiche di interesse industriale (acidi grassi volatili, poli-idrossi-alcanoati) ed il recupero di nutrienti in forma concentrata Biotecnologie ambientali: bioenergie, bioraffinerie e biorisanamento
Chemical
Biophysics and spectroscopy Analysis of the processes of absorption and use of in vitro and in vivo light energy using advanced spectroscopy techniques including transient absorption and time-resolved fluorescence Spectroscopic and spectrometric techniques
Projects
Title Starting date
AlgaeStimulant 1/1/23
ASTEASIER - Novel and sustainable biotechnological approaches for astaxanthin and ketocarotenoids production 1/1/23
Produzione di fertilizzanti e biostimolanti algali da digestati zootecnici per un sistema agricolo con ridotto impatto ambientale 12/1/22
Implementazione di un sistema innovativo vertical farming per l'agricoltura 4.0 12/1/20
Investigation of cyanobacteria in Lessinia caves: capturing the light in near-dark environments 12/1/20
Valorizzazione di scarti della filiera agro-alimentare per la produzione di novel food e per il miglioramento delle rese produttive in sistemi agricoli tradizionali ed innovativi 9/30/20
ASTEASY - Innovative and efficient production in microalgae of easily extractible and highly pure Astaxanthin for added-value products 3/1/20
Development of an innovative indoor system for the production of astaxanthin 10/15/19
Sviluppo di un sistema agridolo innovativo tramite vertical farming basato su intelligenza artificiale e recupero di prodotti di scarto 10/15/18
IMPLEMENTATION OF A SUSTAINABLE AND COMPETITIVE SYSTEM TO SIMULTANEOUSLY PRODUCE ASTAXANTHIN AND OMEGA-3 FATTY ACIDS IN MICROALGAE FOR ACQUACULTURE AND HUMAN NUTRITION 9/1/18
Miglioramento genetico di ceppi di microalghe per la produzione di biocarburanti e prodotti ad elevato valore aggiunto 12/18/17
OCARALGAE: Industrial production of Omega3 and carotenoids by microalgae cultivation 4/1/17
Industrial production of Omega3 and carotenoids by microalgae cultivation 3/1/17
SOLENALGAE 3/1/16
PRIN 2012 Miglioramento della produzione di biocombustibili e molecole ad elevato valore aggiunto in alghe unicellulari 10/8/13
Engineering volatile thiol release for improved wine aroma: Directed evolution of yeast cystathionine ß-lyase 1/1/13
L’EVOLUZIONE DEI MECCANISMI DI RACCOLTA DELLA LUCE E FOTOPROTEZIONE NEGLI ORGANISMI FOTOSINTETICI EUCARIOTICI, E POSSIBILI APPLICAZIONI PER LA PRODUZIONE DI BIOENERGIE 7/1/11
Towards a better sunlight to biomass conversion efficiency in microalgae (SUNBIOPATH) 1/1/10
Control of light use efficiency in plants and algae-from light to harvest (HARVEST) 10/1/09
Laboratorio nazionale di genomica e postgenomica degli organismi di interesse agrario 9/12/09
La costruzione del pianeta Terra: evoluzione dei sistemi di raccolta dell’energia solare nelle piante prima e durante la colonizzazione delle terre emerse. 2/27/09
OTTIMIZZAZIONE DELLA PRODUZIONE BIOLOGIA DI IDROGENO DA CHLAMYDOMONAS REINHARDTII (HYDROBIO) 1/1/09
Analisi strutturale e funzionale dell'apparato fotosintetico di genotipi di mais in condizioni di stress 2/9/07
Regolazione del turnover delle proteine in cloroplasti e cromoplasti. (2007) 1/1/07
Nuovi sistemi di produzione e gestione dell’energia 7/28/05
Meccanismi molecolari della fotosintesi 11/5/02
Costituzione di una rete di ricerca su 'Genomica e funzioni geniche della risposta delle piante a stress ambientali' (PlantTSTRESS) 11/5/02




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