Produzione scientifica
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Efficient production of saffron crocins and picrocrocin in Nicotiana benthamiana using a virus-driven system,
, Metabolic Engineering, Volume 61, p.238-250, (2020)
UGT709G1: a novel uridine diphosphate glycosyltransferase involved in the biosynthesis of picrocrocin, the precursor of safranal in saffron (Crocus sativus),
, New Phytologist, Volume 224, Number 2, p.725-740, (2019)
Agrobacterium-mediated and electroporation-mediated transformation of Chlamydomonas reinhardtii: A comparative study,
, BMC Biotechnology, Volume 18, Number 1, p.1–12, (2018)
Candidate enzymes for saffron crocin biosynthesis are localized in multiple cellular compartments,
, Plant Physiology, Volume 177, Number 3, p.990-1006, (2018)
Evaluation of the potential exposure of butterflies to genetically modified maize pollen in protected areas in Italy,
, Insect Science, Jan-08-2018, Volume 25, Issue 4, Number 4, p.549 - 561, (2018)
N-glycan engineering of a plant-produced anti-CD20-hIL-2 immunocytokine significantly enhances its effector functions,
, Biotechnology and Bioengineering, Mar-11-2019, Volume 115, Number 3, p.565-576, (2017)
An accessory protease inhibitor to increase the yield and quality of a tumour-targeting mAb in nicotiana benthamiana leaves,
, PLoS ONE, Volume 11, Number 11, (2016)
Production of an active anti-CD20-hIL-2 immunocytokine in Nicotiana benthamiana,
, Plant Biotechnology Journal, Volume 14, Number 1, p.240-251, (2016)
Antibody proteolysis: a common picture emerging from plants.,
, Bioengineered, 2015 Jul 17, Volume 6, Number 5, p.1-4, (2015)
Comparison of drought stress response and gene expression between a GM maize variety and a near-isogenic non-GM variety,
, PLoS ONE, Volume 10, Number 2, (2015)
Tomato R2R3-MYB proteins SlANT1 and SlAN2: Same protein activity, different roles,
, PLoS ONE, Volume 10, Number 8, (2015)
The chimeric repressor version of an Ethylene Response Factor (ERF) family member, Sl-ERF.B3, shows contrasting effects on tomato fruit ripening.,
, The New phytologist, 2014 Jul, Volume 203, Number 1, p.206-18, (2014)
Tomato yellow leaf curl Sardinia virus-resistant tomato plants expressing the multifunctional N-terminal domain of the replication-associated protein show transcriptional changes resembling stress-related responses,
, Molecular Plant Pathology, 2014, Volume 15, p.31 - 43, (2014)
A plant derived multifunctional tool for nanobiotechnology based on Tomato bushy stunt virus,
, Transgenic Research, 2013, Volume 22, p.519 - 535, (2013)
Production of different glycosylation variants of the tumour-targeting mAb H10 in Nicotiana benthamiana: Influence on expression yield and antibody degradation,
, Transgenic Research, Volume 21, Number 5, p.1005-1021, (2012)
The use of plants for the production of therapeutic human peptides,
, Plant Cell Reports, 2012, Volume 31, p.439 - 451, (2012)
Human papillomavirus vaccines in plants,
, Expert Review of Vaccines, Volume 9, Number 8, p.913-924, (2010)
Optimisation of the purification process of a tumour-targeting antibody produced in N. benthamiana using vacuum-agroinfiltration,
, Transgenic Research, Volume 19, Number 6, p.1083-1097, (2010)
Plant-derived vaccines and other therapeutics produced in contained systems,
, Expert Review of Vaccines, Volume 9, Number 8, p.877-892, (2010)
Proteomic analysis of the plant-virus interaction in cucumber mosaic virus (CMV) resistant transgenic tomato,
, Journal of Proteome Research, Volume 9, Number 11, p.5684-5697, (2010)
Transcriptional-metabolic networks in β-carotene-enriched potato tubers: The long and winding road to the golden phenotype,
, Plant Physiology, Volume 154, Number 2, p.899-912, (2010)
Transient expression systems for plant-derived biopharmaceuticals,
, Expert Review of Vaccines, Volume 9, Number 8, p.859-876, (2010)
Leaf proteome analysis of transgenic plants expressing antiviral antibodies,
, Journal of Proteome Research, Volume 8, Number 2, p.838-848, (2009)
Plant pharming of a full-sized, tumour-targeting antibody using different expression strategies,
, Plant Biotechnology Journal, Volume 7, Number 1, p.59-72, (2009)
Plant-based strategies aimed at expressing HIV antigens and neutralizing antibodies at high levels. Nef as a case study,
, Transgenic Research, 2009, Volume 18, p.499 - 512, (2009)