BIANCO, CARMELINA
BIANCO, CARMELINA
Istituto di Bioscienze e Biorisorse
Cereals can trap endophytic bacteria with potential beneficial traits when grown ex-situ in harsh soils
2024 Amenta, M. L.; Vaccaro, F.; Varriale, S.; Sangare, J. R.; Defez, R.; Mengoni, A.; Bianco, C.
Exploitation of plant growth promoting bacteria for sustainable agriculture: hierchical approach to link laboratory and field experiments
2022 Massa, F; Defez, R; Bianco, C
Endophytes from african rice (Oryza glaberrima L.) efficiently colonize asian rice (Oryza sativa L.) stimulating the activity of its antioxidant enzymes and increasing the content of nitrogen, carbon, and chlorophyll
2021 Bianco, C; Andreozzi, A; Romano, S; Fagorzi, C; Cangioli, L; Prieto, P; Cisse, F; Niangado, O; Sidibe, A; Pianezze, S; Perini, M; Mengoni, A; Defez, R
Bacterial IAA-delivery into Medicago root nodules triggers a balanced stimulation of C and N metabolism leading to biomass increase.
2019 Defez, R; Andreozzi, A; Romano, S; Pocsfalvi, G; Fiume, I; Esposito, R; Angelini, C; Bianco, C
New Insights into Structural and Functional Roles of Indole-3-acetic acid (IAA): Changes in DNA Topology and Gene Expression in Bacteria
2019 Defez, R; Valenti, A; Andreozzi, A; Romano, S; Ciaramella, M; Pesaresi, P; Forlani, S; Bianco, C
Improved drought stress response in alfalfa plants nodulated by an IAA over-producing Rhizobium Strain
2017 Defez, R; Andreozzi, A; Dickinson, M; Charlton, A; Tadini, L; Pesaresi, P; Bianco, C
The Overproduction of Indole-3-Acetic Acid (IAA) in Endophytes Upregulates Nitrogen Fixation in Both Bacterial Cultures and Inoculated Rice Plants
2017 Defez, R; Andreozzi, A; Bianco, C
Overproduction of indole-3-acetic acid in free-living rhizobia induces transcriptional changes resembling those occurring in nodule bacteroids.
2016 Defez, Roberto; Esposito, Roberta; Angelini, Claudia; Bianco, Carmelina
Modulation of Endogenous Indol-3-Acetic Acid Biosynthesis in Bacteroids within Medicago sativa Nodules
2014 Bianco, C; Senatore, B; Arbucci, S; Pieraccini, G; Defez, R
Sinorhizobium meliloti bacteroids: whole-genome resequencing.
2014 Bianco C.; Esposito R.; Angelini C.; Rubino S.;Defez R
Auxins upregulate nif and fix genes
2010 Bianco, C; Defez, R
How to improve legume production under severe environmental stresses
2010 Bianco, C; Rotino, G L; Campion, B; Anas, I; Defez, R
How to improve legume production under severe environmental stresses
2010 Bianco, C; Rotino, Gl; Campion, B; Anas, I; Defez, R
Improvement of phosphate solubilization and Medicago plant yield by an indole-3-acetic acid-overproducing strain of Sinorhizobium meliloti
2010 Bianco, C; Defez, R
Effects of indole-3-acetic acid on Sinorhizobium meliloti survival and on symbiotic nitrogen fixation and stem dry weight production
2009 Imperlini, E; Bianco, C; Lonardo, E; Camerini, S; Cermola, M; Moschetti, G; Rdefez,
Legumes like more IAA.
2009 Bianco, C; Imperlini, E; Defez, R
Medicago truncatula improves salt tolerance when nodulated by an indole-3-acetic acid over-producing Sinorhizobium meliloti strain
2009 Bianco, C; Defez, R
Introduction of a novel pathway for IAA biosynthesis to rhizobia alters vetch root nodule development
2008 Camerini, S; Senatore, B; Lonardo, E; Imperlini, E; Bianco, C; Moschetti, G; Rotino, Gl; Campion, B; Defez, R
Introduction of a novel pathway for IAA biosynthesis to rhizobia alters vetch root nodule development
2008 Camerini, S.; Senatore, B.; Lonardo, E.; Imperlini, E.; Bianco, C.; Moschetti, G.; Rotino, G. L.; Campion, B.; Defez, R.
Indole-3-acetic acid (IAA) and its relation to stress-tolerance
2007 Bianco C.; Imperlini E.; Defez R.