GRADOGNA, ANTONELLA
GRADOGNA, ANTONELLA
Istituto di Biofisica - IBF
Functional characterisation of electron currents in plant vacuoles: direct recordings of cytochrome b561A activity
2023 Carpaneto Armando; Gradogna Antonella; Lagostena Laura; Beltrami Sara; Tosato Edoardo; Picco Cristiana; ScholzStarke Joachim; Sparla Francesca; Trost Paolo
The Discovery of Naringenin as Endolysosomal Two-Pore Channel Inhibitor and Its Emerging Role in SARS-CoV-2 Infection
2021 D'Amore A.; Gradogna A.; Palombi F.; Minicozzi V.; Ceccarelli M.; Carpaneto A.; Filippini A.
Beyond the patch-clamp resolution:functional activity of non-electrogenic vacuolar NHX proton/potassium antiporters and inhibition by phosphoinositides
2020 Gradogna, Antonella; Scholzstarke, Joachim; M Pardo, José; Carpaneto, Armando
The mechanism and energetics of a ligand-controlled hydrophobic gate in a mammalian two pore channel
2020 Milenkovic S.; Bodrenko I.V.; Lagostena L.; Gradogna A.; Serra G.; Bosin A.; Carpaneto A.; Ceccarelli M.
TMEM16E/ANO5 mutations related to bone dysplasia or muscular dystrophy cause opposite effects on lipid scrambling
2020 Di Zanni Eleonora; Gradogna Antonella; Picco Cristiana; ScholzStarke Joachim;Boccaccio Anna
Lifting the veils on TMEM16E function
2019 Boccaccio, A; Di Zanni, E; Gradogna, A; Scholzstarke, J
Gain of function of TMEM16E/ANO5 scrambling activity caused by a mutation associated with gnathodiaphyseal dysplasia
2018 Di Zanni E; Gradogna A; ScholzStarke J; Boccaccio A
Modulation of calcium and potassium permeation in plant TPC channels
2018 Carpaneto A; Gradogna A
Understanding the Molecular Basis of Salt Sequestration in Epidermal Bladder Cells of Chenopodium quinoa
2018 Böhm J; Messerer M; Müller HM; ScholzStarke J; Gradogna A; Scherzer S; Maierhofer T; Bazihizina N; Zhang H; Stigloher C; Ache P; AlRasheid KAS; Mayer KFX; Shabala S; Carpaneto A; Haberer G; Zhu JK; Hedrich R
Cisplatin activates volume sensitive LRRC8 channel mediated currents in Xenopus oocytes
2017 Gradogna A.; GaitanPenas H.; Boccaccio A.; Estevez R.; Pusch M.
Subunit-dependent oxidative stress sensitivity of LRRC8 volume-regulated anion channels
2017 Gradogna, A; Gavazzo, P; Boccaccio, A; Pusch, M
Investigation of LRRC8-Mediated Volume-Regulated Anion Currents in Xenopus Oocytes
2016 GaitánPeñas H; Gradogna A; LaparraCuervo L; Solsona C; FernándezDueñas V; BarralloGimeno A; Ciruela F; Lakadamyali M; Pusch M; Estévez R
Kidney CLC-Kchloride channels inhibitors: structure-based studies and efficacy in hypertension and associated CLC-K polymorphisms
2016 Liantonio A; Imbrici P; Camerino GM; Fracchiolla G; Carbonara G; Giannico D; Gradogna A; Mangiatordi GF; Nicolotti O; Tricarico D; Pusch M; Conte Camerino D
Regulatory-auxiliary subunits of CLC chloride channel-transport proteins
2015 Barrallogimeno, A; Gradogna, A; Zanardi, I; Pusch, M; Estevez, R
I-J loop involvement in the pharmacological profile of CLC-K channels expressed in Xenopus oocytes
2014 Gradogna, Antonella; Imbrici, Paola; Zifarelli, Giovanni; Liantonio, Antpnella; Camerino Diana, Conte; Pusch, Michael
Targeting kidney CLC-K channels: Pharmacological profile in a human cell line versus Xenopus oocytes
2014 Imbrici P.; Liantonio A.; Gradogna A.; Pusch M.; Camerino D.C.
Alkaline pH block of CLC-K kidney chloride channels mediated by a pore lysine residue
2013 Gradogna, A; Pusch, M
Dissecting a regulatory calcium-binding site of CLC-K kidney chloride channels
2012 Gradogna A; FenollarFerrer C; Forrest LR, Pusch M
A regulatory calcium-binding site at the subunit interface of CLC-K kidney chloride channels
2010 Gradogna A; Babini E; Picollo A; Pusch M
Identification of sites responsible for the potentiating effect of niflumic acid on ClC-Ka kidney chloride channels.
2010 Zifarelli, G; Liantonio, A; Gradogna, A; Picollo, A; Gramegna, G; De Bellis, M; Murgia, Ar; Babini, E; Camerino, Dc; Pusch, M
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
Functional characterisation of electron currents in plant vacuoles: direct recordings of cytochrome b561A activity | 1-gen-2023 | Carpaneto Armando; Gradogna Antonella; Lagostena Laura; Beltrami Sara; Tosato Edoardo; Picco Cristiana; ScholzStarke Joachim; Sparla Francesca; Trost Paolo | |
The Discovery of Naringenin as Endolysosomal Two-Pore Channel Inhibitor and Its Emerging Role in SARS-CoV-2 Infection | 1-gen-2021 | D'Amore A.; Gradogna A.; Palombi F.; Minicozzi V.; Ceccarelli M.; Carpaneto A.; Filippini A. | |
Beyond the patch-clamp resolution:functional activity of non-electrogenic vacuolar NHX proton/potassium antiporters and inhibition by phosphoinositides | 1-gen-2020 | Gradogna, Antonella; Scholzstarke, Joachim; M Pardo, José; Carpaneto, Armando | |
The mechanism and energetics of a ligand-controlled hydrophobic gate in a mammalian two pore channel | 1-gen-2020 | Milenkovic S.; Bodrenko I.V.; Lagostena L.; Gradogna A.; Serra G.; Bosin A.; Carpaneto A.; Ceccarelli M. | |
TMEM16E/ANO5 mutations related to bone dysplasia or muscular dystrophy cause opposite effects on lipid scrambling | 1-gen-2020 | Di Zanni Eleonora; Gradogna Antonella; Picco Cristiana; ScholzStarke Joachim;Boccaccio Anna | |
Lifting the veils on TMEM16E function | 1-gen-2019 | Boccaccio, A; Di Zanni, E; Gradogna, A; Scholzstarke, J | |
Gain of function of TMEM16E/ANO5 scrambling activity caused by a mutation associated with gnathodiaphyseal dysplasia | 1-gen-2018 | Di Zanni E; Gradogna A; ScholzStarke J; Boccaccio A | |
Modulation of calcium and potassium permeation in plant TPC channels | 1-gen-2018 | Carpaneto A; Gradogna A | |
Understanding the Molecular Basis of Salt Sequestration in Epidermal Bladder Cells of Chenopodium quinoa | 1-gen-2018 | Böhm J; Messerer M; Müller HM; ScholzStarke J; Gradogna A; Scherzer S; Maierhofer T; Bazihizina N; Zhang H; Stigloher C; Ache P; AlRasheid KAS; Mayer KFX; Shabala S; Carpaneto A; Haberer G; Zhu JK; Hedrich R | |
Cisplatin activates volume sensitive LRRC8 channel mediated currents in Xenopus oocytes | 1-gen-2017 | Gradogna A.; GaitanPenas H.; Boccaccio A.; Estevez R.; Pusch M. | |
Subunit-dependent oxidative stress sensitivity of LRRC8 volume-regulated anion channels | 1-gen-2017 | Gradogna, A; Gavazzo, P; Boccaccio, A; Pusch, M | |
Investigation of LRRC8-Mediated Volume-Regulated Anion Currents in Xenopus Oocytes | 1-gen-2016 | GaitánPeñas H; Gradogna A; LaparraCuervo L; Solsona C; FernándezDueñas V; BarralloGimeno A; Ciruela F; Lakadamyali M; Pusch M; Estévez R | |
Kidney CLC-Kchloride channels inhibitors: structure-based studies and efficacy in hypertension and associated CLC-K polymorphisms | 1-gen-2016 | Liantonio A; Imbrici P; Camerino GM; Fracchiolla G; Carbonara G; Giannico D; Gradogna A; Mangiatordi GF; Nicolotti O; Tricarico D; Pusch M; Conte Camerino D | |
Regulatory-auxiliary subunits of CLC chloride channel-transport proteins | 1-gen-2015 | Barrallogimeno, A; Gradogna, A; Zanardi, I; Pusch, M; Estevez, R | |
I-J loop involvement in the pharmacological profile of CLC-K channels expressed in Xenopus oocytes | 1-gen-2014 | Gradogna, Antonella; Imbrici, Paola; Zifarelli, Giovanni; Liantonio, Antpnella; Camerino Diana, Conte; Pusch, Michael | |
Targeting kidney CLC-K channels: Pharmacological profile in a human cell line versus Xenopus oocytes | 1-gen-2014 | Imbrici P.; Liantonio A.; Gradogna A.; Pusch M.; Camerino D.C. | |
Alkaline pH block of CLC-K kidney chloride channels mediated by a pore lysine residue | 1-gen-2013 | Gradogna, A; Pusch, M | |
Dissecting a regulatory calcium-binding site of CLC-K kidney chloride channels | 1-gen-2012 | Gradogna A; FenollarFerrer C; Forrest LR, Pusch M | |
A regulatory calcium-binding site at the subunit interface of CLC-K kidney chloride channels | 1-gen-2010 | Gradogna A; Babini E; Picollo A; Pusch M | |
Identification of sites responsible for the potentiating effect of niflumic acid on ClC-Ka kidney chloride channels. | 1-gen-2010 | Zifarelli, G; Liantonio, A; Gradogna, A; Picollo, A; Gramegna, G; De Bellis, M; Murgia, Ar; Babini, E; Camerino, Dc; Pusch, M |