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1.

The TMEM16A channel as a potential therapeutic target in vascular disease.

Al-Hosni, Rumaitha; Kaye, Rachel; Choi, Catherine Seoyoun; Tammaro, Paolo.

Curr Opin Nephrol Hypertens ; 33(2): 161-169, 2024 Mar 01.

Artículo en Inglés | MEDLINE | ID: mdl-38193301

2.

An outer-pore gate modulates the pharmacology of the TMEM16A channel.

Dinsdale, Ria L; Pipatpolkai, Tanadet; Agostinelli, Emilio; Russell, Angela J; Stansfeld, Phillip J; Tammaro, Paolo.

Proc Natl Acad Sci U S A ; 118(34)2021 08 24.

Artículo en Inglés | MEDLINE | ID: mdl-34413188

3.

Polymodal Control of TMEM16x Channels and Scramblases.

Agostinelli, Emilio; Tammaro, Paolo.

Int J Mol Sci ; 23(3)2022 Jan 29.

Artículo en Inglés | MEDLINE | ID: mdl-35163502

4.

Long-term dual antiplatelet therapy and nuisance bleeding: impact on quality of life.

Ratti, Gennaro; Monda, Cinzia; Ratti, Federica; Golino, Marco; Fulgione, Ludovica; Fulgione, Cosimo; Mallardo, Mario; Tammaro, Paolo.

Monaldi Arch Chest Dis ; 93(4)2022 Nov 18.

Artículo en Inglés | MEDLINE | ID: mdl-36412132

5.

Ion channels as convergence points in the pathology of pulmonary arterial hypertension.

Jouen-Tachoire, Thibault R H; Tucker, Stephen J; Tammaro, Paolo.

Biochem Soc Trans ; 49(4): 1855-1865, 2021 08 27.

Artículo en Inglés | MEDLINE | ID: mdl-34346486

6.

Long term dual antiplatelet therapy after myocardial infarction: retrospective analysis in an outpatient population.

Ratti, Gennaro; Maglione, Antonio; Biglietto, Emilia; Monda, Cinzia; Elettrico, Ciro; Ratti, Federica; Fulgione, Cosimo; Mallardo, Mario; Tammaro, Paolo.

Monaldi Arch Chest Dis ; 92(1)2021 Sep 16.

Artículo en Inglés | MEDLINE | ID: mdl-34526727

7.

Disease-causing mutations associated with four bestrophinopathies exhibit disparate effects on the localization, but not the oligomerization, of Bestrophin-1.

Johnson, Adiv A; Lee, Yong-Suk; Chadburn, Andrew J; Tammaro, Paolo; Manson, Forbes D; Marmorstein, Lihua Y; Marmorstein, Alan D.

Exp Eye Res ; 121: 74-85, 2014 Apr.

Artículo en Inglés | MEDLINE | ID: mdl-24560797

8.

Identification of determinants of lipid and ion transport in TMEM16/anoctamin proteins through a Bayesian statistical analysis.

Moran, Oscar; Tammaro, Paolo.

Biophys Chem ; 308: 107194, 2024 May.

Artículo en Inglés | MEDLINE | ID: mdl-38401241

9.

[Optimizing the care management pathway of patients with ischemia and non-obstructive coronary arteries]. / Ottimizzazione del percorso clinico-gestionale del paziente con ischemia in assenza di malattia coronarica ostruttiva.

Oliva, Fabrizio; Boriani, Giuseppe; Calabrò, Paolo; Caldarola, Pasquale; Carugo, Stefano; Castiglioni, Battistina; Celentani, Dario; Comeglio, Marco; De Luca, Leonardo; De Maria, Renata; Di Muro, Michele; Ignone, Gianfranco; Leonardo, Filippo; Margonato, Alberto; Massari, Francesco; Murrone, Adriano; Nardi, Federico; Patti, Giuseppe; Perna, Gianpiero; Pinna, Paolo; Poli, Marco; Prati, Francesco; Raddino, Riccardo; Pierdomenico, Sante Donato; Tammaro, Paolo; Porto, Italo.

G Ital Cardiol (Rome) ; 25(5): 309-317, 2024 May.

Artículo en Italiano | MEDLINE | ID: mdl-38639121

10.

Putative pore-loops of TMEM16/anoctamin channels affect channel density in cell membranes.

Adomaviciene, Aiste; Smith, Keith J; Garnett, Hannah; Tammaro, Paolo.

J Physiol ; 591(14): 3487-505, 2013 Jul 15.

Artículo en Inglés | MEDLINE | ID: mdl-23613533

11.

The TMEM16A anion channel as a versatile regulator of vascular tone.

Tammaro, Paolo.

Sci Signal ; 16(811): eadk5661, 2023 11 14.

Artículo en Inglés | MEDLINE | ID: mdl-37963193

12.

The pharmacology of the TMEM16A channel: therapeutic opportunities.

Al-Hosni, Rumaitha; Ilkan, Zeki; Agostinelli, Emilio; Tammaro, Paolo.

Trends Pharmacol Sci ; 43(9): 712-725, 2022 09.

Artículo en Inglés | MEDLINE | ID: mdl-35811176

13.

The Ca2+-gated channel TMEM16A amplifies capillary pericyte contraction and reduces cerebral blood flow after ischemia.

Korte, Nils; Ilkan, Zeki; Pearson, Claire L; Pfeiffer, Thomas; Singhal, Prabhav; Rock, Jason R; Sethi, Huma; Gill, Dipender; Attwell, David; Tammaro, Paolo.

J Clin Invest ; 132(9)2022 05 02.

Artículo en Inglés | MEDLINE | ID: mdl-35316222

14.

TMEM16A/anoctamin 1 protein mediates calcium-activated chloride currents in pulmonary arterial smooth muscle cells.

Manoury, Boris; Tamuleviciute, Aiste; Tammaro, Paolo.

J Physiol ; 588(Pt 13): 2305-14, 2010 Jul 01.

Artículo en Inglés | MEDLINE | ID: mdl-20421283

15.

Journal club. A physiologist notes the similarities between animal and plant electricity.

Tammaro, Paolo.

Nature ; 458(7234): 11, 2009 Mar 05.

Artículo en Inglés | MEDLINE | ID: mdl-19262629

16.

A cytosolic factor that inhibits KATP channels expressed in Xenopus oocytes by impairing Mg-nucleotide activation by SUR1.

Tammaro, Paolo; Ashcroft, Frances M.

J Physiol ; 587(Pt 8): 1649-56, 2009 Apr 15.

Artículo en Inglés | MEDLINE | ID: mdl-19237428

17.

The structural basis of lipid scrambling and inactivation in the endoplasmic reticulum scramblase TMEM16K.

Bushell, Simon R; Pike, Ashley C W; Falzone, Maria E; Rorsman, Nils J G; Ta, Chau M; Corey, Robin A; Newport, Thomas D; Christianson, John C; Scofano, Lara F; Shintre, Chitra A; Tessitore, Annamaria; Chu, Amy; Wang, Qinrui; Shrestha, Leela; Mukhopadhyay, Shubhashish M M; Love, James D; Burgess-Brown, Nicola A; Sitsapesan, Rebecca; Stansfeld, Phillip J; Huiskonen, Juha T; Tammaro, Paolo; Accardi, Alessio; Carpenter, Elisabeth P.

Nat Commun ; 10(1): 3956, 2019 09 02.

Artículo en Inglés | MEDLINE | ID: mdl-31477691

18.

Xenopus oocytes as a heterologous expression system for studying ion channels with the patch-clamp technique.

Tammaro, Paolo; Shimomura, Kenju; Proks, Peter.

Methods Mol Biol ; 491: 127-39, 2008.

Artículo en Inglés | MEDLINE | ID: mdl-18998089

19.

Defining the ionic mechanisms of optogenetic control of vascular tone by channelrhodopsin-2.

Rorsman, Nils J G; Ta, Chau M; Garnett, Hannah; Swietach, Pawel; Tammaro, Paolo.

Br J Pharmacol ; 175(11): 2028-2045, 2018 06.

Artículo en Inglés | MEDLINE | ID: mdl-29486056

20.

Neonatal diabetes.

Tammaro, Paolo.

Endocr Dev ; 11: 70-82, 2007.

Artículo en Inglés | MEDLINE | ID: mdl-17986828

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The TMEM16A channel as a potential therapeutic target in vascular disease.

An outer-pore gate modulates the pharmacology of the TMEM16A channel.

Polymodal Control of TMEM16x Channels and Scramblases.

Long-term dual antiplatelet therapy and nuisance bleeding: impact on quality of life.

Ion channels as convergence points in the pathology of pulmonary arterial hypertension.

Long term dual antiplatelet therapy after myocardial infarction: retrospective analysis in an outpatient population.

Disease-causing mutations associated with four bestrophinopathies exhibit disparate effects on the localization, but not the oligomerization, of Bestrophin-1.

Identification of determinants of lipid and ion transport in TMEM16/anoctamin proteins through a Bayesian statistical analysis.

[Optimizing the care management pathway of patients with ischemia and non-obstructive coronary arteries]. / Ottimizzazione del percorso clinico-gestionale del paziente con ischemia in assenza di malattia coronarica ostruttiva.

Putative pore-loops of TMEM16/anoctamin channels affect channel density in cell membranes.

The TMEM16A anion channel as a versatile regulator of vascular tone.

The pharmacology of the TMEM16A channel: therapeutic opportunities.

The Ca2+-gated channel TMEM16A amplifies capillary pericyte contraction and reduces cerebral blood flow after ischemia.

TMEM16A/anoctamin 1 protein mediates calcium-activated chloride currents in pulmonary arterial smooth muscle cells.

Journal club. A physiologist notes the similarities between animal and plant electricity.

A cytosolic factor that inhibits KATP channels expressed in Xenopus oocytes by impairing Mg-nucleotide activation by SUR1.

The structural basis of lipid scrambling and inactivation in the endoplasmic reticulum scramblase TMEM16K.

Xenopus oocytes as a heterologous expression system for studying ion channels with the patch-clamp technique.

Defining the ionic mechanisms of optogenetic control of vascular tone by channelrhodopsin-2.

Neonatal diabetes.