2,3 Butanedione Monoxime Affects CFTR Channel Function Through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms. The role of bilayer material properties

Pablo Artigas; Subhi J. Al'Aref; E. Ashley Hobart; Lain F. Diaz; Masayuki Sakaguchi; Samuel Straw; Olaf S. Andersen

doi:10.1124/mol.106.026070

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2,3 Butanedione Monoxime Affects CFTR Channel Function Through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms. The role of bilayer material properties

Pablo Artigas, Subhi J. Al'Aref, E. Ashley Hobart, Lain F. Diaz, Masayuki Sakaguchi, Samuel Straw and Olaf S. Andersen

Molecular Pharmacology October 19, 2006, DOI: https://doi.org/10.1124/mol.106.026070

Pablo Artigas

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Subhi J. Al'Aref

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E. Ashley Hobart

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Lain F. Diaz

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Masayuki Sakaguchi

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Samuel Straw

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Olaf S. Andersen

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Molecular Pharmacology

Vol. 106, Issue 6

1 Dec 2024

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2,3 Butanedione Monoxime Affects CFTR Channel Function Through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms. The role of bilayer material properties

Pablo Artigas, Subhi J. Al'Aref, E. Ashley Hobart, Lain F. Diaz, Masayuki Sakaguchi, Samuel Straw and Olaf S. Andersen

Molecular Pharmacology October 19, 2006, DOI: https://doi.org/10.1124/mol.106.026070

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2,3 Butanedione Monoxime Affects CFTR Channel Function Through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms. The role of bilayer material properties

Pablo Artigas, Subhi J. Al'Aref, E. Ashley Hobart, Lain F. Diaz, Masayuki Sakaguchi, Samuel Straw and Olaf S. Andersen

Molecular Pharmacology October 19, 2006, DOI: https://doi.org/10.1124/mol.106.026070

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2,3 Butanedione Monoxime Affects CFTR Channel Function Through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms. The role of bilayer material properties

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2,3 Butanedione Monoxime Affects CFTR Channel Function Through Phosphorylation-Dependent and Phosphorylation-Independent Mechanisms. The role of bilayer material properties

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