Research ArticleArticle
Fe2+ Block and Permeation in CaV3.1 (α1G) T-type Calcium Channels. A Candidate Mechanism for Non-Tranferrin-mediated Fe2+ Influx
Kyle V. Lopin, I. Patrick Gray, Carlos A. Obejero-Paz, Frank Thevenod and Stephen W. Jones
Molecular Pharmacology September 12, 2012, mol.112.080184; DOI: https://doi.org/10.1124/mol.112.080184
Kyle V. Lopin
1 Case Western Reserve University;
I. Patrick Gray
1 Case Western Reserve University;
Carlos A. Obejero-Paz
2 ChanTest;
Frank Thevenod
3 Universitat Witten/Herdecke
Stephen W. Jones
1 Case Western Reserve University;
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Molecular Pharmacology
Vol. 105, Issue 4
1 Apr 2024
Research ArticleArticle
Fe2+ Block and Permeation in CaV3.1 (α1G) T-type Calcium Channels. A Candidate Mechanism for Non-Tranferrin-mediated Fe2+ Influx
Kyle V. Lopin, I. Patrick Gray, Carlos A. Obejero-Paz, Frank Thevenod and Stephen W. Jones
Molecular Pharmacology September 12, 2012, mol.112.080184; DOI: https://doi.org/10.1124/mol.112.080184
Research ArticleArticle
Fe2+ Block and Permeation in CaV3.1 (α1G) T-type Calcium Channels. A Candidate Mechanism for Non-Tranferrin-mediated Fe2+ Influx
Kyle V. Lopin, I. Patrick Gray, Carlos A. Obejero-Paz, Frank Thevenod and Stephen W. Jones
Molecular Pharmacology September 12, 2012, mol.112.080184; DOI: https://doi.org/10.1124/mol.112.080184
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