The mutation F227I increases the coupling of metal ion transport in DCT1

Biochemistry, Genetics and Molecular Biology

• Ion Transport 100%
• Site-Directed Mutagenesis 50%
• Mitochondrion 50%
• Protein Family 50%
• Stoichiometry 50%
• Macrophage 50%
• Electrophysiology 50%
• Xenopus 50%
• Proton Transport 50%

Keyphrases

• Proton 100%
• Metal Ion Transport 100%
• Metal Ions 62%
• Slippage 25%
• Site-directed mutagenesis 12%
• Mitochondria 12%
• Protein Family 12%
• Stoichiometry 12%
• Positive Charge 12%
• Null mutant 12%
• Positively Charged 12%
• Electrophysiology 12%
• Xenopus Oocytes 12%
• Transport Mechanism 12%
• Export Function 12%
• Natural Resistance-associated Macrophage Protein 1 (NRAMP1) 12%
• Transport Conditions 12%
• Proton Transport 12%
• Optimal Transport 12%
• Single Metal 12%

Medicine and Dentistry

• Metal Ion 100%
• Natural Resistance Associated Macrophage Protein 2 100%
• Ion Transport 100%
• Oocyte 14%
• Mitochondrion 14%
• Electrophysiology 14%
• Proton Transport 14%
• Natural Resistance Associated Macrophage Protein 14%
• Site-Directed Mutagenesis 14%
• Protein Family 14%