Deletion of renal Nedd4-2 abolishes the effect of high sodium intake (HS) on Kir4.1, ENaC, and NCC and causes hypokalemia during high HS

Keyphrases

• Hypokalemia 100%
• Kir4.1 100%
• K-Cl Cotransporter 100%
• High Salt Intake 100%
• Epithelial Sodium Channel (ENaC) 100%
• Neural Precursor Cell Expressed 100%
• KO Mice 21%
• Flox 21%
• Aldosterone-sensitive Distal Nephron 21%
• Renal K+ Excretion 21%
• Kir5.1 14%
• Gene-deficient Mice 14%
• Inhibitory Effect 14%
• Distal Convoluted Tubule 14%
• Renal Clearance 14%
• Low-salt Diet 14%
• Kidney 7%
• Ca2+ 7%
• Hydrochlorothiazide 7%
• Immunoblot Analysis 7%
• Natriuresis 7%
• K Channels 7%
• Cortical Collecting Duct 7%
• Basal Level 7%
• Thiazides 7%
• Downregulated Genes 7%
• Patch Clamp 7%
• Floxed 7%
• Channel Subunits 7%
• Salt-sensitive Hypertension 7%
• High-salt Diet 7%
• Large Conductance 7%
• Plasma Na+ 7%

Medicine and Dentistry

• Hypokalemia 100%
• Cotransporter 100%
• Sodium Channel 100%
• High Sodium Intake 100%
• Neural Precursor Cells 100%
• Potassium Ion 28%
• Aldosterone 21%
• Norfloxacin 21%
• Nephron 21%
• Knockout Mouse 21%
• Sodium Restriction 14%
• Renal Clearance 14%
• Calcium Ion 7%
• Sodium Ion 7%
• Potassium Channel 7%
• Patch Clamp 7%
• Collecting Duct 7%
• Thiazide Diuretic Agent 7%
• Natriuresis 7%
• Immunoblotting 7%
• Hydrochlorothiazide 7%
• High Salt Diet 7%
• Alpha Chain 7%

Biochemistry, Genetics and Molecular Biology

• Precursor 100%
• Hypokalemia 100%
• Cotransporter 100%
• Sodium Channel 100%
• Knockout Mouse 21%
• Aldosterone 21%
• Renal Clearance 14%
• Blood Plasma 14%
• Potassium Channel 7%
• Natriuresis 7%
• Conductance 7%
• Patch Clamp 7%
• Alpha Chain 7%
• Hydrochlorothiazide 7%
• Immunoblotting 7%