Sodium Imbalance in Mice Results Primarily in Compensatory Gene Regulatory Responses in Kidney and Colon, but Not in Taste Tissue.
Lossow, Kristina
Sodium Imbalance in Mice Results Primarily in Compensatory Gene Regulatory Responses in Kidney and Colon, but Not in Taste Tissue. [electronic resource] - Nutrients Apr 2020
Publication Type: Journal Article
2072-6643
10.3390/nu12040995 doi
Amiloride--pharmacology
Animals
Colon--metabolism
Epithelial Sodium Channel Blockers--pharmacology
Epithelial Sodium Channels--genetics
Gene Expression Regulation--drug effects
Kidney--metabolism
Mice
Sodium--metabolism
Sodium, Dietary--administration & dosage
Taste--physiology
Tongue--metabolism
Water-Electrolyte Balance--drug effects
Sodium Imbalance in Mice Results Primarily in Compensatory Gene Regulatory Responses in Kidney and Colon, but Not in Taste Tissue. [electronic resource] - Nutrients Apr 2020
Publication Type: Journal Article
2072-6643
10.3390/nu12040995 doi
Amiloride--pharmacology
Animals
Colon--metabolism
Epithelial Sodium Channel Blockers--pharmacology
Epithelial Sodium Channels--genetics
Gene Expression Regulation--drug effects
Kidney--metabolism
Mice
Sodium--metabolism
Sodium, Dietary--administration & dosage
Taste--physiology
Tongue--metabolism
Water-Electrolyte Balance--drug effects