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Volumn 586, Issue 5, 2008, Pages 1205-1206
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The role of SLC26A6-mediated chloride/oxalate exchange in causing susceptibility to nephrolithiasis
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Author keywords
[No Author keywords available]
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Indexed keywords
ANTIPORTER;
CHLORIDE;
ISOPROTEIN;
OXALIC ACID;
SLC26A6 PROTEIN;
UNCLASSIFIED DRUG;
ANION TRANSPORT PROTEIN;
BICARBONATE CHLORIDE ANTIPORTER;
CHLORIDE ION;
COMPLEMENTARY DNA;
METHIONINE;
PROTEIN SLC26A6;
RNA;
VALINE;
ANION TRANSPORT;
CHLORIDE OXALATE EXCHANGE;
DISEASE PREDISPOSITION;
HUMAN;
NEPHROLITHIASIS;
NONHUMAN;
NOTE;
PRIORITY JOURNAL;
PROTEIN EXPRESSION;
PROTEIN FUNCTION;
SMALL INTESTINE ABSORPTION;
STONE FORMATION;
ARTICLE;
BINDING AFFINITY;
CHLORIDE TRANSPORT;
GENETIC POLYMORPHISM;
GENETIC VARIABILITY;
ILEUM;
KIDNEY PROXIMAL TUBULE;
PROTEIN SECRETION;
SMALL INTESTINE;
ANIMALS;
ANTIPORTERS;
CHLORIDES;
GENETIC PREDISPOSITION TO DISEASE;
HUMANS;
MEMBRANE TRANSPORT PROTEINS;
MICE;
NEPHROLITHIASIS;
OXALATES;
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EID: 40049086374
PISSN: 00223751
EISSN: 14697793
Source Type: Journal
DOI: 10.1113/jphysiol.2007.150565 Document Type: Note |
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Times cited : (13)
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References (13)
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