
doi: 10.1007/bf02201856
pmid: 9228726
An examination of the urinary excretions of 101 normal subjects indicated that the major genetic influence on calcium excretion is a codominant pair of alleles giving rise to three phenotypes, low, intermediate and high (hypercalciuric) excretors. This inference was based on variance, Hardy-Weinberg and segregation analyses. Similar independent gene pairs also appear to influence oxalate and citrate excretion, A 3-locus Hardy-Weinberg table using estimates of gene frequencies derived from the study of normals suggests that only 3 or 4 leading genes are involved in oxalate stone disease. Strong candidate genes identified from molecular and physiological studies cannot be proposed at present, but it is assumed that they influence the transport of these ions in either the intestine, kidney or both organs. The identification of the genes involved should be facilitated by the reduction of dietary influences on urinary excretions through the use of formula diets.
Male, Calcium Oxalate, Models, Genetic, Chromosome Mapping, Humans, Female, Urinary Calculi, Pedigree
Male, Calcium Oxalate, Models, Genetic, Chromosome Mapping, Humans, Female, Urinary Calculi, Pedigree
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