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ea0015p156 | Diabetes, metabolism and cardiovascular | SFEBES2008

Familial juvenile hyperuricaemic nephropathy is due to mutations in Tamm-Horsfall protein and hepatocyte nuclear factor 1β: further evidence for genetic heterogeneity

Williams Sian , Reed Anita , Reilly Jennifer , Karet Fiona , Lhotta Karl , Strehlau Juergen , Turner Neil , Thakker Rajesh

Familial Juvenile Hyperuricaemic Nephropathy (FJHN) is an autosomal dominant disorder that is associated with gout and progressive renal failure. FJHN in 43 families has been reported to be caused by mutations in the UMOD gene, which encodes Uromodulin, also known as the Tamm-Horsfall Glycoprotein, and two families have been reported to have mutations in the transcription factor Hepatocyte Nuclear Factor 1β (HNF-1β), mutations of which usually cause maturity-o...

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ea0059oc1.4 | Translational highlights | SFEBES2018

Whole genome sequence analysis establishes correct diagnosis for a syndromic form of hyperuricaemia

Stevenson Mark , Pagnamenta Alistair T , Reichart Silvia , Mennel Stefan , Philpott Charlotte , Lines Kate E , Gorvin Caroline M , Lhotta Karl , Taylor Jenny C , Thakker Rajesh V

Whole genome sequencing (WGS) has the potential to identify nearly all forms of genetic variation. In complex disorders with multiple manifestations WGS can establish a definitive diagnosis that may change clinical management (Stavropoulos et al. 2016 Genomic Med). Here, we report on the utility of WGS in establishing the correct diagnosis in a family with hyperuricaemia. Hyperuricaemia may occur as: part of a syndromic disorder (e.g. Lowe syndrome, renal col...

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Endocrine Abstracts

Familial juvenile hyperuricaemic nephropathy is due to mutations in Tamm-Horsfall protein and hepatocyte nuclear factor 1β: further evidence for genetic heterogeneity

Whole genome sequence analysis establishes correct diagnosis for a syndromic form of hyperuricaemia

BiosciAbstracts