BACKGROUND: The LDL receptor is a cell-surface protein that regulates plasma cholesterol by specific uptake of LDL particles from the blood circulation. Familial hypercholesterolemia (FH) results from defective catabolism of LDL, which is caused by mutations in the LDL-receptor gene. METHODS: For the rapid and reliable detection of large rearrangements in the LDL-receptor gene, we established a screening method based on long-distance PCR as an alternative to Southern-blot hybridization. Using long-distance PCR, 45 unrelated Korean subjects heterozygous for FH were screened to assess the frequency and nature of major structural rearrangements in the LDL-receptor gene. RESULTS: Two different deletion mutations, FH6 (same type as FH3 and FH311) and FH 32, were detected in four families by long-distance PCR. Detailed restriction mapping and sequence analysis showed that FH6 was a 5.71-kb deletion extending from intron 8 to intron 12 and that FH32 was a 2-kb deletion extending from intron 6 to intron 7. Sequence analysis for the breakpoints of all deletions detected in Korean FH patients showed that only the left arms of the Alu repetitive sequences were involved in the deletion event. CONCLUSIONS: The screening method based on long-distance PCR provides a powerful strategy for the detection of large rearrangements in the LDL-receptor gene and is a rapid and reliable screening alternative to Southern-blot hybridization.
BACKGROUND: The LDL receptor is a cell-surface protein that regulates plasma cholesterol by specific uptake of LDL particles from the blood circulation. Familial hypercholesterolemia (FH) results from defective catabolism of LDL, which is caused by mutations in the LDL-receptor gene. METHODS: For the rapid and reliable detection of large rearrangements in the LDL-receptor gene, we established a screening method based on long-distance PCR as an alternative to Southern-blot hybridization. Using long-distance PCR, 45 unrelated Korean subjects heterozygous for FH were screened to assess the frequency and nature of major structural rearrangements in the LDL-receptor gene. RESULTS: Two different deletion mutations, FH6 (same type as FH3 and FH311) and FH 32, were detected in four families by long-distance PCR. Detailed restriction mapping and sequence analysis showed that FH6 was a 5.71-kb deletion extending from intron 8 to intron 12 and that FH32 was a 2-kb deletion extending from intron 6 to intron 7. Sequence analysis for the breakpoints of all deletions detected in Korean FHpatients showed that only the left arms of the Alu repetitive sequences were involved in the deletion event. CONCLUSIONS: The screening method based on long-distance PCR provides a powerful strategy for the detection of large rearrangements in the LDL-receptor gene and is a rapid and reliable screening alternative to Southern-blot hybridization.
Authors: Menno C van Zelm; Corinne Geertsema; Nicole Nieuwenhuis; Dick de Ridder; Mary Ellen Conley; Claudine Schiff; Ilhan Tezcan; Ewa Bernatowska; Nico G Hartwig; Elisabeth A M Sanders; Jiri Litzman; Irina Kondratenko; Jacques J M van Dongen; Mirjam van der Burg Journal: Am J Hum Genet Date: 2008-02 Impact factor: 11.025
Authors: Peter H Nissen; Dorte Damgaard; Anette Stenderup; Gitte G Nielsen; Mogens L Larsen; Ole Faergeman Journal: BMC Med Genet Date: 2006-06-26 Impact factor: 2.103
Authors: Dorte Damgaard; Peter H Nissen; Lillian G Jensen; Gitte G Nielsen; Anette Stenderup; Mogens L Larsen; Ole Faergeman Journal: BMC Med Genet Date: 2005-04-20 Impact factor: 2.103