PURPOSE: To characterize novel mutations in the HEXA gene (alpha-subunit beta-hexosaminidase A). METHODS: Subjects included participants in the California Tay-Sachs disease prevention program. DNA samples from 49 subjects (47 enzymatically defined carriers and 2 disease afflicted) who were negative for the four common disease-associated and the two pseudodeficient mutations, were subjected to single-strand conformation polymorphism (SSCP) analysis over 14 exons. RESULTS: Targeted sequencing of the 39 electrophoretic variants from SSCP analysis revealed eight novel and deleterious mutations and 31 with previously described mutations. Six novel mutations were found in non-Jewish carriers, and two were found in two patients with infantile Tay-Sachs disease. CONCLUSION: Identification of these eight novel mutations provides additional insight to the mutational spectrum for the HEXA gene. Furthermore, this knowledge should enhance diagnosis and prognosis for Tay-Sachs disease, carrier identification, and fundamental studies in structure/function relationships between this gene and its enzymatic product.
PURPOSE: To characterize novel mutations in the HEXA gene (alpha-subunit beta-hexosaminidase A). METHODS: Subjects included participants in the California Tay-Sachs disease prevention program. DNA samples from 49 subjects (47 enzymatically defined carriers and 2 disease afflicted) who were negative for the four common disease-associated and the two pseudodeficient mutations, were subjected to single-strand conformation polymorphism (SSCP) analysis over 14 exons. RESULTS: Targeted sequencing of the 39 electrophoretic variants from SSCP analysis revealed eight novel and deleterious mutations and 31 with previously described mutations. Six novel mutations were found in non-Jewish carriers, and two were found in two patients with infantile Tay-Sachs disease. CONCLUSION: Identification of these eight novel mutations provides additional insight to the mutational spectrum for the HEXA gene. Furthermore, this knowledge should enhance diagnosis and prognosis for Tay-Sachs disease, carrier identification, and fundamental studies in structure/function relationships between this gene and its enzymatic product.
Authors: Muhammad Imran Naseer; Angham Abdulrahman Abdulkareem; Mohammed Mohammed Jan; Adeel G Chaudhary; Mohammad H Al-Qahtani Journal: Pak J Med Sci Date: 2020 Sep-Oct Impact factor: 1.088