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Genetic variation around the collagen IV gene locus and proliferative retinopathy in type 2 diabetes mellitus
No full textThe development of proliferative retinopathy in type 2 diabetes mellitus may be under genetic control. A well-documented pathological change in the fundal capillaries of patients with diabetic retinopathy is basement membrane thickening, with an increased amount of collagen IV protein. Variation at the collagen 1a IV gene therefore may explain familial susceptibility to this complication. It has been previously reported that genetic variation at the collagen 1a locus, as shown by allelic association with a HindIII restriction site, predisposes to diabetic nephropathy where basement membrane thickening is also prevalent. In order to test the hypothesis that the collagen 1a IV gene locus is important in the development of diabetic retinopathy, a population association study was performed comparing allele frequencies of the HindIII RFLP in diabetic patients with retinopathy and controls. No statistically significant differences were found between allele frequencies or genotypes in the two groups. The future use of similar studies in diabetic retinopathy is discussed
Genetic variation around the collagen IV gene locus and proliferative retinopathy in type 2 diabetes mellitus
No full textThe development of proliferative retinopathy in type 2 diabetes mellitus may be under genetic control. A well-documented pathological change in the fundal capillaries of patients with diabetic retinopathy is basement membrane thickening, with an increased amount of collagen IV protein. Variation at the collagen 1a IV gene therefore may explain familial susceptibility to this complication. It has been previously reported that genetic variation at the collagen 1a locus, as shown by allelic association with a HindIII restriction site, predisposes to diabetic nephropathy where basement membrane thickening is also prevalent. In order to test the hypothesis that the collagen 1a IV gene locus is important in the development of diabetic retinopathy, a population association study was performed comparing allele frequencies of the HindIII RFLP in diabetic patients with retinopathy and controls. No statistically significant differences were found between allele frequencies or genotypes in the two groups. The future use of similar studies in diabetic retinopathy is discussed
Association of genetic variant of the Glucose Transporter with non-insulin-dependent diabetes mellitus
No full textA DNA sequence polymorphism, revealed by digestion of genomic DNA with the endonuclease Xba1 and hybridisation with a complementary DNA clone for a human glucose transporter, yields two alleles (sizes 6.2 kbp, the X1 allele; or 5.9 kbp, the X2 allele). The genotype frequencies were investigated in three non-insulin-dependent diabetic populations. The frequencies (%) of X1.X1, X1.X2, and X2.X2 were 13, 51, and 36 among 89 North European diabetic subjects, and 8, 38, 54 among their 104 controls (chi 2 test p less than 0.02; G-test p less than 0.02). For 53 South European diabetic patients the frequencies were 19, 50, 31, and for their 41 controls they were 2, 58, 40 (chi 2 test p less than 0.02; G-test p less than 0.01). The corresponding figures were 6, 55, 39 for 45 Japanese patients and 0, 28, 72 for a further 49 controls (chi 2 test p less than 0.01; G-test p less than 0.001). The occurrence of the association of the X1 allele with diabetes in three separate populations suggests that the polymorphic site may be close to a diabetogenic locus on chromosome 1
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