We conducted a genome-wide scan, in which 358 well distributed fluorescent dye-labeled microsatellite marker sets were applied in 32 Chinese Han type 2 diabetes families from Northern China to search for the susceptib...We conducted a genome-wide scan, in which 358 well distributed fluorescent dye-labeled microsatellite marker sets were applied in 32 Chinese Han type 2 diabetes families from Northern China to search for the susceptibility gene loci. The data collected from screening all the chromosomes of genome were genotyped by using genescan and genotyping software, then, parametric and non-parametric multipoint test, and affected sib-pair analysis as well, were used to analyze the data. We identified some susceptibility gene loci residing in chromosomes 1,12,18,20, respectively, or precisely, located around D1S214, D1S207, D1S218, D1S235, D12S336, D18S61 and D20S118. The comparison of this result with those from other regions and races reflected the complexity and heterogeneity of type 2 diabetes.展开更多
Reactive oxygen species arise(ROS)in the mitochondria as byproducts of respiration and oxidase activity and have important roles in many physiological and pathophysiological conditions.The current literature indicate ...Reactive oxygen species arise(ROS)in the mitochondria as byproducts of respiration and oxidase activity and have important roles in many physiological and pathophysiological conditions.The current literature indicate that excessive levels of ROS can cause oxidative stress and that lots of evidences link ROS and oxidative stress to the pathogenesis of type 2 diabetes mellitus(T2DM)and development of complications.Several studies have shown elevated extraand intracellular glucose concentrations result in oxidative stress both in animal models of diabetes and in diabetic patients[1].And ROS can contribute to the development and progression of diabetes and related complications by directly damaging DNA,proteins,and lipids or indirectly activating a number of cellular stress-sensitive pathways to induce damage to tissues such as isletβcells[2].展开更多
文摘We conducted a genome-wide scan, in which 358 well distributed fluorescent dye-labeled microsatellite marker sets were applied in 32 Chinese Han type 2 diabetes families from Northern China to search for the susceptibility gene loci. The data collected from screening all the chromosomes of genome were genotyped by using genescan and genotyping software, then, parametric and non-parametric multipoint test, and affected sib-pair analysis as well, were used to analyze the data. We identified some susceptibility gene loci residing in chromosomes 1,12,18,20, respectively, or precisely, located around D1S214, D1S207, D1S218, D1S235, D12S336, D18S61 and D20S118. The comparison of this result with those from other regions and races reflected the complexity and heterogeneity of type 2 diabetes.
文摘Reactive oxygen species arise(ROS)in the mitochondria as byproducts of respiration and oxidase activity and have important roles in many physiological and pathophysiological conditions.The current literature indicate that excessive levels of ROS can cause oxidative stress and that lots of evidences link ROS and oxidative stress to the pathogenesis of type 2 diabetes mellitus(T2DM)and development of complications.Several studies have shown elevated extraand intracellular glucose concentrations result in oxidative stress both in animal models of diabetes and in diabetic patients[1].And ROS can contribute to the development and progression of diabetes and related complications by directly damaging DNA,proteins,and lipids or indirectly activating a number of cellular stress-sensitive pathways to induce damage to tissues such as isletβcells[2].
