Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:Epigenetics may help understanding the molecular mechanisms of atherosclerosis as genetic predisposition explains only part of cardiovascular disease risk. In particular, DNA methylation, a reversible and highly regulative DNA modification could contribute to disease onset and progression as it functions as effector for environmental impacts, including dietary and life-style, similarly to risk factors for cardiovascular diseases. We addressed this issue by performing whole-genome shotgun bisulfite sequencing and high-resolution DNAmethylation array analysis of healthy and diseased donor-matched atherosclerotic DNA methylomes.

Project description:Epigenetics may help understanding the molecular mechanisms of atherosclerosis as genetic predisposition explains only part of cardiovascular disease risk. In particular, DNA methylation, a reversible and highly regulative DNA modification could contribute to disease onset and progression as it functions as effector for environmental impacts, including dietary and life-style, similarly to risk factors for cardiovascular diseases. We addressed this issue by performing whole-genome shotgun bisulfite sequencing and high-resolution DNAmethylation array analysis of healthy and diseased donor-matched atherosclerotic DNA methylomes.

Project description:Epigenetics may help understanding the molecular mechanisms of atherosclerosis as genetic predisposition explains only part of cardiovascular disease risk. In particular, DNA methylation, a reversible and highly regulative DNA modification could contribute to disease onset and progression as it functions as effector for environmental impacts, including dietary and life-style, similarly to risk factors for cardiovascular diseases. We addressed this issue by performing whole-genome shotgun bisulfite sequencing and high-resolution DNAmethylation array analysis of healthy and diseased donor-matched atherosclerotic DNA methylomes. Sequencing of bisulfite converted DNA and array based analysis of atherosclerotic lesions and normal carotid tissue.

Project description:Epigenetics may help understanding the molecular mechanisms of atherosclerosis as genetic predisposition explains only part of cardiovascular disease risk. In particular, DNA methylation, a reversible and highly regulative DNA modification could contribute to disease onset and progression as it functions as effector for environmental impacts, including dietary and life-style, similarly to risk factors for cardiovascular diseases. We addressed this issue by performing whole-genome shotgun bisulfite sequencing and high-resolution DNAmethylation array analysis of healthy and diseased donor-matched atherosclerotic DNA methylomes. Sequencing of bisulfite converted DNA and array based analysis of atherosclerotic lesions and normal carotid tissue.

Project description:Genome-wide DNA methylation aberrations in human atherosclerosis

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:This SuperSeries is composed of the SubSeries listed below.