Project description:In the present study, we applied two whole-genome sequencing techniques (WGBS/oxBS and hMe-Seal) to detect 5hmC (and 5mC) changes during the differentiation of the human SGBS preadipocyte cell line to mature adipocytes. As technical and biological validation we performed BS and oxBS followed by 450k array analysis. RNA-seq data was performed in parallel to study transcriptional changes associated with differential hydroxymethylation. In human white adipose tissue (WAT) hydroxymethylation (hME-Seal) was characterized in comparison with histone modifications and acNEIL1 binding (ACT-seq).
Project description:In the present study, we applied two whole-genome sequencing techniques (WGBS/oxBS and hMe-Seal) to detect 5hmC (and 5mC) changes during the differentiation of the human SGBS preadipocyte cell line to mature adipocytes. As technical and biological validation we performed BS and oxBS followed by 450k array analysis. RNA-seq data was performed in parallel to study transcriptional changes associated with differential hydroxymethylation. In human white adipose tissue (WAT) hydroxymethylation (hME-Seal) was characterized in comparison with histone modifications and acNEIL1 binding (ACT-seq).
Project description:In the present study, we applied two whole-genome sequencing techniques (WGBS/oxBS and hMe-Seal) to detect 5hmC (and 5mC) changes during the differentiation of the human SGBS preadipocyte cell line to mature adipocytes. As technical and biological validation we performed BS and oxBS followed by 450k array analysis. RNA-seq data was performed in parallel to study transcriptional changes associated with differential hydroxymethylation. In human white adipose tissue (WAT) hydroxymethylation (hME-Seal) was characterized in comparison with histone modifications and acNEIL1 binding (ACT-seq).
Project description:In the present study, we applied two whole-genome sequencing techniques (WGBS/oxBS and hMe-Seal) to detect 5hmC (and 5mC) changes during the differentiation of the human SGBS preadipocyte cell line to mature adipocytes. As technical and biological validation we performed BS and oxBS followed by 450k array analysis. RNA-seq data was performed in parallel to study transcriptional changes associated with differential hydroxymethylation. In human white adipose tissue (WAT) hydroxymethylation (hME-Seal) was characterized in comparison with histone modifications and acNEIL1 binding (ACT-seq).
Project description:In the present study, we applied two whole-genome sequencing techniques (WGBS/oxBS and hMe-Seal) to detect 5hmC (and 5mC) changes during the differentiation of the human SGBS preadipocyte cell line to mature adipocytes. As technical and biological validation we performed BS and oxBS followed by 450k array analysis. RNA-seq data was performed in parallel to study transcriptional changes associated with differential hydroxymethylation. In human white adipose tissue (WAT) hydroxymethylation (hME-Seal) was characterized in comparison with histone modifications and acNEIL1 binding (ACT-seq).
Project description:In the present study, we applied two whole-genome sequencing techniques (WGBS/oxBS and hMe-Seal) to detect 5hmC (and 5mC) changes during the differentiation of the human SGBS preadipocyte cell line to mature adipocytes. As technical and biological validation we performed BS and oxBS followed by 450k array analysis. RNA-seq data was performed in parallel to study transcriptional changes associated with differential hydroxymethylation. In human white adipose tissue (WAT) hydroxymethylation (hME-Seal) was characterized in comparison with histone modifications and acNEIL1 binding (ACT-seq).