Project description:The mammalian CCCTC-binding factor (CTCF) regulates gene expression through the formation of higher order chromatin structures. Recent evidence has implicated a role for CTCF in regulating gene expression in the human MHCII locus. To investigate the role of CTCF in murine MHCII gene expression we mapped CTCF binding sites in B cells (MHCII+ cells) and Plasmablasts which are differentiated B cells that have silenced MHCII gene expression. These observations lead to the identification of differential CTCF binding during differentiation in these cell types and suggest mechanims of MHCII gene regulation. Comparison of CTCF binding in B cells and Plasmablasts in mice using ChIP-seq
Project description:We explored the relationship between the evolutionary dynamics of CTCF binding and the functional stability of higher order genome structures, by performing ChIP-seq experiments in closely related Mus species or strains and intersecting with Hi-C-derived topologically associating domains (TADs) and expression data. Experiments were performed in adult male liver samples, using input control sets.
Project description:The mammalian CCCTC-binding factor (CTCF) regulates gene expression through the formation of higher order chromatin structures. Recent evidence has implicated a role for CTCF in regulating gene expression in the human MHCII locus. To investigate the role of CTCF in murine MHCII gene expression we mapped CTCF binding sites in B cells (MHCII+ cells) and Plasmablasts which are differentiated B cells that have silenced MHCII gene expression. These observations lead to the identification of differential CTCF binding during differentiation in these cell types and suggest mechanims of MHCII gene regulation.
