<i>EZH2</i> mutations increase the heterogeneity of chromatin states in lymphoma
by Daniel Holoch, Raphaël Margueron A recent study in PLoS Biology used simultaneous measurements of histone modifications in single cells to reveal that EZH2 gain-of-function mutations profoundly reprogram chromatin states in B-cell lymphoma, while also increasing their cell–cell heterogeneity. This Primer discusses a recent study using simultaneous measurements of histone modifications in single cells to reveal that EZH2 gain-of-function mutations profoundly reprogram chromatin states in B-cell lymphoma, while also increasing their cell-cell heterogeneity.
by Daniel Holoch, Raphaël Margueron A recent study in PLoS Biology used simultaneous measurements of histone modifications in single cells to reveal that EZH2 gain-of-function mutations profoundly reprogram chromatin states in B-cell lymphoma, while also increasing their cell–cell heterogeneity. This Primer discusses a recent study using simultaneous measurements of histone modifications in single cells to reveal that EZH2 gain-of-function mutations profoundly reprogram chromatin states in B-cell lymphoma, while also increasing their cell-cell heterogeneity.
