Project description:We have utilized advanced RNAi technology to dynamically restore endogenous PU.1 expression and perform PU.1 ChIP-seq in p53-deficient shPU.1 AML cells in vivo. This causes rapid cell cycle shutdown and myeloid differentiation. PU.1 restoration results in regression and clearance and prolongs survival.

Project description:We have utilized advanced RNAi technology to dynamically restore endogenous PU.1 expression in p53-deficient AML cells. This causes rapid cell cycle shutdown and myeloid differentiation. PU.1 restoration results in regression and clearance and prolongs survival.

Project description:We have utilized advanced RNAi technology to dynamically restore endogenous PU.1 expression in p53-deficient AML cells . This causes rapid cell cycle shutdown and myeloid differentiation. PU.1 restoration results in regression and clearance and prolongs survival.

Project description:We have utilized advanced RNAi technology to dynamically restore endogenous PU.1 expression in p53-deficient AML cells.

Project description:We have utilized advanced RNAi technology to dynamically restore endogenous PU.1 expression in p53-deficient shPU.1 AML single cell clones in vitro. This causes rapid cell cycle shutdown and reversible myeloid differentiation.

Project description:We have utilized advanced RNAi technology to dynamically restore and subsequently knock down endogenous PU.1 expression in p53-deficient AML cells, which respectively causes differentiation and de-differentiation

Project description:PU.1 ChIP-seq in p53-/- shPU.1 AML cells following acute PU.1 restoration

Project description:We have utilized advanced RNAi technology to dynamically restore and subsequently knock down endogenous PU.1 expression in p53-deficient AML cells, which respectively causes differentiation and de-differentiation

Project description:We have utilized advanced RNAi technology to dynamically restore and subsequently knock down endogenous PU.1 expression in p53-deficient AML cells, which respectively causes differentiation and de-differentiation

Project description:This SuperSeries is composed of the following subset Series: GSE23873: Stage-specific sensitivity to p53 restoration in lung cancer: cell line data GSE23874: Stage-specific sensitivity to p53 restoration in lung cancer: tumor data Refer to individual Series