Project description:RNA-Seq analysis of beta-actin knockout MEFs expressing NLS-tagged beta-actin to study role of actin in transcription

Project description:Genome-wide ChIP-Seq of H3K27ac in β-actin KO MEFs expressing NLS-tagged beta-actin to assess the role of nulcear actin in regulating histone acetylation

Project description:RNA-Seq analysis of beta-actin knockout MEFs expressing NLS-tagged beta-actin

Project description:ChIP-Seq of H3K27ac in Actb-/- MEFs expressing NLS-tagged beta-actin

Project description:ATAC-Seq analysis of beta actin knockout mouse embryonic fibroblasts expressing NLS-tagged beta-actin to study impact of actin levels on chromatin accessibility

Project description:ATAC-Seq analysis of beta actin knockout mouse embryonic fibroblasts expressing NLS-tagged beta-actin

Project description:Role of beta-actin in mouse embryonic fibroblasts (MEFs)

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

Project description:mRNA profiles of beta-actin knockout (KO) MEFs stimulated by viral mimics to study how global transcriptome changes after innate viral immunity activation

Project description:Function and fate of mRNAs is controlled by RNA binding proteins (RBPs) but determining the proteome of a specific mRNA in vivo is still challenging. RNA proximity biotinylation on the transported β-actin mRNA tagged with MS2 aptamers (RNA-BioID) is used to characterize the dynamic proteome of the β-actin mRNP in mouse embryonic fibroblasts (MEFs). We have identified > 60 β-actin associated RBPs including all six previously known as well as novel interactors. By investigating the dynamics of the β-actin mRNP in MEFs, we expand the set of β-actin mRNA associated RBPs and characterize the changes of the interacting proteome upon serum-induced mRNA localization. We report that the KH-domain containing protein FUBP3 represents a new β-actin associated RBP that binds to its 3’-untranslated region outside the known RNA localization element but is required for β-actin RNA localization. RNA-BioID will allow to obtain a dynamic view on the composition of endogenous mRNPs.