Journal article
Comparative cofactor screens show the influence of transactivation domains and core promoters on the mechanisms of transcription
CC Bell, JJ Balic, L Talarmain, A Gillespie, L Scolamiero, EYN Lam, CS Ang, GJ Faulkner, O Gilan, MA Dawson
Nature Genetics | Published : 2024
Abstract
Eukaryotic transcription factors (TFs) activate gene expression by recruiting cofactors to promoters. However, the relationships between TFs, promoters and their associated cofactors remain poorly understood. Here we combine GAL4-transactivation assays with comparative CRISPR–Cas9 screens to identify the cofactors used by nine different TFs and core promoters in human cells. Using this dataset, we associate TFs with cofactors, classify cofactors as ubiquitous or specific and discover transcriptional co-dependencies. Through a reductionistic, comparative approach, we demonstrate that TFs do not display discrete mechanisms of activation. Instead, each TF depends on a unique combination of cofa..
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Grants
Awarded by Cancer Council Victoria
Funding Acknowledgements
We thank all members of the Dawson Lab for their support and intellectual input throughout the project. We would also like to acknowledge the Peter MacCallum Cancer Centre Flow Cytometry and Genomics core facilities for their assistance with the research. This research was supported by Cancer Council Victoria Postdoctoral Fellowship (C.C.B.), NHMRC Investigator Grant (1196749) (M.A.D.), Cancer Council Victoria Dunlop Fellowship (M.A.D.), Howard Hughes Medical Institute international research scholarship (55008729) (M.A.D.) and ARC project grant (DP220103927) (M.A.D.).