Journal article
Selective deployment of transcription factor paralogs with submaximal strength facilitates gene regulation in the immune system
L Bruno, V Ramlall, RA Studer, S Sauer, D Bradley, G Dharmalingam, T Carroll, M Ghoneim, M Chopin, SL Nutt, S Elderkin, DS Rueda, AG Fisher, T Siggers, P Beltrao, M Merkenschlager
Nature Immunology | NATURE PUBLISHING GROUP | Published : 2019
Abstract
In multicellular organisms, duplicated genes can diverge through tissue-specific gene expression patterns, as exemplified by highly regulated expression of RUNX transcription factor paralogs with apparent functional redundancy. Here we asked what cell-type-specific biologies might be supported by the selective expression of RUNX paralogs during Langerhans cell and inducible regulatory T cell differentiation. We uncovered functional nonequivalence between RUNX paralogs. Selective expression of native paralogs allowed integration of transcription factor activity with extrinsic signals, while non-native paralogs enforced differentiation even in the absence of exogenous inducers. DNA binding aff..
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Awarded by Medical Research Council
Funding Acknowledgements
We thank A. Warren (University of Cambridge), F. Kondrashov (Institute of Science and Technology Austria), D. Odom (CRUK Cambridge), T. Warnecke, P. Sarkies, S. Santos and B. Lenhard for discussion and advice; N. Speck (University of Pennsylvania) for conditional Runx1 mutants; J. Elliott, B. Patel and T. Adejumo for cell sorting; P. Leung for assistance; D. Djeghloul for help with immunofluorescence; and L. Game and her team for sequencing. This work was funded by the Medical Research Council UK (M.M. and A.G.F.), by Wellcome (grant 099276/Z/12/Z to M. M.) and the NIH (R01A116829 to T. S.).