[en] Most human Transcription factors (TFs) genes encode multiple protein isoforms differing in DNA binding domains, effector domains, or other protein regions. The global extent to which this results in functional differences between isoforms remains unknown. Here, we systematically compared 693 isoforms of 246 TF genes, assessing DNA binding, protein binding, transcriptional activation, subcellular localization, and condensate formation. Relative to reference isoforms, two-thirds of alternative TF isoforms exhibit differences in one or more molecular activities, which often could not be predicted from sequence. We observed two primary categories of alternative TF isoforms: "rewirers" and "negative regulators", both of which were associated with differentiation and cancer. Our results support a model wherein the relative expression levels of, and interactions involving, TF isoforms add an understudied layer of complexity to gene regulatory networks, demonstrating the importance of isoform-aware characterization of TF functions and providing a rich resource for further studies.
Disciplines :
Biochemistry, biophysics & molecular biology
Author, co-author :
Lambourne, Luke
Mattioli, Kaia
Santoso, Clarissa
Sheynkman, Gloria
Inukai, Sachi
Kaundal, Babita
Berenson, Anna
Spirohn-Fitzgerald, Kerstin
Bhattacharjee, Anukana
Rothman, Elisabeth
Shrestha, Shaleen
Laval, Florent ; Université de Liège - ULiège > TERRA Research Centre > Microbial technologies
Yang, Zhipeng
Bisht, Deepa
Sewell, Jared A
Li, Guangyuan
Prasad, Anisa
Phanor, Sabrina
Lane, Ryan
Campbell, Devlin M
Hunt, Toby
Balcha, Dawit
Gebbia, Marinella
Twizere, Jean-Claude ; Université de Liège - ULiège > GIGA > GIGA Molecular Biology of Diseases - Viral Interactomes Network
