A regulatory role for repeated decoy transcription factor binding sites in target gene expression

Author(s)

Lee, Tek‐Hyung; Maheshri, Narendra

Abstract

Tandem repeats of DNA that contain transcription factor (TF) binding sites could serve as decoys, competitively binding to TFs and affecting target gene expression. Using a synthetic system in budding yeast, we demonstrate that repeated decoy sites inhibit gene expression by sequestering a transcriptional activator and converting the graded dose–response of target promoters to a sharper, sigmoidal‐like response. On the basis of both modeling and chromatin immunoprecipitation measurements, we attribute the altered response to TF binding decoy sites more tightly than promoter binding sites. Tight TF binding to arrays of contiguous repeated decoy sites only occurs when the arrays are mostly unoccupied. Finally, we show that the altered sigmoidal‐like response can convert the graded response of a transcriptional positive‐feedback loop to a bimodal response. Together, these results show how changing numbers of repeated TF binding sites lead to qualitative changes in behavior and raise new questions about the stability of TF/promoter binding.

Date issued

2012-03-27

URI

https://hdl.handle.net/1721.1/157538

Department

Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

Molecular Systems Biology

Publisher

Nature Publishing Group UK

Citation

Moleculr Systems Biol 8:576