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Modular design of synthetic transcriptional regulators

$125,437R01FY2010GMNIH

University Of Wisconsin-Madison, Madison WI

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Abstract

ell fate is determined by sets of genes that are expressed in a programmed manner during development and cellular differentiation. Often, in diseases as diverse as diabetes and cancer, malfunctioning transcriptional regulators produce aberrant patterns of gene expression that are at the heart of the ailment. How regulatory proteins find their binding sites and regulate their targeted genes remains a central question n the field. We combine chemical and biological approaches to study otherwise intractable features of transcriptional regulators. We utilize sequence-specific DNA binding compounds (polyamides) to target specificDMA sequences, and they can be readily modified to bear a rich array of functional modules. In the proposed work, we will elucidate the basis of cooperative DNA binding by Extradenticle and Ultrabithorax, two highly conserved developmental regulators. We will apply that understanding to develop precisely tailored synthetic regulators that target genes cooperatively with cell-type specific transcription factors. Finally, we will test the ability of our artificial transcription factors to regulate genes in cells and in living organisms. The ultimate goal of our work is to generate small molecules that can regulate the expression oftargeted genes in a desired manner. As designer transcription factors, these molecules will have tremendous value in dissecting transcriptional networks that govern cell fate and disease. The aslo have potential as therapeutic agents for a variety of diseases that are caused by aberrant transcriptional regulation.

View original record on NIH RePORTER →