Unraveling the Mechanism of a Potent Transcriptional Activator

Authors

Brian Brennan, Illinois Wesleyan UniversityFollow
Zhen Lu
Steven Rowe
Sarah Davis
Renee Metzler
Johnathan Nau
Chinmay Majmudar
Anna Mapp
Aseem Ansari

Publication Date

August 2005

Comments

The Journal of Biological Chemistry is published by The American Society for Biochemistry and Molecular Biology, http://www.jbc.org/site/misc/about.xhtml.

Abstract

Despite their enormous potential as novel research tools and therapeutic agents, artificial transcription factors (ATFs) that up-regulate transcription robustly in vivo remain elusive. In investigating an ATF that does function exceptionally well in vivo, we uncovered an unexpected relationship between transcription function and a binding interaction between the activation domain and an adjacent region of the DNA binding domain. Disruption of this interaction leads to complete loss of function in vivo, even though the activation domain is still able to bind to its target in the transcriptional machinery. We propose that this interaction parallels those between natural activation domains and their regulatory proteins, concealing the activation domain from solvent and the cellular milieu until it binds to its transcriptional machinery target. Inclusion of this property in the future design of ATFs should enhance their efficacy in vivo.

Disciplines

Chemistry | Physical Chemistry

Recommended Citation

Brennan, Brian; Lu, Zhen; Rowe, Steven; Davis, Sarah; Metzler, Renee; Nau, Johnathan; Majmudar, Chinmay; Mapp, Anna; and Ansari, Aseem, "Unraveling the Mechanism of a Potent Transcriptional Activator" (2005). Scholarship. 12.
https://digitalcommons.iwu.edu/chem_scholarship/12