1/1
3 files

Identification of ESRE regulatory molecules

presentation
posted on 12.09.2014, 00:00 by Anna Justis
The ethanol and stress response element (ESRE) network in Caenorhabditis elegans regulates stress-induced gene expression. The ESRE network is highly conserved and is involved in responding to a variety of environmental stresses. The ESRE motif is predicted to be the binding site of an unknown transcription factor, termed the ESRE-binding protein (EBP). This project aims to identify the EBP and other potential ESRE regulatory molecules using a combined approach of RNAi and mutational genetic screens. The RNAi screen consisted of knocking down known transcription factors and signaling molecules in C. elegans and looking for a subsequent decrease in an ESRE-dependent fluorescence reporter signal, indicating interference with the ESRE stress response. The mutational screen consisted of inducing random mutations in the genome and looking for a change in the expression of ESRE-dependent fluorescence reporters. This screen resulted in gain-of-function mutations that cause constitutive expression of ESRE genes as well as loss-of-function mutations that cause a reduced ESRE response after induction of stress. Further analysis of the selected candidates may reveal the identity of members of the ESRE regulatory network.

History

Advisor

Fay, David

ISO

eng

Language

English

Publisher

University of Wyoming. Libraries

Usage metrics

Keywords

Licence

Exports