- Sep 23, 2019
Date & Location: September 23, 2019, at 4p; Room 1200 Molecular Plant Sciences Building
Subject: Chromatin regulation in ethylene response
Host: Jianping Hu
About the Speaker
University: University of Texas-Austin
Research Interests: "Our long-term goal is to develop a validated mechanistic model that accurately describes the interplay between hormone signaling or stress response and chromatin regulation in the nucleus. In eukaryotes, the nucleus is the control center of the cell. Upon receipt of an external or internal cue, transcription factors bind to specific DNA sequences to recruit and stabilize the general transcriptional machinery required for gene expression. With the development and application of novel techniques, the knowledge of the roles of signaling pathways and transcription factors in regulation of gene expression has been greatly expanded. Chromatin regulation also plays a central role in the regulation of gene expression by providing transcription factors and the transcription machinery with dynamic access to an otherwise tightly packaged genome. Malfunction of chromatin modifiers is associated with numerous human diseases: Dysfunction of histone deacetylases or acetyltransferases is associated with cancer, diabetes, asthma, cardiac hypertrophy, retroviral pathogenesis, and neurodegenerative disorders. How the chromatin regulators receive signals and how the regulation is established in the first place remain largely unknown. We propose to focus on how signals are transduced and initiated in the nucleus and how chromatin regulation integrates with signaling to specifically initiate transcriptional regulation in ethylene signaling and stress response."