Single-Molecule and Single-Cell Analysis of Transcription Factor-DNA Complexes
California Institute Of Technology, Pasadena CA
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): Transcriptional control is mediated by batteries of transcription factors that interact with DNA, each other and with the transcription apparatus itself. In many of these cases, proteins bound to regulatory regions hundreds to thousands of basepairs away from the basal transcription apparatus perform a kind of biological action at a distance by binding at more than one site on the DNA simultaneously resulting in wholesale rearrangements of the genomic DNA (e.g. DNA looping). However, the mechanistic underpinnings of transcriptional control, especially that involving large-scale deformations of the DNA, and the quantitative consequences of this control largely remain to be elucidated. The work proposed here builds upon three distinct but related pillars to analyze the formation of these complexes: i) the use of statistical mechanics models to compute the relation between regulatory architecture and the level of gene expression, ii) the use of single-molecule tethered particle experiments to measure the stability and kinetics of formation of transcription factor-DNA complexes and iii) the measurement of level of gene expression in living cells. In all three of these cases, DNA sequence (flexibility), binding site strength and number of operators are used as dials to tune the level of gene expression. PUBLIC HEALTH RELEVANCE: Transcriptional regulation is at the heart of processes in biology ranging from the formation of biofilms to cell differentiation to evolution. In its role as one of the central threads in the study of genes and how they are regulated, transcriptional control is relevant to biology and medicine alike. The work proposed here aims to strengthen our understanding of transcription in microbes in a way that will have applications from synthetic biology to the study of pathogens.
View original record on NIH RePORTER →