Unveiling the Roles of Chromatin Insulators in Higher-order Chromatin Architecture and Transcription Regulation one molecule at a time

Objetivo

Eukaryotic chromosomes are condensed into several hierarchical levels of complexity: DNA is wrapped around core histones to form nucleosomes, nucleosomes form a higher-order structure called chromatin, and chromatin is subsequently organized by long-range contacts. The conformation of chromatin at these three levels greatly influences DNA transcription. One class of chromatin regulatory proteins called insulator factors set up boundaries between heterochromatin and euchromatin and generate long-range loops. In Drosophila, three types of insulators (Su(Hw), dCTCF and BEAF) have been shown to regulate transcription and organize chromatin at the higher level by the formation of long-range interactions that were proposed to be mediated by the coalescence of several insulator proteins into clusters (insulator bodies). Our research aims to unravel the mechanism by which insulator bodies dynamically regulate chromatin structure and transcription by using single-molecule biophysics and quantitative modeling. On one hand, we will apply novel super-resolution fluorescence microscopy methods to investigate the structure and assembly dynamics of insulator bodies in single cells throughout the cell cycle and the role of their regulatory partners. On the other hand, we will reconstitute the looping activity of insulators in vitro and apply single-molecule manipulation methods to gain detailed insights into the molecular mechanisms involved in defining and regulating chromatin organization by insulators. This project has the potential to impact our understanding of several fundamental cellular processes: transcription regulation, cell-cycle dynamics, higher-order chromatin organization, and cell differentiation. The methods developed here will be directly applicable to the investigation of other nuclear super-structures, such as transcription and replication factories and Polycomb bodies, and thus will impact other research areas, such as DNA replication, transcription and cell division.

Ámbito científico (EuroSciVoc)

CORDIS clasifica los proyectos con EuroSciVoc, una taxonomía plurilingüe de ámbitos científicos, mediante un proceso semiautomático basado en técnicas de procesamiento del lenguaje natural. Véas: El vocabulario científico europeo..

• ciencias naturales ciencias biológicas genética ADN
• ciencias naturales ciencias físicas óptica microscopía microscopía de superresolución
• ciencias naturales ciencias biológicas bioquímica biomoléculas proteínas
• ciencias naturales ciencias biológicas genética cromosoma
• ciencias naturales ciencias biológicas genética genoma genoma eucariota

Programa(s)

Programas de financiación plurianuales que definen las prioridades de la UE en materia de investigación e innovación.

• FP7-IDEAS-ERC - Specific programme: "Ideas" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)

Tema(s)

Las convocatorias de propuestas se dividen en temas. Un tema define una materia o área específica para la que los solicitantes pueden presentar propuestas. La descripción de un tema comprende su alcance específico y la repercusión prevista del proyecto financiado.

• ERC-SG-LS2 - ERC Starting Grant - Genetics,Genomics,Bioinformatics and Systems Biology

Convocatoria de propuestas

Procedimiento para invitar a los solicitantes a presentar propuestas de proyectos con el objetivo de obtener financiación de la UE.

ERC-2010-StG_20091118
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Régimen de financiación

Régimen de financiación (o «Tipo de acción») dentro de un programa con características comunes. Especifica: el alcance de lo que se financia; el porcentaje de reembolso; los criterios específicos de evaluación para optar a la financiación; y el uso de formas simplificadas de costes como los importes a tanto alzado.

ERC-SG - ERC Starting Grant

Institución de acogida

Beneficiarios (1)