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A systematic characterization of human regulatory architectures and their determinants of regulatory activity

Project description

A closer look at enhancer architectures: mechanisms of transcriptional regulation

Mapping nearly the full extent of the human genome was a monumental feat. In the decades that have followed, scientists continue to untangle the dynamics of gene expression and protein functions in health and disease. The ERC-funded SCORA project will focus on how the genome is dynamically used to carry out specific gene expression programmes by profiling regulatory elements, stretches of DNA known as gene promoters (sites of transcription initiation) and transcriptional enhancers (which amplify the transcription at gene promoters). Identifying these regulatory elements and determining their activity and functions, alone and connected in larger regulatory architectures, should shed light on how dysregulation of these is linked to disease.

Objective

Enhancers control the correct spatio-temporal activation of gene expression. A comprehensive characterization of the properties and regulatory activities of enhancers as well as their target genes is therefore crucial to understand the regulation and dysregulation of differentiation, homeostasis and cell type specificity.
Genome-wide chromatin assays have provided insight into the properties and complex architectures by which enhancers regulate genes, but the understanding of their mechanisms is fragmented and their regulatory targets are mostly unknown. Several factors may confound the inference and interpretation of regulatory enhancer activity. There are likely many kinds of regulatory architectures with distinct levels of output and flexibility. Despite this, most state-of-the-art genome-wide studies only consider a single model. In addition, chromatin-based analysis alone does not provide clear insight into function or activity.
This project aims to systematically characterize enhancer architectures and delineate what determines their: (1) restricted spatio-temporal activity; (2) robustness to regulatory genetic variation; and (3) dynamic activities over time. My work has shown enhancer transcription to be the most accurate classifier of enhancer activity to date. This data permits unprecedented modeling of regulatory architectures via enhancer-promoter co-expression linking. Careful computational analysis of such data from appropriate experimental systems has a great potential for distinguishing the different modes of regulation and their functional impact.
The outcomes have great potential for providing us with new insights into mechanisms of transcriptional regulation. The results will be particularly relevant to interpretation of regulatory genetic variations. Ultimately, knowing the characteristics and conformations of enhancer architectures will increase our ability to link variation in non-coding DNA to phenotypic outcomes like disease susceptibility.

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Topic(s)

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Funding Scheme

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ERC-STG - Starting Grant

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Call for proposal

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(opens in new window) ERC-2014-STG

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Host institution

KOBENHAVNS UNIVERSITET
Net EU contribution

Net EU financial contribution. The sum of money that the participant receives, deducted by the EU contribution to its linked third party. It considers the distribution of the EU financial contribution between direct beneficiaries of the project and other types of participants, like third-party participants.

€ 1 249 225,00
Address
NORREGADE 10
1165 Kobenhavn
Denmark

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Region
Danmark Hovedstaden Byen København
Activity type
Higher or Secondary Education Establishments
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Total cost

The total costs incurred by this organisation to participate in the project, including direct and indirect costs. This amount is a subset of the overall project budget.

€ 1 249 225,00

Beneficiaries (4)

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