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Active HORIZON European Commission

Learning the dynamic statistical folding of bacterial chromosomes

€2M EUR

Funder European Commission
Recipient Organization Stichting Vu
Country Netherlands
Start Date May 01, 2024
End Date Apr 30, 2029
Duration 1,825 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101122863
Grant Description

The physical organization of bacterial chromosomes is inherently variable, with large conformational fluctuations both from cell to cell and over time. Yet, chromosomes must also be structured to facilitate processes such as transcription, replication, and segregation. A physical description of this dynamic statistical folding of bacterial chromosomes remains largely elusive.

Hi-C experiments probe chromosome organization by measuring average contact frequencies of chromosomal loci pairs.

Despite the rapidly expanding database of high-resolution Hi-C data for many bacterial species and conditions, these data are still mainly interpreted on a case-by-case basis and with qualitative or heuristic methods.

My goal is to develop a principled unifying approach to infer and analyze the dynamic organization of chromosomes from bacterial Hi-C data.

This data-driven approach aims to unravel the dynamic statistical folding of chromosomes and its impact on functional processes in growing and replicating bacteria.

We will infer a bacterial chromosome model from state-of-the-art data using learning methods at the intersection of information theory and statistical mechanics.

By combining data-driven with mechanistic modelling approaches, we aim to:Decode information contained in Hi-C data by learning both 3D steady-state and 4D dynamic models for the statistical organization of chromosomes.

Provide a unifying statistical mechanics analysis of the dynamic statistical folding of chromosomes across bacterial species under both steady-state and replicating conditions.

Develop theoretical methods using pairwise and multi-contact statistics to study the topology of statistical chromosome folding.

My research will advance the field by providing a conceptual understanding of the physical and mechanistic principles that underlie chromosome organization in developing bacteria. This work could shed new light on vital functional processes such as chromosome segregation.

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Stichting Vu

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