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Computational Tools for the Multiscale Analysis of Hi-C Data in Bacterial Chromosomes.

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Just as in eukaryotes, high-throughput chromosome conformation capture (Hi-C) data have revealed nested organizations of bacterial chromosomes into overlapping interaction domains. In this chapter, we present a multiscale analysis framework… Click to show full abstract

Just as in eukaryotes, high-throughput chromosome conformation capture (Hi-C) data have revealed nested organizations of bacterial chromosomes into overlapping interaction domains. In this chapter, we present a multiscale analysis framework aiming at capturing and quantifying these properties. These include both standard tools (e.g., contact laws) and novel ones such as an index that allows identifying loci involved in domain formation independently of the structuring scale at play. Our objective is twofold. On the one hand, we aim at providing a full, understandable Python/Jupyter-based code which can be used by both computer scientists and biologists with no advanced computational background. On the other hand, we discuss statistical issues inherent to Hi-C data analysis, focusing more particularly on how to properly assess the statistical significance of results. As a pedagogical example, we analyze data produced in Pseudomonas aeruginosa, a model pathogenetic bacterium. All files (codes and input data) can be found on a GitHub repository. We have also embedded the files into a Binder package so that the full analysis can be run on any machine through Internet.

Keywords: bacterial chromosomes; analysis; tools multiscale; computational tools; multiscale analysis; analysis data

Journal Title: Methods in molecular biology
Year Published: 2020

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