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Shared repo for the UO project

3D genome changes in cancer

Project background/overview

The project involves computational analysis and interpretation of processed chromatin conformation capture data (Hi-C). The data has been generated from tumor samples obtained from patient-derived xenograft (PDX) models. The experimental conditions include two triple-negative breast cancer PDX cells grown as primary tumors and drug-resistant clones.

Project goals

Main goal is to identify changes in the 3D genome organization between drug-resistant (CR) and primary (Primary) tumors. Analyses include comparison of 1) Distance-dependent decay of interaction frequencies; 2) A/B compartments; 3) Topologically Associating Domains; 4) Chromatin loops. The outcome includes visualization and genomic coordinates of altered regions (changes in chromatin interactions).

Supplementary data include differential gene expression, CNVs, SNPs, InDels, SVs.

Work flow

  1. Create HiC files using Juicer, see 01_create_hic_files for more details.
  2. Exploratory analysis of biological replicates, specifically MDS, PCA, and distance decay (contact probability) plots. See 02_visualize_replicates for more details.
  3. If appropriate (based on #2), merge biological replicates to increase resolution. See 03_merge_replicates for more details.
  4. Same as #2, but using output from #3. See 04_post_merge_analysis for more details.
  5. Use HiC Explorer and custom python script to visualize and quantify differences in TAD attributes between samples. See 05_differential_tads for more details.
  6. Use Homer to quantify AB compartment switches between samples. See 06_ab_compartments
  7. Use NeoLoopFinder to discover structural variants between samples. See 07_structural_variants for more details.

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Shared repo for the UO project

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