MCB 182 Lecture 10.5 - Visualization of Hi-C data, bias in the Hi-C assay
MCB 182 Lecture 10.1 - Overview of the physical organization of the genome
MCB 182 Lecture 10.2 - DamID for mapping protein-DNA interactions
MCB 182 Lecture 10.4 - Chromatin conformation capture (Hi-C) assays
MCB 182 Lecture 10.7 - Chromatin looping, loop extrusion model
MCB 182 Lecture 10.8 - Choosing 3C assay, genome assembly with Hi-C
MCB 182 Lecture 11.1 - Introduction to molecular interaction networks
MCB 182 Lecture 10.3 - Chromatin conformation capture (3C, 4C) assays
MCB 182 Lecture 10.6 - Topologically associated domains (TADs), A/B compartments
Intro to Juicebox on the Web Tutorial
DCMB Tools and Technology Seminar 09/10/2015 - Haiming Chen
Bioinformatics for the 3D Genome: An Introduction to Analyzing and Interpreting Hi-C Data
Lecture 2: Basic data visualization/exploration - Introduction to Data Science (IDS) #datascience
Lecture 34: Nucleosomes as barriers, Hi-C, and contact probabilities
Arima Hi-C | Hi-C Method | Conformation Capture |
Introduction to Dovetail™ Micro C Technology
Juicebox on the Web Tutorial Part 6: Visualize from ENCODE website
Building Jars for Juicebox and Juicer Tools
Proximo Hi-C Genome Scaffolding | Proximity Ligation for Genome Scaffolding | Hi-C Method |
J. Vaquerizas, "Chromatin Conformation in Development and Disease"
