MCB 182 Lecture 10.7 - Chromatin looping, loop extrusion model
MCB 182 Lecture 10.5 - Visualization of Hi-C data, bias in the Hi-C assay
MCB 182 Lecture 10.4 - Chromatin conformation capture (Hi-C) assays
MCB 182 Lecture 10.6 - Topologically associated domains (TADs), A/B compartments
MCB 182 Lecture 10.3 - Chromatin conformation capture (3C, 4C) assays
MCB 182 Lecture 12.8 - PCA for analysis of population structure in GWAS, multiple hypothesis testing
MCB 182 Lecture 8.5 - Chromatin states
(2022) MCB 182 Lecture 0 - Review of Genes and Genomes
MCB 182 Lecture 11.1 - Introduction to molecular interaction networks
MCB 182 Lecture 3.4 - Genome assembly - Scaffolding contigs
Intro to Juicebox on the Web Tutorial
Close-up of DNA extrusion simulation
Bioinformatics for the 3D Genome: An Introduction to Analyzing and Interpreting Hi-C Data
Arima Genomics Capture Hi-C
Lecture 34: Nucleosomes as barriers, Hi-C, and contact probabilities
Physics of your chromosomes
STAT115 Chapter 15.6 Computational Methods to Call Chromatin Loops
Prof. David Holcman | Phase separation modeling and chromatin reconstruction
Animation of Loop Extrusion-mediated RAG Chromatin Scanning During D to JH Joining
Discovery of directional chromatin-associated... - Naoki Osato - ISCBacademy Posterpalooza
