How it Works: Proximo Hi-C Genome Scaffolding Published 2018-11-15 Download video MP4 360p Recommendations 26:41 2020 STAT115 Lect15.1 HiC Introduction 02:04 How it Works: ProxiMeta Hi-C Metagenome Deconvolution 01:30 PacBio Sequencing – How it Works 07:49 How to perform a CRISPR Knockout Experiment 47:25 Jian Ma | Comparing 3D Genome Organization | CGSI 2019 03:42 The 3D Organization of Our Genome 04:13 Genome Editing with CRISPR-Cas9 03:24 Ion Torrent Next-generation Sequencing 36:34 Jan-Michael Peters (IMP) 2: How do Cohesin and CTCF Fold DNA in Mammalian Genomes? 09:20 MCB 182 Lecture 10.4 - Chromatin conformation capture (Hi-C) assays 03:36 DNA Microarray (DNA chip) technique 02:01 Hi-C: Genome Architecture in 3D 03:28 DNA replication - 3D 04:21 Chromatin Conformation Capture | Chromosome Conformation Capture Assay | Hi-C Method | 10:33 MRI Physics | Magnetic Resonance and Spin Echo Sequences - Johns Hopkins Radiology 04:44 Next Generation Sequencing (Illumina) - An Introduction 01:55 The Evolution of Bacteria on a “Mega-Plate” Petri Dish (Kishony Lab) 09:36 MCB 182 Lecture 10.3 - Chromatin conformation capture (3C, 4C) assays 12:30 Psychiatric Interviews for Teaching: Psychosis 03:39 Bionano Workflow and Technology Overview Similar videos 01:32 Proximo Hi-C Genome Scaffolding | Proximity Ligation for Genome Scaffolding | Hi-C Method | 01:56 Arima Hi-C | Hi-C Method | Conformation Capture | 01:49 In situ Hi-C | Hi-C Method | In situ Hi-C Chromosome Conformation technique | 59:01 Bioinformatics for the 3D Genome: An Introduction to Analyzing and Interpreting Hi-C Data 02:01 Promoter Capture Hi-C: Genome-wide Profiling of Promoter Interactions | Protocol Preview 05:06 MCB 182 Lecture 10.6 - Topologically associated domains (TADs), A/B compartments 40:10 Phase Genomics: From Contigs to Chromosomes 01:48 Hi-C Method | Hi-C Analysis Of Genome | Chromosome Capture | 02:17 5-C | Chromosome Conformation Capture Carbon Copy | 3C Vs 4C | 23:39 Multiscale and integrative single-cell Hi-C analysis 02:01 In-Nucleus Hi-C in Drosophila Cells | Protocol Preview 08:38 Tobias Viehboeck: Use of Pore-C to explore the 3D organization of animal symbiont chromosomes 10:28 High-continuity de novo nanopore assemblies towards chromosome-scale reference genomes - Max Schmidt 00:56 Chromosome Conformation Capture (3C). 06:27 STAT115 Chapter 15.6 Computational Methods to Call Chromatin Loops More results