Lecture 1 - Introduction to Genomics - 1
Lecture 2 - Introduction to Genomics - 2
Lecture 3 - Advent of NGS
Lecture 4 - Genome Assembly: Few Concepts and Terminology
Lecture 5 - Genome Assembly Approaches
Lecture 6 - Pyrosequencing
Lecture 7 - Reversible Chain Termination Based Sequencing
Lecture 8 - Ph Sequencing
Lecture 9 - Sequencing by Ligation (Solid)
Lecture 10 - Sequencing by Ligation (Complete Genomics)
Lecture 11 - Other Short-Read Sequencing Technologies - Part 1
Lecture 12 - Other Short-Read Sequencing Technologies - Part 2
Lecture 13 - Long-Read Sequencing
Lecture 14 - Single Molecule Long-Read Sequencing
Lecture 15 - The Omics Data Avalanche
Lecture 16 - Evolutionary Biology and Genomics
Lecture 17 - Ancient Genomics
Lecture 18 - Whole-Genome Duplication
Lecture 19 - Tests of Selection
Lecture 20 - Genomics in Experimental Evolution
Lecture 21 - Making Sense of Genomic Sequences
Lecture 22 - Transcriptomics: New Tools Leading to Deeper Insights
Lecture 23 - Single Cell Transcriptomics and Beyond
Lecture 24 - Proteomics: A Brief Introduction
Lecture 25 - Protein Quantification
Lecture 26 - Introduction to Linux for Omics
Lecture 27 - The Linux Command Line Interface
Lecture 28 - Using the CLI-1: NCBI Datasets
Lecture 29 - Using the CLI-2: Short Read Archive Toolkit
Lecture 30 - UCSC and IGV genome browsers
Lecture 31 - Mega Omics Projects
Lecture 32 - Genotype-Tissue Expression (GTEx)
Lecture 33 - Encyclopedia of DNA Element (ENCODE)
Lecture 34 - The Cancer Genome Atlas (TCGA)
Lecture 35 - Eukaryotic Genome Sequencing Consortia
Lecture 36 - The Postomics Era
Lecture 37 - RNA-Seq Differential Expression Analysis
Lecture 38 - Gene Loss and its Consequences
Lecture 39 - Establishing Gene loss: Few Examples
Lecture 40 - Course Summary
