• Basic Concepts
• 19 min
  1. Molecular structure of the human genome

  • Prof. Jonathan Wolfe
• 31 min
  2. Introduction to mutation and disease

  • Prof. Jonathan Wolfe
• 26 min
  3. Introduction to genetic diseases

  • Prof. Jonathan Wolfe
• 26 min
  4. Historical introduction to human diversity I

  • Prof. Dallas Swallow
• 28 min
  5. Historical introduction to human diversity II

  • Prof. Dallas Swallow
• 23 min
  6. Introduction to cytogenetics 1

  • Dr. Sioban SenGupta
• 15 min
  7. Introduction to cytogenetics 2

  • Dr. Sioban SenGupta
• 16 min
  8. Introduction to cytogenetics 3

  • Dr. Sioban SenGupta
• 42 min
  9. The Y-chromosome

  • Prof. Mark Jobling
• 42 min
  10. Mitochondrial DNA, molecular genetics and human mitochondrial diseases

  • Prof. Immo Scheffler
• 66 min
  11. Mechanisms of DNA repair by recombination

  • Prof. James Haber
• 26 min
  12. Techniques utilized in molecular genetics

  • Dr. Cecil Lewis
• 36 min
  13. Genome mapping

  • Dr. Simon Gregory
• 35 min
  14. Copy number variation

  • Dr. Ömer Gökçümen
• Genetics and Disease
• 45 min
  15. Genetic association studies

  • Prof. David Balding
• 42 min
  16. Quantitative genetics and multifactorial inheritance

  • Dr. Lara Bauman
• Human Evolutionary Genetics
• 34 min
  17. Population genetics

  • Dr. Murray P. Cox
• 59 min
  18. Inference on human history through DNA

  • Prof. Guido Barbujani
• 37 min
  19. Human adaptation

  • Prof. Rasmus Nielsen
• Specialized Topics
• 44 min
  20. Accessing and using ENCODE data

  • Prof. Peggy Farnham
• 44 min
  21. Pharmacogenetics

  • Prof. Ann Daly
• 33 min
  22. Genetics in forensics

  • Dr. Angel Carracedo
• 29 min
  23. The development and evolution of human gene therapy

  • Prof. Theodore Friedmann
• 33 min
  24. Next generation sequencing technologies

  • Dr. Krishna Veeramah

Printable Handouts

PDF

Navigable Slide Index

1. Introduction
2. The human genome
3. The ENCODE project
4. Accessing and using ENCODE data
5. Advantages of studying genome in a consortium
6. ChIP-seq guidelines
7. ENCODE assays
8. ENCODE assay: RNA-seq
9. ENCODE assay: ChIP-seq
10. Evolution of the ChIP assay
11. ENCODE assays: regulatory chromatin
12. ChIP-seq of modified histones
13. Open chromatin and TF binding sites
14. ENCODE assays: 3D looping
15. What has been learned so far
16. An integrated encyclopedia of DNA elements
17. Insights from ENCODE
18. Density of information encoded in human genome
19. Protein-coding transcripts
20. Comparison of coding and non-coding RNAs
21. Open chromatin
22. Chromatin modifications that influence expression
23. Classification of transcription factors
24. Transcription factor binding preferences
25. Chromosomal loops
26. ENCODE elements are linked to genetic variation
27. The ENCODE explorer
28. How to access ENCODE data
29. Visualizing ENCODE data
30. ENCODE data on the UCSC genome browser
31. Integrated ENCODE regulation tracks
32. Snapshot of ENCODE tracks
33. Expression and regulation ENCODE tracks
34. How to access tables listing ENCODE data
35. ENCODE experiment matrix
36. ENCODE experiment summary
37. Downloading ENCODE data
38. ENCODE resources
39. ENCODE user’s guide
40. Using ENCODE data
41. Understanding ChIP-seq results
42. ENCODE standards for ChIP-seq
43. Reproducibility and peak-cut off
44. Comparing a ChIP-seq peak file to other datasets
45. Tag density plots of ChIP-seq data
46. Analysis of target genes
47. Motif analysis: Factorbook
48. Example from Factorbook
49. ZBTB33 sequence logos
50. Understanding GWAS results
51. The genomic landscape around a risk SNP
52. Tag SNPs and functional SNPs
53. FunciSNP
54. Example of FunciSNP workflow
55. Identification of functional SNPs
56. Summary

Topics Covered

• A description of the ENCODE Consortium
• Experimental assays used by Consortium members
• Overview of genome-wide methods to study gene expression, chromatin, and transcription factors
• A summary of insights from ENCODE experiments
• How to access and download ENCODE data
• How to use ENCODE data in your own research

Links

Series:

• Epigenetics, Chromatin, Transcription and Cancer
• Eukaryotic Gene Regulation
• Introduction to Human Genetics
• Using Bioinformatics in the Exploration of Genetic Diversity

Categories:

• Biochemistry
• Cell Biology
• Genetics & Epigenetics
• Methods

Talk Citation

Publication History

• Published on November 5, 2013
• Reviewed on November 5, 2015
• Archived on April 13, 2022

Financial Disclosures

• Prof. Peggy Farnham has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.