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Gene Regulation and Transcription Factors in Vertebrates

Explore gene cis-regulation, signal transduction, and the role of transcription factors in gene expression in vertebrates. Understand the role of enhancers, repressors, and insulators in regulating gene activity. Study the impact of gene regulation on human disease and the complexity of the human genome.

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Gene Regulation and Transcription Factors in Vertebrates

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  1. MW  11:00-12:15 in Beckman B302 Profs: Serafim Batzoglou, Gill Bejerano TAs: Cory McLean, Aaron Wenger http://cs273a.stanford.edu [Bejerano Aut08/09]

  2. Lecture 12 • Gene Cis Regulation • Signal Transduction http://cs273a.stanford.edu [Bejerano Aut08/09]

  3. Vertebrate Gene Regulation • gene (how to) • control region(when & where) distal: in 106 letters DNA DNA binding proteins proximal: in 103 letters http://cs273a.stanford.edu [Bejerano Aut08/09]

  4. Unicellular vs. Multicellular unicellular multicellular http://cs273a.stanford.edu [Bejerano Aut08/09]

  5. Vertebrate Transcription Regulation http://cs273a.stanford.edu [Bejerano Aut08/09]

  6. Pol II Transcription • Key components: • Proteins • DNA sequence • DNA epigenetics • Protein components: • General Transcription factors • Activators • Co-activators http://cs273a.stanford.edu [Bejerano Aut08/09]

  7. Activators & Co-Activators Protein - Protein Protein - DNA http://cs273a.stanford.edu [Bejerano Aut08/09]

  8. The Core Promoter http://cs273a.stanford.edu [Bejerano Aut08/09]

  9. Tx Factors Binding Sites http://cs273a.stanford.edu [Bejerano Aut08/09]

  10. CpG islands http://cs273a.stanford.edu [Bejerano Aut08/09]

  11. Chromatin Remodeling “off” “on” http://cs273a.stanford.edu [Bejerano Aut08/09]

  12. Nucleosome tail modifications • Lysine acetylations. • Histone Acetyl-Transferases (HAT) & Histone Deacetylases (HDAC). • Lysine and Argenine Metylations. • Modified by histone-metyl-transferase. • Phosphorilation. • Ubiquitination. • H2A ubiquitination affects 10-15% of this histone in most eukaryotic cells • ADP-ribosylation.

  13. http://cs273a.stanford.edu [Bejerano Aut08/09]

  14. Cis-Regulatory Components • Low level (“atoms”): • Promoter motifs (TATA box, etc) • Transcription factor binding sites (TFBS) • Mid Level: • Promoter • Enhancers • Repressors/Silencers • Insulators/boundary elements • Cis-Regulatory Modules (CRM) • Locus Control Regions (LCR) • High Level: • Gene Expression Domains • Gene Regulatory Networks (GRN) http://cs273a.stanford.edu [Bejerano Aut08/09]

  15. Distal Transcription Regulatory Elements http://cs273a.stanford.edu [Bejerano Aut08/09]

  16. Enhancers http://cs273a.stanford.edu [Bejerano Aut08/09]

  17. Enhancers: action over very large distances RNAP II Basal factors promoter Enhancer with bound protein http://cs273a.stanford.edu [Bejerano Aut08/09]

  18. Transient Transgenic Enhancer Assay in situ Conserved Element Minimal Promoter Reporter Gene Construct is injected into 1 cell embryos Taken out at embryonic day 10.5-14.5 Assayed for reporter gene activity transgenic http://cs273a.stanford.edu [Bejerano Aut08/09]

  19. Enhancer verification Matched staining in dorsal apical ectodermal ridge (part of limb bud) Matched staining in genital eminence http://cs273a.stanford.edu [Bejerano Aut08/09]

  20. Vertebrate Enhancer Combinatorics brain limb neural tube Sall1 http://cs273a.stanford.edu [Bejerano Aut08/09]

  21. Vertebrate Enhancer Combinatorics http://cs273a.stanford.edu [Bejerano Aut08/09]

  22. What are Enhancers? • What do enhancers encode? • Surely a cluster of TF binding sites. • [but TFBS prediction is hard, fraught with false positives] • What else? DNA Structure related properties? • So how do we recognize enhancers? • Sequence conservation across multiple species • [weak but generic] http://cs273a.stanford.edu [Bejerano Aut08/09]

  23. Gene Expression Domains: Independent http://cs273a.stanford.edu [Bejerano Aut08/09]

  24. Gene Expression Domains: Dependent http://cs273a.stanford.edu [Bejerano Aut08/09]

  25. Repressors / Silencers http://cs273a.stanford.edu [Bejerano Aut08/09]

  26. What are Enhancers? Repressors • What do enhancers encode? • Surely a cluster of TF binding sites. • [but TFBS prediction is hard, fraught with false positives] • What else? DNA Structure related properties? • So how do we recognize enhancers? • Sequence conservation across multiple species • [weak but generic] • Verifying repressors is trickier [loss vs. gain of function]. • How do you predict an enhancer from a repressor? Duh... repressors repressors http://cs273a.stanford.edu [Bejerano Aut08/09]

  27. Insulators http://cs273a.stanford.edu [Bejerano Aut08/09]

  28. Transcription Regulation & Human Disease [Wang et al, 2000] http://cs273a.stanford.edu [Bejerano Aut08/09]

  29. Other Positional Effects [de Kok et al, 1996] http://cs273a.stanford.edu [Bejerano Aut08/09]

  30. TFs in the Human Genome http://cs273a.stanford.edu [Bejerano Aut08/09]

  31. What They Found Human Genome: 3*109 letters 1.5% known function compare to other species >50% junk >5% human genome functional 3x more functional DNA than known! ~106 substrings do not code for protein What do they do then? [Science 2004 Breakthrough of the Year, 5th runner up] http://cs273a.stanford.edu [Bejerano Aut08/09]

  32. Gene number does not correlate with Complexity Gene families are important. Many are surprisingly old. But - 1013 cells pre-genomic era: “100,000 genes to the human genome” 103 cells fly worm human weed fish rice last count down to 20,500 human genes # genes http://cs273a.stanford.edu [Bejerano Aut08/09]

  33. Most Non-Coding Elements are likely cis-regulatory “IRX1 is a member of the Iroquois homeobox gene family. Members of this family appear to play multiple roles during pattern formation of vertebrate embryos.” gene deserts regulatory jungles 9Mb http://cs273a.stanford.edu [Bejerano Aut08/09]

  34. Rapid TFBS turnover http://cs273a.stanford.edu [Bejerano Aut08/09]

  35. Signal Transduction http://cs273a.stanford.edu [Bejerano Aut08/09]

  36. Cell Communication Lodish, 20-1

  37. Signaling Pathways Important in Developmental Biology • Wnt/Frizzled through b-catenin • Hedgehog • TGF-b family through Smads • Growth factors via JAK-STATs • Notch • Integrin • TNF

  38. Wnt and Hedgehog signaling Jacob & Lum Science 2007

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