Generalities for Transcriptional Regulation

1. Generalities for Transcriptional Regulation • Activators and Repressors Act in Concert • Effector Binding Changes Protein Shape • DNA Binding Occurs at Specific Sequences • DNA Looping Common Feature

2. Eukaryotes vs. Prokaryotes • Complexity of Genome • Multiple, Compartmentalized Chromosomes • Transcription Separated from Translation • Transcript Processing • Multi-Cellular

4. Transcriptional Regulation Translational Regulation

5. Eukaryotic RNA Polymerases • RNA Polymerase I • Ribosomal RNA Genes • RNA Polymerase II • Protein Coding Genes • RNA Polymerase III • Transfer RNA Genes

7. Hsp 83 RNA Accumulation During Drosophila Embryogenesis

8. Enhancerscis-acting elements • Act at a distance • May be upstream or downstream • Bind Activators and/or Repressors • Can act on additional genes

9. Fig. 16.5

11. lacZ gene Hsp83-lacZ Reporter Construct

12. Enhancer lacZ expression Pattern -873.+1621 -873.+1009

13. Activating Transcription Factors • Great Diversity • Protein Domains • DNA Binding Domain • Activator Domain • DNA Binding Domain Motifs • Helix-Turn-Helix (aka. Homeodomain) • Zinc Finger • Basic Leucine Zipper • Helix-Loop-Helix

14. Homeodomain (Helix-Turn-Helix)

15. Zinc Fingers

16. Steroid--Steroid Receptor Complex Receptor Hormone

17. Basic Leucine Zipper (bZIP) Fig. 16.7

19. Activator Repressor Myc/Max Helix Loop Helix Fig. 16.10

20. Fig. 16.8

21. Fig. 16.11

22. Chromatin Structure and Gene Expression • Dampens Transcription to Low Levels • Major Means of Keeping Expression Turned Off • In contrast, prokaryotes utilize repressors • Chromatin remodeling precedes activation • Reflected by DNAase I hypersensitivity • Heterochromatin Silences All Transcription • Example: X-inactivation and formation of Barr Bodies

24. Sex Determination in Drosophila • XX Females, XY Males • Early Embryo “Counts” the X Chromosomes • Sex Lethal (Sxl) Gene Critical Regulator • Mutations in Sxl Result in NO Females! • Sex Lethal Acts at the Level of Splicing • RNA-Binding Splice Factor

25. Females (XX) Males (XY) Early Embryo Helix-Loop-Helix Homodimers NO Helix-Loop-Helix Homodimers Fig. 16.16

26. Females (XX) Males (XY) Splicing Occurs at start of Exon 2 Splicing Occurs within Exon 2 mRNA lacks premature stop codon; transformer protein functional Sex lethal regulation of transformer RNA splicing Sex Lethal Protein No Sex Lethal Protein Stop codon mRNA include a premature stop codon; transformer protein nonfunctional after Fig. 16.16

27. Regulation of Gene Expression via RNA Stability RNA in situ Northern Blot

28. Mechanisms to Degrade mRNA • Poly-A Tail Length • Long tails confer stability • Tail shortening leads to mRNA turnover • Degradation Sequences • Map to 3’ (or 5’) Untranslated Regions • Interact with protein factors that degrade the “targeted” mRNA

29. Reporter Constructs Are Used to Identify Degradation Sequences