1 Review What genes control cell differentiation during development

1. 1 Review What genes control cell differentiation during development Compare and Contrast How is the way Hox genes are expressed in mice similar and different to the way they are expressed in fruit flies 2 Use Analogies Write an analogy that demonstrates how the lac repressor functions 3 A hormone is a chemical that is produced in one part of the body, travels through the blood, and affects another part of the body. Many hormones are proteins. How might the production of a hormone affect the expression of genes in a eukaryotic cell? Write a hypothesis that could be tested to answer this question (include promoters in your hypothesis)

2. Ch 13 RNA and Protein Synthesis 13.4 Gene Regulation and Expression

3. Prokaryotic Gene Regulation • Bacteria and other prokaryotes do not need to transcribe all of their genes at the same time • Saves time and resources • Regulate with DNA binding proteins • Turn genes “on” or “off.”

4. Operons • Group of genes that are regulated together • Genes usually have related functions • E. coli have cluster of 3 genes that must be turned on before it can use lactose as food • Lac operon.

5. Promoter (P) Site where RNA-polymerase can bind to begin transcription Operator(O) Where the DNA-binding protein, lac repressor, can bind to DNA. Promoters and Operators

6. No lactose present Lac repressor binds to the O region RNA polymerase is blocked. Lac Operon “Off”

7. Lactose present Attaches to the lac repressor and changes the shape New shape makes it fall off the operator RNA polymerase can bind and transcribe. Lac Operon “On”

8. TATA box Contains the sequence TATATA or TATAAA Binds a protein that helps position RNA polymerase. Eukaryotic Gene Regulation

9. Transcription Factors • DNA-binding proteins • Enhance transcription by opening up tightly packed chromatin, attract RNA polymerase, or block access to certain genes • Attach to RNA polymerase before it binds to DNA.

10. Cell Specialization • Many eukaryotes are multicellular • Different cells have very different job but yet all have the same DNA.

11. RNA Interference • Small RNA molecules • Not mRNA, rRNA, or tRNA • Get transcribed • Fold over to become double stranded • Enzyme called the “Dicer” enzyme cuts, or dices, these double-stranded loops into microRNA (miRNA) • Two strands separate.

12. miRNA pieces attaches to a cluster of proteins Forms a silencing complex. RNA Interference

13. Silencing complex binds to complementary mRNA miRNA sticks to mRNA and stops their protein-making instructions. RNA Interference

14. Blocking gene expression by means of an miRNA silencing complex. RNA interference (RNAi)

15. The Promise of RNAi Technology • Ability to turn on or off genes • Work with viruses or cure cancer?

16. Genetic Control of Development • As an embryo develops, different sets of genes are regulated by transcription factors and repressors • Gene regulation helps cells undergo specialization.

17. Homeotic Genes • Master control genes that regulate organs that develop in specific parts of the body • Homeobox • Group of the same homeotic genes • Important in cell development and differentiation.

18. Determine the identities of each segment of the body Arranged in the exact order in which they are expressed, from anterior to posterior. Hox genes

19. Hox genes exist in the DNA of other animals Tell the cells of the body how to differentiate as the body grows.

21. Environmental Influences • Presence of lactose in E. coli • Bullfrog metamorphosis depends on conditions - a drying pond, a high density of predators, low amounts of food- tadpoles may speed up their metamorphosis.