1. Do Now Show a diagram of how you would split/ unwind the following Base pairs of DNA Draw the two new strands of DNA after replication

2. Do Now Answer “Unzipped”Replicated: (original strand black, new strand red)

3. 12-3 Protein Synthesis Transcription and Translation

4. If all the DNA in ten human nuclei were enlarged to a full-sized continuous ladder, it could reach more than 30 million miles, or from the earth to the planet Mars:

5. I. Gene Expression A. Each DNA molecule carries directions to make the organism B. DNA is the blueprint for the sequence of amino acids that make up a protein DNA  RNA  Amino Acids  Proteins  YOU! How does DNA make proteins?

6. II. Transcription A. DNA can NOT leave the nucleus B. A copy of the DNA “recipe” needs to be made C. DNA copies itself into Ribonucleic Acid (RNA)

7. III. mRNA A. The disposable copy of DNA B. It has the same structure as DNA but Thymine is replaced by Uracil (A-U instead of A-T) C. The copy leaves the nucleus with the protein “recipe” it copied from the DNA D. It is called messenger RNA (mRNA) because it brings the message from the nucleus to the ribosomes

9. Transcription continued… An entire strand of DNA is not transcribed into RNA at once. – Small segments of DNA are transcribed to RNA that code for specific genes IntronsIntrons –parts of the DNA sequence that do not code for any gene Exons –parts of the DNA sequence that code for different genes –Only Exons will be used to create RNA!

11. http://www.stolaf.edu/people/giannini/flashanimat/molgenetics/transcription.swf

12. IV. Translation A. The recipe now has to be read or translated B. The ribosome (rRNA) attaches and travels along the recipe strand C. The recipe is read in groups of 3 bases called codons D. The codons represent the order of the amino acids in the protein that is being created

14. E. Transfer RNA (tRNA) anticodons are complimentary to mRNA F. Carry amino acids to ribosome where they are linked together to form proteins mRNA bases  amino acids  protein (polypeptide)

15. http://www.sciencenetlinks.com/interactives/protein.html http://www.youtube.com/watch?v=4PKjF7OumYo&feature=related http://www.youtube.com/watch?v=xc2wbIDfO7E

16. A. CUU? Leucine!

17. 1. Fill in the complimentary DNA strand using base pairing rules DNA

18. Completed strand DNA

19. Fill in the correct mRNA bases by transcribing the bottom DNA code

20. Completed m RNA

21. Fill in the paired tRNA anti codons

22. Completed tRNA

23. Using the mRNA strand, translate the codons and find the correct amino acid using the Codon table

24. http://www.darienps.org/teachers/otterspoor/notes/mrna.pdf

25. 12-4 Mutations – see ditto I. Chromosomal: involves pieces of chromosomes – several bases 1. Deletion 2. Inversion 3. Translocation 4. Duplication II. Point (gene) mutations – involves one or only a few bases 1. Frameshift – due to deletion or insertion – shifts entire code