Last day to drop without a ‘ W ’ is September 16 th (this upcoming Sunday)

1. Last day to drop without a ‘W’ is September 16th (this upcoming Sunday)

3. Review about bases • They need to be very specific because they contain ALL the information for telling the cell how to function, so if they were flexible and changeable there would be problems • Nucleotides (bases) are RIGID/INFLEXIBLE because of the double bonds that make up the rings • Means that the H-bond donors and acceptors are always in the same place = specificity

4. How? Why? Transcription: Writing again Translation: Changinglanguages

5. Cytosine cries out for Guanine GUANINE http://en.wikipedia.org/wiki/Guanine

6. Today we’ll go from here... To here We can do anything Text

7. Off to see the wizard... Sending ‘messages’ out from DNA • DNA replication • both strands => new DNA • => new cell • Transcription • 1 strand => new RNA • => new protein

8. Transcription: seeing it http://www.hhmi.org/biointeractive/media/DNAi_transcription_vo1-lg.mov

9. Amino acids • From 4 letters of storage/information • to • 20 letters of action!!

10. 20 toys • EVERY one has a blue part. Chem name? • EVERY one has a red part. Chem name? • Thus these are all...?

11. Amino Acids • How are they similar? • How are they different? • What do the differences mean in terms of “feel”? • How many are there? • Possible?

12. Amino Acids • You & partner have an amino acid; which is it? (StructViewer or homepage => left column ‘big twenty’ amino acids)

13. Nucleic Acids • How are they similar? • How are they different? • What do the differences mean in terms of “feel”? • Which is more diverse in terms of shape and ‘feel’? • Which would allow for more diverse shapes and surfaces when ‘connected’?

14. Different tools; different jobs • In what ways are all bases identical? Different? • In what ways are all amino acids identical? Different? • Which set is more diverse in terms of ‘feel’? • Which more diverse in terms of shape? • Which would allow you to build more diverse shapes & surfaces?

15. How does a codon ‘mean’ an amino acid?

16. Walking the walk • How bio machines translate the language of nucleotides into an amino acid string

17. Biology: because it has to work like that way • Von Neumann argued that... [self-reproducing] machines would need to store separately the information needed to make the machine and would need to have a mechanism to interpret that information—a tape and a tape reader. In effect, he abstractly described the gene, the ribosome, and the messenger. --Matt Ridley in Francis Crick, discoverer of the genetic code

18. Types of bonds • VELCRO: a bond that can be cheerfully broken/re-made during lab • Duct tape: same at the molecular level, but at the 181L student level, breaking such a bond gets you a zero on this week’s quiz

19. Blinding you with Science (jargon) • RNA Polymerase: joins RNA links into a chain • mRNA: messenger RNA; RNA string copied (‘transcribed’) from DNA • tRNA: transfer RNA; one of many RNA molecules that carry specific amino acids • ribosome: giant machine (>200 proteins, 4 RNAs (2 > 1000 nucleotides) that oversees the reading of the mRNA and the creation of polypeptide • aminoacyl tRNA synthetase: protein machine adds amino acid to tRNAs • Termination factor: ‘reads’ UAA etc., => ribosome looses the peptide & falls apart

20. DNA template strand 5’ CTTAAATCCGAATGCCCATG 3’

21. DNA template strand(alternate version) 5’ CTTAAATCCGAATGCCCATG 3’ 5’ end is pointy/spiky 3’ end is soft/furry

22. Wielding the Power • ‘Recall’ that ribosome assembly is the result of methionine tRNA finding a match on mRNA in presence of small ribosome subunit • Only methionine tRNA (it will ‘know itself’ once crowned by the synthetase that hands out met) can team with small ribosomal subunit & join with the ‘AUG’!

23. Walk-through with 1 tRNA • Everybody watches visits to synthetase, ribosome • In the real world, everything is happening all the time; all is happenstance

24. Roles--for single mRNA 5’ end is pointy/spiky 3’ end is soft/furry • 4 tRNA (1-2 people) • 4 pairs to be synthetases • 1 small ribosomal subunit x 2 • 1 large ribosomal subunit x 2 • 2 to be (RNA polymerase & the RNA it makes ) • 1 termination factor (1-2 people)

25. Roles--for TWO mRNA 5’ end is pointy/spiky 3’ end is soft/furry • 4 tRNA • 4 synthetases • 1 ribosome • 1-2 to be (RNA polymerase & the RNA it makes ) • 1 termination factor

26. Learning your ‘lines’ • Handout: Each group find questions related to their role; answer them • Lab manual, textbook, internet OK as sources • Meet your blocks-- 5’ is the end that sticks to hair, socks, shirts 5’ end is pointy/spiky 3’ end is soft/furry

27. Choreographing translation • A play of many parts, many players, no brains

28. tRNA PICTURES OF SOME OF THE PLAYERS Amino Acid is the yellow bit synthetase

29. Ready…. Go! • mRNA at the central bench • ribosome assembles around it • synthetases at bench corners (or ‘diffuse’ opp. direction vs. tRNA) • tRNAs will ‘diffuse’ by following a path through the room • When any event first happens*, action stops, molecules involved will announce, explain • Go until a protein happens Includes ‘didn’t work’

30. Who knows the code? • What happens if a tRNA carries the wrong amino acid? • What happens if the mRNA contains a copy error relative to DNA? • What happens if a tRNA has a mutated anticodon

31. Review movie • (in TA desktop folder)

32. Exit Condition • 1.) Pair up (two in a group) • 2.) Write your names and SECTION at the top of the paper • 3.) EXPLAIN the process of TRANSLATION • Include the following in your answer: • tRNA • mRNA • ribosome • UAG codon • RNA Polymerase • aminoacyl tRNA synthetase • termination factor • diffusion/Brownian motion • **Worth 10 pts on next week’s quiz

33. Meet your semester-long interest

34. Homework • StructViewer*--amino acid look & feel** • Begin thinking about your project • Assessor: mutation & translation • *As will always be the case in this course, no tricks; focus on the primary idea(s) • **‘SurfaceViewer’ link from Software page may help • ...Ch. 3 reading about the immune system is just for fun