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CHAPTER 9 Proteins and Their Synthesis CHAPTER 9 Proteins and Their Synthesis Copyright 2008 © W H Freeman and Company.

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Presentation on theme: "CHAPTER 9 Proteins and Their Synthesis CHAPTER 9 Proteins and Their Synthesis Copyright 2008 © W H Freeman and Company."— Presentation transcript:

1 CHAPTER 9 Proteins and Their Synthesis CHAPTER 9 Proteins and Their Synthesis Copyright 2008 © W H Freeman and Company

2 CHAPTER OUTLINE 9.1 Protein structure 9.2 Colinearity of gene and protein 9.3 The genetic code 9.4 tRNA: the adapter 9.5 Ribosomes 9.6 The proteome

3 Chapter 9 Opener Surface of the ribosome from the bacterium Haloarcula marismortui

4 Figure 9-1 The binding of a drug molecule to the ribosome prevents translation

5 Protein structure

6 Figure 9-2a The peptide bond

7 Figure 9-2b The peptide bond

8 Figure 9-3 Levels of protein structure

9 Figure 9-3a Levels of protein structure

10 Figure 9-3b Levels of protein structure

11 Figure 9-3c Levels of protein structure

12 Figure 9-3d Levels of protein structure

13 Colinearity of gene and protein

14 Figure 9-4 Gene and protein sequences are colinear

15 The genetic code

16 Figure 9-5 Overlapping versus nonoverlapping genetic codes

17 Figure 9-6 The genetic code

18 tRNA: the adapter

19 Figure 9-7 The structure of transfer RNA

20 Figure 9-8 An aminoacyl-tRNA synthetase attaches an amino acid to its tRNA

21 Figure 9-9 Two superimposed tRNAs

22 Figure 9-10 Wobble allows one tRNA to recognize two codons

23 Table 9-1

24 Table 9-2

25 Ribosomes

26 Figure 9-11 Protein and RNA molecules compose the two subunits of a ribosome

27 Figure 9-12 rRNA folds up by intramolecular base pairing

28 Figure 9-13 Key sites of interaction in the ribosome

29 Figure 9-13a Key sites of interaction in the ribosome

30 Figure 9-13b Key sites of interaction in the ribosome

31 Figure 9-14 Shine–Dalgarno sequence

32 Figure 9-15 Translation initiation in prokaryotes

33 Figure 9-15 part 1 Translation initiation in prokaryotes

34 Figure 9-15 part 2 Translation initiation in prokaryotes

35 Figure 9-16 Translation initiation in eukaryotes

36 Figure 9-16 part 1 Translation initiation in eukaryotes

37 Figure 9-16 part 2 Translation initiation in eukaryotes

38 Figure 9-17 Steps in translation elongation

39 Figure 9-18 Termination of translation

40 Figure 9-19 A suppressor counteracts the effects of a nonsense mutation

41 The proteome

42 Figure 9-20 Alternative splicing produces related but distinct protein isoforms

43 Figure 9-21 Phosphorylation and dephosphorylation of proteins

44 Figure 9-22 All protein interactions in an organism compose the interactome

45 Figure 9-23 Ubiquitinization targets a protein for degradation

46 Figure 9-24 Signal sequences target proteins for secretion

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