The structural organization within proteins Kevin Slep June 13 th , 2012

1. The structural organization within proteinsKevin SlepJune 13th, 2012

2. From Linear Peptide to a 3D Fold1951 Herman Branson Robert Corey Linus Pauling

3. The Amino AcidThe Building Blocks of Proteins

4. The 20 Amino AcidsThe Building Blocks of Proteins

5. The Peptide Chain, Primary StructureAssembled by the Ribosome During Translation

6. Peptide Backbone: Phi Psi AnglesLimits to their distribution

7. Ramachandran PlotEnergy limits to the Phi Psi Distribution

8. Soluble Proteins: E The Globular Protein FoldExterior: HydrophillicInterior: Hydrophobic H D P L I F S V R A Y C M W N T G K Q Packing Cross Section of a Globular Protein How would the organization of a Membrane Protein compare?

9. Interactions That Stabilize Protein Folds

10. Secondary StructureHelicesStrandsand Loops

11. Solution NMR Nuclear Magnetic Resonance Distance Constraints Dynamic Snapshot X-ray Crystallography Electron Density Static Snapshot First: How do we determine structure? Our Tools:

12. Secondary Structure: The a-Helix 3.6 residues per turn

13. Secondary Structure: The a-Helix Helical Axis

14. Secondary Structure: The a-HelixHelical Wheel – Hydropathy Plots Helical Axis

15. Forms of Helices

16. Secondary Structure:The b-Sheet: Parallel b-Strands

17. Secondary Structure:The b-Sheet: Parallel b-Strands

18. Secondary Structure:The b-Sheet: Anti-Parallel b-Strands

19. Secondary Structure: LoopsLinkers, Variable Structrure, Active Site

20. Cystine: The Disulfide BondTwo Cysteines Covalently Bond (Oxidation)Provides Added Stabilization to a Fold

21. Secondary Structure Prediction ToolsOnline Sites:Predict Protein http://www.predictprotein.org/ Phyre http://www.sbg.bio.ic.ac.uk/phyre/ Jpred3 http://www.compbio.dundee.ac.uk/~www-jpred/

22. Secondary Structure:

23. Structure is Conferred by Main Chain Conformation and Side Chain Conformation – PackingRotamers: Favored Geometries/Energy States Phenylalanine

24. How Secondary Structure is Organized:Motifs and Tertiary Structure

25. Topology DiagramsJane Richardson (Duke Univ.) Triose Phosphate Isomerase

26. Structural Motifsb Hairpin

27. Structural MotifsHelix-Loop-Helix

28. Structural MotifsEF-Hand Calmodulin: 4 EF Hands

29. Structural MotifsZinc_Finger Two Histidines on a Helix Two Cysteines on a Loop

30. Structural MotifsGreek Key

31. Structural MotifsGreek Key Pre-albumin

32. Structural MotifsJelly Roll

33. Structural Motifsb-a-b

34. Structural MotifsRossmann Fold Nucleotide Binding

35. Helix-Turn-HelixDNA Binding Proteins

36. Four-Helix Bundle

37. Catalytic Triad Aspartate, Histidine, Serine

38. TIM Barrel Domain

39. b-Barrel

40. b-Propeller Domain Neuraminidase

41. Non-Protein Molecules That Play a Role in Structure and Function Cofactors The Heme Group in Hemoglobin

42. Non-Protein Molecules That Play a Role in Structure and Function Ordered Water Water in Prealbumin First Hydration Shell

43. Non-Protein Molecules That Play a Role in Structure and FunctionIons Water in Prealbumin

44. How Do Proteins Fold?Moving from a linear peptideTo a MotifTo a Domain

45. Protein Folding: Energy Landscape

46. Protein Folding: Pathways

47. Protein Folding: Help From Chaperones

48. Protein DomainsBuilt from Motifs

49. a Domainsa solenoid – a curved structure peridinin-chlorophyll-containing protein - trimer

50. b Domains WD40 protein