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Transcript
SURVEY OF BIOCHEMISTRY Proteins and Biomolecular Stability 1 Protein Structure • Primary (1°): amino acid sequence • Secondary (2°) – Alpha Helix – Beta Sheet • Tertiary (3°) • Quaternary (4°) 2 Primary and Secondary Structure Myoglobin - 2V1K Superoxide Dismutase - 1XSO 3 Recap • Structures of 20 amino acids • pKa and pI • 1°: Polypeptide Sequence • 2°: Secondary Structures – Alpha Helices – Beta Sheets 4 Recap continued • Protein Purification Methods – Gel Filtration – Ion Exchange – Affinity • How to assess purification? – Purity – Yield 5 SDS-PAGE • Electrophoresis: a method for separating molecules based on size and charge when exposed to an electric field. Name “SDS-PAGE”: SDS = sodium dodecyl sulfate PAGE = polyacrylamide gel electrophoresis 6 Sodium Dodecyl Sulfate SDS confers negative charge on proteins and denatures proteins Amphiphilic Hydrophilic Hydrophobic Anionic Detergent in a wide variety of products Sodium Dodecyl Sulfate (Lauryl Sulfate) CH3(CH2)11OSO3 Proteins are primarily denatured by boiling them prior to electrophoresis! 7 SDS-PAGE Buffers Buffers maintain pH control Allow gel to fully polymerize Stacking Gel 0.5M Tris-HCl pH 6.8 Resolving Gel 1.5M Tris-HCl pH 8.8 8 Sample Preparation Ensure that sample has fully dentured! In the Gel Stacking Gel 0.5M Tris-HCl pH 6.8 Resolving Gel 1.5M Tris-HCl pH 8.8 In the Sample Laemmli Sample Buffer 0.5M Tris-HCl,pH 6.8 SDS Glycerol Bromophenol Blue Boil Sample for 1-5 min 9 Electrophoresis Buffer Electrophoresis Buffer Tris Base, Glycine, SDS Fully Protonated + H N-CH -COOH 3 2 Acidic Form Loss of 1 Proton + H N-CH -COO 3 2 Zwitterionic Form Loss of 2 Protons H2N-CH2-COO Basic Form 10 SDS-PAGE In the Gel Stacking Gel 0.5M Tris-HCl pH 6.8 Gly lags + H3N-CH2-COO Zwitterion Form Gly leads Resolving Gel 1.5M Tris-HCl pH 8.8 H2N-CH2-COO Basic Form Note: Discontinuous SDS-PAGE is depicted here! 11 Migration in an SDS-PAGE Gel - + 12 Migration in an SDS-PAGE Gel Stop electrophoresis when dye front reaches bottom of gel Stain with Coomassie 13 Purity • Purity is a measure of how undefiled a protein sample is. Pure protein Lots of impurities 14 Yield % Yield = Amount of protein recovered Amount of protein initially Example: 1 2 3 % Yield = (208 / 358.2) x 100 = 58.1% After 2 steps of purification 15 Protein Sequencing • Separate subunits Study how each works! • Dansyl Chloride Reaction • Proteolytic Digestion Read on your own! • Cyanogen Bromide Cleavage • Edman Degradation 16 How to separate subunits? Dithiothreitol, DTT 2-Mercaptoethanol 17 Proteolytic Digestion Know this! 18 Proteolytic Digestion How many fragments would result from digestion with trypsin? 19 Proteolytic Digestion Trypsin cleaves after Lys (K) and Arg (R): 16 fragments! 20 Protein Structure Classifications • 1°: amino acid sequence • 2°: local spatial arrangement of a polypeptide backbone without regard for side chains • 3°: 3D structure of a protein including its side chains • 4°: spatial arrangements of subunits 21 Tertiary Folds Some proteins only have alpha helices (plus turns and random coils). Others only have beta sheets (plus turns and random coils). Alpha Beta 22 Alpha/Beta Tertiary Folds Some proteins have a combination of alpha helices and beta sheets (plus turns and random coils). 23 Biomolecular Stability Nucleic acids and proteins are stabilized by the same types of intermolecular forces. Hydrophobic Effect: the tendency of water to minimize its contact with hydrophobic groups in molecules. How does the hydrophobic effect impact proteins and nucleic acids? 24 Entropy Entropy measures the spontaneous dispersal of energy: how much energy is spread out in a process -orhow widely spread out it becomes — at a specific temperature http://www.entropysite.com 25 Entropy & the Hydrophobic Effect How is entropy increased by the hydrophobic effect? http://www.cryst.bbk.ac.uk/PPS2/projects/day/TDayDiss/Major.html 26 How do bond energies compare? Type of Bond Covalent Ionic Interaction Hydrogen Bond Dipole-dipole London Dispersion Bond Strength (kJ/mol) 348 - 460 86 20 Table 2-1 9.3 0.3 Relatively speaking, H-bonds are weak, but they are not nearly as weak as one might expect! 27 Why Do Base Pairs Stack? ENTROPY Hydrophobic effect induces release of water “binding” to DNA bp’s such that the hydrophobic ring systems can stack on top of each other to minimize contact with water. Consider the magnitude of stacking energy… Etc. 28 Forces Stabilizing Biomolecule Structure Proteins Nucleic Acids Hydrophobic Effect Globular shape Hydrophobic Effect Base Stacking Disulfide Bonds H-Bonds Alpha Helices Beta Sheets H-bonds Base Pairing Ionic Interactions Salt Bridges Metal Ions Ionic Interactions 29
