Protein Structure (Campbell text chapters 4 and 5) (shape is everything) Why study structure? • Structure helps us understand function • Many disorders are due to aberrant protein structure – Sickle cell anemia – Can aid in design of therapeutics • Disruption of structure causes disruption of function – denaturation Native Structure • The normal structure found in an organism • Functional structure – Human Insulin Prosthetic Groups Non-amino acid molecule that is necessary for the protein to function • Ex: heme in hemoglobin • Mostly an organic molecule – Often contain metal ions Stabilization of Protein Structure • H-bonds – Backbone – Side chain • Disulfides • Electrostatic • Nonpolar forces Driving of protein folding • What provides the energy? – Stuff gets moved pretty far Requires energy Driven by entropy increase of solvent Levels of Protein Structure • Primary • Secondary – Supersecondary • Tertiary • quaternary Primary Structure • Amino acid sequence – Read amino to carboxyl – Below is the sequence for insulin malwmrllpl lallalwgpd paaafvnqhl cgshlvealy lvcgergffy tpktrreaed lqvgqvelgg gpgagslqpl alegslqkrg iveqcctsic slyqlenycn – Can get sequences from the link below http://www.ncbi.nlm.nih.gov/ Determination of primary structure • Biochemical – Enzymatic digestion – Sequential Edman degradation • Molecular biological – Determine nucleotide sequence – Deduce amino acid sequence Determination of primary structure • Determine amino acid content – Boil protein in 6 M HCl • Protein cleavage – Use enzymes that cut at different places • Chymotrypsin: cuts at C-end of aromatic aa • Trypsin: cuts at C-end of + charged aa • Cyanogen bromide: cuts after M – Determine sequences of peptides – Line up Primary Sequence determination example • Trypsin Digests: N-T-W-M, D-T-W-M-I-K, G-Y-M-Q-F-V-L-G-M-S-R • CNBr digests: Q-F-V-L-G-M, D-T-W-M, S-R-N-T-W-M, I-K-G-Y-M What is the correct sequence? Answer Secondary structure • Simple folding – α-helix – β-pleated sheet – Collagen helix α-helix • Right handed helix • 3.6 aa/ turn • Backbone H-bonding between carboxyl oxygen and amino nitrogen 4 aa away – C=O on aa 1 bonds to N-H on 5 – C=O on aa 2 bonds to N-H on 6 etc • Proline doesn’t fit into helix α-helix • R groups perpendicular to helix • To right is view down helix axis • AA close in primary sequence of protein not necessarily close in final structure • AA far away in primary often close in final structure Beta sheet • Parallel or antiparallel sheet • Backbone H-bonding between C=O and NH on adjacent strands • Sheet is pleated Beta Sheet side view • R- groups below and above plane of sheet • R-groups on adjacent aa very far apart R R R R R R R Collagen helix • Triple helix • Helices wrapped around each other. • Sequence is G-X-PG-X-P etc • Found in tendons and ligaments • Very strong • H-bonding between strands Supersecondary structure • Structural motifs • Repeating patterns of secondary structures – Beta barrels – Alpha-beta-alpha-beta – Examples in next slides Helix- turn- helix Beta sandwiches 4 alpha bundle Beta Barrel Alpha beta horseshoe Tertiary Structure • Final 3-D structure of the protein • Folded native form • aa close together in primary sequence often far apart in tertiary • aa far apart in primary may be close in tertiary • NCBI HomePage Myoglobin structure Quaternary Structure • Subunits • Made from more than one polypeptide chain • Held together by weak interactions Hemoglobin Protein Structure Determination • X-ray crystallography – X-rays diffract off of molecule – Pattern is Fourier transform of actual structure – 2 angstrom resolution – Have to make crystal • NMR – Similar to MRI technology – Can do in solution – Resolution not as good Protein purification • Start with source – Cells from animal or plant – Molecular bio • Grind up • Centrifuge Protein purification • Chromatography – Ion exchange – Size exclusion – Affinity chromatography • Use of antibodies Protein Purification • Assays – Functional • Activity – Define – Protein amount • Colorimetric • Beer’s law • ELISA – Determination of specific activity • Activity / mg protein SDS PAGE • Sodium Dodecyl Sulfate PolyAcrylamide Gel Electrophoresis • Separates by size • Distance travelled is function of log(MW) • Native v denaturing Answer to sequence D-T-W-M-I-K-G-Y-M-Q-F-V-L-G-M-S-R-NT-W-M • Back