Add to collection(s) Add to saved
  1. Science
  2. Biology
  3. Biochemistry
  4. Molecular Biology

Protein Structure

advertisement 
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
Related documents
PH 2901
PH 2901
Helix, Spring/Summer Internships, Las Vegas
Helix, Spring/Summer Internships, Las Vegas
Principles of Protein Structure
Principles of Protein Structure
Workshop1_John Goddard
Workshop1_John Goddard
Protein Structure HW Key
Protein Structure HW Key
Chem 464 Biochemistry
Chem 464 Biochemistry
CARBOHYDRATES (Polysaccharides) NUCLEIC ACIDS
CARBOHYDRATES (Polysaccharides) NUCLEIC ACIDS
Chem 464 Biochemistry
Chem 464 Biochemistry
Beyond Pauling-Corey: Conformation and Peptide Geometry of Linear Groups in Proteins Scott Hollingsworth
Beyond Pauling-Corey: Conformation and Peptide Geometry of Linear Groups in Proteins Scott Hollingsworth
The Family of Beta-Helical Structures in Proteins
The Family of Beta-Helical Structures in Proteins
SOME MEASUREMENTS OF PHASE VELOCITY
SOME MEASUREMENTS OF PHASE VELOCITY
Chapter 4. The Stub Loaded Helix
Chapter 4. The Stub Loaded Helix
Homer A Parametric Model for Reducing the Manufacturing ... Traveling Wave Tube
Homer A Parametric Model for Reducing the Manufacturing ... Traveling Wave Tube
X-Ray Crystal Structure of a Ribosomal T. thermophilus,
X-Ray Crystal Structure of a Ribosomal T. thermophilus,
Download
advertisement