Transcript Chapter 10

Chapter 5
Chem 341
Suroviec Fall 2013
I. Introduction
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Every protein has a unique 3-D structure
II. Myoglobin
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Small intercellular protein
A. Heme group
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Heme contains 4 pyrrole groups
Fe(II) atom at the center is coordinated
by the 4 porphyrin N atoms and one N
from a His side chain
B. Equilibrium of O2 binding
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Myoglobin binding of O2 is simple
equilibrium
C. Binding Curve
Steepness of hyperbola increases as K decreases
III. Hemoglobin Structure & Mechanism
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4 polypeptide chains
– 2  subunits
– 2  subunits
III. Hemoglobin Structure & Mechanism
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Oxygenation causes extensive
quaternary structural changes
Oxy- and Deoxy- Hb have
different forms
A. Binding of O2
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T-state (deoxy)
R-state (oxy)
In T state (blue) Fe(II) located 0.6 Å out of heme plane
When O2 binds Fe-N porphyrin bonds contract and
Fe(II) moves in plane (red)
B. 2 Stable Positions
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Difference between T and R occur at 1-2 and 2-1 interface
C. Role of Globin in Binding of O2
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Protect Fe(II)
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His attached to backside of porphyrin
D. Relative Stability of T and R
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With no O2 present: T more stable
With O2 present: R more stable
V. Hemoglobin binding and pH
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Effect of pH on Hb transport
Lung pH = 7.6
Blood pH = 7.2
pO2 in tissues = 30 torr
pO2 in lungs = 95 torr
Bohr Effect
VI. 2 – 3 Bis-phosphoglycerate
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Red blood cells use BPG to fine tune
hemoglobin function
VII. Abnormal Hemoglobins
• Sickle Cell Anemia
– Deoxyhemoglobin S forms
insoluble filaments that deform
red blood cells
– Rigid sickle shaped cells cannot
pass through the capillaries
– Results in tissue death: lack of
oxygen
– Mutant hemoglobin where
hemoglobin S contains Val
instead of Glu at the 6th position
of the  chain
– Causes polymerization of
hemoglobins
VIII. Structural Proteins
Typical eukaryotic cells have 3 types of cytoskeletal proteins that form fibers
A. Microfilaments
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Made of actin
Network of microfilaments support plasma membrane
B. Microfilaments extend/retract
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Polymerization of actin monomers is reversible process so the polymer undergoes constant
shrinking and growing as subunits add to and dissociate from one or both ends of the
microfilaments
C. Microtubules
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Microtubules are cytoskeletal fibers built from globular protein subunits
Microtubules can assemble and disassemble on a time scale that allow the cell to rapidly
change shape in response to external or internal stimuli
D. -Keratin
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Intermediate filaments are structural
proteins
Chemically un-reactive
Component of hair, horns, nails and
feathers
-helix shape, but exhibits smaller than
expected spacing - due to coiled coil
structure
E. Collagen
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Most abundant animal protein
Major stress-bearing components of connective tissues (bone, teeth, tendons)
Has distinct amino acid composition
– Every 3rd amino acid = glycine
E. Collagen
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Cross-linking between fibrils also increases insolubility
Can’t be S-S bonds
Cross-link between Lys and His chains using Lysyl oxidase
Tends to occur near termini