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Protein Function Function relies on interactions with other molecules Binding of molecules to proteins is reversible Ligand = Binding site = HIV protease.

Published byWillis Parsons Modified over 8 years ago

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Presentation on theme: "Protein Function Function relies on interactions with other molecules Binding of molecules to proteins is reversible Ligand = Binding site = HIV protease."— Presentation transcript:

1 Protein Function Function relies on interactions with other molecules Binding of molecules to proteins is reversible Ligand = Binding site = HIV protease + drug inhibitor

2 Protein Function Function relies on interactions with other molecules Binding of molecules to proteins is reversible Ligand = molecule bound reversibly by a protein Binding site = site on protein where ligand binds HIV protease + drug inhibitor

3 Protein Function Induced fit = conformational change on binding of protein and ligand, makes binding site more complementary to ligand Enzymes are Proteins Enzymes have a special kind of protein function Enzymes bind and chemically transform molecules - catalyze reactions Enzymes bind and act on substrates (instead of ligand) Enzymes have catalytic or active sites (instead of binding site)

4 Protein Function Myoglobin

5 Protein Function Myoglobin (also hemoglobin) Protein can carry and store oxygen Oxygen poorly soluble in aqueous solution (cannot be carried by blood) How does protein bind oxygen? Myoglobin/hemoglobin - Found in almost all higher organisms Protoporphyrin IX Fe 2+ Fe-Protoporphyrin IX

6 Protein Function Myoglobin (also hemoglobin) Protein can carry and store oxygen Oxygen poorly soluble in aqueous solution (cannot be carried by blood) How does protein bind oxygen? Uses heme (Fe 2+ ) Myoglobin/hemoglobin - Found in almost all higher organisms Protoporphyrin IX Fe 2+ Fe-Protoporphyrin IX

7 Protein Function Myoglobin (also hemoglobin) Iron in Fe 2+ state binds oxygen reversibly O 2 bound - electronic properties of heme change Purple O 2 -depleted blood ---> red O 2 -rich blood Other small molecules can bind to heme: CO and NO can also coordinate to heme (toxic)

8 Oxygen/Carbon Monoxide Binding to Heme

9 Protein Function Myoglobin Single binding site for O 2 Measure binding Protein Ligand Mb + O 2 Mb-O 2 Equilibrium expression: [Mb-O 2 ] [O 2 ][Mb] K a = [PL] [L ][P] [PL] [L ] [P] K a = Ratio of bound-free protein  [L ] binding site occupied total binding sites  = = [PL] [PL] + [P] K a [P][L] K a [P][L] + [P]  = = K a [L] K a [L] + 1 = [L] [L] + 1 KaKa Association Constant Saturation

10  = [L] [L] + 1 KaKa Protein Function Myoglobin Equation describes a hyperbola Substitute [O 2 ] for L [O 2 ]  partial pressure O 2 Fraction ligand-binding sites occupied 1/K a ( K d ) is equal to: [L] where half of the available ligand-binding sites are occupied (  = 0.5)

11 Protein Function Myoglobin vs. Hemoglobin Differences in protein structure Hb - 4 subunits, 2  and 2  (better suited for O 2 transport); 4 heme groups Mb - 1 subunit (O 2 storage) so 1 heme group

12 Protein Function Myoglobin vs. Hemoglobin Differences in binding of oxygen Mb - hyperbolic binding curve for O 2, insensitive to small changes in [O 2 ] Hb - sigmoidal binding curve for O 2, highly sensitive response to changes in [O 2 ] Saturation pO 2 Mb Hb

13 Protein Function Hemoglobin Quartenary structure

14 Protein Function Hemoglobin Structural states of hemoglobin before and after O 2 binding T (tense) state deoxyHb, no O 2 bound stabilized by ion pairs between subunits R (relaxed) stateoxyHb, O 2 bound, higher affinity for O 2 destabilize some ion pairs, form some new ones

15 Protein Function Hemoglobin Hb must bind O 2 efficiently in lungs (pO 2 ~13.3 kPa) and release it in tissues (pO 2 ~4 kPa) T state = low affinity R state = high affinity Sigmoidal curve indicates Cooperativity Cooperativity - Binding of first O 2 affects binding of next (increases affinity of Hb for O 2 ) Cooperative binding (O 2 to Hb) is a type of allosteric binding Allosteric proteins 1. binding of ligand to one site affects binding properties of another site on same protein (Hb) 2. have “other shapes” induced by binding of ligands HEMOGLOBIN

16 Carbon Monoxide Binding to Heme CO - colorless, odorless gas 250-fold greater affinity for Hb High levels a result of incomplete combustion of fossil fuels Tight binding of CO to Hb Healthy person 1% CO-Hb, Smokers 3-8% CO-Hb Chain smokers 15% CO-Hb <10% few symptoms, 15% mild headaches 20-30% severe headache, nausea, dizziness, etc. 30-50% severe neurological symptoms, unconscious, coma 60% death Greater risk - smokers, heart/lung/blood disease, fetus

17 Fetal Hb must have greater affinity for O 2 than maternal Hb In fetus, no  subunits but  instead (  2  2 ) (  2  2 ) tetramer has lower affinity for BPG, so higher affinity for O 2 After birth,  subunits no longer made,  subunits synthesized Hemoglobin Fetal vs. Maternal Saturation pO 2 Fetal Hb Maternal Hb

18 Hemoglobin Effectors 1. H + 2. CO 2 CO 2 + H 2 OHCO 3 - + H + 3. 2,3-bisphosphoglycerate (BPG) All these effectors lower hemoglobin’s affinity for oxygen

19 Hb transports ~40% of total H +, rest of H + absorbed by plasma bicarbonate buffer Hb transports ~20% of the CO 2 to lungs and kidneys, rest of CO 2 transported as dissolved HCO 3 - and CO 2 binding of H + and CO 2 is inversely related to binding of O 2 BOHR EFFECT Effect of pH ([H + ]) and [CO 2 ] on binding and release of O 2 by Hb Hemoglobin Effectors

20 Lungs Tissues Tissues - lower pH and higher [CO 2 ], affinity of Hb for O 2 decreases as H + and CO 2 are bound, O 2 released to tissues Lung - higher pH and CO 2 excreted, affinity of Hb for O 2 increases and Hb binds more O 2 and releases H + Blood CO 2 + H 2 OHCO 3 - + H + (lower pH) Hb - communicates ligand binding information throughout subunits to integrate transport of CO 2, O 2, H + by blood

21 2,3-bisphosphoglycerate (BPG) BPG lowers affinity of Hb for O 2 [BPG] high in red blood cells BPG binds at different site than O 2 -binding site and regulates O 2 -binding affinity of Hb What is BPG? HbBPG + O 2 HbO 2 + BPG Hemoglobin Effectors

22 2,3-bisphosphoglycerate (BPG) BPG lowers affinity of Hb for O 2 [BPG] high in red blood cells BPG binds at different site than O 2 -binding site and regulates O 2 -binding affinity of Hb What is BPG? Allosteric effector HbBPG + O 2 HbO 2 + BPG Hemoglobin Effectors

23 Genetic disease in which person inherits gene for sickle-cell Hb from both parents HbV H L T P E E K Hb-sickleV H L T P V E K Hb-sickle is deoxygenated, insoluble and forms polymers that aggregate Valine has hydrophobic side chain, glutamate has negative charge Valine creates sticky hydrophobic contact point where deoxy-Hb-sickle molecules associate forming long, fibrous aggregates Hemoglobin Sickle Cell Anemia Symptoms:weak, dizzy, short of breath, heart murmurs sickle cells fragile - anemia capillaries blocked -abnormal organ function Patients with sickle cell anemia have to have inherited 2 copies of mutant gene Inherit only 1 copy - resistance to malaria

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