modulators (effectors) influence oxygen binding to hemoglobin: positive effectors stabilize the...
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![Page 1: Modulators (effectors) influence oxygen binding to hemoglobin: Positive effectors stabilize the ‘R’ state: –Oxygen –(Carbon monoxide – CO) –(Nitric oxide](https://reader035.vdocument.in/reader035/viewer/2022081519/56649f3e5503460f94c5f4e4/html5/thumbnails/1.jpg)
Modulators (effectors) influence oxygen binding to hemoglobin:
• Positive effectors stabilize the ‘R’ state: – Oxygen– (Carbon monoxide – CO)– (Nitric oxide – NO)– (Hydrogen sulfide – H2S)
• Negative effectors stabilize the ‘T’ state:– D-2,3-Bisphosphoglycerate (BPG)– H+ (low pH) – ‘Bohr effect’– Carbon dioxide (CO2)
– Chloride ion (Cl-)
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Negative effectors in the blood enhance Hb’s ability to release oxygen
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BPG binds in the center of the tetramer, forming salt bridges with + charged groups
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The cavity for BPG binding is only present in the T-state tetramer
T-state R-state
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The body can quickly increase BPG levels to enhance oxygen transfer at high altitude
~4 mMBPG
~8 mMBPG
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The Bohr effect: Lowering pH reduces Hb’s oxygen-binding affinity
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Lower pH increases the liklihood of protonation and salt-bridge formation
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The action of carbonic anhydrase lowers blood pH at the tissues and raises blood pH at the lungs, enhancing O2 and CO2 transfer
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The chloride-bicarbonate exchanger helps increase the CO2-carrying capacity of blood
Increased [Cl-] stabilizes T-state (via salt bridges), thus promoting release of O2
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Carbamate formation enhances O2 and CO2 transfer between the lungs and tissues
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Mutations alter Hb function in different ways
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In sickle-cell anemia, mutant Hb can aggregate, leading to sickle-shaped RBCs
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The mutant Val of sickle-Hb can bind in a hydrophobic pocket of a T-state β-chain
Binding of many T-state tetramers results in the formation of long, rigid fibers
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Sickle-hemoglobin fibers can burst the cell
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The sickle trait provides resistance to malaria, hence its prevalence in certain populations