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Bohr shift
An effect by which an increase of carbon dioxide in the blood and a decrease in pH results in a reduction of the affinity of hemoglobin for oxygen. Right shift on curve
Which state(s) of hemoglobin would predominate if the blood concentration of 2,3‑BPG increased?
BPG can only bind in T state
Select all statements that correctly describe hemoglobin and myoglobin structure. Molecular oxygen binds irreversibly to the Fe(II) atom in heme. Both hemoglobin and myoglobin contain a prosthetic group called heme, which contains a central iron (Fe) atom. The heme prosthetic group is entirely buried within myoglobin. By itself, heme is not a good oxygen carrier. It must be part of a larger protein to prevent oxidation of the iron. Each hemoglobin or myoglobin molecule can bind four oxygen molecules. Hemoglobin is a heterotetramer, whereas myoglobin is a monomer. Each iron atom can form six coordination bonds. One of these bonds is formed between iron and oxygen.
Both hemoglobin and myoglobin contain a prosthetic group called heme, which contains a central iron (Fe) atom. By itself, heme is not a good oxygen carrier. It must be part of a larger protein to prevent oxidation of the iron. Hemoglobin is a heterotetramer, whereas myoglobin is a monomer. Each iron atom can form six coordination bonds. One of these bonds is formed between iron and oxygen.
Select the scenarios which, according to the Bohr effect, result in hemoglobin's release of bound oxygen. Carbon dioxide levels in the blood increase. The concentration of hydrogen ions in the blood increases. The pH of blood increases. Oxygen levels in the blood increase.
Carbon dioxide levels in the blood increase. The concentration of hydrogen ions in the blood increases.
How does HbF's affinity for O2 compare with HbA's affinity for O2 in the presence of 2,3‑BPG?
HbF should have a higher affinity for O2 relative to HbA
How should replacing the His residues found in HbA with the Ser residues found in HbF affect the binding of 2,3‑BPG to HbF?
HbF should have a lower affinity for 2,3 BPG relative to HbA
How does hemoglobin function as a pH buffer?
Hemoglobin binds hydrogen ions after CO2 ENTERS the rbc
O2 binding favors R state or T state?
R state
R state or T state: high CO concentration
R state
R state or T state: high O2 concentration
R state
What conformational states of hemoglobin should haave a higher affinity for CO?
R state
Since CO binds to hemoglobin like O2, what is the effect of one molecule of CO binding to hemoglobin?
The affinity of neighboring subunits for both O2 and CO increases
In this case, what happened as CO was transported by the mother's blood?
The fetus, who expressed HbF, had a higher affinity for CO than did the mother, who expressed HbA. Thus the fetus essentially pulled the CO out of the mother's blood, allowing her to survive.
Would a molecule of O2 bind to one of the hemes of a hemoglobin molecule in the T state, which has no molecules of O2 bound?
Yes, but the molecule of O2 would bind weakly because the T state has a low affinity for O2.
Hemoglobin Kansas
a hemoglobin variant in which a threonine residue is substituted for an asparagine at residue 102 of the beta-chain; destabilizing the R state (lower affinity, right shift)
based on how O2 binding affects the affinity of neighboring hemoglobin subunits, O2, is an ______________ ____________ allosteric modulator.
activating homotropic
What does HbF's higher affinity for O2 imply about its affinity for CO?
also high affinity for CO
Identify the factors that directly favor the unloading of oxygen from hemoglobin in the blood near metabolically active tissues. an increase in blood temperature near the tissues the presence of a pressure gradient for oxygen an exchange of ions in the erythrocytes an increase in blood acidity near the tissues
an increase in blood temperature near the tissues the presence of a pressure gradient for oxygen an increase in blood acidity near the tissues
Which methods of energy production contributes to a decrease in pH?
both anaerobic (lactic acid) and aerobic (carbon dioxide--> carbonic acid)
loss of quaternary structure
curve 1 (closest to zero)
no perturbation
curve 3
For an decrease in pH, will the oxygen-binding affinity of hemoglobin increase, decrease, or not change.
decrease
For an increase in body temperature, will the oxygen-binding affinity of hemoglobin increase, decrease, or not change.
decrease
favors T state
decrease pH increased CO2 decreased O2
heterotropic allosteric regulation
different ligand affects binding of the normal ligand
homotropic allosteric regulation
effector molecule is also enzymes substrate
As oxygen binds to this molecule the shape of the molecule changes, enhancing further oxygen binding
hemoglobin
binding pattern for this molecule is considered cooperative
hemoglobin
oxygen dissociation curve is sigmoidal in shape
hemoglobin
What would be the net effect of increasing the concentration of 2,3‑BPG in the blood?
hemoglobin's O2 affinity decreases
For a decrease in partial pressure of CO2, will the oxygen-binding affinity of hemoglobin increase, decrease, or not change.
increase
Hemoglobin is a protein in red blood cells that binds to oxygen. Which physiological changes that naturally occur in the body reduce hemoglobin's affinity for oxygen?
increase in temperature decrease in pH increase in CO2
a decrease in CO2
left shift (curve 2)
an increase in pH
left shift (curve 2)
Which factors are associated with sickling of red blood cells in sickle cell anemia disease?
low pH, dehydration, high temperature, overexertion, oxygen tension from high altitude increase 2,3 bpg, co2
All of the cells in the body need oxygen. Hemoglobin molecules in red blood cells transport oxygen through the bloodstream. Oxygen is loaded onto hemoglobin molecules in the lungs and unloaded from the hemoglobin molecules in the tissues. What drives the unloading of oxygen from hemoglobin molecules in the tissues?
low partial pressure of O2 in the tissues
Since HbF has a _______ affinity for 2,3 BPG than does HbA, more molecules of HbF are in the ____ state than are molecules of HbA. So,HbF will always have a ____________higher affinity for O2 relative to HbA
lower, R state, higher
oxygen dissociation curve is hyperbolic in shape
myoglobin
this molecule has a greater affinity for oxygen
myoglobin
carbon monoxide binds at an allosteric site, lowering oxygen binding affinity
neither hemoglobin or myoglobin
oxygen binds irreversibly to this molecule
neither myoglobin or hemoglobin
Which 2 molecules are bound to hemoglobin when it's in the R state?
oxygen and Fe2+
Considering the structure of 2,3‑BPG, what type of residues do you suspect line the cavity between the β subunits where 2,3‑BPG binds?
positive charge bc BPG is a deprotonated form (conjugate base)
His residue can become ___________ and ____________charged enabling them to strongly interact with the ___________charged group of 2,3 BPG.
protonated, positively, negatively
an increase in 2,3-bpg
right shift (curve 4)
The oxygen-hemoglobin dissociation curve describes the percent oxygen saturation of hemoglobin as a function of the partial pressure of oxygen (PO2) in the surrounding fluid. As the PO2 increases on the horizontal axis, the oxygen saturation percentage also increases on the vertical axis. In comparison to that of adult hemoglobin, how is the fetal oxygen-hemoglobin dissociation curve shifted?
to the left, indicating a higher O2 affinity of fetal hemoglobin
true or false nitrogen has no effect on hemoglobin
true
Which 3 are true about the blood buffering system?
utilizes the H2CO3/HCO3- conjugate acid/base pair maintains the pH of blood near 7.4 is facilitated by the enzyme carbonic anhydrase, which interconverts carbon dioxide and water to carbonic acid (ionizes into bicarbonate and H+)
