What is the primary component of hemoglobin responsible for oxygen binding?
The heme group.
Where does erythropoiesis occur during the first few weeks of gestation?
In the yolk sac.
1/145
p.11
Hemoglobin Formation and Types

What is the primary component of hemoglobin responsible for oxygen binding?

The heme group.

p.5
Erythropoiesis and RBC Production

Where does erythropoiesis occur during the first few weeks of gestation?

In the yolk sac.

p.6
Erythropoiesis and RBC Production

What process leads to the formation of red blood cells?

Erythropoiesis.

p.1
Hemoglobin Structure and Function

What is the primary function of hemoglobin?

To transport oxygen from the lungs to the tissues and facilitate carbon dioxide transport back to the lungs.

p.1
Hemoglobin Structure and Function

What is the structure of hemoglobin composed of?

Hemoglobin is composed of four polypeptide chains, each with a heme group that binds oxygen.

p.8
Hemoglobin Formation and Types

What is the normal hemoglobin concentration in packed RBCs?

34 g per 100 mL.

p.27
Factors Affecting Hemoglobin Affinity for Oxygen

What is the effect of anemia on the hemoglobin-oxygen dissociation curve?

Anemia reduces the plateau of the curve but less significantly than CO.

p.28
Carbon Dioxide Transport and Acid-Base Regulation

What percentage of CO2 is transported by binding to the polypeptide chain of hemoglobin?

Approximately 10-15%.

p.9
Hemoglobin Formation and Types

What role do iron ions play in hemoglobin?

Iron ions in the heme groups are essential for oxygen binding.

p.29
Differences Between Myoglobin and Hemoglobin

How does Myoglobin (Mb) release O2?

It releases O2 when O2 levels are very low in the tissues, such as during exercise.

p.4
Red Blood Cell Characteristics

What is the average RBC count for females?

4,700,000 (± 300,000) / mm³.

p.7
Red Blood Cell Characteristics

How is ATP generated in red blood cells?

By glycolysis.

p.25
Bohr and Haldane Effects

Why does oxygen pass more easily from maternal HbA to fetal HbF?

Because fetal hemoglobin (HbF) has a higher affinity for oxygen.

p.15
Oxygenated vs. Deoxygenated Hemoglobin

What is the characteristic of hemoglobin's state changes?

They are dynamic and change according to conditions.

p.18
Bohr and Haldane Effects

What is formed when hemoglobin binds with CO2?

Carbaminohemoglobin (HbCO2).

p.24
Sickle Cell Anemia and Genetic Variants

What mutation causes sickle cell anemia?

A single nucleotide substitution (A to T) in the codon for amino acid 6.

p.20
Allosteric Regulation of Hemoglobin

What enzyme converts 1,3-diphosphoglycerate to 2,3-DPG?

2,3-BPG mutase.

p.3
Red Blood Cell Characteristics

How does the shape of Red Blood Cells facilitate their function?

The biconcave shape increases surface area, making interactions easier and providing flexibility.

p.28
Carbon Dioxide Transport and Acid-Base Regulation

Where does the majority of CO2 conversion occur in the body?

In the tissues.

p.24
Sickle Cell Anemia and Genetic Variants

What type of change occurs in the amino acid due to the mutation in sickle cell anemia?

A polar to nonpolar change.

p.16
Factors Affecting Hemoglobin Affinity for Oxygen

How does local temperature affect hemoglobin's affinity for oxygen?

It can facilitate or release oxygen depending on the temperature.

p.7
Red Blood Cell Characteristics

What are erythrocytes usually devoid of?

Nucleus, mitochondria, Golgi apparatus, ribosomes, and other organelles.

p.6
Hemoglobin Structure and Function

What is the primary function of red blood cells?

To transport oxygen throughout the body.

p.4
Erythropoiesis and RBC Production

What can stimulate an increase in RBC counts?

Higher altitudes.

p.14
Oxygenated vs. Deoxygenated Hemoglobin

What triggers the shift of hemoglobin from the T state to the R state?

Surrounding conditions, specifically oxygenation.

p.1
Hemoglobin Structure and Function

How does hemoglobin's structure relate to its function?

The quaternary structure allows for cooperative binding of oxygen, enhancing its efficiency in oxygen transport.

p.3
Red Blood Cell Characteristics

What are the thickness measurements of a Red Blood Cell?

Thick rim is 2.5 microns; thin center is 1 micron.

p.10
Hemoglobin Formation and Types

What are the types of globin chains involved in hemoglobin formation?

α, β, γ, δ, and during embryonic life, ζ and ε.

p.11
Hemoglobin Formation and Types

What role does the heme group play in hemoglobin?

It binds to oxygen molecules.

p.2
Allosteric Regulation of Hemoglobin

What factors are involved in the allosteric regulation of hemoglobin?

O2, 2,3-DPG, CO2, and H+.

p.2
Factors Affecting Hemoglobin Affinity for Oxygen

What effects do changes in hemoglobin structure have?

They cause alterations in O2 binding capacity.

p.17
Bohr and Haldane Effects

Who were the scientists associated with the Bohr Effect?

Bohr C, Hasselbach K, and Krogh A.

p.25
Bohr and Haldane Effects

What is the significance of HbF's affinity for O2?

It allows the fetus to extract oxygen from maternal blood more effectively.

p.14
Allosteric Regulation of Hemoglobin

Can hemoglobin shift between T and R states?

Yes, it shifts according to surrounding conditions.

p.8
Hemoglobin Formation and Types

What is the normal hemoglobin level in blood?

14 - 15 g per 100 mL.

p.18
Bohr and Haldane Effects

What occurs when hemoglobin becomes protonated?

It forms HHb+.

p.8
Red Blood Cell Characteristics

What effect does hemoglobin have on blood viscosity?

It contributes to viscous blood.

p.9
Hemoglobin Formation and Types

What is the significance of the quaternary structure of hemoglobin?

The quaternary structure allows for cooperative binding of oxygen, enhancing oxygen transport efficiency.

p.20
Allosteric Regulation of Hemoglobin

What effect does 2,3-DPG binding have on hemoglobin's affinity for oxygen?

It stabilizes hemoglobin in the T state, thus reducing affinity for O2 and shifting the curve to the right.

p.23
Sickle Cell Anemia and Genetic Variants

What are Thalassemias?

Genetic conditions resulting in reduced production of either alpha or beta globins.

p.4
Red Blood Cell Characteristics

What is the average RBC count for males?

5,200,000 (± 300,000) / mm³.

p.17
Bohr and Haldane Effects

How does the concentration of CO2 affect hemoglobin's binding to O2?

Higher concentration of CO2 decreases hemoglobin's affinity for O2.

p.4
Erythropoiesis and RBC Production

What conditions can cause an increase in RBC production?

Hypoxic conditions.

p.25
Bohr and Haldane Effects

What role does the placenta play in the Double Bohr effect?

It facilitates the transfer of oxygen from maternal blood to fetal blood.

p.26
Differences Between Myoglobin and Hemoglobin

What compound is formed when carbon monoxide binds to hemoglobin?

Carboxyhemoglobin (COHb).

p.1
Hemoglobin Structure and Function

What is the significance of the quaternary structure of hemoglobin?

It allows hemoglobin to change shape upon oxygen binding, increasing its affinity for additional oxygen molecules.

p.26
Differences Between Myoglobin and Hemoglobin

What is the primary effect of CO binding to hemoglobin?

It reduces the oxygen-carrying capacity of hemoglobin.

p.26
Differences Between Myoglobin and Hemoglobin

How does the binding of CO to hemoglobin affect oxygen delivery?

It impairs oxygen delivery to tissues.

p.16
Factors Affecting Hemoglobin Affinity for Oxygen

What role do hydrogen ions (H+) play in hemoglobin function?

They help modulate hemoglobin's affinity for oxygen.

p.10
Hemoglobin Formation and Types

How many heme groups are associated with each globin chain in hemoglobin?

Each globin chain is associated with one heme group.

p.10
Hemoglobin Formation and Types

What is the role of iron (Fe2+) in hemoglobin?

Each heme group contains one atom of iron that can bind oxygen.

p.13
Allosteric Regulation of Hemoglobin

What is cooperative binding in hemoglobin?

It refers to the change in hemoglobin's affinity for O2 based on the number of heme groups already bound to O2.

p.5
Erythropoiesis and RBC Production

Which organs are involved in erythropoiesis during the mid-trimester?

Liver, spleen, and lymph nodes.

p.15
Hemoglobin Structure and Function

What are the two states of hemoglobin?

Tense (T) and Relaxed (R) states.

p.26
Differences Between Myoglobin and Hemoglobin

What is the affinity of carbon monoxide (CO) for the heme group compared to oxygen (O2)?

CO has approximately 250 times higher affinity for the heme group than O2.

p.15
Oxygenated vs. Deoxygenated Hemoglobin

What is the deoxygenated state of hemoglobin referred to as?

Tense (T) state.

p.15
Oxygenated vs. Deoxygenated Hemoglobin

What is the oxygenated state of hemoglobin referred to as?

Relaxed (R) state.

p.20
Allosteric Regulation of Hemoglobin

What percentage of total glycolysis may occur via the alternative pathway that produces 2,3-DPG?

Approximately 20%.

p.19
Bohr and Haldane Effects

What is the Haldane Effect?

The phenomenon where deoxygenated hemoglobin has a higher affinity for carbon dioxide.

p.28
Carbon Dioxide Transport and Acid-Base Regulation

What enzyme converts bicarbonate and H+ into H2O and CO2?

Carbonic anhydrase.

p.23
Hemoglobin Formation and Types

What is HbA2 and its composition?

A small portion (~1-3%) of HbA2 is formed by 2 alpha and 2 delta globins.

p.22
Factors Affecting Hemoglobin Affinity for Oxygen

What impact does asthma have on oxygen transport?

Asthma can impair oxygen delivery and exchange.

p.22
Factors Affecting Hemoglobin Affinity for Oxygen

What factors can affect hemoglobin's main function?

Factors that alter Hb affinity for O2, CO2, and 2,3-DPG can affect its ability to transport O2 and assist in acid-base regulation.

p.11
Hemoglobin Formation and Types

How many heme groups are present in one hemoglobin molecule?

Four heme groups.

p.2
Hemoglobin Structure and Function

What are the main structural differences between oxygenated and deoxygenated hemoglobin?

These differences assist in O2 and CO2 transport and pH regulation in the body.

p.17
Bohr and Haldane Effects

What happens when H+ binds to hemoglobin?

It favors the tense (T) state conformation of hemoglobin.

p.15
Allosteric Regulation of Hemoglobin

What triggers the shift of hemoglobin from the tense (T) state to the relaxed (R) state?

Surrounding conditions.

p.1
Hemoglobin Structure and Function

What role do heme groups play in hemoglobin?

Heme groups contain iron, which binds to oxygen molecules.

p.19
Bohr and Haldane Effects

What role does carbon dioxide play in the Bohr Effect?

Higher levels of carbon dioxide lower pH, enhancing oxygen release from hemoglobin.

p.19
Bohr and Haldane Effects

What is the relationship between the Bohr Effect and oxygen dissociation?

The Bohr Effect facilitates the dissociation of oxygen from hemoglobin in acidic conditions.

p.8
Oxygenated vs. Deoxygenated Hemoglobin

What is the oxygen carrying capacity of hemoglobin?

1.34 mL/g Hgb, or 19 - 20 mL O2 / 100 mL of blood.

p.22
Factors Affecting Hemoglobin Affinity for Oxygen

What physiological change occurs in individuals adapted to high altitudes?

Increased levels of 2,3-DPG by approximately 50-60% (from 5 mmol/L to 8 mmol/L).

p.29
Differences Between Myoglobin and Hemoglobin

How do the structures of Myoglobin (Mb) and Hemoglobin (Hb) differ?

Myoglobin is a single subunit protein, while Hemoglobin has four subunits.

p.10
Hemoglobin Formation and Types

How many oxygen molecules can one hemoglobin molecule transport?

One hemoglobin molecule can transport 4 oxygen molecules (O2) or 8 oxygen atoms.

p.6
Erythropoiesis and RBC Production

What is the lifespan of red blood cells (RBCs)?

Approximately 120 days.

p.7
Erythropoiesis and RBC Production

What do reticulocytes retain that supports hemoglobin synthesis?

A small amount of endoplasmic reticulum and mRNA.

p.6
Erythropoiesis and RBC Production

Where does erythropoiesis primarily occur in adults?

In the bone marrow.

p.5
Erythropoiesis and RBC Production

When does bone marrow become the primary site of RBC production?

In the last month of gestation through adulthood.

p.19
Bohr and Haldane Effects

What is the Bohr Effect?

The physiological phenomenon where increased carbon dioxide and decreased pH result in hemoglobin releasing more oxygen.

p.3
Red Blood Cell Characteristics

What is the diameter of a Red Blood Cell?

7.8 microns.

p.26
Differences Between Myoglobin and Hemoglobin

Where does carbon monoxide bind in hemoglobin?

To the heme group.

p.3
Red Blood Cell Characteristics

What is the average volume of a Red Blood Cell?

90 - 95 micrometers³.

p.12
Hemoglobin Formation and Types

What is the structure of the β subunits of hemoglobin (HbA)?

It consists of α-helices shown as cylinders, with segments marked by colored digits: red for α-helices and green for loops.

p.29
Differences Between Myoglobin and Hemoglobin

What type of dissociation curve does Myoglobin (Mb) exhibit for O2?

A hyperbolic dissociation curve.

p.22
Factors Affecting Hemoglobin Affinity for Oxygen

How can heart failure affect oxygen delivery?

It may reduce O2 delivery to tissues, leading to acidosis and lung congestion.

p.23
Sickle Cell Anemia and Genetic Variants

What is Sickle cell anemia characterized by?

The presence of Sickle Hb (HbS), which is detrimental for O2 transport.

p.21
Bohr and Haldane Effects

What is the relationship between O2 and CO2 binding to hemoglobin?

O2 displaces CO2 from Hb, while CO2 and H+ displace O2 from Hb.

p.13
Allosteric Regulation of Hemoglobin

How does the binding of one O2 molecule affect the binding of subsequent O2 molecules?

Each O2 molecule that binds facilitates the binding of the next O2 molecule.

p.25
Bohr and Haldane Effects

What is the Double Bohr effect?

It refers to the enhanced transfer of oxygen from maternal hemoglobin (HbA) to fetal hemoglobin (HbF) due to HbF's higher affinity for O2.

p.5
Erythropoiesis and RBC Production

What is the primary site of erythropoiesis in adults?

Bone marrow.

p.27
Factors Affecting Hemoglobin Affinity for Oxygen

How does carbon monoxide (CO) affect the hemoglobin-oxygen dissociation curve?

CO shifts the curve down and leftward, reducing the plateau.

p.9
Hemoglobin Formation and Types

What is the primary function of hemoglobin (Hb)?

To transport oxygen from the lungs to the tissues and facilitate carbon dioxide transport back to the lungs.

p.9
Hemoglobin Formation and Types

What are the components of hemoglobin?

Hemoglobin is composed of four polypeptide chains, each containing a heme group that binds oxygen.

p.9
Hemoglobin Formation and Types

How does hemoglobin change when it binds to oxygen?

Hemoglobin undergoes a conformational change that increases its affinity for oxygen.

p.10
Hemoglobin Formation and Types

What is the molecular weight of Hemoglobin A (HbA)?

64,458.

p.12
Hemoglobin Formation and Types

What is marked with a red ellipse in the structure of hemoglobin?

Helix D, which is the dominant difference between β and α subunits.

p.28
Carbon Dioxide Transport and Acid-Base Regulation

What happens to CO2 in the lungs?

It is exhaled, with a small amount binding to hemoglobin.

p.23
Hemoglobin Formation and Types

What is the predominant form of hemoglobin in the fetus?

Fetal hemoglobin (HbF), formed by 2 alpha and 2 gamma globins.

p.23
Factors Affecting Hemoglobin Affinity for Oxygen

How can amino acid substitutions affect hemoglobin?

They can lead to reduced binding of 2,3-DPG and higher affinity for oxygen.

p.21
Factors Affecting Hemoglobin Affinity for Oxygen

How does 2,3-DPG modulate Hb-O2 affinity?

2,3-DPG binds to Hb, stabilizing the T state and reducing O2 affinity.

p.17
Bohr and Haldane Effects

What is the relationship between hemoglobin's affinity for O2 and acidity (pH)?

The affinity is inversely related to acidity (pH).

p.14
Hemoglobin Structure and Function

What are the two states of hemoglobin?

Tense (T) state and Relaxed (R) state.

p.2
Differences Between Myoglobin and Hemoglobin

What are the main differences between myoglobin and hemoglobin?

Myoglobin is primarily for oxygen storage, while hemoglobin is for oxygen transport.

p.3
Red Blood Cell Characteristics

What is the shape of Red Blood Cells (RBCs)?

Biconcave discs.

p.18
Bohr and Haldane Effects

What happens to hemoglobin when CO2 and H+ levels increase?

Hemoglobin undergoes conformational changes favoring the tense (T) state.

p.20
Allosteric Regulation of Hemoglobin

What is 2,3-DPG and how is it formed?

2,3-DPG is formed during the conversion of glucose to lactate via an alternative pathway to the main glycolytic pathway.

p.29
Differences Between Myoglobin and Hemoglobin

What is the primary function of Myoglobin (Mb)?

To serve as a reservoir of O2 for exercising muscles.

p.16
Allosteric Regulation of Hemoglobin

How does carbon dioxide affect hemoglobin's state?

It contributes to favoring either the T or R state.

p.29
Differences Between Myoglobin and Hemoglobin

Which has a higher affinity for O2, Myoglobin (Mb) or Hemoglobin (Hb)?

Myoglobin (Mb) has a higher affinity for O2.

p.6
Red Blood Cell Characteristics

What organelles are typically absent in mature red blood cells?

Nucleus and other organelles.

p.7
Red Blood Cell Characteristics

What is the average lifespan of red blood cells (RBCs)?

Approximately 120 days.

p.13
Allosteric Regulation of Hemoglobin

What happens to hemoglobin's affinity for O2 as more heme groups bind O2?

Hemoglobin's affinity for O2 increases.

p.14
Oxygenated vs. Deoxygenated Hemoglobin

What is the deoxygenated state of hemoglobin referred to as?

Tense (T) state.

p.19
Bohr and Haldane Effects

How does acidity affect oxygen delivery in the Bohr Effect?

Increased acidity promotes oxygen dissociation from hemoglobin.

p.16
Allosteric Regulation of Hemoglobin

What are the two states of hemoglobin?

Tense (T) and Relaxed (R) states.

p.16
Factors Affecting Hemoglobin Affinity for Oxygen

What factors modulate hemoglobin's affinity for oxygen?

Carbon dioxide (CO2), hydrogen ions (H+), 2,3-diphosphoglycerate (2,3-DPG or 2,3-BPG), and local temperature.

p.28
Carbon Dioxide Transport and Acid-Base Regulation

What is the primary form in which CO2 is transported in the blood?

As bicarbonate (HCO3-) and H+.

p.24
Sickle Cell Anemia and Genetic Variants

What amino acid change occurs in sickle cell anemia?

Glutamic acid (GAG) is converted to valine (GTG).

p.20
Allosteric Regulation of Hemoglobin

What happens to 2,3-DPG after it is formed?

It is converted to 3-phosphoglycerate by 2,3-DPG phosphatase.

p.29
Differences Between Myoglobin and Hemoglobin

What role does Myoglobin (Mb) play in intracellular O2 transport?

It helps transport O2 from the plasma membrane to mitochondria.

p.29
Differences Between Myoglobin and Hemoglobin

From what did Myoglobin (Mb) and Hemoglobin (Hb) evolve?

They evolved from a common ancestral gene.

p.23
Sickle Cell Anemia and Genetic Variants

What is MetHb and its significance?

Methemoglobin (MetHb) has increased levels of heme with Fe3+ and cannot bind O2.

p.13
Allosteric Regulation of Hemoglobin

What is the significance of hemoglobin being saturated in low affinity?

It indicates that hemoglobin can hold onto O2 more effectively when it is fully saturated.

p.14
Oxygenated vs. Deoxygenated Hemoglobin

What is the oxygenated state of hemoglobin referred to as?

Relaxed (R) state.

p.8
Red Blood Cell Characteristics

What is the normal range for hematocrit?

40 - 45% (slightly lower in women).

p.27
Factors Affecting Hemoglobin Affinity for Oxygen

What does a leftward shift in the hemoglobin-oxygen dissociation curve indicate?

Increased affinity of hemoglobin for oxygen.

p.27
Factors Affecting Hemoglobin Affinity for Oxygen

What is the significance of the plateau in the hemoglobin-oxygen dissociation curve?

It indicates the saturation of hemoglobin with oxygen.

p.10
Hemoglobin Formation and Types

What is the predominant form of hemoglobin in adults?

Hemoglobin A (HbA), which consists of 2 α and 2 β chains.

p.12
Hemoglobin Formation and Types

What stabilizes the heme group in hemoglobin?

The distal (E7H) and proximal (F8H) histidines.

p.23
Hemoglobin Formation and Types

What is the normal adult hemoglobin structure?

Formed by 2 alpha and 2 beta subunits (HbA).

p.22
Sickle Cell Anemia and Genetic Variants

What is the significance of genetic variants in hemoglobin?

There are over 1,000 naturally occurring Hb variants that can alter Hb affinity for O2 or its modulators.

p.3
Red Blood Cell Characteristics

What role do cytoskeleton proteins play in Red Blood Cells?

They confer large deformation capacity, allowing RBCs to squeeze through capillaries.

p.18
Bohr and Haldane Effects

How does the Bohr effect influence hemoglobin's affinity for oxygen?

It decreases hemoglobin's affinity for O2.

p.24
Sickle Cell Anemia and Genetic Variants

What happens to hemoglobin in homozygous individuals ('SS') when exposed to low oxygen?

It forms elongated crystals, leading to vascular occlusion and hemolysis.

p.16
Allosteric Regulation of Hemoglobin

What is the significance of 2,3-diphosphoglycerate (2,3-DPG) in hemoglobin function?

It influences the balance between the T and R states of hemoglobin.

p.12
Hemoglobin Formation and Types

What color represents the α-helices in the hemoglobin structure?

Red.

p.12
Hemoglobin Formation and Types

What color represents the loops in the hemoglobin structure?

Green.

p.18
Bohr and Haldane Effects

What happens to the Hb-O2 dissociation curve due to the Bohr effect?

It shifts to the right.

p.20
Allosteric Regulation of Hemoglobin

Where does 2,3-DPG bind in hemoglobin?

To the central charged cavity of deoxyhemoglobin.

p.24
Sickle Cell Anemia and Genetic Variants

What advantage does the heterozygote condition provide in populations?

It offers some protection against malaria.

p.22
Factors Affecting Hemoglobin Affinity for Oxygen

How does heavy smoking affect hemoglobin function?

Increases carbon monoxide inhalation and may lead to lung emphysema.

p.21
Bohr and Haldane Effects

What effect does high O2 have in the lungs regarding CO2 and H+?

High O2 displaces CO2 and H+, reducing available binding sites for 2,3-DPG as Hb shifts to the R state.

p.23
Oxygenated vs. Deoxygenated Hemoglobin

Why does HbF have a higher affinity for oxygen?

Because it has low affinity for 2,3-DPG, as gamma globins don’t form the binding site for it.

p.10
Hemoglobin Formation and Types

What state must iron be in for hemoglobin to bind oxygen?

Iron must be in the ferrous (Fe2+) state to bind oxygen; ferric (Fe3+) cannot bind.

p.21
Bohr and Haldane Effects

What happens in the tissues when CO2 and H+ levels are high?

High CO2 and H+ (lower pH) displace O2 and increase available binding sites for 2,3-DPG as Hb shifts to the T state.

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