3.4.2 Haemoglobin & Oxygen

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Haemoglobin is a vital globular protein found in red blood cells, responsible for transporting oxygen from the lungs to tissues and facilitating the removal of carbon dioxide.

Structure of Haemoglobin:

Protein Composition:

Haemoglobin is a water-soluble globular protein made of:
Two alpha polypeptide chains.
Two beta polypeptide chains.

Haem Group:

Each polypeptide contains a haem group, which includes an iron ion $(Fe²⁺)$ .
The haem group can bind to one oxygen molecule.

Oxygen Capacity:

Each haemoglobin molecule can bind to four oxygen molecules, forming oxyhaemoglobin.

Affinity for Oxygen:

Definition:

The affinity of haemoglobin refers to its ability to bind to oxygen.

Partial Pressure of Oxygen ( $pO₂$ ):

Partial pressure is a measure of oxygen concentration.
The higher the partial pressure of oxygen, the greater the affinity of haemoglobin for oxygen.

Oxygen Binding and Release:

In the Lungs:

High $pO₂$ in the alveoli increases haemoglobin's affinity for oxygen.
Oxygen binds to haemoglobin in a process called loading or association.

In Respiring Tissues:

Low $pO₂$ in tissues reduces haemoglobin's affinity for oxygen.
Oxygen is released in a process called unloading or dissociation.
This ensures oxygen is delivered to cells where it is needed for respiration.

Oxygen Dissociation Curve:

S-Shaped (Sigmoidal) Curve:

The curve shows the relationship between and haemoglobin's saturation with oxygen. $pO₂$

Key Features:

Low $pO₂$ : Haemoglobin has a low affinity for oxygen (less saturated).
Increasing $pO₂$ : Haemoglobin's affinity for oxygen increases as the first oxygen molecule binds, making it easier for the remaining oxygen molecules to bind (cooperative binding).
High $pO₂$ : Haemoglobin becomes saturated with oxygen.

Role of Haemoglobin in Gas Transport:

Loading:

Haemoglobin binds oxygen in the lungs where $pO₂$ is high.
Forms oxyhaemoglobin.

Unloading:

Haemoglobin releases oxygen in tissues where $pO₂$ is low.
Oxygen diffuses into respiring cells.

Transport of Carbon Dioxide:

Haemoglobin also helps transport carbon dioxide back to the lungs for exhalation.

Adaptations of Haemoglobin in Different Organisms:

High-Altitude Organisms:

Haemoglobin has a higher affinity for oxygen to cope with lower $pO₂$ in the environment.

Active Organisms:

Haemoglobin has a lower affinity for oxygen, allowing oxygen to be unloaded more easily for rapid respiration.

Foetal Haemoglobin:

Higher affinity for oxygen compared to adult haemoglobin, enabling the foetus to extract oxygen from the mother's blood.

Key Terms:

Haemoglobin: Protein in red blood cells that carries oxygen.
Oxyhaemoglobin: Haemoglobin bound to oxygen.
Loading/Association: Binding of oxygen to haemoglobin.
Unloading/Dissociation: Release of oxygen from haemoglobin.
Partial Pressure ( $pO₂$ ): Measure of oxygen concentration.

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Tip for Exams:

Understand and describe the oxygen dissociation curve, including its shape and key points.
Link changes in $pO₂$ to the processes of loading and unloading.
Be able to compare haemoglobin adaptations in organisms living in different environments.

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Summary:

Haemoglobin is a globular protein that binds oxygen via its haem group.
Affinity for oxygen depends on the partial pressure of oxygen.
Oxygen is loaded in the lungs (high $pO₂$ ) and unloaded in respiring tissues (low $pO₂$ ).
Haemoglobin's structure and function are adapted in different organisms to meet their specific needs.

Haemoglobin & Oxygen Simplified Revision Notes for A-Level AQA Biology

3.4.2 Haemoglobin & Oxygen

Structure of Haemoglobin:

Affinity for Oxygen:

Oxygen Binding and Release:

Oxygen Dissociation Curve:

Role of Haemoglobin in Gas Transport:

Adaptations of Haemoglobin in Different Organisms:

Key Terms:

Tip for Exams:

Summary:

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