Oxygen-Hemoglobin Binding Factors — NEET Biology
✅ Asked in NEET 2024Haemoglobin is a red coloured iron containing pigment present in the RBCs. O₂ can bind with haemoglobin in a reversible manner to form oxyhaemoglobin. Each haemoglobin molecule can carry a maximum of four molecules of O₂. Binding of oxygen with haemoglobin is primarily related to partial pressure of O₂. Partial pressure of CO₂, hydrogen ion concentration and temperature are the other factors which can interfere with this binding. A sigmoid curve is obtained when percentage saturation of haemoglobin with O₂ is plotted against the pO₂. This curve is called the Oxygen dissociation curve and is highly useful in studying the effect of factors like pCO₂, H⁺ concentration, etc., on binding of O₂ with haemoglobin. In the alveoli, where there is high pO₂, low pCO₂, lesser H⁺ concentration and lower temperature, the factors are all favourable for the formation of oxyhaemoglobin, whereas in the tissues, where low pO₂, high pCO₂, high H⁺ concentration and higher temperature exist, the conditions are favourable for dissociation of oxygen from the oxyhaemoglobin. This clearly indicates that O₂ gets bound to haemoglobin in the lung surface and gets dissociated at the tissues. Every 100 ml of oxygenated blood can deliver around 5 ml of O₂ to the tissues under normal physiological conditions.
NTA tests whether students understand the four factors that control O₂-hemoglobin binding: pO₂, pCO₂, H⁺ concentration, and temperature. Students often memorize these factors but fail to connect them to specific locations—lungs vs. tissues—where binding or dissociation occurs. The key trap: confusing which factors favor binding (high pO₂, low pCO₂, low H⁺, low temperature in alveoli) versus dissociation (low pO₂, high pCO₂, high H⁺, high temperature in tissues). To score: remember that alveolar conditions load O₂ onto hemoglobin, while tissue conditions unload it. This concept appears repeatedly because it directly links respiration physiology to gas transport.
This paragraph was tested 3 times in NEET.
Which condition favours oxyhaemoglobin formation in alveoli? NEET 2024
Select the favourable conditions required for the formation of oxyhaemoglobin at the alveoli. NEET 2021
Identify the wrong statement with reference to transport of oxygen. NEET 2020
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