The oxygen is carried by Hemoglobin to the Tissues! What happens is, that there's something called the Allosteric Inhibition! Which means, when the Hemoglobin reaches the tissue, there will be lots of Co2 released in the tissue, during release of energy, the partial pressure of co2 inside the tissue will be high, so that with pressure gradient, it will travel outside the tissue to the artery and then into the hemoglobin where it binds to different sites and when that happens, it allosterically inhibits the Hemoglobin molecule to let go of Oxygen, and the oxygen is bounded as per cooperativity which means when one oxygen is bounded it will be easier for others to get bound to it, and in the same way when co2 attaches itself to the Hemoglobin, the oxygen start to disassociate as the Hemoglobin changes its shape and once one oxygen molecule leaves the hemoglobin it would be harder for the molecule to hold on to the rest of the 3 molecules! So in such way the oxygen leaves the hemoglobin!
Oxygen is transported through the circulatory system by binding to hemoglobin in red blood cells. Hemoglobin carries the oxygen from the lungs to the tissues in the body where it is needed for cellular respiration. The oxygen is released from hemoglobin and diffuses into the surrounding tissues to support their metabolic functions.
Oxygen is transported by blood from the lungs to tissues primarily by binding to hemoglobin in red blood cells. Hemoglobin carries oxygen from the lungs to tissues where it is released for cellular respiration. Through this process, oxygen diffuses from high concentrations in the lungs to areas with lower concentrations in the body tissues.
Oxygen is transported from the lungs to the tissues through the bloodstream. It binds to hemoglobin molecules in red blood cells, forming oxyhemoglobin. The heart pumps oxygen-rich blood through arteries to the tissues, where oxygen is released for cellular respiration.
The substance created when oxygen joins with hemoglobin is called oxyhemoglobin. This compound forms in the lungs when oxygen binds to the iron in hemoglobin, allowing it to be transported through the bloodstream to cells and tissues for energy production.
As red blood cells travel through capillaries oxygen is released (disassociated) with hemoglobin. The oxygen then diffuses down it's concentration gradient into the tissues.
Red blood cells, specifically through the protein hemoglobin contained within them, are responsible for carrying the majority of oxygen to the tissues in the body. Hemoglobin binds to oxygen in the lungs and releases it in the tissues where it is needed for cellular metabolism.
Red blood cells transport oxygen from the lungs to tissues through the protein hemoglobin, which binds to oxygen in the lungs and releases it in tissues. This process is facilitated by the high concentration of oxygen in the lungs and lower concentration in tissues, creating a gradient for oxygen to be transported. The shape and characteristics of hemoglobin allow for efficient binding and release of oxygen as needed by the body.
Unloading of oxygen refers to the release of oxygen from hemoglobin molecules into tissues where oxygen is needed for cellular respiration. This occurs as a result of a decrease in oxygen concentration or an increase in carbon dioxide concentration in the tissues, which promotes the dissociation of oxygen from hemoglobin.
Hemoglobin carries oxygen in red blood cells from the lungs to the tissues of the body. In the lungs, oxygen binds to the iron in hemoglobin to form oxyhemoglobin, which is then transported via the bloodstream to tissues where oxygen is released for cellular respiration. This process is facilitated by the concentration gradient of oxygen between the lungs and tissues.
Oxygen is carried through the bloodstream by binding to hemoglobin, a protein found in red blood cells. Hemoglobin can effectively capture and release oxygen, allowing it to be transported from the lungs to body tissues where it is needed.
Inhaled oxygen diffuses through the walls of the alveoli in the lungs, then into the bloodstream where it binds to hemoglobin in red blood cells for transportation to tissues and cells in the body.
Hemoglobin picks up oxygen from the lungs through a process called oxygen binding. In the lungs, oxygen binds to the iron atoms in the heme groups within hemoglobin molecules. This forms oxyhemoglobin, which can then be transported by red blood cells to tissues throughout the body.