Red blood cells contain hemoglobin. It is used to carry oxygen from the lungs to body tissues.
Red blood cells contain hemoglobin and transport oxygen
red blood corpuscles
Yes. All blood types have hemoglobin. The ABO blood groups only refer to a sugar on the surface of red blood cells. Blood type O do not have this sugar.
Red blood cells.
protein.
Red blood cells carry oxygen by binding oxygen molecules to hemoglobin (an iron-based molecule).White blood cells fight infections and other germs, and platelets clot cuts. You need to intake a certain amount of iron to form the hemoglobin that holds oxygen on your red blood cells. If you don't, you can become "anemic" and you will get tired more quickly.Red blood cells are responsible for carrying oxygen in the body. The protein hemoglobin in red blood cells carries oxygen to deliver it to the other cells in the body.
Red blood cells. You have about 25 trillion red blood cells in your body.
1) Frog's red blood cells contain a nucleus that carries all the genetic information needed to make new cells by replication. Human red blood cells contain no nuclei because they reproduce differently than frog. 2) We human have platelets in our blood but frogs do not have them.
They are RBC's i.e. red blood cells.
Yes, red blood cells (RBCs) contain unique components, primarily hemoglobin, which is responsible for oxygen transport. Hemoglobin is a specialized protein that binds oxygen in the lungs and releases it in tissues. Additionally, the cell membrane of RBCs has specific proteins, such as blood group antigens, that determine blood types (e.g., A, B, AB, O), distinguishing them from other cell types.
Red blood cells carry oxygen to all the blood cells of the body with the help of a red pigment which is present in R.B.C (red blood cells) called haemoglobin.Oxygen sticks to the pigment and thus is carried to the cells.
Oxygen is primarily transported into blood cells by binding to hemoglobin molecules within red blood cells. This process occurs in the lungs where oxygen diffuses from the alveoli into the bloodstream and binds to hemoglobin, forming oxyhemoglobin.