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The iron-containing substance in red blood cells that transports oxygen from the lungs to the rest of the body.
It consists of a protein (globulin) and haem (a porphyrin ring with an atom of iron at its center).
A metallic chemical element having atomic number 26, and symbol Fe. Iron-containing enzymes and proteins, often containing heme prosthetic groups, participate in many biological oxidations and in transport.
Human erythrocytes or red blood cells (RBCs) have a shape of a disk that appears to be "caved in" or almost flattened in the middle as shown in .
This bi-concave shape allows RBCs to bend and flow smoothly through the narrowest blood vessels in the body.
For instance, it takes about 20 seconds, on average, for a single RBC to complete one cycle of circulation.
This shape also facilitates oxygen transport.
A typical human RBC has a disk diameter of 6–8 µm and a thickness of 2 µm, being much smaller than most other human cells.
These cells have an average volume of about 90 fL with a surface of about 136 μm2.
They can swell up to a sphere shape containing 150 fL, without membrane distension.
Although RBCs are considered cells, they lack a nucleus (and DNA) and organelles.
RBCs, therefore, cannot divide or replicate like other cells of the body (e.g. skin cells); they also lack the machinery for proteinbiosynthesis.
RBC's have a short life span of about 120 days.
The blood's red color is due to the spectral properties of the hemic ironions in hemoglobin.
Each human red blood cell contains approximately 270 million of these hemoglobin biomolecules, each carrying four heme groups; hemoglobin comprises about a third of the total cell volume.
This protein is responsible for the transport of more than 98% of the oxygen (the remaining oxygen is carried dissolved in the blood plasma).
Adult humans have roughly 2–3 × 10^13 (20-30 trillion) RBCs at any given time, comprising approximately one quarter of the total human body cell number (women: ~4 to 5 million RBCs/uL of blood; men: ~5 to 6 million RBCs/uL of blood).
it is a bi-concave disc, easily bending to flow smoothly, its volume can swell from 90fL to 150 fL without membrane distension, it lacks machinery for protein biosynthesis or mitosis, and it holds 270 hemoglobin biomolecules which carry oxygen