Erythrocyte precursor cell: Difference between revisions
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imported>Howard C. Berkowitz (New page: {{subpages}} '''Erythrocyte precursor cells''' reside in the bone marrow, and are part of erythropoesis, the formation of circulating erythrocytes (i.e., red blood cells). The...) |
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'''Erythrocyte precursor cells''' reside in the [[bone marrow]], and are part of [[erythropoesis]], the formation of circulating [[erythrocyte]]s (i.e., red blood cells). | '''Erythrocyte precursor cells''' reside in the [[bone marrow]], and are part of [[erythropoesis]], the formation of circulating [[erythrocyte]]s (i.e., red blood cells). | ||
The erythroid progenitor cells develop in two phases: erythroid burst-forming units ( BFU-E) followed by erythroid colony-forming units ( CFU-E); BFU-E differentiate into CFU-E on stimulation by [[erythropoietin]], and then further differentiate into [[erythroblast]]s when stimulated by other factors. | The erythroid progenitor cells develop in two phases: erythroid burst-forming units ( BFU-E) followed by erythroid colony-forming units ( CFU-E); BFU-E differentiate into CFU-E on stimulation by [[erythropoietin]], and then further differentiate into [[erythroblast]]s when stimulated by other factors.[[Category:Suggestion Bot Tag]] | ||
Latest revision as of 16:00, 13 August 2024
Erythrocyte precursor cells reside in the bone marrow, and are part of erythropoesis, the formation of circulating erythrocytes (i.e., red blood cells).
The erythroid progenitor cells develop in two phases: erythroid burst-forming units ( BFU-E) followed by erythroid colony-forming units ( CFU-E); BFU-E differentiate into CFU-E on stimulation by erythropoietin, and then further differentiate into erythroblasts when stimulated by other factors.