largest cell found in the bone marrow, and it forms platelets by shedding pieces of its cytoplasm (also called "cytoplasmic fragmentation").
Platelets are formed from large cells called megakaryocytes. Megakaryocytes undergo a process called cytoplasmic fragmentation to produce platelets, which are involved in blood clotting.
A red blood cell is a type of cell that contains no nucleus, and thus does not have a hole.
Both mitosis and meiosis start from a type of cell called a diploid cell.
A pluripotent cell can develop into any cell type in the body, while a totipotent cell can develop into any cell type as well as the extraembryonic tissues needed for fetal development.
A Prokaryote is an organism which has no nucleus.
Platelets are formed from large cells called megakaryocytes. Megakaryocytes undergo a process called cytoplasmic fragmentation to produce platelets, which are involved in blood clotting.
megakaryocyte
Thrombocytes are platelets, derived from fragmentation of megakaryocytes. They are not white blood cells.
Thrombocytes are platelets, derived from fragmentation of megakaryocytes. They are not white blood cells.
Megakaryocytes form Thrombocytes ( platelets) which function in the formation of blood clotting
Megakaryocytes are the cells in the bone marrow which split up into several small platelets.
Thrombocytes, also known as platelets, are formed from the cytoplasm of megakaryocytes in the bone marrow. Megakaryocytes undergo a process called cytoplasmic fragmentation, where they produce small, disc-shaped cell fragments that are released into the bloodstream as thrombocytes.
These are fragments of megakaryocytes found in the blood. They are part of the circulatory system.
Megakaryocytes. Fragments constantly released from giant bone marrow cells.
platelets.
megakaryocytes
Megakaryocytes differentiate into platelets, which are crucial for blood clotting and wound healing. These large bone marrow cells undergo a process called endomitosis, leading to the formation of a polyploid cell that fragments into thousands of small, anucleate platelets. This process is essential for maintaining hemostasis and responding to vascular injury.