Information AboutPseudopod |
| CATEGORIES ABOUT PSEUDOPOD | |
| cell anatomy | |
| SHOPPER'S DELIGHT | |
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FORMATION First, the cell surface extends a membrane process, named lamellipodium. Polymerization of Actin takes place and form filaments at the leading edge, which subsequently will blend into one another to form networks. We suppose that actin polymerization is at the origin of the force propelling the cell forwards. FUNCTION They are involved in a variety of cell activities, most notably: Mechanical role Pseudopods are one of the three Locomotion modes of Unicellular organisms (together with Flagella and Cilia ). Sensory role Pseudopods also capture prey Phagocytosis . Phagocytosis pseudopods have arisen in a number of different Protist groups, but also in some cells ( Phagocyte s) in Multicellular organisms. MORPHOLOGY Pseudopods can be classified into several varieties according to their appearance: Lobopodia are bulbous, short and blunt in form, very typical of Amoebozoa . Filopodia are more slender and filiform with pointed ends, consisting mainly of Ectoplasm . These formations are supported by Microfilament s. Reticulopodia , also known as '''reticulose pseudopods''', are complex formations where individual pseudopods are blended together and form irregular nets. Axopodia are thin pseudopods containing complex arrays of Microtubule s and are enveloped by Cytoplasm . Axopodia are responsible for phagocytosis, by rapidly retracting in response to physical contacts. They are observed in Radiolaria and Heliozoa . |