Breadcrumbs Section. Click here to navigate to respective pages.
Chapter
Chapter
(actin, intermediate filaments, etc.) to form adynamie gel whose cellular activities (i.e. mitosis, growth, differentiation, locomotion, exocytosis, phagocytosis, synapse modulation, dendritic spine formation, cytoplasmic movement, neurotransmitter release, etc.) are essential to the living state. Orientation and directional guidance of these cytoskeletal functions depend on centrioles: cylindrical assemblies of nine MT triplets (structurally similar to cilia) arranged in pairs oriented perpendicular to each other. These centriole pairs, which constitute the focal point of the centrosome, or cell center, organize the array of cytoplasmic MT during interphase, duplicate at mitosis to nucleate the two poles of the mitotic spindie and establish orientation and architecture for the next generation of cells (Figure 3). Of the various filamentous structures comprise the cytoskeleton, MT are the
DOI link for (actin, intermediate filaments, etc.) to form adynamie gel whose cellular activities (i.e. mitosis, growth, differentiation, locomotion, exocytosis, phagocytosis, synapse modulation, dendritic spine formation, cytoplasmic movement, neurotransmitter release, etc.) are essential to the living state. Orientation and directional guidance of these cytoskeletal functions depend on centrioles: cylindrical assemblies of nine MT triplets (structurally similar to cilia) arranged in pairs oriented perpendicular to each other. These centriole pairs, which constitute the focal point of the centrosome, or cell center, organize the array of cytoplasmic MT during interphase, duplicate at mitosis to nucleate the two poles of the mitotic spindie and establish orientation and architecture for the next generation of cells (Figure 3). Of the various filamentous structures comprise the cytoskeleton, MT are the
(actin, intermediate filaments, etc.) to form adynamie gel whose cellular activities (i.e. mitosis, growth, differentiation, locomotion, exocytosis, phagocytosis, synapse modulation, dendritic spine formation, cytoplasmic movement, neurotransmitter release, etc.) are essential to the living state. Orientation and directional guidance of these cytoskeletal functions depend on centrioles: cylindrical assemblies of nine MT triplets (structurally similar to cilia) arranged in pairs oriented perpendicular to each other. These centriole pairs, which constitute the focal point of the centrosome, or cell center, organize the array of cytoplasmic MT during interphase, duplicate at mitosis to nucleate the two poles of the mitotic spindie and establish orientation and architecture for the next generation of cells (Figure 3). Of the various filamentous structures comprise the cytoskeleton, MT are the
ABSTRACT
(actin, intermediate filaments, etc.) to form adynamie gel whose cellular activities (i.e.