movement of vesicles notsimple diffusion
attached to elements of cytoskeleton intracellular rods and fibersmadeof many proteins
movedby motorproteins
1. Describe the ways that microtubules and microfilaments assemble, and changes in assembly and their associated motor proteins can anchor or move cellular components and organelles. 2. Diagram how microtubule sliding changes the shape of cilia and flagella. 3. Provide examples of how microfilaments and their associated myosin motor proteins can change cellular shape and movement. 4. Describe how the intermediate filaments provide structural support for membranes. 5. Provide evidence in favor of the endosymbiont origin of semi-autonomous organelles like mitochondria and chloroplasts. 6. Diagram the cellular locations of the different phases of cellular respiration, showing which phases use substrate-level phosphorylation of ADP. Cytoskeleton, Actin and microfilament, tubulin and microtubule, motor proteins (dynein, kinesin, myosin), cilia, flagella, pseudopodia, intermediate filament, Lamin. Semi-autonomous organelle, Endosymbiont, Mitochondrion, Matrix, Inner membrane, Chroloplast, Respiration: Glycolysis, Citric acid (Krebs) cycle, Substrate-level phosphorylation, Oxidative phosphorylation, Reduction vs oxidation
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