Cytoskeleton II Chapter 16
Tubulin heterodimer is the microtubule subunit
Microtubule structure
Growing and shrinking microtubules
Growing and shrinking microtubules
Structure of actin
Actin binds to many different proteins
Intermediate filaments
Model of intermediate filament structure
Model of intermediate filaments
Intermediate filaments can withstand high levels of deforming force
Keratin filaments in an epithelial cell
Blistering of the skin caused by a mutant keratin gene Normal skin
Blistering of the skin caused by a mutant keratin gene Skin with mutated keratin gene
Blistering of the skin caused by a mutant keratin gene Cells rupture between the nucleus and the hemi- desmosomes
Polymerization of tubulin is nucleated by the γ-tubulin ring
Electron micrograph of purified γ-tubulin complexes
Single microtubules nucleated from the γ-tubulin ring
The centrosome is the major microtubule organizing center of animal cells and contain γ-tubulin ring complexes
Centriole surrounded by centrosome matrix
figure 09-08a.jpg
figure 09-08a.jpg
figure 09-09.jpg Figure 9.9 Figure 9.9 spindle
figure 09-08b.jpg
Leading edge of cell nucleates actin filaments all actin filaments Newly formed actin filaments
Model for actin filament nucleation by ARP complex
ARP complex nucleates more efficiently when bound to preexisting actin filament
Electron micrograph of branched actin filaments
Thymosin inhibition
Profilin recruitment
Stathmin sequesters free tubulin
Monomer concentration and capping protein determine growth or shrinkage rate
Stabilization and destabilization of microtubules
Capping proteins direct microtubules to specific locations in the cell