Bookedited by Ron Vale ; contributors Anna Akhmanova [and seven nine others].
Contents:
Actin filament dynamics using microfluidics
Bacterial actin-like proteins: purification and characterization of self-assembly properties
Quantitative analysis of microtubule self-assembly kinetics and tip structure
Biochemical reconstitution of the WAVE regulatory complex
Rotational movement of formins evaluated by using single-molecule fluorescence polarization
Single-molecule studies of actin assembly and disassembly factors
Assaying microtubule nucleation of the [gamma]-Tubulin ring complex
Reconstituting dynamic microtubule polymerization regulation by TOG domain proteins
Generation of differentially modified microtubules using In Vitro enzymatic approaches
Engineering defined motor ensembles with DNA origami
Construction and analyses of elastically coupled multiple-motor systems
Reconstitution of cortical dynein function
Reconstitution of microtubule-dependent organnelle transport
Reconstituting the motility of isolated intracellular cargoes
Reconstitution of contractile actomyosin arrays
Directed actin assembly and motility
In Vitro reconstitution of dynamic microtubules interacting with actin filament networks
Measuring kinetochore-microtubule interaction In Vitro
Micropattern-guided assembly of overlapping pairs of dynamic microtubules
WAVE regulatory complex activation
Dissecting principles governing actin assembly using yeast extracts
Xenopus egg ctyoplasm with intact actin
Glycogen-supplemented mitotic cytosol for analyzing xenopus egg microtubule organization
Spindle assembly on immmobilized chromatin micropatterns.