Micropatterning in Cell Biology, Part B

Matthieu Piel (Redaktør) ; Manuel Théry (Redaktør)

This new volume of Methods in Cell Biology is the second volume describing micropatterning, complementing Volume 120. Chapters are written by experts in the field and include cutting-edge material. Les mer
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Legg i
Vår pris: 1755,-

(Innbundet) Fri frakt!
Leveringstid: Sendes innen 21 dager

Om boka

This new volume of Methods in Cell Biology is the second volume describing micropatterning, complementing Volume 120. Chapters are written by experts in the field and include cutting-edge material.

Fakta

Innholdsfortegnelse

Section 1 Micropatterning isolated cell components 1 Mitotic Spindle Assembly on Chromatin Patterns Made with Deep UV Photochemistry 2 Geometrical control of actin assembly and contractility 3 Micropatterning Microtubules 4 Micropatterned, Multicomponent Supported Lipid Bilayers for Cellular Systems 5 Reconstituting Functional Microtubule-Barrier Interactions

Section 2 Dynamic micro-patterning 6 Polyacrylamide Hydrogel Micropatterning 7 Dynamic Photo-chemical Silane Micro-patterning 8 Dynamic Photo-chemical Lipid Micropatterning for Manipulation of Non-adherent Mammalian Cells 9 Thermosensitive Micropatterned Substrates 10 Fabrication of Micropatterned Arrays of Gold Nanoparticles for Photothermal Manipulation of Living Cells 11 A Reagent-based Dynamic Trigger for Cell Adhesion, Shape Change or Cocultures 12 Cell Patterning by Micro-pattern Projection of UV Light Through Photo-induced Enhancement of Cell Adhesion (PIECA)

Section 3 Micropatterning for specific applications, from forces to yeasts 13 Preparing Substrates Encoding Cell Patterning and Localized Intracellular Magnetic Particle Stimulus for High-throughput Experimentation 14 Microfabricated Chambers as Force-Sensors for Probing Forces of Fungal Growth 15 Visualizing Single Rod-shaped Fission Yeast Vertically in Micro-sized Holes on Agarose Pad Made by Soft-lithography 16 Microfabricated Environments to Study Collective Cell Behaviors

Om forfatteren

Matthieu Piel and his team develop microfabricated and microfluidic tools to quantitatively control the physical parameters of the cell’s environment and study how cells grow, divide and migrate. The team focused on how physical confinement, geometry and forces affect cell division and cell migration. The general aim of these studies is to draw a line between the physics of the active matter cells are made of and the behavior of cells in the complex environment of tissues, in the context of the immune response and tumor development.