Micropatterning in Cell Biology, Part A

Matthieu Piel (Redaktør) ; Manuel Théry (Redaktør)

This new volume of Methods in Cell Biology looks at micropatterning in cell biology and includes chapters on protein photo-patterning on PEG with benzophenone, laser-directed cell printing and dip pen nanolithography. Les mer
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1991,-

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Innbundet
Legg i
Vår pris: 1991,-

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

Om boka

This new volume of Methods in Cell Biology looks at micropatterning in cell biology and includes chapters on protein photo-patterning on PEG with benzophenone, laser-directed cell printing and dip pen nanolithography. The cutting-edge material in this comprehensive collection is intended to guide researchers for years to come.

Fakta

Innholdsfortegnelse

Section 1:  Micro-patterning in 2D Ch1 Stamp-off” to micropattern sparse, multicomponent features Ch2 Poly(vinyl alcohol)-Micropatterned Surfaces for Manipulation of Mesenchymal Stem Cell Functions Ch3 Patterning of polymeric cell culture substrates Ch4 Photopatterning with a Printed Transparency Mask and a Protein-Friendly Photoresist Ch5 Plasma Micro-Contact Patterning : a technique for the precise control of surface patterning at small-scale Ch6 Patterning Gradients

Section 2: Maskless Micropatterning Ch7 Laser-assisted absorption by photobleaching Ch8 Micropatterning with a liquid-crystal display (LCD) projector Ch9 Cell patterning by Laser-assisted bioprinting Ch10 Stereomask lithography for multi-protein patterning Ch11 Fabrication of Multifaceted, Micropatterned Surfaces and Image-Guided Patterning Using Laser Scanning Lithography Ch12 Print-to-print: Printer-enabled Out-of-cleanroom Multi-object Microprinting Method

Section 3: 2D Nanopatterning Ch13 Soft/Elastic Nano-Patterned Biointerfaces in the Service of  Cell Biology Ch14 Combinatorial Screening of Mesenchymal Stem Cell Adhesion and Differentiation Using Polymer Pen Lithography Ch15 High fidelity nanopatterning of proteins onto well-defined surfaces through subtractive contact printing Ch16 The use of microarrays and fluorescence in situ hybridisation for the study of mechanotransduction from topography

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.