Micropatterning in Cell Biology, Part B
Volume 120
Micropatterning in Cell Biology, Part B
Volume 120
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This new volume of Methods in Cell Biology is the second volume describing micropatterning, complementing Volume 119. Chapters are written by experts in the field and include cutting-edge material.
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This new volume of Methods in Cell Biology is the second volume describing micropatterning, complementing Volume 119. Chapters are written by experts in the field and include cutting-edge material.
Produktdetails
- Produktdetails
- Verlag: Elsevier Health Sciences
- Seitenzahl: 288
- Erscheinungstermin: 7. Februar 2014
- Englisch
- Abmessung: 241mm x 192mm x 22mm
- Gewicht: 825g
- ISBN-13: 9780124171367
- ISBN-10: 0124171362
- Artikelnr.: 40028246
- Verlag: Elsevier Health Sciences
- Seitenzahl: 288
- Erscheinungstermin: 7. Februar 2014
- Englisch
- Abmessung: 241mm x 192mm x 22mm
- Gewicht: 825g
- ISBN-13: 9780124171367
- ISBN-10: 0124171362
- Artikelnr.: 40028246
Section 1 Micropatterning isolated cell components1 Mitotic Spindle
Assembly on Chromatin Patterns Made with Deep UV Photochemistry2
Geometrical control of actin assembly and contractility3 Micropatterning
Microtubules4 Micropatterned, Multicomponent Supported Lipid Bilayers for
Cellular Systems5 Reconstituting Functional Microtubule-Barrier
Interactions
Section 2 Dynamic micro-patterning6 Polyacrylamide Hydrogel
Micropatterning7 Dynamic Photo-chemical Silane Micro-patterning8 Dynamic
Photo-chemical Lipid Micropatterning for Manipulation of Non-adherent
Mammalian Cells9 Thermosensitive Micropatterned Substrates10 Fabrication of
Micropatterned Arrays of Gold Nanoparticles for Photothermal Manipulation
of Living Cells11 A Reagent-based Dynamic Trigger for Cell Adhesion, Shape
Change or Cocultures12 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
yeasts13 Preparing Substrates Encoding Cell Patterning and Localized
Intracellular Magnetic Particle Stimulus for High-throughput
Experimentation14 Microfabricated Chambers as Force-Sensors for Probing
Forces of Fungal Growth15 Visualizing Single Rod-shaped Fission Yeast
Vertically in Micro-sized Holes on Agarose Pad Made by Soft-lithography16
Microfabricated Environments to Study Collective Cell Behaviors
Assembly on Chromatin Patterns Made with Deep UV Photochemistry2
Geometrical control of actin assembly and contractility3 Micropatterning
Microtubules4 Micropatterned, Multicomponent Supported Lipid Bilayers for
Cellular Systems5 Reconstituting Functional Microtubule-Barrier
Interactions
Section 2 Dynamic micro-patterning6 Polyacrylamide Hydrogel
Micropatterning7 Dynamic Photo-chemical Silane Micro-patterning8 Dynamic
Photo-chemical Lipid Micropatterning for Manipulation of Non-adherent
Mammalian Cells9 Thermosensitive Micropatterned Substrates10 Fabrication of
Micropatterned Arrays of Gold Nanoparticles for Photothermal Manipulation
of Living Cells11 A Reagent-based Dynamic Trigger for Cell Adhesion, Shape
Change or Cocultures12 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
yeasts13 Preparing Substrates Encoding Cell Patterning and Localized
Intracellular Magnetic Particle Stimulus for High-throughput
Experimentation14 Microfabricated Chambers as Force-Sensors for Probing
Forces of Fungal Growth15 Visualizing Single Rod-shaped Fission Yeast
Vertically in Micro-sized Holes on Agarose Pad Made by Soft-lithography16
Microfabricated Environments to Study Collective Cell Behaviors
Section 1 Micropatterning isolated cell components1 Mitotic Spindle
Assembly on Chromatin Patterns Made with Deep UV Photochemistry2
Geometrical control of actin assembly and contractility3 Micropatterning
Microtubules4 Micropatterned, Multicomponent Supported Lipid Bilayers for
Cellular Systems5 Reconstituting Functional Microtubule-Barrier
Interactions
Section 2 Dynamic micro-patterning6 Polyacrylamide Hydrogel
Micropatterning7 Dynamic Photo-chemical Silane Micro-patterning8 Dynamic
Photo-chemical Lipid Micropatterning for Manipulation of Non-adherent
Mammalian Cells9 Thermosensitive Micropatterned Substrates10 Fabrication of
Micropatterned Arrays of Gold Nanoparticles for Photothermal Manipulation
of Living Cells11 A Reagent-based Dynamic Trigger for Cell Adhesion, Shape
Change or Cocultures12 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
yeasts13 Preparing Substrates Encoding Cell Patterning and Localized
Intracellular Magnetic Particle Stimulus for High-throughput
Experimentation14 Microfabricated Chambers as Force-Sensors for Probing
Forces of Fungal Growth15 Visualizing Single Rod-shaped Fission Yeast
Vertically in Micro-sized Holes on Agarose Pad Made by Soft-lithography16
Microfabricated Environments to Study Collective Cell Behaviors
Assembly on Chromatin Patterns Made with Deep UV Photochemistry2
Geometrical control of actin assembly and contractility3 Micropatterning
Microtubules4 Micropatterned, Multicomponent Supported Lipid Bilayers for
Cellular Systems5 Reconstituting Functional Microtubule-Barrier
Interactions
Section 2 Dynamic micro-patterning6 Polyacrylamide Hydrogel
Micropatterning7 Dynamic Photo-chemical Silane Micro-patterning8 Dynamic
Photo-chemical Lipid Micropatterning for Manipulation of Non-adherent
Mammalian Cells9 Thermosensitive Micropatterned Substrates10 Fabrication of
Micropatterned Arrays of Gold Nanoparticles for Photothermal Manipulation
of Living Cells11 A Reagent-based Dynamic Trigger for Cell Adhesion, Shape
Change or Cocultures12 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
yeasts13 Preparing Substrates Encoding Cell Patterning and Localized
Intracellular Magnetic Particle Stimulus for High-throughput
Experimentation14 Microfabricated Chambers as Force-Sensors for Probing
Forces of Fungal Growth15 Visualizing Single Rod-shaped Fission Yeast
Vertically in Micro-sized Holes on Agarose Pad Made by Soft-lithography16
Microfabricated Environments to Study Collective Cell Behaviors