Propelling soft objects

Hakim Boukellal; Julie Plastino; Vincent Noireaux; Cécile Sykes

doi:10.1016/S1631-0705(03)00029-X

Propelling soft objects

Hakim Boukellal, Julie Plastino, Vincent Noireaux, Cécile Sykes

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Cells move by the action of specific proteins or small molecules that assemble and interact, constituting a dynamic network called the cytoskeleton. Actin, one of the major components of eucaryotic cells, exists as filaments (semi-flexible polymers) or as monomers. Local assembly of the actin network leads to cell movement as well as to the propulsion of objects like bacteria or liposomes within cells. In order to understand the force generated for this propulsion, we use biomimetic experimental systems that allow for the control of physical parameters. We show evidence for the role of elasticity in the propulsion mechanism.

Original language	English (US)
Pages (from-to)	275-280
Number of pages	6
Journal	Comptes Rendus Physique
Volume	4
Issue number	2
DOIs	https://doi.org/10.1016/S1631-0705(03)00029-X
State	Published - Mar 2003

Keywords

Actin
Deformation
Droplet
Elasticity
Motility
Polymerisation

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title = "Propelling soft objects",

abstract = "Cells move by the action of specific proteins or small molecules that assemble and interact, constituting a dynamic network called the cytoskeleton. Actin, one of the major components of eucaryotic cells, exists as filaments (semi-flexible polymers) or as monomers. Local assembly of the actin network leads to cell movement as well as to the propulsion of objects like bacteria or liposomes within cells. In order to understand the force generated for this propulsion, we use biomimetic experimental systems that allow for the control of physical parameters. We show evidence for the role of elasticity in the propulsion mechanism.",

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AU - Boukellal, Hakim

AU - Plastino, Julie

AU - Noireaux, Vincent

AU - Sykes, Cécile

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AB - Cells move by the action of specific proteins or small molecules that assemble and interact, constituting a dynamic network called the cytoskeleton. Actin, one of the major components of eucaryotic cells, exists as filaments (semi-flexible polymers) or as monomers. Local assembly of the actin network leads to cell movement as well as to the propulsion of objects like bacteria or liposomes within cells. In order to understand the force generated for this propulsion, we use biomimetic experimental systems that allow for the control of physical parameters. We show evidence for the role of elasticity in the propulsion mechanism.

KW - Actin

KW - Deformation

KW - Droplet

KW - Elasticity

KW - Motility

KW - Polymerisation

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Propelling soft objects

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Keywords

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