Biomimetic models of the actin cortex

Tamás Haraszti; Simon Schulz; Kai Uhrig; Rainer Kurre; Wouter Roos; Christian H.J. Schmitz; Jennifer E. Curtis; Timo Maier; Anabele E.-M. Clemen; Joachim P. Spatz

Biomimetic models of the actin cortex

Tamás Haraszti, Simon Schulz, Kai Uhrig, Rainer Kurre, Wouter Roos, Christian H.J. Schmitz, Jennifer E. Curtis, Timo Maier, Anabele E.-M. Clemen, Joachim P. Spatz

Molecular Biophysics

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

5 Citations (Scopus)

Abstract

The cytoskeleton is an actively regulated complex network in the cell. One of the most researched components is actin. In our work we developed and tested two microfluidic systems both being applicable to construct quasi 2-dimensional biomimetic actin networks. The first system uses polydimethylsiloxane micropillars, the other polystyrene microparticles held by holographic optical tweezers as anchoring points. Our devices provide actin networks with mesh sizes from a few micrometers up to the order of 10 micrometers. Qualitative analysis shows similar network formation in both systems. Crosslinking was tested using filamin, α-actinin, Ca and Mg ions. The crosslinking process is characterized by a zipping like event, which is limited only by the high stretching modulus of the actin filaments. © 2009 World Scientific Publishing Company.

Original language	English
Pages (from-to)	17-32
Number of pages	16
Journal	Biophysical Reviews and Letters
Volume	4
Issue number	1-2
Publication status	Published - 21-Jul-2009

Keywords

Actin
Alpha-actinin
Cortex model
Crosslinking
Filamin
Holographic optical tweezer
Microfluidics
Micropillar
alpha actinin
calcium ion
dimeticone
F actin
filamin
G actin
magnesium ion
polystyrene
actin filament
article
binding kinetics
biomimetics
controlled study
cross linking
cytoskeleton
microfluidics
molecular dynamics
molecular mechanics
optical tweezers
priority journal
qualitative analysis
Young modulus

Handle.net

Persistent link

Cite this

@article{69a7ff6ff68d412db8c609184b7ad2fb,

title = "Biomimetic models of the actin cortex",

abstract = "The cytoskeleton is an actively regulated complex network in the cell. One of the most researched components is actin. In our work we developed and tested two microfluidic systems both being applicable to construct quasi 2-dimensional biomimetic actin networks. The first system uses polydimethylsiloxane micropillars, the other polystyrene microparticles held by holographic optical tweezers as anchoring points. Our devices provide actin networks with mesh sizes from a few micrometers up to the order of 10 micrometers. Qualitative analysis shows similar network formation in both systems. Crosslinking was tested using filamin, α-actinin, Ca and Mg ions. The crosslinking process is characterized by a zipping like event, which is limited only by the high stretching modulus of the actin filaments. {\textcopyright} 2009 World Scientific Publishing Company.",

keywords = "Actin, Alpha-actinin, Cortex model, Crosslinking, Filamin, Holographic optical tweezer, Microfluidics, Micropillar, alpha actinin, calcium ion, dimeticone, F actin, filamin, G actin, magnesium ion, polystyrene, actin filament, article, binding kinetics, biomimetics, controlled study, cross linking, cytoskeleton, microfluidics, molecular dynamics, molecular mechanics, optical tweezers, priority journal, qualitative analysis, Young modulus",

author = "Tam{\'a}s Haraszti and Simon Schulz and Kai Uhrig and Rainer Kurre and Wouter Roos and Schmitz, {Christian H.J.} and Curtis, {Jennifer E.} and Timo Maier and Clemen, {Anabele E.-M.} and Spatz, {Joachim P.}",

year = "2009",

month = jul,

day = "21",

language = "English",

volume = "4",

pages = "17--32",

journal = "Biophysical Reviews and Letters",

issn = "1793-0480",

publisher = "World Scientific Publishing Co. Pte. Ltd",

number = "1-2",

}

TY - JOUR

T1 - Biomimetic models of the actin cortex

AU - Haraszti, Tamás

AU - Schulz, Simon

AU - Uhrig, Kai

AU - Kurre, Rainer

AU - Roos, Wouter

AU - Schmitz, Christian H.J.

AU - Curtis, Jennifer E.

AU - Maier, Timo

AU - Clemen, Anabele E.-M.

AU - Spatz, Joachim P.

PY - 2009/7/21

Y1 - 2009/7/21

N2 - The cytoskeleton is an actively regulated complex network in the cell. One of the most researched components is actin. In our work we developed and tested two microfluidic systems both being applicable to construct quasi 2-dimensional biomimetic actin networks. The first system uses polydimethylsiloxane micropillars, the other polystyrene microparticles held by holographic optical tweezers as anchoring points. Our devices provide actin networks with mesh sizes from a few micrometers up to the order of 10 micrometers. Qualitative analysis shows similar network formation in both systems. Crosslinking was tested using filamin, α-actinin, Ca and Mg ions. The crosslinking process is characterized by a zipping like event, which is limited only by the high stretching modulus of the actin filaments. © 2009 World Scientific Publishing Company.

AB - The cytoskeleton is an actively regulated complex network in the cell. One of the most researched components is actin. In our work we developed and tested two microfluidic systems both being applicable to construct quasi 2-dimensional biomimetic actin networks. The first system uses polydimethylsiloxane micropillars, the other polystyrene microparticles held by holographic optical tweezers as anchoring points. Our devices provide actin networks with mesh sizes from a few micrometers up to the order of 10 micrometers. Qualitative analysis shows similar network formation in both systems. Crosslinking was tested using filamin, α-actinin, Ca and Mg ions. The crosslinking process is characterized by a zipping like event, which is limited only by the high stretching modulus of the actin filaments. © 2009 World Scientific Publishing Company.

KW - Actin

KW - Alpha-actinin

KW - Cortex model

KW - Crosslinking

KW - Filamin

KW - Holographic optical tweezer

KW - Microfluidics

KW - Micropillar

KW - alpha actinin

KW - calcium ion

KW - dimeticone

KW - F actin

KW - filamin

KW - G actin

KW - magnesium ion

KW - polystyrene

KW - actin filament

KW - article

KW - binding kinetics

KW - biomimetics

KW - controlled study

KW - cross linking

KW - cytoskeleton

KW - microfluidics

KW - molecular dynamics

KW - molecular mechanics

KW - optical tweezers

KW - priority journal

KW - qualitative analysis

KW - Young modulus

M3 - Article

SN - 1793-0480

VL - 4

SP - 17

EP - 32

JO - Biophysical Reviews and Letters

JF - Biophysical Reviews and Letters

IS - 1-2

ER -

Biomimetic models of the actin cortex

Abstract

Keywords

Handle.net

Fingerprint

Cite this