Publication detail

A Concise Review of Soft Glassy Rheological Model of Cytoskeleton

BANSOD, Y. BURŠA, J.

Original Title

A Concise Review of Soft Glassy Rheological Model of Cytoskeleton

English Title

A Concise Review of Soft Glassy Rheological Model of Cytoskeleton

Type

journal article - other

Language

en

Original Abstract

A cytoskeletal network contributes significantly to intracellular regulation of mechani- cal stresses, cell motility and cellular mechanics. Thus, it plays a vital role in defining the mechanical behaviour of the cell. Among the wide range of models proposed for dynamic behaviour of cytoskeleton, the soft glassy rheology model has gained special attention due to the resemblance of its predictions with the mechanical data measured from experiments. The soft glassy material, theory of soft glassy rheology and experiment on cytoskeleton has been discussed, which leads to a discussion of the unique features and flaws of the model. The soft glassy rheological model provides a unique explanation of the cytoskeleton ability to deform, flow and remodel.

English abstract

A cytoskeletal network contributes significantly to intracellular regulation of mechani- cal stresses, cell motility and cellular mechanics. Thus, it plays a vital role in defining the mechanical behaviour of the cell. Among the wide range of models proposed for dynamic behaviour of cytoskeleton, the soft glassy rheology model has gained special attention due to the resemblance of its predictions with the mechanical data measured from experiments. The soft glassy material, theory of soft glassy rheology and experiment on cytoskeleton has been discussed, which leads to a discussion of the unique features and flaws of the model. The soft glassy rheological model provides a unique explanation of the cytoskeleton ability to deform, flow and remodel.

Keywords

cytoskeleton, model, sglassy rheology, magnetic twisting cytometry

RIV year

2014

Released

03.10.2014

Publisher

Association for Engineering Mechanics

Location

Brno

Pages from

279

Pages to

285

Pages count

7

Documents

BibTex


@article{BUT111355,
  author="Yogesh Deepak {Bansod} and Jiří {Burša}",
  title="A Concise Review of Soft Glassy Rheological Model of Cytoskeleton",
  annote="A cytoskeletal network contributes significantly to intracellular regulation of mechani-
cal stresses, cell motility and cellular mechanics. Thus, it plays a vital role in defining
the mechanical behaviour of the cell. Among the wide range of models proposed
for dynamic behaviour of cytoskeleton, the soft glassy rheology model has gained
special attention due to the resemblance of its predictions with the mechanical data
measured from experiments. The soft glassy material, theory of soft glassy rheology
and experiment on cytoskeleton has been discussed, which leads to a discussion of the
unique features and flaws of the model. The soft glassy rheological model provides
a unique explanation of the cytoskeleton ability to deform, flow and remodel.",
  address="Association for Engineering Mechanics",
  chapter="111355",
  institution="Association for Engineering Mechanics",
  number="4",
  volume="21",
  year="2014",
  month="october",
  pages="279--285",
  publisher="Association for Engineering Mechanics",
  type="journal article - other"
}