Probing eukaryotic cell mechanics via mesoscopic simulations

10.1371/journal.pcbi.1005726

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Main Authors: Lykov K., Nematbakhsh Y., Shang M., Lim C.T., Pivkin I.V.
Other Authors: BIOENGINEERING
Format: Article
Published: Public Library of Science 2020
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Online Access:https://scholarbank.nus.edu.sg/handle/10635/165370
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1653702023-10-31T20:51:54Z Probing eukaryotic cell mechanics via mesoscopic simulations Lykov K. Nematbakhsh Y. Shang M. Lim C.T. Pivkin I.V. BIOENGINEERING Article biomechanics calibration cell density cell membrane cell nucleus cell size controlled study cytoskeleton eukaryotic cell human human cell microfluidic analysis micropipette simulation velocity viscoelasticity Young modulus biological model biology biomechanics cell line cytology elasticity epithelium cell microfluidics micromanipulation physiology viscosity Biomechanical Phenomena Cell Line Cell Membrane Cell Nucleus Computational Biology Cytoskeleton Elasticity Epithelial Cells Humans Microfluidics Micromanipulation Models, Biological Viscosity 10.1371/journal.pcbi.1005726 PLoS Computational Biology 13 9 e1005726 2020-03-13T05:21:51Z 2020-03-13T05:21:51Z 2017 Article Lykov K., Nematbakhsh Y., Shang M., Lim C.T., Pivkin I.V. (2017). Probing eukaryotic cell mechanics via mesoscopic simulations. PLoS Computational Biology 13 (9) : e1005726. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pcbi.1005726 1553734X https://scholarbank.nus.edu.sg/handle/10635/165370 Public Library of Science Unpaywall 20200320
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Article
biomechanics
calibration
cell density
cell membrane
cell nucleus
cell size
controlled study
cytoskeleton
eukaryotic cell
human
human cell
microfluidic analysis
micropipette
simulation
velocity
viscoelasticity
Young modulus
biological model
biology
biomechanics
cell line
cytology
elasticity
epithelium cell
microfluidics
micromanipulation
physiology
viscosity
Biomechanical Phenomena
Cell Line
Cell Membrane
Cell Nucleus
Computational Biology
Cytoskeleton
Elasticity
Epithelial Cells
Humans
Microfluidics
Micromanipulation
Models, Biological
Viscosity
spellingShingle Article
biomechanics
calibration
cell density
cell membrane
cell nucleus
cell size
controlled study
cytoskeleton
eukaryotic cell
human
human cell
microfluidic analysis
micropipette
simulation
velocity
viscoelasticity
Young modulus
biological model
biology
biomechanics
cell line
cytology
elasticity
epithelium cell
microfluidics
micromanipulation
physiology
viscosity
Biomechanical Phenomena
Cell Line
Cell Membrane
Cell Nucleus
Computational Biology
Cytoskeleton
Elasticity
Epithelial Cells
Humans
Microfluidics
Micromanipulation
Models, Biological
Viscosity
Lykov K.
Nematbakhsh Y.
Shang M.
Lim C.T.
Pivkin I.V.
Probing eukaryotic cell mechanics via mesoscopic simulations
description 10.1371/journal.pcbi.1005726
author2 BIOENGINEERING
author_facet BIOENGINEERING
Lykov K.
Nematbakhsh Y.
Shang M.
Lim C.T.
Pivkin I.V.
format Article
author Lykov K.
Nematbakhsh Y.
Shang M.
Lim C.T.
Pivkin I.V.
author_sort Lykov K.
title Probing eukaryotic cell mechanics via mesoscopic simulations
title_short Probing eukaryotic cell mechanics via mesoscopic simulations
title_full Probing eukaryotic cell mechanics via mesoscopic simulations
title_fullStr Probing eukaryotic cell mechanics via mesoscopic simulations
title_full_unstemmed Probing eukaryotic cell mechanics via mesoscopic simulations
title_sort probing eukaryotic cell mechanics via mesoscopic simulations
publisher Public Library of Science
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/165370
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