Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage

Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage

10.1016/j.actbio.2012.08.018

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Bibliographic Details
Main Authors: Ankam, S., Suryana, M., Chan, L.Y., Moe, A.A.K., Teo, B.K.K., Law, J.B.K., Sheetz, M.P., Low, H.Y., Yim, E.K.F.
Other Authors: DUKE-NUS GRADUATE MEDICAL SCHOOL S'PORE
Format: Article
Published: 2014
Subjects:
High-throughput screening
Multiarchitectural array chip
Nanoimprinting
Neuronal differentiation
Pluripotent stem cells
Online Access:http://scholarbank.nus.edu.sg/handle/10635/52554
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-525542024-11-15T04:29:55Z Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage Ankam, S. Suryana, M. Chan, L.Y. Moe, A.A.K. Teo, B.K.K. Law, J.B.K. Sheetz, M.P. Low, H.Y. Yim, E.K.F. DUKE-NUS GRADUATE MEDICAL SCHOOL S'PORE MECHANOBIOLOGY INSTITUTE BIOENGINEERING BIOLOGICAL SCIENCES High-throughput screening Multiarchitectural array chip Nanoimprinting Neuronal differentiation Pluripotent stem cells 10.1016/j.actbio.2012.08.018 Acta Biomaterialia 9 1 4535-4545 2014-05-16T04:59:10Z 2014-05-16T04:59:10Z 2013-01 Article Ankam, S., Suryana, M., Chan, L.Y., Moe, A.A.K., Teo, B.K.K., Law, J.B.K., Sheetz, M.P., Low, H.Y., Yim, E.K.F. (2013-01). Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage. Acta Biomaterialia 9 (1) : 4535-4545. ScholarBank@NUS Repository. https://doi.org/10.1016/j.actbio.2012.08.018 17427061 http://scholarbank.nus.edu.sg/handle/10635/52554 000313376900007 Scopus
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic High-throughput screening
Multiarchitectural array chip
Nanoimprinting
Neuronal differentiation
Pluripotent stem cells
spellingShingle High-throughput screening
Multiarchitectural array chip
Nanoimprinting
Neuronal differentiation
Pluripotent stem cells
Ankam, S.
Suryana, M.
Chan, L.Y.
Moe, A.A.K.
Teo, B.K.K.
Law, J.B.K.
Sheetz, M.P.
Low, H.Y.
Yim, E.K.F.
Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
description 10.1016/j.actbio.2012.08.018
author2 DUKE-NUS GRADUATE MEDICAL SCHOOL S'PORE
author_facet DUKE-NUS GRADUATE MEDICAL SCHOOL S'PORE
Ankam, S.
Suryana, M.
Chan, L.Y.
Moe, A.A.K.
Teo, B.K.K.
Law, J.B.K.
Sheetz, M.P.
Low, H.Y.
Yim, E.K.F.
format Article
author Ankam, S.
Suryana, M.
Chan, L.Y.
Moe, A.A.K.
Teo, B.K.K.
Law, J.B.K.
Sheetz, M.P.
Low, H.Y.
Yim, E.K.F.
author_sort Ankam, S.
title Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
title_short Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
title_full Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
title_fullStr Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
title_full_unstemmed Substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
title_sort substrate topography and size determine the fate of human embryonic stem cells to neuronal or glial lineage
publishDate 2014
url http://scholarbank.nus.edu.sg/handle/10635/52554
_version_ 1821224254393286656

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