Discovery of a novel polymer for human pluripotent stem cell expansion and multilineage differentiation - Supporting data 2

Smith, James

dc.contributor.author	Smith, James
dc.contributor.other	Patel, Asha K.	en_UK
dc.contributor.other	Hook, Andrew L.	en_UK
dc.contributor.other	Rajamohan, Divja	en_UK
dc.contributor.other	George, Vinoj T.	en_UK
dc.contributor.other	Patel, Minal J.	en_UK
dc.contributor.other	Epa, Vidana C.	en_UK
dc.contributor.other	Singh, Taranjit	en_UK
dc.contributor.other	Langer, Robert	en_UK
dc.contributor.other	Anderson, Daniel G.	en_UK
dc.contributor.other	Allen, Nicholas D.	en_UK
dc.contributor.other	Hay, David C.	en_UK
dc.contributor.other	Winkler, David A.	en_UK
dc.contributor.other	Barrett, David A.	en_UK
dc.contributor.other	Davies, Martyn C.	en_UK
dc.contributor.other	Young, Lorraine E.	en_UK
dc.contributor.other	Denning, Chris	en_UK
dc.contributor.other	Alexander, Morgan	en_UK
dc.contributor.other	Celiz, Adam	en_UK
dc.date.accessioned	2015-06-15T14:25:03Z
dc.date.available	2015-06-15T14:25:03Z
dc.date.issued	2015-06-12
dc.identifier.uri	https://rdmc.nottingham.ac.uk/handle/internal/19
dc.description.abstract	A scalable and cost-effective synthetic polymer substrate that supports robust expansion and subsequent multilineage differentiation of human pluripotent stem cells (hPSCs) with defined commercial media is presented. Data presented here shows cell adhesion to microarrays, scaled up surfaces, pluripotent marker expression and multilineage differentiation markers. Please note that this data set is in two parts, the first part of which can be found here: http://doi.org/10.17639/nott.12	en_UK
dc.language.iso	en	en_UK
dc.publisher	University of Nottingham	en_UK
dc.relation.uri	http://onlinelibrary.wiley.com/doi/10.1002/adma.201501351/full	en_UK
dc.relation.uri	http://doi.org/10.17639/nott.12	en_UK
dc.subject.lcsh	Polymers in medicine	en_UK
dc.subject.lcsh	Stem cells	en_UK
dc.subject.lcsh	Human cell culture	en_UK
dc.subject.lcsh	Cell differentiation	en_UK
dc.subject.lcsh	Cell adhesion	en_UK
dc.subject.mesh	Stem Cells	en_UK
dc.subject.mesh	Cell Culture Techniques	en_UK
dc.subject.mesh	Cell Differentiation	en_UK
dc.subject.mesh	Polymers	en_UK
dc.subject.mesh	Cell Adhesion	en_UK
dc.title	Discovery of a novel polymer for human pluripotent stem cell expansion and multilineage differentiation - Supporting data 2	en_UK
dc.identifier.doi	http://doi.org/10.17639/nott.16	en_UK
dc.subject.jacs	JACS Subjects::Medicine and Dentistry	en_UK
dc.subject.jacs	JACS Subjects::Biological Sciences	en_UK
dc.subject.jacs	JACS Subjects::Biological Sciences::Biology::Cell biology	en_UK
dc.subject.jacs	JACS Subjects::Biological Sciences::Molecular biology, biophysics & biochemistry	en_UK
dc.subject.jacs	JACS Subjects::Physical sciences::Chemistry::Analytical chemistry	en_UK
dc.subject.jacs	JACS Subjects::Physical sciences::Chemistry::Organic chemistry::Polymer chemistry	en_UK
dc.subject.jacs	JACS Subjects::Physical sciences::Materials science	en_UK
dc.subject.jacs	JACS Subjects::Engineering::Chemical, process & energy engineering::Chemical engineering::Biochemical engineering	en_UK
dc.subject.lc	Library of Congress Subject Areas::T Technology::TP Chemical technology::TP1080 Polymers and polymer manufacture	en_UK
dc.subject.lc	Library of Congress Subject Areas::R Medicine::R Medicine (General)::R855 Medical technology. Biomedical engineering. Electronics	en_UK
dc.date.collection	2010-2015	en_UK
uon.division	Faculties, Schools and Departments::University of Nottingham, UK Campus::Faculty of Medicine and Health Sciences::School of Medicine	en_UK
uon.funder.controlled	Funders::Engineering & Physical Sciences Research Council	en_UK
uon.datatype	Images	en_UK
uon.grant	EP/H045384/1	en_UK
uon.collectionmethod	Instruments	en_UK
uon.rightscontact	University of Nottingham	en_UK
uon.preservation.rarelyaccessed	true
dc.relation.doi	10.1002/adma.201501351	en_UK