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W2023806809 endingPage "18692" @default.
W2023806809 startingPage "18683" @default.
W2023806809 abstract "Bioadhesive micropatterns, capable of laterally confining cells to a 2D lattice, have proven effective in simulating the in vivo tissue environment. They reveal fundamental aspects of the role of adhesion in cell mechanics, proliferation, and differentiation. Here we present an approach based on photochemistry for the fabrication of synthetic polymer micropatterns. Perfluorophenyl azide (PFPA), upon deep-UV exposure, forms a reactive nitrene capable of covalently linking to a molecule that is in close proximity. PFPA has been grafted onto a backbone of poly(allyl amine), which readily forms a self-assembled monolayer on silicon wafers or glass. A film of polystyrene was applied by spin-coating, and by laterally confining the UV exposure through a chromium-on-quartz photomask, monolayers of polymers could be immobilized in circular microdomains. Poly(vinylpyrrolidone) (PVP) was attached to the background to form a barrier to nonspecific protein adsorption and cell adhesion. Micropatterns were characterized with high-lateral-resolution time-of-flight secondary ion mass spectrometry (TOF-SIMS), which confirmed the formation of polystyrene domains within a PVP background. Fluorescence–microscopy adsorption assays with rhodamine-labeled bovine serum albumin demonstrated the nonfouling efficiency of PVP and, combined with TOF-SIMS, allowed for a comprehensive characterization of the pattern geometry. The applicability of the micropatterned platform in single-cell assays was tested by culturing two cell types, WM 239 melanoma cells and SaOs-2 osteoblasts, on micropatterned glass, either with or without backfilling of the patterns with fibronectin. It was demonstrated that the platform was efficient in confining cells to the fibronectin-backfilled micropatterns for at least 48 h. PVP is thus proposed as a viable, highly stable alternative to poly(ethylene glycol) for nonfouling applications. Due to the versatility of the nitrene-insertion reaction, the platform could be extended to other polymer pairs or proteins and the surface chemistry adapted to specific applications." @default.
W2023806809 created "2016-06-24" @default.
W2023806809 creator A5002188420 @default.
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W2023806809 creator A5014730287 @default.
W2023806809 creator A5015748101 @default.
W2023806809 creator A5053736082 @default.
W2023806809 creator A5079092112 @default.
W2023806809 date "2014-10-15" @default.
W2023806809 modified "2023-09-24" @default.
W2023806809 title "Delineating Fibronectin Bioadhesive Micropatterns by Photochemical Immobilization of Polystyrene and Poly(vinylpyrrolidone)" @default.
W2023806809 cites W1565512673 @default.
W2023806809 cites W1886144709 @default.
W2023806809 cites W1966120793 @default.
W2023806809 cites W1968421448 @default.
W2023806809 cites W1969397477 @default.
W2023806809 cites W1971130799 @default.
W2023806809 cites W1974018656 @default.
W2023806809 cites W1977388087 @default.
W2023806809 cites W1981028296 @default.
W2023806809 cites W1981563035 @default.
W2023806809 cites W1983352401 @default.
W2023806809 cites W1992240103 @default.
W2023806809 cites W1994186189 @default.
W2023806809 cites W1997893929 @default.
W2023806809 cites W1999713650 @default.
W2023806809 cites W2003443222 @default.
W2023806809 cites W2003697004 @default.
W2023806809 cites W2005634291 @default.
W2023806809 cites W2006841815 @default.
W2023806809 cites W2008303284 @default.
W2023806809 cites W2008870349 @default.
W2023806809 cites W2009678618 @default.
W2023806809 cites W2010381093 @default.
W2023806809 cites W2013853152 @default.
W2023806809 cites W2017330811 @default.
W2023806809 cites W2017497911 @default.
W2023806809 cites W2017526686 @default.
W2023806809 cites W2018860283 @default.
W2023806809 cites W2020210562 @default.
W2023806809 cites W2022535023 @default.
W2023806809 cites W2030041577 @default.
W2023806809 cites W2031811488 @default.
W2023806809 cites W2031910037 @default.
W2023806809 cites W2034301798 @default.
W2023806809 cites W2037259531 @default.
W2023806809 cites W2037439419 @default.
W2023806809 cites W2037574265 @default.
W2023806809 cites W2041570762 @default.
W2023806809 cites W2046873558 @default.
W2023806809 cites W2047087066 @default.
W2023806809 cites W2049471883 @default.
W2023806809 cites W2052756709 @default.
W2023806809 cites W2055660637 @default.
W2023806809 cites W2056774292 @default.
W2023806809 cites W2057023877 @default.
W2023806809 cites W2057393780 @default.
W2023806809 cites W2057917964 @default.
W2023806809 cites W2066780467 @default.
W2023806809 cites W2069284563 @default.
W2023806809 cites W2069324624 @default.
W2023806809 cites W2069425925 @default.
W2023806809 cites W2075342283 @default.
W2023806809 cites W2076507760 @default.
W2023806809 cites W2076753935 @default.
W2023806809 cites W2083509842 @default.
W2023806809 cites W2096753890 @default.
W2023806809 cites W2099540110 @default.
W2023806809 cites W2100454719 @default.
W2023806809 cites W2119632652 @default.
W2023806809 cites W2122840995 @default.
W2023806809 cites W2144023435 @default.
W2023806809 cites W2157869016 @default.
W2023806809 cites W2169804627 @default.
W2023806809 cites W2170371279 @default.
W2023806809 cites W2182575643 @default.
W2023806809 cites W2314711108 @default.
W2023806809 cites W2314858907 @default.
W2023806809 cites W2320444669 @default.
W2023806809 cites W2322762619 @default.
W2023806809 cites W2325407572 @default.
W2023806809 cites W2327957784 @default.
W2023806809 cites W2616244755 @default.
W2023806809 doi "https://doi.org/10.1021/am5042093" @default.
W2023806809 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25253530" @default.
W2023806809 hasPublicationYear "2014" @default.
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