Analysis of Long-term Morphological Changes of Micro-patterned Molecules and Cells on PDMS and Glass Surfaces

被引:12
作者
Funano, Shun-ichi [1 ]
Tanaka, Nobuyuki [1 ]
Tanaka, Yo [1 ]
机构
[1] RIKEN, Quantitat Biol Ctr QBiC, 1-3 Yamadaoka, Suita, Osaka 5650871, Japan
来源
ANALYTICAL SCIENCES | 2017年 / 33卷 / 06期
基金
日本学术振兴会;
关键词
Glass; polydimethylsiloxane; chemical patterning; cell patterning; long-term stability; SYSTEMS FUNDAMENTAL ADVANCES; MICROFLUIDICS; CULTURE;
D O I
10.2116/analsci.33.723
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
We demonstrated that our previously developed gas-phase fluoroalkylsilane patterning method was applicable to polydimethylsiloxane (PDMS) and we compared the stability of patterned proteins and cultured cells between PDMS and glass surfaces. The shapes of the protein patterns were stable on both glass and PDMS surfaces for more than I week. The cell patterns were stable on glass surfaces for I week, while those on PDMS collapsed within a few days. These results indicated that our method was applicable to PDMS, although, compared with glass, PDMS has an unsolved issue for its application to long-term patterning of cells.
引用
收藏
页码:723 / 725
页数:3
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共 24 条
  • [1] Microfluidic organs-on-chips
    Bhatia, Sangeeta N.
    Ingber, Donald E.
    [J]. NATURE BIOTECHNOLOGY, 2014, 32 (08) : 760 - 772
  • [2] Micro Total Analysis Systems: Fundamental Advances and Biological Applications
    Culbertson, Christopher T.
    Mickleburgh, Tom G.
    Stewart-James, Samantha A.
    Sellens, Kathleen A.
    Pressnall, Melissa
    [J]. ANALYTICAL CHEMISTRY, 2014, 86 (01) : 95 - 118
  • [3] Vapor-based micro/nano-partitioning of fluoro-functional group immobilization for long-term stable cell patterning
    Funano, Shun-ichi
    Tanaka, Nobuyuki
    Tanaka, Yo
    [J]. RSC ADVANCES, 2016, 6 (98): : 96306 - 96313
  • [4] Handheld recirculation system and customized media for microfluidic cell culture
    Futai, N
    Gu, W
    Song, JW
    Takayama, S
    [J]. LAB ON A CHIP, 2006, 6 (01) : 149 - 154
  • [5] Versatile, fully automated, microfluidic cell culture system
    Gomez-Sjoeberg, Rafael
    Leyrat, Anne A.
    Pirone, Dana M.
    Chen, Christopher S.
    Quake, Stephen R.
    [J]. ANALYTICAL CHEMISTRY, 2007, 79 (22) : 8557 - 8563
  • [6] Development of a microchip-based bioassay system using cultured cells
    Goto, M
    Sato, K
    Murakami, A
    Tokeshi, M
    Kitamori, T
    [J]. ANALYTICAL CHEMISTRY, 2005, 77 (07) : 2125 - 2131
  • [7] Sensitive Gas Analysis System on a Microchip and Application for On-Site Monitoring of NH3 in a Clean Room
    Hiki, Shinichiro
    Mawatari, Kazuma
    Aota, Arata
    Saito, Maid
    Kitamori, Takehiko
    [J]. ANALYTICAL CHEMISTRY, 2011, 83 (12) : 5017 - 5022
  • [8] Chemicofunctional membrane for integrated chemical processes on a microchip
    Hisamoto, H
    Shimizu, Y
    Uchiyama, K
    Tokeshi, M
    Kikutani, Y
    Hibara, A
    Kitamori, T
    [J]. ANALYTICAL CHEMISTRY, 2003, 75 (02) : 350 - 354
  • [9] Fast and high conversion phase-transfer synthesis exploiting the liquid-liquid interface formed in a microchannel chip
    Hisamoto, H
    Saito, T
    Tokeshi, M
    Hibara, A
    Kitamori, T
    [J]. CHEMICAL COMMUNICATIONS, 2001, (24) : 2662 - 2663
  • [10] Development of a Microfluidic Platform for Single-cell Secretion Analysis Using a Direct Photoactive Cell-attaching Method
    Jang, Kihoon
    Hong Trang Thi Ngo
    Tanaka, Yo
    Xu, Yan
    Mawatari, Kazuma
    Kitamori, Takehiko
    [J]. ANALYTICAL SCIENCES, 2011, 27 (10) : 973 - 978
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