软聚丙稀酰胺细胞培养基质的表面起皱不稳定性。
Surface creasing instability of soft polyacrylamide cell culture substrates.
机构信息
Department of Chemical Engineering, University of California, Berkeley, California, USA.
出版信息
Biophys J. 2010 Dec 15;99(12):L94-6. doi: 10.1016/j.bpj.2010.09.045.
Abstract
Efforts to understand and engineer cell behavior in mechanically soft environments frequently employ two-dimensional cell culture substrates consisting of thin hydrogel layers with low elastic modulus supported on rigid substrates to facilitate culturing, imaging, and analysis. Here we characterize how an elastic creasing instability of the gel surface may occur for the most widely used soft cell culture substrate, polyacrylamide hydrogels, and show that stem cells respond to and change their behavior due to these surface features. The regions of stability and corresponding achievable ranges of modulus are elucidated in terms of the monomer and cross-linker concentrations, providing guidance for the synthesis of both smooth and creased soft cell substrates for basic and applied cell engineering efforts.
摘要
为了理解和设计在力学软环境中细胞的行为,人们经常采用由薄水凝胶层组成的二维细胞培养基底,这些水凝胶层具有低弹性模量,支撑在刚性基底上,以方便培养、成像和分析。在这里,我们描述了最广泛使用的软细胞培养基底——聚丙烯酰胺水凝胶表面的弹性起皱不稳定性是如何发生的,并表明干细胞会对这些表面特征做出响应并改变其行为。根据单体和交联剂浓度来阐明稳定区域和相应的可实现模量范围,为合成光滑和起皱的软细胞基底提供指导,以用于基础和应用细胞工程研究。
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