通过深紫外光刻技术对共平面聚乙二醇烷基硅烷单层进行直接图案化,作为一种用于高保真、长期细胞图案化和培养的通用方法。
Direct patterning of coplanar polyethylene glycol alkylsilane monolayers by deep-ultraviolet photolithography as a general method for high fidelity, long-term cell patterning and culture.
作者信息
Wilson Kerry, Stancescu Maria, Das Mainak, Rumsey John, Hickman James
机构信息
NanoScience Technology Center, University of Central Florida, Orlando, Florida 32826.
出版信息
J Vac Sci Technol B Nanotechnol Microelectron. 2011 Mar;29(2):21020. doi: 10.1116/1.3549127. Epub 2011 Mar 10.
Abstract
This manuscript details a general method for patterning coplanar alkylsilane monolayers using deep-ultraviolet photolithography that has broad application for high fidelity patterning of cells of varying phenotype in long-term cultures. A polyethylene glycol monolayer was formed on a silica substrate and then patterned using 193 nm light from an ArF excimer laser. The regions of photoablation were then rederivatized with (3-trimethoxysilyl propyl) diethyltriamine (DETA), yielding high contrast cytophilic islands that promoted cell adhesion and growth. Rat hippocampal neurons, motoneurons, and myoblasts were then cultured in a defined, serum-free medium on the patterned surfaces for periods in excess of 40 days. This approach has been shown to be useful as a general method for the long-term culture of multiple cell types in highly defined spatial patterns and can be used for supporting complex cocultures for creating in vitro models for biological systems.
摘要
本手稿详细介绍了一种使用深紫外光刻技术对共平面烷基硅烷单层进行图案化的通用方法,该方法在长期培养中对不同表型细胞的高保真图案化具有广泛应用。在二氧化硅基板上形成聚乙二醇单层,然后使用来自ArF准分子激光器的193 nm光进行图案化。然后用(3-三甲氧基甲硅烷基丙基)二乙三胺(DETA)对光烧蚀区域进行再衍生,产生促进细胞粘附和生长的高对比度亲细胞岛。然后将大鼠海马神经元、运动神经元和成肌细胞在特定的无血清培养基中在图案化表面上培养超过40天。这种方法已被证明是一种通用方法,可用于在高度明确的空间模式中长期培养多种细胞类型,并可用于支持复杂的共培养,以创建生物系统的体外模型。
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