Team:Michigan

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           This year’s project aims to develop a cell patterning platform based on oligonucleotide-directed cell binding to substrate surfaces. Our approach entails engineering cells to selectively bind to certain nucleotide sequences (via surface display of DNA binding proteins), allowing for guided assembly of defined cell arrays on surfaces patterned with oligonucleotides. These oligonucleotides can be arranged to form an image, and when the cells bind they act as pixels, or...  
           This year’s project aims to develop a cell patterning platform based on oligonucleotide-directed cell binding to substrate surfaces. Our approach entails engineering cells to selectively bind to certain nucleotide sequences (via surface display of DNA binding proteins), allowing for guided assembly of defined cell arrays on surfaces patterned with oligonucleotides. These oligonucleotides can be arranged to form an image, and when the cells bind they act as pixels, or...  
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           <h2>Pix-Cells!</h2>         
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           <h1>Pix-Cells!</h1>         
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Latest revision as of 02:28, 29 September 2011

Project Introduction

This year’s project aims to develop a cell patterning platform based on oligonucleotide-directed cell binding to substrate surfaces. Our approach entails engineering cells to selectively bind to certain nucleotide sequences (via surface display of DNA binding proteins), allowing for guided assembly of defined cell arrays on surfaces patterned with oligonucleotides. These oligonucleotides can be arranged to form an image, and when the cells bind they act as pixels, or...

Pix-Cells!