Direct Detection of Long, Periodic, ssDNA nanostructures Assembled on CMOS Transistor Arrays

Abstract

DNA is a wonderful material for the construction of nanostructures for a variety of applications. This paper describes a novel platform integrating single-stranded DNA (ssDNA) nanotemplates with CMOS-compatible, field-effect sensors. The field-effect sensor was based on oxide-semiconductor field-effect transistors (OSFETs), which were monolithically-integrated with signal-processing circuits to enhance the signal-to-noise ratio, and to detect the construction of ssDNA nanotemplate from complex DNA-protein interactions. The ssDNA nanotemplate on the transistor arrays was prepared by isothermal rolling circle amplification (RCA) through DNA aptamer-protein recognition and self-assembly strategy. The growth of the DNA nanostructure was monitored in situ, real-time and label-free on OSFET.