(461b) Award Session: Single-Walled Carbon Nanotube Optical Biosensors for Multi-Modal and Single Molecule Detection of Genotoxic Agents Conference: AIChE Annual MeetingYear: 2008Proceeding: 2008 AIChE Annual MeetingGroup: Nanoscale Science and Engineering ForumSession: Bionanotechnology Graduate Student Award Session Time: Wednesday, November 19, 2008 - 12:55pm-1:20pm Authors: Heller, D. A., Massachusetts Institute of Technology Strano, M. S., Massachusetts Institute of Technology Reactive oxygen species (ROS) and active alkylating chemotherapeutics are important bioanalytes but difficult to measure selectively, in vivo, or in real time. A new nanoscale optical sensor platform under development can now detect as well as identify these analytes in situ and in single-molecule quantities. Carbon nanotube-DNA complexes, formed by individually encapsulating nanotubes with oligonucleotides, respond in real time to genotoxins via multiple optical modes, giving each analyte a distinct optical signature. Single-walled carbon nanotubes are environmentally sensitive and emit tissue-transparent near-infrared fluorescence. By their encapsulation in short strands of synthetic DNA, we introduce a selective handle for changes in their emission, which responds to the polarity of the solvent medium. The complexes consequently respond to DNA-damaging oxygen species or alkylating agents, by red-shifts in emission energy as well as optical quenching, giving multiple detection modes which result in analyte specificity and up to single-molecule sensitivity. The nanotube-DNA complexes exhibit uptake into mammalian cells via endocytosis without cytotoxic effects and emit from within live tissues. Upon introduction of alkylating agents and oxidative species, the complexes transduce analyte activity information live and in situ. This platform is being developed as a research and diagnostic tool for free radical biology, drug discovery, and pharmacodynamics.