Functionalized xenon as a biosensor

Megan M. Spence; Seth M. Rubin; Ivan Dimitrov; Eliseo Ruíz; David E. Wemmer; Alexander Pines; Shao Q. Yao; Feng Tian; Peter G. Schultz

doi:10.1073/pnas.191368398

Functionalized xenon as a biosensor

Megan M. Spence(Scripps Research Institute), Seth M. Rubin(Scripps Research Institute), Ivan Dimitrov(Scripps Research Institute), Eliseo Ruíz(Scripps Research Institute), David E. Wemmer(Scripps Research Institute), Alexander Pines(Scripps Research Institute), Shao Q. Yao(Scripps Research Institute), Feng Tian(Scripps Research Institute), Peter G. Schultz(Scripps Research Institute)

Proceedings of the National Academy of Sciences

September 4, 2001

10.1073/pnas.191368398

Cited by 327Open Access

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Abstract

The detection of biological molecules and their interactions is a significant component of modern biomedical research. In current biosensor technologies, simultaneous detection is limited to a small number of analytes by the spectral overlap of their signals. We have developed an NMR-based xenon biosensor that capitalizes on the enhanced signal-to-noise, spectral simplicity, and chemical-shift sensitivity of laser-polarized xenon to detect specific biomolecules at the level of tens of nanomoles. We present results using xenon "functionalized" by a biotin-modified supramolecular cage to detect biotin-avidin binding. This biosensor methodology can be extended to a multiplexing assay for multiple analytes.

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