Papers Published

1. Perez-Luna, V. H. and Yang, S. P. and Rabinovich, E. M. and Buranda, T. and Sklar, L. A. and Hampton, P. D. and Lopez, G. P., Fluorescence biosensing strategy based on energy transfer between fluorescently labeled receptors and a metallic surface, BIOSENSORS & BIOELECTRONICS, vol. 17 no. 1-2 (January, 2002), pp. 71--78 .
   (last updated on 2010/02/08)

   Abstract:
   A new fluorescence-based biosensor is presented. The biosensing scheme is based on the fact that a fluorophore in close proximity to a metal film (< 100 Angstrom) experiences strong quenching of fluorescence and a dramatic reduction in the lifetime of the excited state. By immobilizing the analyte or interest (or a structural analog of the analyte) to a metal surface and exposing it to a labeled receptor (e.g. antibody), the fluorescence of the labeled receptor becomes quenched upon binding because of the close proximity to the metal. Upon exposure to free analyte, the labeled receptor dissociates from the surface and diffuses into the bulk of the solution. This increases its separation from the metal and an increase of fluorescence intensity and/or lifetime of the excited state is observed that indicates the presence of the soluble analyte. By enclosing this system within a small volume with a semipermeable membrane, a reversible device is obtained. We demonstrate this scheme using a biotinylated self-assembled monolayer (SAM) on gold as our surface immobilized analyte analog. fluorescently labeled anti-biotin as a receptor, and a solution of biotin in PBS as a model analyte. This scheme could easily be extended to transduce a wide variety of protein-ligand interactions and other biorecognition phenomena (e.g. DNA hybridization) that result in changes in the architecture of surface immobilized biomolecules such that a change in the separation distance between fluorophores and the metal film is obtained. (C) 2002 Elsevier Science B.V. All rights reserved.