Luminescent terbium complexes: Superior Forster resonance energy transfer donors for flexible and sensitive multiplexed biosensing

Optical quantification of several biomarkers at very low concentrations and nanometric distances has become an important requirement for many biosensing applications. Forster resonance energy transfer (FRET) and, in particular, luminescent terbium complex (LTC)-based FRET, is a valuable tool for sensitive and versatile multiplexed FRET. Here, we review recent progress in the development of novel LTC-FRET photonic sensors for ultra-sensitive and multiplexed diagnostics of various biomarkers and distances (molecular ruler) in different biological systems. The basic concept of FRET, the exceptional photophysical properties of LTCs, and possibilities and opportunities for multiplexed optical sensing are outlined. Sophisticated FRET systems such as multiplexed LTC-to-dye FRET, LTC-to-quantum dot (QD) FRET, and LTC-to-QD-to-dye FRET relays have been assembled with biological recognition molecules such as antibodies, peptides, and oligonucleotides to permit biosensing applications in the form of homogeneous immunoassays, DNA hybridization and enzyme assays, and molecular logic devices. A perspective on the emerging field of multiplexed LTC-based FRET biosensing is given at the end of this review to highlight the promising future of these nanometric biosensors. (C) 2014 Elsevier B.V. All rights reserved.