Resonance energy transfer between lasing dyes in micellar media

## An energy transfer laser experunent IS reported m which coumarm I acted as the energy donor and coumarin 31-t as the hsng acceptor At an optunum concentration of lo-' hI for the coumann I and 10m3 hl for the coumarin 314 in methanol, the mL\ture was Xwice as efficient as a laser than cuumarm 31

possibk RSSOIIS for the non-monotonous tempa-aturs dependencf oE the q~~~d-rescmzm~~ emcrgy trmsf'er probability and relative contributions of short-range and long-range forces are discussed. Particular calcuhtions are made for the caze Nz-C02(v3) vibrational energy exchange.

Coumarin laser dyes have been shown to undergo effkient energy transfer when solubiiized and co-bound to poly( methacrylic acid) (PMAA) in water at pH 3.0. Under these conditions dyes are bound in relative proximity (about 5.0 nm) within microdomains of the polymer in its compact or hypercoloid form

To expand the field of research in biological systems development of extra-sensitive analytical methods is highly desirable. In this review, the latest advances in technologies relying on the fluorescence resonance energy transfer between fluorescent proteins (FP's) to visualize numerous molecular p