Abstract: A fluidic waveguide comprising a container and a fluid that fills said container, wherein said fluid has a refractive index greater than the refractive index of the wall of said container and wherein said fluid can act as a waveguide for electromagnetic radiation when contacted therewith is disclosed. A corresponding fluidic lightguide along with devices that function as composite waveguides and lightguides are described. Assays utilizing this waveguide for biochemical, chemical, and other kinds of analyses are also disclosed.

Abstract: A fluidic waveguide comprising a container and a fluid that fills said container, wherein said fluid has a refractive index greater than the refractive index of the wall of said container and wherein said fluid can act as a waveguide for electromagnetic radiation when contacted therewith is disclosed. A corresponding fluidic lightguide along with devices that function as composite waveguides and lightguides are described. Assays utilizing this waveguide for biochemical, chemical, and other kinds of analyzes are also disclosed.

Abstract: The present invention provides a simple, cost-effective, universal method for determining and/or quantifying differences in nucleic acid levels between two or more test mixtures without prior knowledge of the sequence of the nucleic acids of interest. The method involves providing a universal microarray containing a plurality of spots, where each spot contains a plurality, or pool, of different oligonucleotide probes having at least three distinct portions: a universal sequence portion, a short central variable “wobble” sequence portion, and a unique sequence portion. A set of probes is synthesized such that the universal sequence portion is the same for every probe, and all possible permutations of the wobble sequence and unique sequence portions are represented in approximately equal concentrations in the set.