Abstract: Methods, systems, kits for carrying out a wide variety of different assays that comprise providing a first reagent mixture which comprises a first reagent having a fluorescent label. A second reagent is introduced into the first reagent mixture to produce a second reagent mixture, where the second reagent reacts with the first reagent to produce a fluorescently labeled product having a substantially different charge than the first reagent. A polygon is introduced into at least one of the first and second reagent mixtures, and the fluorescent polarization in the second reagent mixture relative to the first reagent mixture is determined, this fluorescent polarization being indicative of the rate or extent of the reaction.

Abstract: The present invention generally provides an apparatus for enhancing transport and direction of materials in fluidic systems, which systems utilize electroosmotic (E/O) flow systems, to affect that transport and direction. The apparatus generally comprises providing an effective concentration of at least one zwitterionic compound in the fluid containing the material that is to be transported or directed.

Abstract: The present invention is generally directed to microfluidic systems and methods of using such systems in the determination of the nucleotide sequence of target nucleic acid sequences (referred to herein as the "target"). In particular, the present invention provides methods and systems for determining the relative positions within a target nucleic acid sequence that are occupied by a given nucleotide, e.g., A, T, G or C, by separating mixtures of nested sets of fragments of the target nucleic acid, which sets each include fragments that terminate in a different given nucleotide.

Abstract: The present invention generally provides methods for enhancing transport and direction of materials in fluidic systems, which systems utilize electroosmotic (E/O) flow systems, to affect that transport and direction. The methods generally comprise providing an effective concentration of at least one zwitterionic compound in the fluid containing the material that is to be transported or directed.

Abstract: The present invention is generally directed to microfluidic systems and methods of using such systems in the determination of the nucleotide sequence of target nucleic acid sequences (referred to herein as the "target"). In particular, the present invention provides methods and systems for determining the relative positions within a target nucleic acid sequence that are occupied by a given nucleotide, e.g., A, T, G or C, by separating mixtures of nested sets of fragments of the target nucleic acid, which sets each include fragments that terminate in a different given nucleotide.

Abstract: A method for generating single-stranded nucleic acid molecules. The molecules contain nuclease resistant modified nucleotides, such that they are resistant to 5'.fwdarw.3' exonucleases.