Compositions, systems, and methods for the display of analytes such as biomolecules are described. Display of analytes is achieved by coupling of the analytes to displaying molecules that are configured to associate with surfaces or interfaces. Arrays of analytes may be formed from the described systems for utilization in assays and other methods.

Disclosed is a method of producing a two dimensional microarray using a three dimensional or structured microarray. The invention involves forming defined functionalized areas by layering an inert material over the surface structures of the three dimensional microarray. Sufficient of the inert material and of the top of the surface structures are then removed to expose defined areas of the surface structures within the inert material.

Protein arrays and their use to assay, in a parallel fashion, the protein products of highly homologous or related DNA coding sequences and described. By highly homologous or related it is meant those DNA coding sequences which share a common sequence and which differ only by one or more naturally occurring mutations such as single nucleotide polymorphisms, deletions or insertions, or those sequences which are considered to be haplotypes. Such highly homologous or related DNA coding sequences are generally naturally occurring variants of the same gene. Arrays according to the invention have two or more individual proteins deposited in a spatially defined pattern on a surface in a form whereby a property such as an activity or function of the proteins can be investigated or assayed in parallel by interrogation of the array.

A microsphere-based analytic chemistry system and method for making the same is disclosed in which microspheres or particles carrying bioactive agents may be combined randomly or in ordered fashion and dispersed on a substrate to form an array while maintaining the ability to identify the location of bioactive agents and particles within the array using an optically interrogatable, optical signature encoding scheme. A wide variety of modified substrates may be employed which provide either discrete or non-discrete sites for accommodating the microspheres in either random or patterned distributions. The substrates may be constructed from a variety of materials to form either two-dimensional or three-dimensional configurations. In a preferred embodiment, a modified fiber optic bundle or array is employed as a substrate to produce a high density array. The disclosed system and method have utility for detecting target analytes and screening large libraries of bioactive agents.

A kit and a method for enriching target nucleic acid sequences from a biological sample are disclosed. The method includes preparing, and contacting with the biological sample, a first RNA probe set and a second RNA probe set respectively targeting both of the two antiparallel strands of a duplex segment in each target nucleic acid sequence. Each RNA probe in the first RNA probe set and the second RNA probe set can be generated by chemical synthesis or by in vitro or in vivo transcription, and can be biotin-labelled to thereby allow capturing of the target nucleic acid sequences by magnetic beads labelled with streptavidin, or can be engineered to a microfluidic channel to facilitate the capturing. The method can be applied to capture double-stranded nucleic acid sequences or single-stranded nucleic acid sequences having duplex segments, and the nucleic acid sequences can include DNAs, RNAs, or DNA-RNA hybrid molecules.

The disclosure provides three-dimensional crosslinked polymer networks comprising one or more channels extending from the surface and/or near the surface of the network into the interior of the network, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.

Various embodiments of the teachings relate to a system or method for sample preparation or analysis in biochemical or molecular biology procedures. The sample preparation can involve small volume processed in discrete portions or segments or slugs, herein referred to as discrete volumes. A molecular biology procedure can be nucleic acid analysis. Nucleic acid analysis can be an integrated DNA amplification/DNA sequencing procedure.

A microsphere-based analytic chemistry system and method for making the same is disclosed in which microspheres or particles carrying bioactive agents may be combined randomly or in ordered fashion and dispersed on a substrate to form an array while maintaining the ability to identify the location of bioactive agents and particles within the array using an optically interrogatable, optical signature encoding scheme. A wide variety of modified substrates may be employed which provide either discrete or non-discrete sites for accommodating the microspheres in either random or patterned distributions. The substrates may be constructed from a variety of materials to form either two-dimensional or three-dimensional configurations. In a preferred embodiment, a modified fiber optic bundle or array is employed as a substrate to produce a high density array. The disclosed system and method have utility for detecting target analytes and screening large libraries of bioactive agents.

An embodiment of the invention relates to a wafer comprising a plurality of biochips and interconnects on the wafer, the biochip comprising a biochip pad, a synthesis electrode and a gel comprising a probe, wherein a plurality of the biochip pads of the plurality of the biochips are interconnected by the interconnects to carry out a chemical reaction on a plurality of the synthesis electrodes.

Methods and compositions are disclosed relating to the localization of nucleic acids to arrays such as silane-free arrays, and of sequencing the nucleic acids localized thereby.