Abstract: An embodiment of a system for acquiring images of a probe array is described that comprises a first light emitting diode that provides light comprising a first range of wavelengths outside of an excitation spectrum; a second light emitting diode that provides light comprising a second range of wavelengths inside of the excitation spectrum; and a detector that detects one or more wavelengths in the first range of wavelengths, wherein the first range of wavelengths comprise light wavelengths emitted from fluorescent molecules associated with one or more probes of the probe array in response to the second range of wavelengths and wavelengths reflected from one or more reflective elements associated with the probe array.

Abstract: Methods are presented for generating large sets for polymers. The methods employ high density oligonucleotide array.

Abstract: In one embodiment, a method of providing genotype-based information is described that comprises receiving one or more genotype calls that each identify a fraction of an individuals' genetic composition; assigning an electronically identifiable identifier for each genotype call; and generating a customized set of information using one or more of the identifiers.

Abstract: The present invention provides massively parallel oligonucleotide synthesis and purification for applications that utilize large collections of defined high-fidelity oligonucleotides (e.g., from about 101 to about 105 different sequences, generally between 25-160 bases in length).

Abstract: Methods are provided for identification of genes that are imprinted. In another embodiment methods are provided for identification and analysis of genes whose expression shows allelic imbalance. The expression products transcribed from genes that are present in the genome as two or more alleles may be distinguished by hybridization to an array designed to interrogate individual alleles. Genes whose transcription products are present in amounts that vary from expected are candidates for allelic imbalance, imprinting and imprinting errors.

Abstract: Protective groups which may be cleaved with an activatable deprotecting reagents are employed to achieve a highly sensitive, high resolution, combinatorial synthesis of pattern arrays of diverse polymers. In preferred embodiments of the instant invention, the activatable deprotecting reagent is a photoacid generator and the protective groups are DMT for nucleic acids and tBOC for amino acids. This invention has a wide variety of applications and is particularly useful for the solid phase combinatorial synthesis of polymers.

Abstract: The present invention provides novel processes for the large scale preparation of arrays of polymer sequences wherein each array includes a plurality of different, positionally distinct polymer sequences having known monomer sequences. The methods of the invention combine high throughput process steps with high resolution photolithographic techniques in the manufacture of polymer arrays.

Abstract: An embodiment of a method for adjusting system gain of a biological probe array scanner for a plurality of fluorophore species is described that comprises setting an excitation beam comprising an excitation wavelength at a first power level that elicits an optimal signal to noise ratio response from a first fluorophore species; scanning a biological probe array with the excitation beam; setting the excitation beam comprising the excitation wavelength at a second power level different than the first power level that elicits the optimal signal to noise ratio response from a second fluorophore species; and scanning the biological probe array with the excitation beam.

Abstract: An analytical biochemistry system featuring a substrate with reactants immobilized thereon at fixed, known locations, a holder supporting the substrate and a manipulator for transporting the holder to a fixed sample and to an inspection station. The reactants are binding agents for a target biomolecule in a sample which forms a bound substance having a detectable characteristic. The holder may be a standard pipettor, optionally carried by a robot arm or hand as the manipulator to contact the sample for detection of the presence of target biomolecules within the sample. In one embodiment, the holder is a pipette tip within which the substrate is housed, or it may be a pipette adapter which bears the substrate and fits within the sample wells of a standard microtiter plate.

Abstract: Methods for discriminating between fully complementary hybrids and those that differ by one or more base pairs and libraries of unimolecular, double-stranded oligonucleotides on a solid support. In one embodiment, the present invention provides methods of using nuclease treatment to improve the quality of hybridization signals on high density oligonucleotide arrays. In another embodiment, the present invention provides methods of using ligation reactions to improve the quality of hybridization signals on high density oligonucleotide arrays. In yet another embodiment, the present invention provides libraries of unimolecular or intermolecular, double-stranded oligonucleotides on a solid support. These libraries are useful in pharmaceutical discovery for the screening of numerous biological samples for specific interactions between the double-stranded oligonucleotides, and peptides, proteins, drugs and RNA.

Abstract: Methods, employing a polycyclic hydrocarbon or a polycyclic heteroaromatic compound as sensitizers, are provided to increase the efficiency of removing, by irradiation, photolabile protecting groups that mask reactive sites on synthesis intermediaries. Preferred groups of photolabile protecting moieties include: ((?-methyl-2-nitropiperonyl)-oxy)carbonyl (MeNPOC), ((Phenacyl)-oxy)carbonyl (PAOC), O-(9-phenylxanthen-9-yl) (PIXYL), and ((2-methylene-9,10-anthraquinone)-oxy)carbonyl (MAQOC). In conjunction with using the sensitizers and protecting groups described above, a method of forming, from component molecules, a plurality of compounds on a support, each compound occupying a separate predefined region of the support is provided. These resulting solid-phase arrays are useful, for example, to assay for the presence of biochemical products in biological samples.

Abstract: In some embodiment of the invention, methods are provided to compare lists of genes. In one embodiment, the genes are ranked with the lists. The ranks are analyzed using Spearman correlation.

Abstract: Methods, probe arrays and computer software products are provided for determining the arrangement of sequence elements. In one embodiment, methods for making and using exon chips are provided. The exon chips may be used to identify and quantify splice variants.

Abstract: Methods and computer software products are provided for analyzing gene expression data. In one embodiment, multiple probes are used to detect a single transcript. The hybridization intensities of each probe is adjusted by dividing the intensities by the affinities of the probes. The minimal adjusted hybridization intensity may be used as the measurement of the gene expression.

Abstract: Methods and computer software products are provided for analyzing gene expression data. In one embodiment, the expression of a gene is determined by multiple probes in several experiments. A principal component analysis is performed to obtain the relative expression of the gene in these experiments.

Abstract: The even length proportional amplification of nucleic acids can increase the amount of nucleic acids while preserving the relative abundance of the individual nucleic acid species, or portions thereof, in the original sample. An even length proportionally amplified nucleic acid preparation may be analyzed in a gene expression monitoring system, preferably involving a nucleic acid probe array.

Abstract: The present invention provides for novel methods of sample preparation and analysis involving reproducibly reducing the complexity of a nucleic sample. The invention further provides for analysis of the above sample by hybridization to an array which may be specifically designed to interrogate the desired fragments for particular characteristics, such as, for example, the presence or absence of a polymorphism. The invention further provides for novel methods of using a computer system to model enzymatic reactions in order to determine experimental conditions before conducting actual experiments.

Abstract: The present invention provides novel GPCR polynucleotides, GPCR polypeptides, gene delivery vehicles comprising and/or expressing the GPCR polynucleotides, antibodies and fragments capable of specifically binding to the GPCR polypeptides, and modulators of the GPCR. Also provided by the invention are host cells, transgenic organisms comprising the gene delivery vehicle of the present invention. Further provided are methods of using these compositions for diagnosis and treatment of GPCR associated diseases.