Patent application number | Description | Published |
20080241831 | Methods for detecting small RNA species - The invention provides a method of detecting small target nucleotide sequences, in particular, small RNA species that are present in a sample. The method generally comprises a poly-A polymerization step or a ligation step to add a universal sequence to the 3′-end of all RNA molecules, followed by a universal primer-mediated cDNA synthesis, solid-phase selection, assay oligo annealing, extension and PCR amplification/labeling. The method of the invention can be practiced to amplify and label a small amount of miRNA or other ncRNA. The resulting amplification product can be read out on a universal array or an array with miRNA-specific or ncRNA-specific probes. The invention has multiple embodiments, including methods, compositions, and kits. In general, the nucleic acids, compositions, and kits comprise materials that are useful in carrying out the methods of the invention or are produced by the methods, and that can be used to detect small target nucleic acid sequences present in samples, in particular, small RNA species. | 10-02-2008 |
20080242555 | MULTIPLEX NUCLEIC ACID REACTIONS - The invention is directed to a variety of multiplexing methods used to amplify and/or genotype a variety of samples simultaneously. | 10-02-2008 |
20100015626 | MULTIPLEX NUCLEIC ACID REACTIONS - The invention is directed to a variety of multiplexing methods used to amplify and/or genotype a variety of samples simultaneously. | 01-21-2010 |
20100311064 | MULTIPLEX NUCLEIC ACID REACTIONS - The invention is directed to a variety of multiplexing methods used to amplify and/or genotype a variety of samples simultaneously. | 12-09-2010 |
20110152111 | MULTIPLEX NUCLEIC ACID ANALYSIS USING ARCHIVED OR FIXED SAMPLES - The present invention is directed to compositions and methods for multiplex analyses of nucleic acids from archival tissues. | 06-23-2011 |
20110153534 | Expression Profiles to Predict Relapse of Prostate Cancer - The present invention provides a method for preparing a reference model for cancer relapse prediction that provides higher resolution grading than Gleason score alone. The method encompasses obtaining from different individuals a plurality of prostate carcinoma tissue samples of known clinical outcome representing different Gleason scores; selecting a set of signature genes having an expression pattern that correlates positively or negatively in a statistically significant manner with the Gleason scores; independently deriving a prediction score that correlates gene expression of each individual signature gene with Gleason score for each signature gene in said plurality of prostate carcinoma tissue samples; deriving a prostate cancer gene expression (GEX) score that correlates gene expression of said set of signature genes with the Gleason score based on the combination of independently derived prediction scores in the plurality of prostate cancer tissue samples; and correlating said GEX score with the clinical outcome for each prostate carcinoma tissue sample. A set of signature genes is provided that encompasses all or a sub-combination of GI_2094528, KIP2, NRG1, NBL1, Prostein, CCNE2, CDC6, FBP1, HOXC6, MKI67, MYBL2, PTTG1, RAMP, UBE2C, Wnt5A, MEMD, AZGP1, CCK, MLCK, PPAP2B, and PROK1. Also provided a methods for predicting the probability of relapse of cancer in an individual and methods for deriving a prostate cancer gene expression (GEX) score for a prostate carcinoma tissue sample obtained from an individual. | 06-23-2011 |
20120109535 | Gene Expression Profiles to Predict Relapse of Prostate Cancer - The present disclosure provides a method for cancer relapse prediction that provides higher resolution grading than Gleason score alone. In particular, the method provides for prediction of prostate cancer relapse that correlates gene expression of each individual signature gene and deriving a prostate cancer gene expression (GEX) score in the plurality of prostate cancer tissue samples; and correlating said GEX score with the clinical outcome for each prostate carcinoma tissue sample. A set of signature genes is provided that encompasses all or a sub-combination of GI_2094528, KIP2, NRG1, NBL1, Prostein, CCNE2, CDC6, FBP1, HOXC6, MKI67, MYBL2, PTTG1, RAMP, UBE2C, Wnt5A, MEMD, AZGP1, CCK, MLCK, PPAP2B, and PROK1. | 05-03-2012 |
20120202704 | MULTI-SAMPLE INDEXING FOR MULTIPLEX GENOTYPING - A method for determining the presence of multiple nucleotide sequences of interest in multiple samples while preserving the identity of each sample, by contacting the samples with a plurality of probe sets. The probes are designed to indicate the presence of the sequences of interest and the identity of the sample containing the sequence of interest in complex mixtures. Applications of the method include genotyping, expression analysis, and identification of individual species in complex samples. Kits of probe sets for use in the methods are also provided. | 08-09-2012 |
20130244882 | MULTIPLEX NUCLEIC ACID REACTIONS - A method for detecting nucleic acids by (a) providing a sample having target nucleic acids, each nucleic acid having contiguous first, second, and third domains; (b) contacting the sample with probe sets to form hybridization complexes, wherein each probe set includes (i) a first probe having a sequence that is complementary to the first domain; and (ii) a second probe having a sequence substantially complementary to the third domain; (c) extending the first probes along the second domains of the complexes while the complexes are immobilized on a solid support; (d) ligating the extended first probes to the second probes to form templates; (e) amplifying the templates with primers that are complementary to the first and second priming sequences to produce amplicons; and (f) detecting the amplicons on the surface of a nucleic acid array. | 09-19-2013 |
20140045706 | METHODS AND SYSTEMS FOR HAPLOTYPE DETERMINATION - Embodiments of the present disclosure provide methods and systems for determining the haplotype of a biological sample. Particular embodiments provide methods for long range haplotyping of a genome. | 02-13-2014 |
20140114579 | HLA TYPING USING SELECTIVE AMPLIFICATION AND SEQUENCING - Presented herein are methods and compositions for determining haplotypes in a sample. The methods are useful for obtaining sequence information regarding, for example, HLA type and haplotype. Also presented herein are methods of determining haplotypes in a sample based on a plurality sequence reads. | 04-24-2014 |
20140315729 | DETECTION OF NUCLEIC ACID REACTIONS ON BEAD ARRAYS - The present invention is directed to methods and compositions for the use of micro sphere arrays to detect and quantify a number of nucleic acid reactions. The invention finds use in genotyping, i.e. the determination of the sequence of nucleic acids, particularly alterations such as nucleotide substitutions (mismatches) and single nucleotide polymorphisms (SNPs). Similarly, the invention finds use in the detection and quantification of a nucleic acid target using a variety of amplification techniques, including both signal amplification and target amplification. The methods and compositions of the invention can be used in nucleic acid sequencing reactions as well. All applications can include the use of adapter sequences to allow for universal arrays. | 10-23-2014 |
20140364323 | MULTI-SAMPLE INDEXING FOR MULTIPLEX GENOTYPING - A method for determining the presence of multiple nucleotide sequences of interest in multiple samples while preserving the identity of each sample, by contacting the samples with a plurality of probe sets. The probes are designed to indicate the presence of the sequences of interest and the identity of the sample containing the sequence of interest in complex mixtures. Applications of the method include genotyping, expression analysis, and identification of individual species in complex samples. Kits of probe sets for use in the methods are also provided. | 12-11-2014 |