Patent application number | Description | Published |
20080248968 | MATRIX-ASSISTED LASER DESORPTION IONIZATION MASS SPECTROMETRY SUBSTRATES HAVING LOW VOLUME MATRIX ARRAY ELEMENTS - Provided herein are substrates for matrix-assisted laser-desorption ionization (MALDI) mass spectrometric analysis. Each spot includes 3-hydroxypicolinic acid matrix and no analyte. | 10-09-2008 |
20090029370 | REAL TIME NUCLEIC ACID DETECTION IN VIVO USING PROTEIN COMPLEMENTATION - The present invention relates to a method to detect nucleic acid molecules, such as RNA molecules in vivo using real time protein complementation methods. The invention further relates to methods for detecting nucleic acids, for example RNA in real-time in living cells with a high sensitivity, using a novel split biomolecular conjugate of the invention. | 01-29-2009 |
20090075288 | METHOD FOR DE NOVO DETECTION OF SEQUENCES IN NUCLEIC ACIDS: TARGET SEQUENCING BY FRAGMENTATION - The present invention provides a method for determining nucleic acid sequences of a template nucleic acid that requires no prior knowledge of the nucleic acid sequence present in the template nucleic acid. The method is based on combining information about the mass of a fragment, the mass of any one nucleotide and the combinations thereof, and the sequence specificity of a nucleotide cutter, either enzymatic or chemical cutter, to determine a sequence of a nucleic acid fragment. This method allows for de novo detection of sequences in a target nucleic acid without requiring any prior sequence information. This method is called Partial Sequencing by Fragmentation (PSBF) and it works by fragmenting a target into oligo- or polynucleotides whose masses or lengths are uniquely associated with known sequences. The identities of these sequences are determined solely by the specific fragmentation method used, and are always independent of the target. PSBF can be implemented using electrophoresis, mass spectrometry or any other method that can be used to distinguish the size of the cut nucleic acid sequence fragments. | 03-19-2009 |
20090155846 | KINASE ANCHOR PROTEIN MUTEINS, PEPTIDES THEREOF AND RELATED METHODS - A-kinase anchor protein (AKAPS) muteins, peptides thereof, and nucleic acids encoding the peptides are provided herein. Also provided are transgenic animals, cells comprising transgenes and various methods employing such peptides. | 06-18-2009 |
20090202984 | SINGLE MOLECULE NUCLEIC ACID SEQUENCE ANALYSIS PROCESSES AND COMPOSITIONS - Improved solid supports and methods for analyzing target nucleotide sequences are provided herein. Certain improvements are directed to efficiently preparing nucleic acids that comprise nucleotide sequences identical to or substantially identical to one or more target nucleotide sequences, or complement thereof. The prepared nucleic acids include a reference sequence that facilitates sequence analysis. The solid supports and methods provided herein minimize the number of steps required by published sequence analysis methodologies, and thereby offer improved sequence analysis efficiency. | 08-13-2009 |
20090220942 | ACTIVATED SPLIT-POLYPEPTIDES AND METHODS FOR THEIR PRODUCTION AND USE - The present invention relates to a method to produce activated split-polypeptide fragments that on reconstitution immediately forms an active protein. The method relate to real-time protein complementation. Also encompassed in the invention is a method to split and produce split-fluorescent proteins in an active state which produce a fluorescent signal immediately on reconstitution. The present application also provides methods to detect nucleic acids; non-nucleic acid analytes and nucleic acid hybridization in real-time using the novel activated split-polypeptide fragments of the invention. | 09-03-2009 |
20090305237 | QUANTIFICATION OF NUCLEIC ACIDS AND PROTEINS USING OLIGONUCLEOTIDE MASS TAGS - The invention provides a method for detecting and quantifying the amount of target molecules, such as nucleic acids or proteins in a sample. The target molecules are first recognized and bounded by target-specific probes, generally nucleic acids or proteins that bind specifically to the targets, each of which is labeled with a short single-stranded nucleic acid probe, either DNA or RNA, with distinct molecular weight. This label is called an oligonucleotide mass tag. One or several standard oligonucleotide sequences can be designed with similar sequence but distinct molecular weight to those oligonucleotide mass tags. Then the oligonucleotide mass tags associated with bounded probes and the standard sequences are co-amplified using a pair of common primers. The presence and/or amount of each oligonucleotide mass tag, which corresponds to the amount of corresponding target molecule, is determined by a primer extension reaction and quantification of the primer extension product. | 12-10-2009 |
20090325232 | Methods for prenatal diagnosis of chromosomal abnormalities - Chromosomal abnormalities are responsible for a significant number of birth defects, including mental retardation. The present invention is related to methods for non-invasive and rapid, prenatal diagnosis of chromosomal abnormalities based on analysis of a maternal blood sample. The invention exploits the differences in DNA between the mother and fetus, for instance differences in their methylation states, as a means to enrich for fetal DNA in maternal plasma sample. The methods described herein can be used to detect chromosomal DNA deletions and duplications. In a preferred embodiment, the methods are used to diagnose chromosomal aneuploidy and related disorders, such as Down's and Turner's Syndrome. | 12-31-2009 |
20100184075 | Haplotype Analysis - The present invention provides an efficient way for high throughput haplotype analysis. Several polymorphic nucleic acid markers, such as SNPs, can be simultaneously and reliably determined through multiplex PCR of single nucleic acid molecules in several parallel single molecule dilutions and the consequent statistical analysis of the results from these parallel single molecule multiplex PCR reactions results in reliable determination of haplotypes present in the subject. The nucleic acid markers can be of any distance to each other on the chromosome. In addition, an approach wherein overlapping DNA markers are analyzed can be used to link smaller haplotypes into larger haplotypes. Consequently, the invention provides a powerful new tool for diagnostic haplotyping and identifying novel haplotypes. | 07-22-2010 |
20100255558 | SUPRAMOLECULAR BIOCONJUGATES - The invention relates to supramolecular bioconjugates and to methods for assembling and utilizing supramolecular bioconjugates. Supramolecular bioconjugates comprise a plurality of first nucleic acids and a plurality of mediators wherein each mediator comprises a second nucleic acid complementary to a sequence within said plurality of first nucleic acids. To assemble a supramolecular bioconjugate, one or more sets of bioreactive agents are coupled to the plurality of mediators, forming a plurality of bioreactive complexes. The plurality of bioreactive complexes are hybridized to the plurality of first nucleic acids to form the supramolecular bioconjugate. Bioconjugates can be used to detect and isolate targets, to screen samples for targets such as antigens, to treat patients with multiple agents or to diagnose disorders in the form of a kit. | 10-07-2010 |
20100297629 | NUCLEIC ACID SUPPORTED PROTEIN COMPLEMENTATION - The present invention is directed to novel methods for in vitro and in vivo detection of target nucleic acid molecules, including DNA and RNA targets, as well as nucleic acid analogues. The present invention is based on protein complementation, in which two individual polypeptides are inactive. When the two inactive polypeptide fragment are brought in close proximity during hybridization to a target nucleic acid, they re-associate into an active, detectable protein. | 11-25-2010 |
20110097712 | METHOD FOR DETECTING AND QUANTIFYING RARE MUTATIONS/POLYMORPHISMS - The present invention is directed to a method for detecting and quantifying rare mutations in a nucleic acid sample. The nucleic acid molecules under investigation can be either DNA or RNA. The rare mutation can be any type of functional or non-functional nucleic acid change or mutation, such as deletion, insertion, translocation, inversion, one or more base substitution or polymorphism. Therefore, the methods of the present invention are useful in detection of rare mutations in, for example, diagnostic, prognostic and follow-up applications, when the targets are rare known nucleic acid variants mixed in with the wildtype or the more common nucleic acid variant(s). | 04-28-2011 |
20110124518 | METHODS AND COMPOSITIONS FOR THE ANALYSIS OF BIOLOGICAL MOLECULES - Provided herein are compositions and methods for analysis of nucleic acids, including, methods and compositions for genotyping, haplotyping, sequencing and performing other genetic and epigenetic analyses on nucleic acids, for example. In some embodiments, methods and compositions suitable for whole-genome sequencing on single molecules of nucleic acid are provided. In some embodiments, analysis of single molecules of nucleic acid are performed in conjunction with nanopores and/or nanopore devices. | 05-26-2011 |
20110244451 | Methods for prenatal diagnosis of chromosomal abnormalities - Chromosomal abnormalities are responsible for a significant number of birth defects, including mental retardation. The present invention is related to methods for non-invasive and rapid, prenatal diagnosis of chromosomal abnormalities based on analysis of a maternal blood sample. The invention exploits the differences in DNA between the mother and fetus, for instance differences in their methylation states, as a means to enrich for fetal DNA in maternal plasma sample. The methods described herein can be used to detect chromosomal DNA deletions and duplications. In a preferred embodiment, the methods are used to diagnose chromosomal aneuploidy and related disorders, such as Down's and Turner's Syndrome. | 10-06-2011 |
20110263453 | NUCLEIC ACID QUANTIFICATION PRODUCTS AND PROCESSES - Described herein are products and processes for nucleic acid quantification, which are in part useful for detecting and determining the nucleotide sequence of rare nucleic acids (i.e., low copy number nucleic acids) in a sample. Such products and processes are useful for reducing the dynamic range among different nucleic acid species. | 10-27-2011 |
20120028838 | Quantification of Gene Expression - The present invention relates to a method for measuring the amount of a target nucleic acid in a sample using a standard which is designed to have one base difference compared with the gene of interest or a “target nucleic acid sequence.” Use of such standard in combination with a method of “enhancing” the difference in the standard and the test nucleic acid sample using, for example, a base extension reaction carried right at the mutation site allowing amplification of the standard and target nucleic acids with the same efficiency and facilitating quantification of the target nucleic acid. Thereafter a means of quantifying the “enhanced” standard and target nucleic acid samples is used to determine the amount of the target nucleic acid. In the preferred embodiment, the quantification means is Mass Spectrometry. | 02-02-2012 |
20120156685 | METHOD FOR DETECTING AND QUANTIFYING RARE MUTATIONS/POLYMORPHISMS - The present invention is directed to a method for detecting and quantifying rare mutations in a nucleic acid sample. The nucleic acid molecules under investigation can be either DNA or RNA. The rare mutation can be any type of functional or non-functional nucleic acid change or mutation, such as deletion, insertion, translocation, inversion, one or more base substitution or polymorphism. Therefore, the methods of the present invention are useful in detection of rare mutations in, for example, diagnostic, prognostic and follow-up applications, when the targets are rare known nucleic acid variants mixed in with the wildtype or the more common nucleic acid variant(s). | 06-21-2012 |
20120184449 | FETAL GENETIC VARIATION DETECTION - Provided herein are fetal diagnostic methods, kits and computational products useful for non-invasively detecting genetic variations for which maternal nucleic acid sequences are utilized as a reference. | 07-19-2012 |
20120225798 | METHOD FOR NON-INVASIVE PRENATAL DIAGNOSIS - The present invention is directed to methods of detecting nucleic acids in a biological sample. The method is based on a novel combination of a base extension reaction, which provides excellent analytical specificity, and a mass spectrometric analysis, which provides excellent specificity. The method can be used, for example, for diagnostic, prognostic and treatment purposes. The method allows accurate detection of nucleic acids that are present in very small amounts in a biological sample. For example, the method of the present invention is preferably used to detect fetal nucleic acid in a maternal blood sample; circulating tumor-specific nucleic acids in a blood, urine or stool sample; and donor-specific nucleic acids in transplant recipients. In another embodiment, one can detect viral, bacterial, fungal, or other foreign nucleic acids in a biological sample. | 09-06-2012 |
20120295263 | Haplotype Analysis - The present invention provides an efficient way for high throughput haplotype analysis. Several polymorphic nucleic acid markers, such as SNPs, can be simultaneously and reliably determined through multiplex PCR of single nucleic acid molecules in several parallel single molecule dilutions and the consequent statistical analysis of the results from these parallel single molecule multiplex PCR reactions results in reliable determination of haplotypes present in the subject. The nucleic acid markers can be of any distance to each other on the chromosome. In addition, an approach wherein overlapping DNA markers are analyzed can be used to link smaller haplotypes into larger haplotypes. Consequently, the invention provides a powerful new tool for diagnostic haplotyping and identifying novel haplotypes. | 11-22-2012 |
20130203051 | Methods for prenatal diagnosis of chromosomal abnormalities - Chromosomal abnormalities are responsible for a significant number of birth defects, including mental retardation. The present invention is related to methods for non-invasive and rapid, prenatal diagnosis of chromosomal abnormalities based on analysis of a maternal blood sample. The invention exploits the differences in DNA between the mother and fetus, for instance differences in their methylation states, as a means to enrich for fetal DNA in maternal plasma sample. The methods described herein can be used to detect chromosomal DNA deletions and duplications. In a preferred embodiment, the methods are used to diagnose chromosomal aneuploidy and related disorders, such as Down's and Turner's Syndrome. | 08-08-2013 |
20130230858 | METHODS AND PROCESSES FOR NON-INVASIVE ASSESSMENT OF GENETIC VARIATIONS - Technology provided herein relates in part to methods, processes and apparatuses for non-invasive assessment of genetic variations. | 09-05-2013 |
20140080126 | QUANTIFICATION OF NUCLEIC ACIDS AND PROTEINS USING OLIGONUCLEOTIDE MASS TAGS - The invention provides a method for detecting and quantifying the amount of target molecules, such as nucleic acids or proteins in a sample. The target molecules are first recognized and bounded by target-specific probes, generally nucleic acids or proteins that bind specifically to the targets, each of which is labeled with a short single-stranded nucleic acid probe, either DNA or RNA, with distinct molecular weight. This label is called an oligonucleotide mass tag. One or several standard oligonucleotide sequences can be designed with similar sequence but distinct molecular weight to those oligonucleotide mass tags. Then the oligonucleotide mass tags associated with bounded probes and the standard sequences are co-amplified using a pair of common primers. The presence and/or amount of each oligonucleotide mass tag, which corresponds to the amount of corresponding target molecule, is determined by a primer extension reaction and quantification of the primer extension product. | 03-20-2014 |
20140242588 | METHODS AND PROCESSES FOR NON-INVASIVE ASSESSMENT OF GENETIC VARIATIONS - Technology provided herein relates in part to methods, processes and apparatuses for non-invasive assessment of genetic variations. | 08-28-2014 |