Abstract: The present invention relates to the use of the compound [2-[(5-nitro-1,3-thiazol-2-yl)carbamoyl]phenyl]ethanoate in a method of treatment or prophylaxis of vascular and respiratory disease, fibrotic disease and neurodegenerative disease, particularly interstitial pneumonia, tuberous sclerosis or lymphangioleiomyomatosis, collagen disease, interstitial lung disease, human kidney disease, nephritic syndrome, liver fibrosis or liver cirrhosis, Alzheimer's disease or Parkinson's disease.

Abstract: The present invention relates to the use of the compound [2-[(5-nitro-1,3-thiazol-2-yl)carbamoyl]phenyl]ethanoate in a method of treatment or prophylaxis of vascular and respiratory disease, fibrotic disease and neurodegenerative disease, particularly interstitial pneumonia, tuberous sclerosis or lymphangioleiomyomatosis, collagen disease, interstitial lung disease, human kidney disease, nephritic syndrome, liver fibrosis or liver cirrhosis, Alzheimer's disease or Parkinson's disease.

Abstract: The invention relates to novel small molecule compounds having a basic structure as depicted by formula (A), where in particular exemplary embodiments R1 is —OH, R2 is —NO2 and R3 is H, R4 and R5 are H, one of R6 and R7 is selected from H, —CONH2, and —CONR92, and the other one is selected from —CONR92 and —CONR11R9, wherein R9 and R11 are (possibly multiply) substituted alkyl and H or alkyl, respectively. The compounds of the invention inhibit the enzyme Catechol-O-methyltransferase (COMT) and exhibit a low off-target profile. The compounds are provided for use as a medicament, in particular for use in prevention or treatment of Parkinson's disease.

Abstract: The invention relates to novel small molecule compounds having a basic structure as depicted by formula (A), where in particular exemplary embodiments R1 is —OH, R2 is —NO2 and R3 is H, R4 and R5 are H, one of R6 and R7 is selected from H, —CONH2, and —CONR92, and the other one is selected from —CONR92 and —CONR11R9, wherein R9 and R11 are (possibly multiply) substituted alkyl and H or alkyl, respectively. The compounds of the invention inhibit the enzyme Catechol-O-methyltransferase (COMT) and exhibit a low off-target profile. The compounds are provided for use as a medicament, in particular for use in prevention or treatment of Parkinson's disease.

Abstract: Capture compounds and collections thereof and methods using the compounds for the analysis of biomolecules are provided. In particular, collections, compounds and methods are provided for analyzing complex protein mixtures, such as the proteome. The compounds are multifunctional reagents that provide for the separation and isolation of complex protein mixtures. Automated systems for performing the methods also are provided.

Abstract: Processes and methods for creating a database of genomic samples from healthy human donors, methods that use the database to identify and correlate polymorphic genetic markers and other markers with diseases and conditions are provided.

Abstract: Provided herein are substrates for matrix-assisted laser-desorption ionization (MALDI) mass spectrometric analysis. Each spot includes 3-hydroxypicolinic acid matrix and no analyte.

Abstract: Processes and methods for creating a database of genomic samples from healthy human donors, methods that use the database to identify and correlate polymorphic genetic markers and other markers with diseases and conditions are provided.

Abstract: Capture compounds and collections thereof and methods using the compounds for the analysis of biomolecules are provided. In particular, collections, compounds and methods are provided for analyzing complex protein mixtures, such as the proteome. The compounds are multifunctional reagents that provide for the separation and isolation of complex protein mixtures. Each compound has the formula: wherein: Z is a trityl derivative; X, the reactivity function, covalently binds to amino acid side chains of proteins; Y, the selectivity function, modulates binding of X to the amino acid side chains in proteins such that X binds to fewer proteins when Y is present than in its absence; and Q permits separation or immobilization of the capture compound. Automated systems for performing the methods also are provided.

Abstract: Processes and methods for creating a database of genomic samples from healthy human donors, methods that use the database to identify and correlate polymorphic genetic markers and other markers with diseases and conditions are provided.

Abstract: Fast and highly accurate mass spectrometry-based processes for detecting particular nucleic acid molecules and mutations in the molecules are provided.

Abstract: This invention relates to methods for detecting and sequencing target nucleic acid sequences, to mass modified nucleic acid probes and arrays of probes useful in these methods, and to kits and systems which contain these probes. Useful methods involve hybridizing the nucleic acids or nucleic acids which represent complementary or homologous sequences of the target to an array of nucleic acid probes. These probes comprise a single-stranded portion, an optional double-stranded portion and a variable sequence within the single-stranded portion. The molecular weights of the hybridized nucleic acids of the set can be determined by mass spectroscopy, and the sequence of the target determined from the molecular weights of the fragments. Nucleic acids whose sequences can be determined include DNA or RNA in biological samples such as patient biopsies and environmental samples.

Abstract: Capture compounds and collections thereof and methods using the compounds for the analysis of biomolecules are provided. In particular, collections, compounds and methods are provided for analyzing complex protein mixtures, such as the proteome. The compounds are multifunctional reagents that provide for the separation and isolation of complex protein mixtures. Each compound has the formula: wherein: Z is a trityl derivative; X, the reactivity function, covalently binds to amino acid side chains of proteins; Y, the selectivity function, modulates binding of X to the amino acid side chains in proteins such that X binds to fewer proteins when Y is present than in its absence; and Q permits separation or immobilization of the capture compound. Automated systems for performing the methods also are provided.

Abstract: Capture Collections of capture compounds and collections thereof and methods using the compounds collections for the analysis of biomolecules are provided. In particular, collections, compounds and methods are provided for analyzing complex protein mixtures, such as the proteome. The compounds in the collections are multifunctional reagents that provide for the separation and isolation of biomolecules in complex protein mixtures. In the collections, each and every compound in the collection, has the formula: Z is a trityl derivative, each of m and n independently is an integer that is 1 to 100; X, the reactivity function, covalently binds to amino acid side chains of biomolecules; Y, the selectivity function, modulates binding of X to the amino acid side chains in biomolecules such that X binds to fewer biomolecules when the selectivity moiety Y is present than in its absence; and Q permits separation or immobilization of capture compounds in the collection.

Abstract: Capture compounds and collections thereof and methods using the compounds for the analysis of biomolecules are provided. In particular, collections, compounds and methods are provided for analyzing complex protein mixtures, such as the proteome. The compounds are multifunctional reagents that provide for the separation and isolation of complex protein mixtures. Automated systems for performing the methods also are provided.

Abstract: Processes and methods for creating a database of genomic samples from healthy human donors, methods that use the database to identify and correlate polymorphic genetic markers and other markers with diseases and conditions are provided.

Abstract: This invention relates to methods for detecting and sequencing target nucleic acid sequences, to mass modified nucleic acid probes and arrays of probes useful in these methods, and to kits and systems which contain these probes. Useful methods involve hybridizing the nucleic acids or nucleic acids which represent complementary or homologous sequences of the target to an array of nucleic acid probes. These probes comprise a single-stranded portion, an optional double-stranded portion and a variable sequence within the single-stranded portion. The molecular weights of the hybridized nucleic acids of the set can be determined by mass spectroscopy, and the sequence of the target determined from the molecular weights of the fragments. Nucleic acids whose sequences can be determined include DNA or RNA in biological samples such as patient biopsies and environmental samples.

Abstract: Fast and highly accurate mass spectrometry-based processes for detecting particular nucleic acid molecules and mutations in the molecules are provided. In some embodiments, a process comprises: amplifying one or more target nucleic acid molecules from a biological sample; ionizing and volatilizing the amplified product; and analyzing a product by mass spectrometry to determine an observed molecular mass of the product.

Abstract: Processes and methods for creating a database of genomic samples from healthy human donors, methods that use the database to identify and correlate polymorphic genetic markers and other markers with diseases and conditions are provided.

Abstract: Novel compositions comprised of at least one bead conjugated to a solid support and further conjugated to at least one nucleic acid and preferred methods for making the novel compositions are described. As compared to “flat” surfaces, beads linked to a solid support provide an increased surface area for immobilization of nucleic acids. Furthermore, by selecting a bead with the desired functionality, a practitioner can select a functionalization chemistry for immobilizing nucleic acids, which is different from the chemistry of the solid support.