Abstract: The present invention relates to solution microarrays. In particular, the present invention relates to an aqueous 2-phase system for solution microarrays and uses thereof. Additional embodiments are described herein.

Abstract: The present invention provides methods of detecting cancer using biomarkers.

Abstract: A gene profiling signature is disclosed herein. The gene signature can predict whether a subject with ovarian cancer will be chemorefractory, chemoresistant or chemosensitive. Thus, methods are disclosed for determining whether a subject with ovarian cancer is sensitive to treatment with a chemotherapeutic agent. Methods are also provided for increasing sensitivity to the chemotherapeutic agent if the presence of differential expression indicates that the ovarian cancer has a decreased sensitivity to chemotherapeutic agent.

Abstract: The present invention identities biomarkers that are diagnostic of nerve cell injury and/or neuronal disorders. Detection of different biomarkers of the invention are also diagnostic of the degree of severity of nerve injury, the cell(s) involved in the injury, and the subcellular localization of the injury.

Abstract: The present invention provides compositions and methods of modulating or regulating eukaryotic gene expression through the controlled or regulated expression of polynucleotide constructs that encode siRNA or other desired exogenous nucleic acids or proteins. Such constructs, and additional elements of the system may be transfected into the cells of interest and the expression of the siRNA, and hence the expression of the target gene of the siRNA, may be controlled through the administration of a compound to the cell, such as a small molecule or drug. Lentivirus vectors are employed in some embodiments of the invention including the generation of conditional knockdown animals.

Abstract: Holding device for the arrangement of at least one optical component in front of a laser light source of a laser unit, including a first holding part to which at least one optical component is attached, the holding device furthermore including a second holding part which is attached to one part of the laser unit, and the first holding part being attached to the second holding part. Furthermore this invention relates to an arrangement with such a holding device and a process for producing this arrangement.

Abstract: A substrate comprising a microporous microstructure, an interlayer over at least a portion of the microstructure and a functional layer attached to the interlayer, the functional layer having functional sites with a density of at least 50 nanomoles/cm2.

Abstract: The present invention provides methods of synthesizing a molecule comprising a functional moiety which is operatively linked to an encoding oligonucleotide. The methods include providing an initiator compound comprising an initial functional moiety comprising n building blocks, wherein the initial functional moiety comprises at least one reactive group, and is operatively linked to an initial oligonucleotide; reacting the initiator compound with a building block comprising at least one complementary reactive group, under conditions suitable for reaction of the complementary reactive group to form a covalent bond; and reacting the initial oligonucleotide with an incoming oligonucleotide corresponding to the building block in the presence of an enzyme which catalyzes ligation of the initial oligonucleotide and the incoming oligonucleotide, under conditions suitable for ligation of the incoming oligonucleotide and the initial oligonucleotide to form an encoding oligonucleotide.

Abstract: The invention relates to the field of molecular recognition or detection of discontinuous or conformational binding sites or epitopes corresponding to a binding molecule, in particular, in relation to protein-protein, protein-nucleic acid, nucleic acid-nucleic acid or biomolecule-ligand interactions. The invention provides a synthetic molecular library allowing testing for, identification, characterization or detection of a discontinuous binding site capable of interacting with a binding molecule, the library having been provided with a plurality of test entities, each test entity comprising at least one first segment spotted next to a second segment, each segment having the capacity of being a potential single part of a discontinuous binding site.

Abstract: The present invention provides methods of synthesizing libraries of molecules comprising a functional moiety which is operatively linked to an encoding oligonucleotide, wherein the encoding oligonucleotide comprises a capping sequence containing degenerate nucleotides.

Abstract: A method of stamping of molecular patterns and/or devices based on the reversible self-assembly of molecules, particularly organic molecules is disclosed. This method is suitable for the stamping of almost any nanofabricated device and can be used to transferring a large amount of pattern information from one substrate to another at the same time.

Abstract: The present invention provides assays of nanometer-level dimension.

Abstract: A substrate comprising a microporous microstructure, an interlayer over at least a portion of the microstructure and a functional layer attached to the interlayer, the functional layer having functional sites with a density of at least 50 nanomoles/cm2.

Abstract: The present invention relates to artificial receptors and arrays or microarrays of artificial receptors or candidate artificial receptors. Each member of the array includes a plurality of building block compounds, typically immobilized in a spot on a support. The present invention also includes the building blocks, combinations of building blocks, arrays of building blocks, and receptors constructed of these building blocks together with a support. The present invention also includes methods of making and using these arrays and receptors.

Abstract: The present invention relates to a method of identifying types of body fluids in a sample. This method involves providing a sample potentially containing one or more types of body fluids. The sample is subjected to Raman spectroscopy to produce a Raman spectroscopic signature for the sample. The Raman spectroscopy signature is identified to ascertain the types of body fluids in the sample. A method of establishing a reference Raman spectroscopic signature for specific types of body fluids is also disclosed as is a library of such reference signatures is also disclosed.

Abstract: The present invention relates to methods employing artificial receptors, such as combinatorial artificial receptor arrays. The present receptors include heterogeneous and immobilized combinations of building block molecules. In certain embodiments, combinations of 2, 3, 4, or 5 distinct building block molecules immobilized near one another on a support provide molecular structures that can be employed in the present methods. The present methods can develop artificial receptors that can then be employed to detect the receptor's ligand. The present methods can find compounds that disrupt one or more binding interactions.

Abstract: The present invention relates to the use of mass spectrometry to analyze arrays. The present invention provides methods for characterizing solutions comprising one or more proteins using arrays and mass spectrometry. The arrays of the present invention are coated with porous gold and utilize hydrophobic and hydrophilic self-assembled monolayers.

Abstract: Systems, methods, and other embodiments associated with sequence matching with no more than a number E errors are disclosed. A test fragment to be located within a target sequence with at most a number E errors is received. The test fragment is broken into E+1 test sub-fragments. If one test sub-fragment is located within the target sequence with no errors; a determination is made as to whether the other test sub-fragments are located within the target sequence adjacent to the one test sub-fragment with a total of at most E errors. If the other test sub-fragments are located within the target sequence adjacent the one test sub-fragment with at most E errors, a location of the test fragment within the target sequence is returned.

Abstract: Materials and methods for photodirected synthesis of oligonucleotide arrays on a solid substrate by photodirected synthesis are disclosed which employ a film formed from (i) a photoacid generator that on photolysis generates acid that is capable of directly removing the protecting group of the linker molecules or oligonucleotides and (ii) a polymer substantially lacking electronegative heteroatoms that are capable of hydrogen bonding with photogenerated acid. Methods of synthesizing an oligomer arrays are also described that use a film that restricts diffusion of reactants and products on the substrate during synthesis of the array and which includes a precursor of a deprotecting reagent. The method involves removing one or more of the non-required products of the deprotection reaction from the reactive array elements at which they are produced during the reaction, in order to displace the deprotection reaction towards completion.

Abstract: In vitro diagnosis/prognosis method and kit, for assessment of tolerance in liver transplantation. The present invention refers to the study of peripheral blood transcriptional patterns from 80 liver transplant recipients and 16 non-transplanted healthy individuals employing either oligonucleotide microarrays and/or quantitative real-time PCR to design a clinically applicable molecular test. This has resulted in the discovery and validation of several gene signatures comprising a modest number of genes capable of identifying tolerant and non-tolerant recipients with high accuracy. The marker genes are KLRF1, SLAMF7, NKG7, IL2RB, KLRB1, FANCG, GNPTAB, CLIC3, PSMD14, ALG8, CX3CR1, RGS 3. Multiple peripheral blood lymphocyte subsets contribute to the tolerance-associated transcriptional patterns with NK and ?delta T cells exerting a predominant influence.

Abstract: Disclosed herein is a gold nanoparticle (AuNP)-based peptide chip prepared by forming a monolayer of AuNPs onto a self-assembled monolayer constructed on a solid support, and then immobilizing a peptide on the AuNPs. The AuNPs can effectively amplify the mass signal of the peptide, thus making it possible to measure the mass change of the peptide in a simple and accurate manner. Also, when secondary ion mass spectrometric analysis (spectrum or imaging) is performed on the AuNP-based peptide chip, the activities of enzymes and related inhibitors can be effectively quantified. The disclosed invention enables various enzyme activities to be analyzed rapidly and accurately, and thus can provide an important method for disease diagnosis and new drug development through the elucidation of signaling and interaction mechanisms.

Abstract: The present invention relates to profiles (significant set) of volatile organic compounds, VOCs, namely hydrocarbons between 2 and 24 carbon atoms (C2-C24), using solid phase microextraction (SPME) and high resolution gas chromatography coupled to mass spectrometry (GC-MS) as methodology. The present invention provides the identification and characterization of profiles of cellulosic material, markers of degradation and/or ageing of cultural heritage, or the identification and characterization of profiles of biological fluids, markers of pathology. The present invention provides the identification and characterization of the hydrocarbons, chemical components of the profiles, markers of chemical degradation of cellulosic polymer or of lipid peroxidation due to pathology.

Abstract: Compositions and methods for detecting the presence and/or amount of one or more analytes, including analytes such as drugs of abuse, are provided. The compositions include two or more analytes associated with a solid phase, e.g., a particle or a multiwell plate. The compositions and methods also allow the simultaneous, tandem, or serial determination of the presence and/or amount of two or more analytes of interest in a sample.

Abstract: A disease specific panel having at least one primary test for different analytes that are relevant for either early detection of a primary disease or management of patients already diagnosed with said primary disease. The panel also includes at least one secondary test which is relevant for detection of a co-morbid condition or complications of the primary disease. Generally, the primary and secondary tests are disposed on a support surface. The disease specific panel is different from the prior art creening tests in that there are no tests included in the panel whose results are not relevant or do not relate to either primary disease or a co-morbid condition or complications of the primary disease. The disease specific panel may also include systems and methods utilizing algorithms for creating and outputting diagnostic aids, as well as warnings about the presence of possible sample interferants, especially those commonly associated with the subject disease of the panel.

Abstract: A biosensor device (100) for detecting biological particles, the biosensor device (100) comprising a substrate (102), a regular pattern of pores (104) formed in the substrate (102), and a plurality of sensor active structures (106) each of which being arranged on a surface of a corresponding one of the pores (104), wherein each of the plurality of sensor active structures (106) is sensitive to specific biological particles and is adapted to modify electromagnetic radiation interaction properties in the event of the presence of the respective biological particles.

Abstract: Provided is a photoamplified fluorescence turn-off assay where a masked photosensitizer is mixed with a fluorescent molecule. This mixture is brightly fluorescent because the masked photosensitizer is not capable of quenching the fluorophore. When the photosensitizer is released and amplified, the photosensitizer quenches the emission of fluorophores very efficiently.

Abstract: A novel encoding system, compositions for use therein and methods for determining the source, location and/or identity of a particular item or component of interest is provided. In particular, the present invention utilizes a collection of one or more sizes of populations of semiconductor nanocrystals having characteristic spectral emissions, to “track” the source or location of an item of interest or to identify a particular item of interest. The semiconductor nanocrystals used in the inventive compositions can be selected to emit a desired wavelength to produce a characteristic spectral emission in narrow spectral widths, and with a symmetric, nearly Gaussian line shape, by changing the composition and size of the semiconductor nanocrystal. Additionally, the intensity of the emission at a particular characteristic wavelength can also be varied, thus enabling the use of binary or higher order encoding schemes.

Abstract: The invention relates to novel nucleic acids encoding a mammalian PCADM-1 gene, and proteins encoded thereby, whose expression is increased in certain diseases, disorders, or conditions, including, but not limited to, prostate cancer, The invention further relates to methods of detecting and treating prostate cancer, comprising modulating or detecting PCADM-1 expression and/or production and activity of PCADM-1 polypeptide. Further, the invention relates to novel assays for the identification of DNA-binding proteins and the double-stranded oligonucleotide sequences that specifically bind with them. Finally, the invention relates to DNAZYMs or DNA enzymes which specifically bind PCADM-1 mRNA to inhibit PCADM-1 gene expression and thereby destroy tumor cells and tumor tissue.

Abstract: A method of reading a plurality of encoded microvessels used in an assay for biological or chemical analysis. The method can include providing a plurality of encoded microvessels. The microvessels can include a respective microbody and a reservoir core configured to hold a substance in the reservoir core. The microbody can include a material that surrounds the reservoir core and facilitates detection of a characteristic of the substance within the reservoir core. Optionally, the material can be transparent so as to facilitate detection of an optical characteristic of a substance within the reservoir core. The microbody can include an identifiable code associated with the substance. The method can also include determining the corresponding codes of the microvessels.

Abstract: This invention relates to enzyme-sensitive biosensors and methods and kits using the same. Specifically, the invention relates to methods, systems and kits for the detection of enzymes using the chemical shift observed in an isotope complexed to the biosensor resulting from a change in the biosensor as the result of the enzyme's activity.

Abstract: Methods, kits, systems, and multilayer transfer media for transferring a substance to and from an array are disclosed herein. Also disclosed herein are methods of detecting a substance that has been transferred to an array.

Abstract: The present invention provides methods of synthesizing libraries of molecules comprising a functional moiety which is operatively linked to an encoding oligonucleotide.

Abstract: Provided is a microreactor array, comprising a single fibre comprising a matrix material; a plurality of capillaries formed within the matrix material, the capillaries substantially aligned along a longitudinal axis of the fibre; and one or more reagent associated with an inner surface of the capillaries; wherein each capillary corresponds to a microreactor of the array. Also provided are microreactor array methods and systems, including a manifold microreactor system and a microreactor array system microchip.

Abstract: The invention relates to improved molecular-biological processing equipment and an improved method of processing biological samples. The invention combines the provision of biologically functional molecules such as nucleic acids and peptides and of derivatives or analogs of these two classes of molecules in miniaturized flow cells with the sequential addition of reagents or fluids and serves for the processing of biological samples, such as proteins, nucleic acids, biogenic small molecules such as e.g. metabolites, viruses or cells, which for this purpose are introduced into the miniaturized flow cells.

Abstract: The invention discloses means and methods for genotyping an individual head of cattle. Individual's DNA is genotyped utilising the herein defined PCR SNaP-shot protocol. The protocol comprises two PCR steps where the first step (PCR1) includes adding primers (SEQ ID No. 1-30) and/or primers extended at their 5? end with a common 10 base motif (ACGTTGGATG) to the PCR1 reaction. The second step (PCR2) includes adding extension primers (SEQ ID No. 31-45), and/or primers adjacent to corresponding specific SNPs. Further steps include producing amplicons from a PCR1 mixture comprising template DNA and the first primer set to yield PCR1 products, using PCR1 products as templates to a set of extension primers to yield PCR2 products. Size and colour separation is achieved by adding tails of different lengths to the PCR2 primers. PCR2 products are separated and the results compared with SNP profiles from the databank to obtain matching.

Abstract: The invention relates to methods of detecting a target analyte in a biological sample using composite microsphere arrays having first and second assay locations. Preferred target analytes include nucleic acid, and more specifically, nucleic acid having one or more single nucleotide polymorphisms (SNPs).

Abstract: Device comprising: a first substrate; a plurality of first raised elements on the first substrate, the first raised elements mutually spaced apart by first channel regions on the first substrate, each of the first raised elements having a first distal end, the first distal ends forming a first array; hydrophobic molecules on the first raised elements; and primary reactive molecules on the first raised elements for generating hydrophilic reaction products. Techniques for utilizing the device.

Abstract: The present disclosure discloses simple and efficient glycan- or carbohydrate-based processes or methods for the rapid identification of biological markers and therapeutic targets especially glycan-related targets of infectious diseases, cancers, autoimmune diseases, allergies, inflammation, toxicity, obesity and/or other disorders of humans, animals, plants and other organisms. Therefore, novel methods and products for the diagnosis, prevention, and treatment of such diseases obtainable based on these therapeutic targets can be developed.

Abstract: The invention relates to a method for synthesising a bifunctional complex comprising an encoded molecule and an identifier polynucleotide identifying the chemical entities having participated in the synthesis of the encoded molecule, said method comprising the steps of i) providing a) at least one template comprising one or more codons capable of hybridising to an anti-codon, wherein said template is optionally associated with one or more chemical entities, and b) a plurality of building blocks each comprising an anti-codon associated with one or more chemical entities, and ii) hybridising the anti-codon of one or more of the provided building blocks to the template, iii) covalently linking said anti-codons and/or linking the at least one template with the anti-codon of at least one building block, thereby generating an identifier polynucleotide capable of identifying chemical entities having participated in the synthesis of the encoded molecule, iv) separating the template from one or more of the anti-codons

Abstract: An object of the present invention is to provide a test apparatus for testing a DNA substrate on which a plurality of DNA fragments for testing are arranged, wherein absolute precision is not required. The above-described problem was solved by providing a substrate on which a plurality of biomolecule spots containing a group of biomolecules (e.g., DNA, etc.) of a specific type are formed, where the pattern or position of the DNA spot is changed depending on specific data so that information of the specific data is recorded on the substrate.

Abstract: The present invention relates to the use of endogenous protein kinase activity in cerebrospinal fluid for the classification, diagnosis and prognosis of neurological and psychiatric disorders as well as for predicting and monitoring treatment effects. An array of substrates for protein kinases, immobilized on a porous matrix, is used to monitor the protein kinase activity in cerebrospinal fluid. The method of the present invention enables the early diagnosis and discrimination between neurodegenerative disorders.

Abstract: Methods and devices for diagnosing, monitoring, or determining a renal disorder in a mammal are described. In particular, methods and devices for diagnosing, monitoring, or determining a renal disorder using measured concentrations of a combination of three or more analytes in a test sample taken from the mammal are described.

Abstract: The subject invention provides unique biological alternatives for pest control. More specifically, the present invention relates to novel pesticidal proteins, novel sources of pesticidal proteins, polynucleotides that encode such toxins, and to methods of using these toxins to control insects and other plant pests. The subject invention relates to the surprising discovery that Paenibacillus species, and proteins therefrom, have toxicity to lepidopterans. There have been no known reports of a Paenibacillus species, strain, or protein having toxicity to lepidopterans. This is also the first known example of a Paenibacillus Cry protein that is toxic to lepidopterans. Furthermore, this is the first known report of a Paenibacillus having toxin complex (TC)-like proteins. The DAS1529 isolate disclosed here is also the first known example of a natural bacterium that produces both a Cry toxin and TC proteins. The subject invention also relates to new classes of Cry and TC proteins that are pesticidally active.

Abstract: Chemical functionalization of solid-state nanopores and nanopore arrays and applications thereof. Nanopores are extremely sensitive single-molecule sensors. Recently, electron beams have been used to fabricate synthetic nanopores in thin solid-state membranes with sub-nanometer resolution. A new class of chemically modified nanopore sensors are provided with two approaches for monolayer coating of nanopores by: (1) self-assembly from solution, in which nanopores ?10 nm diameter can be reproducibly coated, and (2) self-assembly under voltage-driven electrolyte flow, in which 5 nm nanopores may be coated. Applications of chemically modified nanopore are provided including: the detection of biopolymers such as DNA and RNA; immobilizing enzymes or other proteins for detection or for generating chemical gradients; and localized pH sensing.

Abstract: An osmolyte composition comprising 4 M glycerol and 4M urea for stabilizing previously transient protein folding intermediates as long-lived stable forms. A method to search for other possible stabilizing osmolyte mixtures using a screening array is also provided. These additional osmolyte mixtures may complement or augment the successful 4M glycerol/4 M urea mixture.

Abstract: A method is of producing a microarray substrate that includes a substrate, a partition that is formed on a surface of the substrate, and an area that is positioned over the substrate and defined by the partition. The method includes forming a first film on the substrate using a radiation-sensitive composition. The radiation-sensitive composition includes a coloring agent (A) including at least one of a violet pigment (a2) and a compound (a1) shown by a formula (1) in which each of R1 and R2 represents one of a hydrogen atom, a halogen atom, an alkyl group having 1 to 10 carbon atoms, a perfluoroalkyl group having 1 to 10 carbon atoms, and an amino group having 0 to 5 carbon atoms. The first film is patterned by lithography to form the partition.

Abstract: System, including methods, apparatus, compositions, and kits, for the mixing of small volumes of fluid by coalescence of multiple emulsions.

Abstract: High throughput screening is performed by directing an array tape (60) provided with a plurality of wells arranged in rows and columns into a dispensing well plate device (25) having various row and column actuators (40, 50). With the wells containing samples to be tested, activating select ones of row and column actuators (40, 50) of the dispensing well plate device (25), as well causing relative shifting between the actuators (40, 50) and the array tape (60), enables fluid to be dispensed from one or more nozzles of the dispensing well plate device (25) into predetermined ones of the plurality of wells in a wide range of patterns.

Abstract: Methods for preparing useful patterns of biomolecules on solid supports employ particle printing lithography techniques whereby suspensions of different bioconjugates are loaded onto portions of a master pattern formed by a series of portions in a support that are compatible with an attractive force to which the bioconjugates respond. The master pattern of the bioconjugates can then be transferred to a biocompatible matrix for biological and medical applications.

Abstract: In order to obtain a novel binding protein against a chosen target, DNA molecules, each encoding a protein comprising one of a family of similar potential binding domains and a structural signal calling for the display of the protein on the outer surface of a chosen bacterial cell, bacterial spore or phage (genetic package) are introduced into a genetic package. The protein is expressed and the potential binding domain is displayed on the outer surface of the package. The cells or viruses bearing the binding domains which recognize the target molecule are isolated and amplified. The successful binding domains are then characterized. One or more of these successful binding domains is used as a model for the design of a new family of potential binding domains, and the process is repeated until a novel binding domain having a desired affinity for the target molecule is obtained.