The present invention relates to a drum stencil printing system for reliably and automatically printing materials on the inside of a concave surface. The drum stencil printing system includes a pliable drum stencil secured in place by a stencil spring. As the printhead applies radial pressure to the drum stencil, the portion of the stencil in contact with the printhead is deflected to make contact with the container sidewall. When the printhead rotates, the portion of the stencil contacting the container sidewall also rotates to match the nozzle of the printhead. After printing is complete, the printhead retracts, and the pliable stencil is returned to its undeflected position, breaking contact between the stencil and the container, and protecting the printed material from being rubbed or worn off of the container.

Provided are systems and methods of sample preparation and analyte detection.

A sequencing method, system and kit of low molecular weight heparin (LMWH) oligosaccharides are provided. The sequencing method includes: a sample preparation step: isolating or preparing a group of LMWH oligosaccharide mixture samples; a sample treatment step: performing complete enzymatic digestion and nitrous acid degradation on the LMWH oligosaccharide mixture samples to obtain an enzymatically digested eight-common-heparin-disaccharide array, a 3-O-sulfate group array, a 1,6-anhydro structure array, a nitrous acid degradation array, respectively; a data processing step: obtaining a disaccharide isomeric unit array according to the enzymatically digested eight-common-heparin-disaccharide array and the nitrous acid degradation array; a sequence database building step: building a sequence database according to the degree of polymerization of the oligosaccharide mixture, the disaccharide isomeric unit array, the 3-O-sulfate group array, and the 1,6-anhydro structure array; and a specific result output step: screening the sequence database according to input qualification information and then outputting a specific result file.

The present invention relates to a biomarker for diagnosis of overactive bladder (OAB) disease, and a method for screening a drug using the biomarker. The markers described in the present invention can effectively detect or diagnose the onset of OAB by distinguishing them from normal populations. In particular, OAB-specific protein markers released into urine enable simple and rapid OAB diagnosis in a non-invasive manner. In addition, by selecting an agent that changes, particularly normalizes the expression and activity of the markers selected in the present invention, more effective preventative or therapeutic agents of OAB disease can be screened.

The present disclosure relates to a bioparticle measuring method including forming on a solid phase a complex of a sample containing a bioparticle sampled from a specimen, a capturer containing a tag which binds to the solid phase and capable of binding to the bioparticle, and a detector capable of binding to the bioparticle and containing a labeled substance. A part or the whole of the complex may be dissociated from the solid phase to prepare a measurement sample containing a part or the whole of the complex not fixed on the solid phase, and signals from the measurement sample may be detected by a particle analyzer.

Identifying a residue-component in a residue on a surface, comprising using molecular probes selected from the group comprising antibodies, affimers, aptamers, lectins, carbohydrate binding modules and mixtures thereof. The residue-component may be a soil or surface treatment component. The method can be used to make or improve cleaning or treatment compositions or processes.

An anti-8-OHdG antibody and an antibody fragment thereof, with which 8-hydroxy-2′-deoxyguanosine (8-OHdG) in a specimen, particularly urine, can be accurately analyzed, and a measuring method capable of measuring 8-OHdG in a specimen, particularly urine, with high sensitivity are provided. An anti-8-OHdG antibody or an antibody fragment thereof which reacts specifically with 8-OHdG and substantially does not react with urea; the antibody or antibody fragment thereof in which the complementarity-determining regions of the variable regions of heavy and light chains are specific amino acid sequences; and a measuring method for 8-OHdG in a specimen using the antibody or antibody fragment thereof are disclosed.

Pesticidal proteins exhibiting toxic activity against Lepidopteran pest species are disclosed, and include, but are not limited to, TIC6757, TIC6757PL, TIC7472, TIC7472PL, TIC7473, and TIC7473PL. DNA constructs are provided which contain a recombinant nucleic acid sequence encoding one or more of the disclosed pesticidal proteins. Transgenic plants, plant cells, seed, and plant parts resistant to Lepidopteran infestation are provided which contain recombinant nucleic acid sequences encoding the pesticidal proteins of the present invention. Methods for detecting the presence of the recombinant nucleic acid sequences or the proteins of the present invention in a biological sample, and methods of controlling Lepidopteran species pests using any of the TIC6757, TIC6757PL, TIC7472, TIC7472PL, TIC7473, and TIC7473PL pesticidal proteins are also provided.

The present invention describes methods of using Olfr90 demonstrated to bind to fungal metabolites, including a metabolite known to be detected in patients with mold (e.g. Aspergillus) infections.

The present invention is drawn to devices and systems for allergen detection in a sample. The allergen detection system includes a sampler, a disposable analysis cartridge and a detection device with an optimized optical system. In some embodiments, the allergen detection utilizes aptamer nucleic acid molecules as detection agents. In some embodiments, the nucleic acids are conjugated to magnetic beads or solid surfaces such as glasses, microwells and microchips.