Disclosed herein are methods for identifying proteins as targets for interaction with a small molecule ligand. Also disclosed herein are small molecule ligands and compositions for use in profiling druggable proteins.

Methods and system for identification of dimer species using online chromatography and electrospray ionization mass spectrometry are provided. Also provided are methods and system for quantitation of heterodimer species using immunoprecipitation and liquid chromatography-mass spectrometry.

Methods and system for identification of dimer species using online chromatography and electrospray ionization mass spectrometry are provided. Also provided are methods and system for quantitation of heterodimer species using immunoprecipitation and liquid chromatography-mass spectrometry.

A device for evaluating the neurovirulence of a mumps virus, comprising: (I) a virus inoculation module, which is used for performing virus inoculation of a mumps virus to be evaluated on the lateral ventricle of a rat; (II) a processing module, which is used for performing vibration slicing on the fixed rat brain; (III) an imaging module, which is used for scanning and imaging the obtained rat brain slices; and (IV) an analysis module, which is used in the obtained imaging for calculating a neurovirulence index by using a formula I: the neurovirulence index=S1/S0×100 (formula I) according to the cross-sectional area S1 of a cavity formed by hydrocephalus in the longitudinal section of the rat brain and the total cross-sectional area S0 of the rat brain. Multiple results show that the results are stable, repeatability is high, and a wild strain may be distinguished from a vaccine strain. In addition, relative to a current monkey body neurovirulence model, animal cost and difficulty of operation are greatly reduced.

A method (400) for microscopic examination of a sample (1) includes applying (410) the sample (1) to a sample holder (10) having a transparent carrier material, capturing (420) a first image (210, 220) of the sample (1) applied to the sample holder (10) using a first light-microscopy method, cryofixing, freeze-substituting, and subsequently infiltrating and embedding (430) the sample (1) together with the sample holder (10) with an embedding medium (20) in an embedding mold (90, 100), curing (440) the embedding medium (20), removing the sample (1) from the embedding mold (90, 100) together with the embedding medium (20) and the sample holder (10), capturing (450) a second image (230) of the sample (1) embedded in the cured embedding medium (20) using a second light-microscopy method, wherein at least partially identical regions of the sample (1) are captured in the first and second images, and identifying (460) at least one portion of the first image (210, 220) and one portion of the second image (230) which show identical regions of the sample (1).

A detection kit for detecting an immunosuppressor in whole blood by high performance liquid chromatography-tandem mass spectrometry and a detection method thereof is provided. An internal standard solution is added with an antioxidant, vitamin E, and mixed with an internal standard diluent containing zinc sulfate heptahydrate, purified water and methanol for sample pretreatment, which not only exerts the function of the internal standard, but also synchronously achieves erythrocyte treatment, protein precipitation and target substance extraction. Various embodiments enable the immunosuppressor to be more stable in a solution matrix, thus promoting the detection accuracy and sensitivity. Various embodiments adopt isotopically-labeled sirolimus as an internal standard of everolimus to substitute isotopically-labeled everolimus, thus overcoming the interference of everolimus on isotopically-labeled everolimus and satisfying the detection requirements. Various embodiments detect four immunosuppressors simultaneously to reduce the cost of the internal standard, and has a lower detection cost, more accurate and stable detection results.

An integrated pathology system includes a tissue embedding module configured to embed a tissue sample into an embedding material to prepare a tissue block, a sectioning and slide creating module configured to remove one or more tissue sections from the tissue block and place the one or more tissue sections onto one or more slides, a staining module configured to stain the one or more tissue sections on the slides, and a cover-slipper module configured to place a cover onto the one or more stained tissue sections. The system further includes one or more transfer devices configured to integrate the modules and a processor in communication with the modules for controlling one or more processes performed by the modules and the one or more transfer devices for controlling the integration of the modules.

An evaluation method is a method for evaluating a cell mass containing a plurality of aggregated cells, and includes an imaging step of capturing an image of light obtained from the cell mass by irradiating the cell mass with light, an analysis step of setting a reference point for the cell mass included in image data obtained by the imaging step, setting sampling circles centered on the reference point, and determining a parameter for a state of the cell mass based on image data included in regions on the sampling circles, and an evaluation step of evaluating the cell mass based on the parameter.

This invention pertains to an imaging method, the purpose of which is to reveal, over a wide range, information about a plurality of layers contained in a multilayer structure, or form an image of the revealed applicable layers. The method proposed includes: a step in which, while rotating the sample with the axis of the normal line of the sample surface as the axis of rotation, the sample is irradiated with an ion beam from a direction inclined with respect to the normal line direction, via a mask having an opening which selectively allows the passage of an ion beam and which is disposed at a position distant from the sample, thereby forming a hole with a band-shaped sloped surface that is inclined with respect to the sample surface; and a step in which a first image viewed from a direction intersecting with the sloped surface of the applicable layer is formed, on the basis of a signal obtained by irradiating, with a charged particle beam, the applicable layer contained in the band-shaped sloped surface.

An object is to measure absorbance of aqueous cosmetic materials that have not heretofore been studied for absorbance measurement, and particularly to form a uniform layer of thin film in order to ensure accurate measurement without causing these aqueous cosmetic materials, which are O/W emulsions, to undergo phase separation during measurement. As a means for achieving the foregoing, an absorbance measurement method is provided, wherein an absorbent aqueous composition is applied on the surface of a substrate, which surface has been plasma treated, arc-discharge treated, or corona-discharge treated, to achieve a contact angle with pure water of 0 to 70.0 degrees, and the applied absorbent aqueous composition is measured for absorbance.