Methods and apparatus for detecting cell-bound and soluble antigens in a biological sample are described. The method comprises forming complexes of at least one antibody-coated bead and at least one antigen in a solution, placing the solution in a magnetic field such that the formed complexes levitate in the solution at a particular height, and determining at least one characteristic of the antigen in the complexes based, at least in part, on an image of the complexes showing the magnetic levitation height.

Compositions and methods are provided for determining platelet reactivity where the levels of FcγRIIa on the surface of platelets is measured and if the levels of FcγRIIa are greater than a reference value, the platelets have enhanced reactivity.

A method for acquiring and producing high-purity renal progenitor cells from a renal progenitor cell population into which pluripotent stem cells are induced to differentiate, by identifying a cell surface antigen marker specific to renal progenitor cells. The high-purity renal progenitor cells can be used in regenerative medicine for renal diseases, such as renal failure.

The present disclosure relates to a marker for enriching or isolating hematopoietic stem cells and a method for using the same, cells or a cell population isolated or enriched by the marker, a method for using the cells or cell population, a drug containing the cells or cell population, and a classifier obtained using the cells or cell population.

The present invention relates to a method for diagnosis of delayed bone fracture healing, comprising determining the frequency of a subpopulation of CD8+ cells selected from a first group comprised of CD8+CD57+, CD8+CD28− and CD8+CD28−/CD57+, in a sample obtained from a subject. The present invention further relates to a system and a kit of parts for prediction and resulting options for preventing of delayed bone fracture healing.

Fibronectin type III domains (FN3) that specifically bind to CD8A, related polynucleotides capable of encoding CD8A-specific FN3 domains, cells expressing the FN3 domains, as well as associated vectors, and detectably labeled FN3 domains are useful in therapeutic and diagnostic applications.

Described are transgenic, non-human animals comprising a nucleic acid encoding an immunoglobulin light chain, whereby the immunoglobulin light chain is human, human-like, or humanized. The nucleic acid is provided with a means that renders it resistant to DNA rearrangements and/or somatic hypermutations. In one embodiment, the nucleic acid comprises an expression cassette for the expression of a desired molecule in cells during a certain stage of development in cells developing into mature B cells. Further provided is methods for producing an immunoglobulin from the transgenic, non-human animal.

High efficiency methods for producing retinal pigment epithelial cells from induced pluripotent stem cells (iPSCs) are disclosed herein. The iPSCs are produced from somatic cells, including retinal pigment epithelial (RPE) cells, such as fetal RPE stem cells. In some embodiments, the iPSC include a tyrosinase promoter operably linked to a marker. Methods are disclosed for using the RPE cells, such as for treatment. Methods for screening for agents that affect RPE differentiation are also disclosed.

Disclosed herein are methods of detecting a target nucleic acid sequence, determining the localization of the target nucleic acid sequence, and/or quantifying the number of target nucleic acid sequences in a cell. This method may be used on small target nucleic acid sequences, and may be referred to as Nano-FISH.

Provided herein are methods and compositions for enhancing an immune response and/or for the treatment of an immune-related condition in an individual, e.g., cancer, comprising killing, disabling, or depleting non-stimulatory myeloid cells using an antigen binding protein such as an antibody or antigen binding fragment thereof.