Antigen binding constructs that bind to CD3, for example antibodies, including antibody fragments (such as minibodies and cys-diabodies) that bind to CD3, are described herein. Methods of use are described herein.

A method of collecting and detecting a tumor cell contained in a sample in distinction from a contaminant cell is provided. The tumor cell contained in the sample are collected and detected in distinction from the contaminant cell by detecting any of the following polypeptides or a gene encoding the polypeptide present in the sample: (i) a polypeptide containing at least the amino acid sequence of any of six sequences such as TM4SF1 (GenBank No. NP_055035.1) and TNFRSF12A (GenBank No. NP_057723.1); (ii) a polypeptide containing at least an amino acid sequence having a homology of not less than 70% to the amino acid sequence described above; and (iii) a polypeptide containing at least a splicing variant of the amino acid sequence (the amino acid sequence of (i) or (ii) described above).

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 disclosed method may include, for example, the steps of: (i) culturing the pluripotent stem cells under conditions that induce differentiation into renal progenitor cells; and (ii) sorting a cell population from the cells obtained at step (i), by using at least one cell surface marker selected from the group consisting of CD9(), CD55(), CD106(+), CD140a(+), CD140b(+), CD165(+), CD271(+) and CD326().

The present disclosure provides methods for generating enhanced affinity T cell receptors by agonist selection of hematopoietic progenitor cells expressing an antigen specific TCR cultured with stromal cells expressing Delta-like-1 or Delta-like-4, compositions prepared from such methods, and uses of thereof.

Disclosed herein are methods, biomarkers, systems, compositions and kits for determining the phase or metabolic state (e.g. First Phase, Second Phase, or Third Phase) of a red blood cell (RBC) sample or for determining the phase or metabolic state (e.g., First Phase or Second Phase) of a platelet (PLT) cell sample. The methods disclosed herein are related to the use of isolated RBC sample or isolated PLT sample and analytical tools for providing information that is relevant to the phase or metabolic state of the RBC sample or the PLT sample. The system disclosed herein utilizes isolated RBC sample or isolated PLT sample and at least one analytical tool or an output from the at least one analytical tool. The compositions and kits described herein utilize RBC samples or PLT samples, including compositions in a form that allows for analysis of the RBC sample or the PLT sample.

The present invention relates to a method for obtaining a spermatozoid cell population with improved fitness which comprises contacting the starting spermatozoid population with a binding agent recognizing the CD10 biomarker and isolating spermatozoids from the starting population which do not bind to said biomarker. The invention also relates to the spermatozoid cell population, which can be used to fertilize an ovum, and to the embryo obtained. The invention also relates to a method for determining the fitness of sperm for fertilization based on the percentage of the spermatozoid population not carrying the CD/10 biomarker.

The present invention provides compositions and methods that can be used to determine a peptide signature for an antibody repertoire in a sample comprising multiple antibodies. The method can be used to characterize a phenotype in a sample, such as providing a diagnosis, prognosis or theranosis of a medical condition.

A method of determining an infection type in a subject is disclosed. The method comprises measuring the concentration of a first determinant selected from the group consisting of the determinants which are set forth in Table 1 and a second determinant selected from the group of the determinants which are set forth in Table 2 in a subject derived sample, wherein the concentration is indicative of the infection type.

The present invention relates to a method for labeling or targeting cells whose plasma membrane has lost integrity, such as dead cells, such as for discriminating between live cells and cells whose plasma membrane has lost integrity; to an embodiment of the method for determining one or more values of one or more parameters of cells of a biological sample; to use of the method in an assay for screening drugs for therapy such as cancer therapy; to use of the method to monitor and/or determine the effectiveness of a therapy; to an assay kit; to a complex; to the complex for use as a medicament; to the complex for use in treatment of cancer(s) and/or plaque(s) and/or regeneration and/or supporting the immune system; and, to a dead cell.

Systems, methods, and devices for selective capture and release of target particles, e.g., living cells, from liquid samples, e.g., blood, are provided. The particle capture systems include a substrate; a first layer of gelatin bound to the substrate by physical adsorption, wherein the gelatin is functionalized with a plurality of first members of a binding pair; a second layer of gelatin wherein the gelatin is functionalized with a plurality of the first members of the binding pair and the second layer is bound to the first layer via a plurality of second members of the binding pair that are associated with the first members of the binding pair on both the first and the second layers; and a plurality of nanostructures bound to the second members of the binding pair and to one or more particle-binding moieties that selectively bind to the target particles.