A method for evaluating a biological material for unassociated virus-size particles having a particular epitope uses a fluorescent antibody stain specific for binding with the epitope and a fluid sample with the virus-size particles and fluorescent antibody stain is subjected to flow cytometry with identification of fluorescent emission detection events indicative of passage through a flow cell of a flow cytometer of unassociated labeled particles of virus size including such a virus-size particle and fluorescent antibody stain.

A method for detecting a tumor cell surface marker molecule PD-L1, comprising the following steps: providing a capture screen that has antibodies capable of specifically binding to tumor cells; making a sample to be tested flow through the capture screen, such that tumor cells in the sample to be tested bind to the capture screen; fixing captured tumor cells on the capture screen; and successively using a PD-L1 primary antibody solution, a PD-L1 secondary antibody solution labeled with a fluorophore AlexaFluor 647, a pan-CK-AlexaFluor 488 primary antibody solution, a CD45 primary antibody solution and a CD45 secondary antibody solution labeled with a fluorophore AlexaFluor 568, to incubate the cells fixed on the capture screen, and then labeling all cells on the capture screen with a nuclear fluorescent dye.

A method for detecting a tumor cell surface marker molecule PD-L1, comprising the following steps: providing a capture screen that has antibodies capable of specifically binding to tumor cells; making a sample to be tested flow through the capture screen, such that tumor cells in the sample to be tested bind to the capture screen; fixing captured tumor cells on the capture screen; and successively using a PD-L1 primary antibody solution, a PD-L1 secondary antibody solution labeled with a fluorophore AlexaFluor 647, a pan-CK-AlexaFluor 488 primary antibody solution, a CD45 primary antibody solution and a CD45 secondary antibody solution labeled with a fluorophore AlexaFluor 568, to incubate the cells fixed on the capture screen, and then labeling all cells on the capture screen with a nuclear fluorescent dye.

Provided herein are compositions and methods for the assembly of a bioluminescent complex from two or more non-luminescent (e.g., substantially non-luminescent) peptide and/or polypeptide units. In particular, bioluminescent activity is conferred upon a non-luminescent polypeptide via structural complementation with another, complementary non-luminescent peptide.

Provided herein are compositions and methods for the assembly of a bioluminescent complex from two or more non-luminescent (e.g., substantially non-luminescent) peptide and/or polypeptide units. In particular, bioluminescent activity is conferred upon a non-luminescent polypeptide via structural complementation with another, complementary non-luminescent peptide.

Water solvated polymeric dyes having a deep ultraviolet excitation spectrum are provided. The subject polymeric dyes include a light harvesting multichromophore having conjugation-modifying repeat units incorporated into the polymer backbone to provide segments of π-conjugated co-monomers having limited π-conjugation between segments. Polymeric tandem dyes are also provided that further include a signaling chromophore covalently linked to the multichromophore in energy-receiving proximity therewith. Also provided are labelled specific binding members that include the subject water solvated polymeric dyes. Methods of evaluating a sample for the presence of a target analyte and methods of labelling a target molecule in which the subject polymeric dyes find use are also provided. Systems and kits for practicing the subject methods are also provided.

Water solvated polymeric dyes having a deep ultraviolet excitation spectrum are provided. The subject polymeric dyes include a light harvesting multichromophore having conjugation-modifying repeat units incorporated into the polymer backbone to provide segments of π-conjugated co-monomers having limited π-conjugation between segments. Polymeric tandem dyes are also provided that further include a signaling chromophore covalently linked to the multichromophore in energy-receiving proximity therewith. Also provided are labelled specific binding members that include the subject water solvated polymeric dyes. Methods of evaluating a sample for the presence of a target analyte and methods of labelling a target molecule in which the subject polymeric dyes find use are also provided. Systems and kits for practicing the subject methods are also provided.

A reagent for extracting immunosuppressant drugs from a whole blood sample for immunoassay includes protein denaturant, proteolytic enzyme, surfactant and pH buffer. A method and an immunoassay kit for detection of the immunosuppressant concentration in a whole blood sample uses the extraction reagent. The extraction reagent doesn't need the use of organic solvent as that in the traditional extraction methods, therefore the adverse effects of the organic solvent on the antibody activity in a detection system and the other relative defects associated to its use are obviated. The drug extraction process doesn't need centrifugation, as the processed sample can be directly applied for immunoassay. The operation for drug extraction is simple, and the detection result based on this extraction method is accurate.

Genetically encoded calcium indicator (GECI) polypeptides and the nucleic acid molecules encoding such polypeptides are provided. In addition, methods of using such nucleic acids and polypeptides in methods of screening for agonists or antagonists of G-protein coupled receptor (GPCR) or ion channels and methods of monitoring neural activity also are provided.

A method of multispectral immunofluorescence imaging of a biological sample is described. The described method allows direct detection of seven or more target antigens simultaneously using directly labeled antibody fluorophore conjugates. The described method enables multiplex detection and analysis of a plurality of biomarkers simultaneously across an entire planar biological sample, providing unique spatio-temporal insights in immune-therapeutics and immuno-diagnostics.