multiple assay formats designed for biology, supporting different detection requirements, automation compatibility and integration into experimental workflows.

time-resolved fluorescence energy transfer assays based on donor–acceptor proximity

proximity-based luminescent immunoassays using signal amplification chemistry

multi-analyte assays enabling simultaneous detection within a single reaction

enzyme-linked immunoassays with chemiluminescent readouts
assay systems are designed for compatibility with standard laboratory infrastructure, including plate readers, automated liquid handling and high-throughput screening platforms.
enabling access across disease areas and biological contexts
Tumour markers · Cancer pathways
Cytokines · Immune regulation
Cardiac markers · Coagulation
Hormones · Metabolic pathways
Neurodegeneration · Synaptic proteins
Viral · Microbial · Antigen–antibody

enabling access to experimental workflows and biological systems
Receptors · Kinases · Signalling
Cytokines · Hormones · Circulating proteins
Proliferation · Apoptosis · Cytotoxicity
Pathways · Protein interactions
IHC · Multiplex imaging

enabling access to key target classes relevant to drug discovery
GPCRs · Ligand-receptor systems
Kinases · Phosphorylation
Transcription factors · Gene regulation
Metabolic enzymes · Catalytic activity
Transporters · Binding proteins
Surface markers · Immune receptors

Many applications extend beyond standard catalogue formats. bionoriX works with partners to design, develop, and optimise assays for specific targets, sample matrices, and workflows — from early development through to applied use.
