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Multifunctional fusion protein nanoparticles for bio-affinity applications

技术优势

Status: Technology Readiness Level (TRL) 5-6Functional fusion constructs have been successfully established and employed in different ligand binding assays. Applied binding molecules include, among others, single chain antibody fragments (scFvs). The nanoparticle yield has been effectively optimized forthe bacterial production conditions and for the folding of the particles.

技术应用

The particles can be used for any high-sensitivity bio-affinity applications, including immunoassays and other diagnostic assays as well as imaging and monitoring of biological pathways in vitro or in vivo.

详细技术说明

The invention utilizes ferritin-like subunits which self-assemble insolution to form a highly stable globular protein with an internalcavity. The use of these proteins as nanoparticles has significantbenefits:- The subunits can be produced in fusion with proteins or peptides, including antibodies, enzymes, luminescent proteins, and receptors- The fused protein is attached covalently in the correct orientation and can be designed to face the inside or the outside of the particle- Combining subunits fused with proteins with different functionality of specificity facilitates simple construction of multifunctional nanoparticles- Can be produced by microbial fermentation rapidly, economically and in large quantities- Various labels can be introduced in the cavity of the particles to enable sensitive detection.

*Abstract

Nanoparticles used in bio-affinity assays are typically functionalized with binding molecules and detectable labels using multistep processes. The conjugation of binders, which need be separately produced, typically occurs in a random orientation, resulting in considerable loss of functionality.

国家/地区

美国