This application describes various improved embodiments for detecting at least one target in tissue samples using an antibody-barcode conjugate capable of binding to the target and blocker strands to prevent nonspecific interaction of the antibody-barcode conjugate with non-target nucleic acid material. Some embodiments employ a blocker strand partially or fully complementary to a barcode portion of the antibody-barcode conjugate. Some embodiments employ a double-stranded barcode portion of an antibody-barcode conjugate, including a blocker strand.

The invention relates to methods, compositions, kits, and assay systems for assay signal amplification. Also provided herein is a signal amplification reagent, wherein the signal amplification reagent is an antibody or antigen-binding fragment thereof.

The invention relates to methods, compositions, kits, and assay systems for assay signal amplification. Also provided herein is a signal amplification reagent, wherein the signal amplification reagent is an antibody or antigen-binding fragment thereof.

Disclosed herein are embodiments of nanohoop compounds and conjugates thereof that can be used myriad biological applications. The nanohoop compounds described herein can exhibit beneficial properties that are useful in biotechnology, such as a fluorescent tag, probe, or label.

Disclosed herein are embodiments of nanohoop compounds and conjugates thereof that can be used myriad biological applications. The nanohoop compounds described herein can exhibit beneficial properties that are useful in biotechnology, such as a fluorescent tag, probe, or label.

The near-infrared window of fluorescent heptamethine cyanine dyes greatly facilitates biological imaging because there is deep penetration of the light and negligible background fluorescence. But dye instability, aggregation, and poor pharmacokinetics are current drawbacks that limit performance and the scope of possible applications. All these limitations are simultaneously overcome with a new molecular design strategy that produces a charge balanced and sterically shielded fluorochrome. The key design feature is a meso-Aryl group that simultaneously projects two shielding arms directly over each face of a linear heptamethine polyene. Cell and mouse imaging experiments compared a shielded heptamethine cyanine dye (and several peptide and antibody bioconjugates) to benchmark heptamethine dyes and found that the shielded systems possess an unsurpassed combination of photophysical, physiochemical and biodistribution properties that greatly enhance bioimaging performance.

The present invention concerns an oligonucleotide-functionalized hydrophobic polymer nanoparticle and method of its preparation. Said nanoparticle is a dye-loaded polymeric nanoparticle, and being functionalized by: (a) target-specific oligonucleotides, and/or (b) non-specific oligonucleotides.

Corona Phase Molecular Recognition (CoPhMoRe) utilizing a template heteropolymer adsorbed onto and templated by a nanoparticle surface to recognize a specific target analyte can be used for macromolecular analytes, including proteins.

Disclosed are neoglycoconjugates and/or glycosides containing glycan selected from Galpα1,3Galfβ, Galpα1,6Galpα1,3Galfβ, or Galpα1,3Galfβ1,3Manpα. Methods of using the glycosides and/or neoglycoconjugates as diagnostic or prognostic biomarkers, vaccines, treating or detecting parasitic diseases, such as cutaneous leishmaniasis are disclosed.

An optical probe for a bio-sensor selectively conjugated to a target analyte and configured to retro-reflect incident light thereto is disclosed. The optical probe for the bio-sensor includes: a transparent core particle; a total-reflection inducing layer covering a portion of a surface of the core particle, the inducing layer is made of a material having a refractive index lower than a refractive index of the core; a modifying layer formed on the total-reflection inducing layer; and an analyte-sensing substance bound to the modifying layer, the sensing substance is selectively conjugated to the target analyte. This optical probe may serve as an excellent optical probe for both a non-spectral light source and a spectral light source.