Articles with covalently attached thiocarbonylthio-containing groups are provided. More specifically, the articles include a solid polymeric substrate with a plurality of thiocarbonylthio-containing groups covalently attached directly to a carbon atom in a polymeric backbone of the solid polymeric substrate. Methods of making the articles with covalently attached thiocarbonylthio-containing are provided. Additionally, methods of using these articles to generate further articles with covalently attached polymeric chains are provided.

Macromolecular imprinted silica particles (MIP) in the presence of polymer grafted carbon black are disclosed. The disclosed molecular imprinted beads can detect disease in body fluids. For the silica gel matrix, tetraethyl orthosilicate (TEOS) was used as the backbone monomer and 3-aminopropy/triethoxysilane (APS) as a functional monomer. Carbon black was added to the sol-gel process, yielding black silica particles. Furthermore, sodium dodecyl sulfate (SDS) was used as a structure-directing agent to increase network diffusion of the template. A total of 16 MIPs were synthetized in parallel with variables that evaluate the role of key reactants in the synthesis procedure. Agglomeration tests were performed with all 16 MIPs in the presence of their template, alongside their respective controls using only phosphate buffered saline (PBS). Each of the MIPs was evaluated using a novel device capable of simultaneously measuring up to four samples for near infrared transmission.

Macromolecular imprinted silica particles (MIP) in the presence of polymer grafted carbon black are disclosed. The disclosed molecular imprinted beads can detect disease in body fluids. For the silica gel matrix, tetraethyl orthosilicate (TEOS) was used as the backbone monomer and 3-aminopropy/triethoxysilane (APS) as a functional monomer. Carbon black was added to the sol-gel process, yielding black silica particles. Furthermore, sodium dodecyl sulfate (SDS) was used as a structure-directing agent to increase network diffusion of the template. A total of 16 MIPs were synthetized in parallel with variables that evaluate the role of key reactants in the synthesis procedure. Agglomeration tests were performed with all 16 MIPs in the presence of their template, alongside their respective controls using only phosphate buffered saline (PBS). Each of the MIPs was evaluated using a novel device capable of simultaneously measuring up to four samples for near infrared transmission.

Acoustically responsive particles and methods are provided for their use. Methods are provided for making and using tunable, monodisperse acoustically responsive particles and negative contrast acoustic particles, wherein the particles can contain a functional group available for covalent modification.

Acoustically responsive particles and methods are provided for their use. Methods are provided for making and using tunable, monodisperse acoustically responsive particles and negative contrast acoustic particles, wherein the particles can contain a functional group available for covalent modification.

Disclosed is a method of purifying extracellular vesicles in a sample comprising extracellular vesicles and molecules that are not bound to the extracellular vesicles. The method includes (a) providing a mixed mode resin composition containing a first resin having pores with a pore size that traps unbound molecules by at least by a size exclusion mechanism, and a second resin containing at least one affinity ligand; (b) contacting the sample with the mixed mode resin composition to trap at least a portion of the unbound molecules; and (c) separating the sample from the mixed mode resin composition and obtaining a sample containing extracellular vesicles at a higher concentration than prior to step (b). Further disclosed is a method of labeling an extracellular vesicle with a fluorophore that labels proteins which includes the use of a mixed mode resin composition.

Disclosed is a method of purifying extracellular vesicles in a sample comprising extracellular vesicles and molecules that are not bound to the extracellular vesicles. The method includes (a) providing a mixed mode resin composition containing a first resin having pores with a pore size that traps unbound molecules by at least by a size exclusion mechanism, and a second resin containing at least one affinity ligand; (b) contacting the sample with the mixed mode resin composition to trap at least a portion of the unbound molecules; and (c) separating the sample from the mixed mode resin composition and obtaining a sample containing extracellular vesicles at a higher concentration than prior to step (b). Further disclosed is a method of labeling an extracellular vesicle with a fluorophore that labels proteins which includes the use of a mixed mode resin composition.

The invention provides streptolysin O containing a polypeptide comprising an amino acid sequence having deletion of a polypeptide extending from a lysine residue at position 2 of SEQ ID NO: 1 to any of an alanine residue at position 31, a glutamate residue at position 32, a serine residue at position 33, and an asparagine residue at position 34, and also having deletion of any of an isoleucine residue at position 465 to an alanine residue at position 472 of SEQ ID NO: 1 and all of the subsequent amino acid residues, as well as variants thereof and related DNA, vectors, transformants, and methods of use thereof.

The present invention relates to composite particles, coated particles, a method of producing composite particles, a ligand-containing solid phase carrier, and a method of detecting or separating a target substance in a sample. The above described composite particles each contains an organic polymer and inorganic nanoparticles, wherein the content of the inorganic nanoparticles in the composite particles is more than 80% by mass, and wherein the composite particles have a volume average particle size of from 10 to 1,000 nm.

The present invention relates to composite particles, coated particles, a method of producing composite particles, a ligand-containing solid phase carrier, and a method of detecting or separating a target substance in a sample. The above described composite particles each contains an organic polymer and inorganic nanoparticles, wherein the content of the inorganic nanoparticles in the composite particles is more than 80% by mass, and wherein the composite particles have a volume average particle size of from 10 to 1,000 nm.