Disclosed herein are stable and versatile protein nanoparticles having a range of tunable fluorescent properties. Such nanoparticles may find utility in biological imaging. Methods of synthesis of such nanoparticles are also disclosed.

The invention relates to a mass-spectrometric method to determine microbial resistances to antibiotics, in which the microbes are cultured in a medium comprising an antibiotic, and a mass spectrum of the microbes is acquired after they have been cultured. The method is characterized by the fact that any microbial growth taking place during the culture is mass-spectrometrically determined with the aid of a reference substance, which is added in a dosed amount and is co-measured in the mass spectrum, wherein a growth in microbes indicates the resistance to the antibiotic.

The invention relates to a mass-spectrometric method to determine microbial resistances to antibiotics, in which the microbes are cultured in a medium comprising an antibiotic, and a mass spectrum of the microbes is acquired after they have been cultured. The method is characterized by the fact that any microbial growth taking place during the culture is mass-spectrometrically determined with the aid of a reference substance, which is added in a dosed amount and is co-measured in the mass spectrum, wherein a growth in microbes indicates the resistance to the antibiotic.

A device for detecting target biomolecules is provided. The device consists of an electrically conductive membrane having a biological recognition component configured to bind a target biomolecule immobilized thereon. The membrane is connected to an electric circuit by means of electrodes. A voltage source applies a voltage to the membrane and a resistance monitoring device monitors the resistance of the membrane as a selected volume of fluid sample suspected of containing the target biomolecule is delivered onto the membrane.

The present invention relates to a biological method for the dosage of peptidoglycans in a sample, especially a sample of glucose polymers.

The disclosed technology relates to chemical entities for the detection of wounds, e.g., chronic wounds or infected wounds, including compositions, substrates, kits, dressing materials, and articles, and systems containing such compounds. The disclosed technology further relates to methods of using these compositions, kits and systems in diagnostic assays, and in the diagnosis and/or detection of chronic or infected wounds based on enzymatic action on specific moieties and/or reaction sites. The disclosed technology additionally relates to detection of pathogenic, e.g., bacterial and/or viral substances, such as enzymes and substrates, at the wound situs. Additional disclosure relates to methods of characterizing wounds based on expression of a plurality of markers and using such information to treat, manage, and follow-up patients suffering from chronic or infected wounds.

Provided herein are methods for detecting an increased probability or risk of neurodegeneration in a subject. In some embodiments the method comprises assaying a sample from the subject for lysozyme and/or cathepsin S and detecting the lysozyme and/or cathepsin S from the sample, wherein an increased lysozyme and/or cathepsin S compared to levels in a control subject sample indicate an increased probability or risk of neurodegeneration. Methods of treatment and screening assays for determining drug effectiveness are also provided herein.

Disclosed herein are stable and versatile protein nanoparticles having a range of tunable fluorescent properties. Such nanoparticles may find utility in biological imaging. Methods of synthesis of such nanoparticles are also disclosed.

Disclosed herein is a composition comprising a medium and a heterocyclic compound, for detecting a biomolecule in a sample. More specifically, the composition disclosed herein can be used to detect one or more biomolecules comprising one or more aromatic amino acid residues by producing an amino acid conjugate upon associating with the aromatic amino acid residue of the biomolecule. Also disclosed herein are methods of making and using the composition disclosed herein.