The present invention relates to methods of determining whether a subject has taken a dose of Tuberculosis medication through analysis of a sample of sweat obtained from the subject, in the form of a skin-print.

Characterization and production of protein preparations, e.g., therapeutic glycoprotein preparations, are described.

The present invention relates to, in part, methods of improved healthcare in female subjects that, for example, rely on menstrual fluid sampling for applying selection biomarkers.

The present invention provides a method for detecting a monoclonal antibody in a sample, the method comprising: (a) a step of capturing and immobilizing, in pores of a porous body, the monoclonal antibody in the sample; (b) a step of performing selective protease digestion of the monoclonal antibody for 30 min or longer by contacting the porous body having the monoclonal antibody immobilized thereon with nanoparticles having a protease immobilized thereon; and (c) a step of detecting a peptide fragment obtained by the selective protease digestion, using liquid chromatography mass spectrometry (LC-MS), wherein step (b) is carried out under stirring condition for 10 sec to 5 min in the initial reaction stage, and then under static condition. According to the present invention, the detection method of a monoclonal antibody using mass spectrometry is simplified and can be applicable to multisample analysis.

The present disclosure relates to novel and improved methods of analyzing proteins, peptides and polypeptides by mass spectrometry using ion-ion reactions. More specifically the disclosure relates to improved methods for implementing the m/z selective arresting of ion-ion reactions within the ion-ion reaction cell of a mass spectrometer system during a period where ion-ion reactions are performed.

Systems and methods to characterize dimerization interfaces at the subdomain level of a protein are provided. An exemplary method includes digesting a protein dimer sample into subdomains, labeling the digested protein sample, isolating labeled dimeric and monomeric subdomain fragments, and peptide mapping the labeled sample to determine where the dimer fragments are labeled and where the dimer fragments are not labeled. Regions that show decreased labeling extents in the dimer fraction than that in the monomer fraction are likely involved or in close proximity to the dimerization interface.

The present invention provides novel peptides (e.g., peptides, macrocyclic peptides, mini-proteins) that modulate protein-protein interactions or salts thereof, and methods of making and using the inventive peptides. In some embodiments, the peptides are high affinity inhibitors (e.g., K.sub.D of at most 100 nM, at most 10 nM, at most 1 nM) of a protein-protein interaction. In certain embodiments, these peptides interfere with p53-MDM2 binding interactions (e.g., by binding to MDM2 (GenBank Gene ID: 4193)). In some embodiments, the peptides interfere with the dimerization of the C-terminal domain of the human immunodeficiency virus (HIV) capsid protein (C-CA), comprising residues 146-231 of the HIV capsid protein (e.g., by binding to the C-terminal domain of the HIV capsid protein (C-CA), thereby inhibiting the dimeric interface of HIV capsid protein, thereby inhibiting viral assembly). These inventive peptides were rapidly generated and identified using novel methods described herein comprising combinatorial peptide synthesis and/or solution affinity selection.

Nutritive polypeptides are provided herein. Also provided are various other embodiments including nucleic acids encoding the polypeptides, recombinant microorganisms that make the polypeptides, vectors for expressing the polypeptides, methods of making the polypeptides using recombinant microorganisms, compositions and formulations that comprise the polypeptides, and methods of using the polypeptides, compositions and formulations.

The present disclosure provides assays for lysosomal enzymes, specifically palmitoyl protein thioesterase 1 (PPT1) and tripeptidyl peptidase 1 (TPP1), using, for example, tandem mass spectrometry. The assays involve the detection of enzymatic products obtained through the action of the lysosomal enzymes on new enzyme substrates, and can be used for quantitative enzyme activity measurements. The assays for the enzymes utilize a minimum steps for sample work up and can be run in a simplex format or in a duplex format for the detection of neuronal ceroid lipofuscinoses, or in a multiplex format with other mass spectrometry-based assays for screening of neuronal ceroid lipofuscinoses and other lysosomal storage disorders.

The present invention provides assays and assay systems for use in spatially encoded biological assays. The invention provides an assay system comprising an assay capable of high levels of multiplexing where reagents are provided to a biological sample in defined spatial patterns; instrumentation capable of controlled delivery of reagents according to the spatial patterns; and a decoding scheme providing a readout that is digital in nature.