Provided herein are methods, reagents, and kits for isolating polypeptides, such as a proteome. Also provided herein is a modified trypsin polypeptide that is resistant to autolysis, and that can be selectively-separated from a biological sample once digestion is complete.

The present invention discloses monodisperse protein-dendron conjugates that self-assemble to generation-dependent supramolecular protein assemblies of different size and surface charges. The invention further provides a process for synthesis of protein-dendron conjugates containing hydrophobic dendron of different generations.

Provided are: a protein degradation inducing tag which is a molecule that has affinity with proteases and does not inhibit degradation of a protein by proteases; a protein degradation inducing molecule that is a conjugate of at least one protein degradation inducing tag and at least one protein binding molecule that binds to a protein; and a usage of those.

The present invention provides methods for measuring the absolute concentration of Tau, and other protein, peptide fragments and proteoforms in CSF and plasma samples collected from a subject. Such biomolecules may be implicated in one or more neurological and neurodegenerative diseases or disorders. Also provided is a method for determining whether a therapeutic agent affects the CSF or plasma concentration of a central nervous system derived biomolecule. Also provided are kits for performing the methods of the invention.

Provided are: a protein degradation inducing tag which is a molecule that has affinity with proteases and does not inhibit degradation of a protein by proteases; a protein degradation inducing molecule that is a conjugate of at least one protein degradation inducing tag and at least one protein binding molecule that binds to a protein; and a usage of those.

Embodiments of the invention provide at least one polymer covalently conjugated to an esterase. The at least one polymer includes a plurality of oxime functional groups.

Embodiments of the invention provide at least one polymer covalently conjugated to an esterase. The at least one polymer includes a plurality of oxime functional groups.

A process for producing recombinant trypsin from prokaryote host cells in high yield and high specific activity is described. In particular, a process for producing recombinant trypsin from E. coli is described.

The present invention relates to a process for production of nerve growth factor (NGF) and muteins thereof, in particular muteins of human NGF. The process of the present invention yields nerve growth factor (NGF) and muteins thereof, e.g. from recombinant sources, at high purity. Aspects related to the process of the present invention, such as muteins obtainable thereby, are also described. The respective muteins may be characterized e.g. by improved detectability and/or reduced nociceptive activity, compared to wildtype human NGF.

Disclosed are a method for preparing a biomaterial having selectively functionalized tyrosine, a biomaterial having selectively functionalized tyrosine, and a pharmaceutical composition containing same as an active ingredient. The method for preparing a biomaterial to which a compound represented by chemical formula 2 is coupled, of the present invention, allows the compound represented by chemical formula 2 to be selectively coupled, in a high yield in a biomaterial, to tyrosine, which is present on the surface of an aqueous solution such that the coupling thereof to amino acids other than tyrosine does not occur and, when only one tyrosine is present, heterogeneous mixtures are not present and the inherent activity of the biomaterial is maintained, and thus the compound can be effectively used as a pharmaceutical composition containing a biomaterial drug as an active ingredient. In addition, the method can selectively functionalize tyrosine, and thus can be effectively used for tyrosine functionalization in a biomaterial.