Disclosed is a solid phase method of synthesizing biomolecule-drug-conjugates. In particular, this invention relates to a solid phase method of synthesizing antibody-drug-conjugates (ADCs). This invention also relates to intermediate methods of producing immobilized, chemically modified biomolecules, e.g., antibodies.

The present invention provides methods of making α4β7 peptide monmer and dimer antagonists. Methods of the present invention include solid phase and solution phase methods, as well as synthesis via condensation of smaller peptide fragments. Methods of the present invention further include methods directed to the synthesis of peptides comprising one or more penicillamine residues.

The present invention provides methods of making α4β7 peptide monmer and dimer antagonists. Methods of the present invention include solid phase and solution phase methods, as well as synthesis via condensation of smaller peptide fragments. Methods of the present invention further include methods directed to the synthesis of peptides comprising one or more penicillamine residues.

The present invention relates to a liquid (or solution)-phase manufacturing process for preparing the decapeptide Degarelix, its protected precursor, and other useful intermediates. The invention further relates to polypeptides useful in the solution-phase manufacturing process and to the purification of Degarelix itself. Degarelix can be obtained by subjecting a Degarelix precursor according to formula II: (P.sub.1)AA.sub.1-AA.sub.2-AA.sub.3-AA.sub.4(P.sub.4)-AA.sub.5-AA.sub.6(P.sub.6)-AA.sub.7-AA.sub.8(P.sub.8)-AA.sub.9-AA.sub.10-NH.sub.2 (II) or a salt or solvate thereof, to a treatment with a cleaving agent in an organic solvent, wherein P.sub.1 is an amino protecting groups; preferably acetyl; P.sub.4 is hydrogen or a hydroxyl protecting group, preferably a hydroxyl protecting group; P.sub.6 is hydrogen or an amino protecting groups; preferably an amino protecting groups; and P.sub.8 is an amino protecting group.

The present invention relates to a liquid (or solution)-phase manufacturing process for preparing the decapeptide Degarelix, its protected precursor, and other useful intermediates. The invention further relates to polypeptides useful in the solution-phase manufacturing process and to the purification of Degarelix itself. Degarelix can be obtained by subjecting a Degarelix precursor according to formula II: (P.sub.1)AA.sub.1-AA.sub.2-AA.sub.3-AA.sub.4(P.sub.4)-AA.sub.5-AA.sub.6(P.sub.6)-AA.sub.7-AA.sub.8(P.sub.8)-AA.sub.9-AA.sub.10-NH.sub.2 (II) or a salt or solvate thereof, to a treatment with a cleaving agent in an organic solvent, wherein P.sub.1 is an amino protecting groups; preferably acetyl; P.sub.4 is hydrogen or a hydroxyl protecting group, preferably a hydroxyl protecting group; P.sub.6 is hydrogen or an amino protecting groups; preferably an amino protecting groups; and P.sub.8 is an amino protecting group.

The present invention provides for methods and compositions for treating or preventing arthritis and joint injury.

A process for preparing amides by reacting a primary amine and a primary alcohol in the presence of a Ruthenium complex to generate the amide and molecular hydrogen. Primary amines are directly acylated by equimolar amounts of alcohols to produce amides and molecular hydrogen (the only byproduct) in high yields and high turnover numbers. Also disclosed are processes for hydrogenation of amides to alcohols and amines; hydrogenation of organic carbonates to alcohols; hydrogenation of carbamates or urea derivatives to alcohols and amines; amidation of esters; acylation of alcohols using esters; coupling of alcohols with water and a base to form carboxylic acids; dehydrogenation of beta-amino alcohols to form pyrazines and cyclic dipeptides; and dehydrogenation of secondary alcohols to ketones. These reactions are catalyzed by a Ruthenium complex which is based on a dearomatized PNN-type ligand of formula A1 or precursors thereof of formulae A2 or A3.

The present disclosure provides a method of solid-phase peptide synthesis from the N terminus to C terminus without detectable epimerization of the C-terminal amino acid. The method includes using derivatized amino acids comprising a diamino-aryl group.

The present disclosure provides a method of solid-phase peptide synthesis from the N terminus to C terminus without detectable epimerization of the C-terminal amino acid. The method includes using derivatized amino acids comprising a diamino-aryl group.

The invention relates to a method for peptide synthesis, wherein said method comprises the steps of reacting a first amino acid or a first peptide with an α-amine protected second amino acid in a solvent selected from the group consisting of water, alcohol, and a mixture of water and alcohol, and removing the α-amine protecting group with a deprotecting solution. The invention further relates to protective agents, their use and an apparatus for carrying out a method for solid phase synthesis of peptides.