A large-scale process is described herein for preparing a cyclic peptide as described, comprising solid phase peptide synthesis of a linear peptide and cleaving it from the resin; oxidizing cysteine residues to form an intramolecular disulfide bond; and isolating the cyclic peptide, wherein: (i) coupling uses diisopropylcarbodiimide and ethyl cyanohydroxyiminoacetate and/or N-hydroxybenzotriazole; (ii) cleaving comprises contacting the peptide with a solution comprising TFA and dithioerythritol and/or dithiothreitol; (iii) the peptide is precipitated after cleaving without prior concentration of the peptide by evaporation; (iv) oxidizing comprises contacting an aqueous solution comprising at least 5 mg/mL peptide with hydrogen peroxide; (v) isolating comprises loading the peptide on a reverse phase chromatography at up to 40 grams/kg column, and elution from the column; (vi) isolating comprises lyophilization, followed by grinding the peptide; and/or (vii) substitution of the resin is at least 0.3 milliequivalents/gram, and/or the resin is a Rink aminomethylstyrene resin.

A method for preparing peptides is disclosed, the method comprising a step of forming a peptide bond wherein the carboxyl group of a first amino acid or first peptide is activated and an amino group of the first activated amino acid or first peptide is protected by a protecting group having a water-solubility enhancing group and the activated carboxyl group of the first amino acid or first peptide is reacted with an amino group of a second amino acid or second peptide wherein said carboxyl group of the first amino acid or first peptide is activated in the absence of the second amino acid or second peptide. Peptides comprising a protecting group having a water-solubility enhancing group being bound to the amino group and an activated or free carboxyl group are also disclosed.

The present disclosure is directed to a novel class of peptide-like oligomers called peptide tertiary amides (PTAs) and a combinatorial library of PTAs along with synthetic routes for the preparation of large combinatorial libraries of these compounds. The peptide tertiary amides provide an exceptional source of high affinity and selective protein ligands that are useful as tools for biological research and as drug leads, among others.

The present disclosure relates to lipoprotein complexes and lipoprotein populations and their use in the treatment and/or prevention of dyslipidemic diseases, disorders, and/or conditions. The disclosure further relates to recombinant expression of apolipoproteins, purification of apolipoproteins, and production of lipoprotein complexes using thermal cycling-based methods.

The disclosure is directed to the synthesis and improved methods for purifying macrocyclic peptides produced by solid phase peptide synthesis. The synthesized peptide is capped with an alkyne-functionalized or azide-functionalized compound of formula (I): ##STR00001##
prior to cleavage of the peptide from the solid phase support.

Presented is a method to incorporate 2-thiohistidine (2-thioHis) into a peptide. Also provided are peptides incorporating 2-thioHis, compositions, and methods of using the peptides incorporating 2-thioHis. The methods may be methods for scavenging metals and/or radicals or reducing oxidative stress. 2-thioHis has the following structure:

##STR00001##

The present disclosure relates to lipoprotein complexes and lipoprotein populations and their use in the treatment and/or prevention of dyslipidemic diseases, disorders, and/or conditions. The disclosure further relates to recombinant expression of apolipoproteins, purification of apolipoproteins, and production of lipoprotein complexes using thermal cycling-based methods.

The invention provides a non-particulate cross-linked poly--lysine polymer. The poly--lysine and cross linker are linked by amide bonds and may the cross linker has at least two functional groups capable of reacting with an alpha carbon amine of poly--lysine. The polymer is suitably insoluble in water and other solvents and is provided in macro form for example a sheet, article or fiber. The macro form polymer is useful in a wide range of applications including wound treatment, as a medical diagnostic comprising a particulate support and a functional material bound or retained by the support and solid phase synthesis of peptides, oligonucleotides, oligosaccharides, immobilisation of species, cell culturing and in chromatographic separation.

The present invention refers to a method for preparing a glucagon-like peptide, comprising precipitation of the peptide or of a precursor peptide by means of mixing with an anti-solvent comprising diisopropyl ether and acetonitrile. Further, the present invention also relates to a peptide conjugated to a solid phase and a pharmaceutical composition comprising a Liraglutide peptide obtainable from a method according to the present invention.

Disclosed herein are formulations, substrates, and arrays for amino acid and peptide synthesis on microarrays. In certain embodiments, methods for manufacturing and using the formulations, substrates, and arrays including one-step coupling, e.g., for synthesis of peptides in a C.fwdarw.N orientation are disclosed. In some embodiments, disclosed herein are formulations and methods for high efficiency coupling of biomolecules to a substrate.