The invention provides a method for producing anti-linaclotide antibodies or antigen fragments thereof and uses thereof.

Systems and processes for performing solid phase peptide synthesis are generally described. Solid phase peptide synthesis is a known process in which amino acid residues are added to peptides that have been immobilized on a solid support. In certain embodiments, the inventive systems and methods can be used to perform solid phase peptide synthesis quickly while maintaining high yields. Certain embodiments relate to processes and systems that may be used to heat, transport, and/or mix reagents in ways that reduce the amount of time required to perform solid phase peptide synthesis.

The present invention has an object of shortening the process time and reducing use of a poor solvent for solidifying a carrier (Tag)-peptide component, by removing impurities without conducting solid-liquid separation (condensation, solid-liquid separation and drying operation) of a Tag-peptide component, in an Fmoc method using a Tag for liquid phase peptide synthesis. Provided is the peptide synthesis method that includes the following steps a-d: step a: a carrier-protected amino acid, carrier-protected peptide, or a carrier-protected amino acid amide, and an N-Fmoc-protected amino acid or an N-Fmoc-protected peptide are condensed in an organic solvent or a mixed solution of organic solvents, to obtain an N-Fmoc-carrier-protected peptide, step b: a water-soluble amine is added to the reaction solution after the condensation reaction, step c: the Fmoc group is deprotected from the protected amino group in the presence of a water-soluble amine, and step d: the reaction solution is neutralized by adding an acid, and further, by adding and washing with an acidic aqueous solution, then, by liquid-liquid separation an aqueous layer is removed to obtain an organic layer.

High surface area coatings are applied to solid substrates to increase the surface area available for solid-phase synthesis of polymers. The high surface area coatings use three-dimensional space to provide more area for functional groups to bind polymers than an untreated solid substrate. The polymers may be oligonucleotides, polypeptides, or another type of polymer. The solid substrate is a rigid supportive layer made from a material such as glass, a silicon material, a metal material, and plastic. The coating may be thin films, hydrogels, microparticles. The coating may be made from a metal oxide, a high-κ dielectric, a low-κ dielectric, an etched metal, a carbon material, or an organic polymer. The functional groups may be hydroxyl groups, amine groups, thiolate groups, alkenes, n-alkenes, alkalines, N-Hydroxysuccinimide (NHS)-activated esters, polyaniline, aminosilane groups, silanized oxides, oligothiophenes, and diazonium compounds. Techniques for applying coatings to solid substrates and attaching functional groups are also disclosed.

An apparatus and system for contacting a mobile elongate solid phase, e.g. a ribbon with a flowing fluid phase, and a method for using the same in, for example solid phase synthesis. A particular apparatus comprises (i) a conduit which is of circular or non-circular transverse cross section and which defines a lumen to contain both the flowing fluid phase and the mobile elongate solid phase; (ii) fluid phase ports in communication with the lumen to allow the fluid phase to enter the lumen, flow through it and exit it; and (iii) solid phase ports in communication with the lumen to allow the mobile solid phase to enter the lumen, move through it and exit it, the apparatus being adapted to prevent fluid egress from its interior through the solid phase ports.

The disclosure is directed to compounds and methods for preparing purified macrocyclic peptide using catch-release methods. These methods comprise reacting a free amino group of a resin-bound linear peptide with an azide- or alkyne-functionalized cap to form a resin-bound capped linear peptide having an azide- or alkyne-functionalized cap; cleaving said capped linear peptide from the resin to form a free capped linear peptide having an azide- or alkyne-functionalized cap; reacting the free capped linear peptide having an azide-functionalized cap with an alkyne-functionalized catch resin, or reacting the free capped linear peptide having an akynyl-functionalized cap with an azide functionalized catch resin, to form a catch-resin bound capped linear peptide; reacting the catch-resin bound capped linear peptide under conditions sufficient to effect macrocyclization of the linear peptide and release of the macrocyclic peptide from the catch resin.

Methods for immobilizing a protein or functional protein fragment on a surface in a controlled orientation, for immobilizing a protein or functional protein fragment on a surface with efficient immobilization loading of the protein or protein fragment, and for immobilizing a protein or functional protein fragment on a surface with retention of the activity of the protein or protein fragment. In the methods, a tetrazine-modified protein or a tetrazine-modified functional protein fragment is contacted with a trans-cyclooctene-modified surface to provide a surface having the protein or functional protein fragment immobilized thereon. Surfaces having a protein or functional protein fragment immobilized thereon obtainable by the method and methods for using the surfaces for measuring the binding of a ligand to a protein or functional protein fragment.

This invention is intended to discover a novel solvent that can be used as an alternative to toluene in the step of deprotection in the method of solid-phase nucleic acid synthesis. With the use of such novel solvent, various problems caused by the use of toluene are dissolved.

This invention is also intended to provide a method of solid-phase nucleic acid synthesis in which protected nucleoside phosphoramidites in which a protective group is bonded to a hydroxyl group at the 5position or the 3 position of a nucleoside are sequentially bound on a solid phase carrier, where a reaction of removing the protecting group from the protected nucleoside phosphoramidite is carried out in a solution comprising an acid with a pKa of 0.2 to 0.8 and acetonitrile.

The present invention relates to a method for the purification of peptides which are produced by solid phase peptide synthesis (SPPS) and corresponding linker molecules for use in said method. Optionally, the peptide may be modified while bound via said linker molecule on a purification support.

The present invention relates to a novel process for preparation of peptides having amino acid chain length in the range of 2-40 comprises the steps: i) attaching an end-blocked amino acid with an ionic liquid based solid support in presence of an ionic solvent to obtain an end-terminal blocked amino acid attached ionic liquid; ii) removing end-terminal blocking agent from the end-terminal blocked amino acid attached ionic liquid of step i) followed by work up to obtain an amino acid attached ionic liquid; iii) repeating steps i) through ii) one or more times to obtain a polypeptide attached ionic liquid; and iv) detaching the polypeptide from the polypeptide attached ionic liquid of step iii) to obtain the polypeptide. Said process does not use any auxiliary reagents like dehydrating agent or activating agent. The use of ionic liquids as supports as well as solvents result in the faster kinetics of the process, the separation issues are reduced, and the process has no racemization issues.