The objective of the present invention is to provide a method capable of efficiently removing an impurity from an aqueous solution or a suspension comprising an antibody or an antibody-like molecule and the impurity. The method for purifying an antibody or an antibody-like molecule according to the present invention is characterized in treating an aqueous solution or a suspension comprising the antibody or the antibody-like molecule and an impurity with a water-insoluble inorganic compound, wherein the water-insoluble inorganic compound comprises one or more elements selected from magnesium, calcium and aluminum.

The objective of the present invention is to provide a method capable of efficiently removing an impurity from an aqueous solution or a suspension comprising an antibody or an antibody-like molecule and the impurity. The method for purifying an antibody or an antibody-like molecule according to the present invention is characterized in treating an aqueous solution or a suspension comprising the antibody or the antibody-like molecule and an impurity with a water-insoluble inorganic compound, wherein the water-insoluble inorganic compound comprises one or more elements selected from magnesium, calcium and aluminum.

The present invention relates to a therapeutic polypeptide and methods for its creation and use for modulating an immune response in a host organism in need thereof. In particular, the invention relates to the administration to an organism in need thereof, of an effective amount of a pre-coupled polypeptide complex comprising a lymphokine polypeptide portion, for example IL-15 (SEQ ID NO: 5, 6), IL-2 (SEQ ID NO: 10, 12) or combinations of both, and an interleukin receptor polypeptide portion, for example IL-15Ra (SEQ ID NO: 7, 8), IL-2Ra (SEQ ID NO: 9, 11) or combinations of both, for augmenting the immune system in, for example, cancer, SCID, AIDS, or vaccination; or inhibiting the immune system in, for example, rheumatoid arthritis, or Lupus. The therapeutic complex of the invention surprisingly demonstrates increased half-life, and efficacy in vivo.

The present invention relates to a therapeutic polypeptide and methods for its creation and use for modulating an immune response in a host organism in need thereof. In particular, the invention relates to the administration to an organism in need thereof, of an effective amount of a pre-coupled polypeptide complex comprising a lymphokine polypeptide portion, for example IL-15 (SEQ ID NO: 5, 6), IL-2 (SEQ ID NO: 10, 12) or combinations of both, and an interleukin receptor polypeptide portion, for example IL-15Ra (SEQ ID NO: 7, 8), IL-2Ra (SEQ ID NO: 9, 11) or combinations of both, for augmenting the immune system in, for example, cancer, SCID, AIDS, or vaccination; or inhibiting the immune system in, for example, rheumatoid arthritis, or Lupus. The therapeutic complex of the invention surprisingly demonstrates increased half-life, and efficacy in vivo.

A multifunctional chemical agents comprising functional agents Fn1, Fn2 and linkers, for the linchpin directed (LDM), protein directed (PDPM) modifications of proteins, and Fn1 accelerated kinetic labeling by Fn2.

A multifunctional chemical agents comprising functional agents Fn1, Fn2 and linkers, for the linchpin directed (LDM), protein directed (PDPM) modifications of proteins, and Fn1 accelerated kinetic labeling by Fn2.

An objective of the present invention is to provide methods of producing a cyclic organic compound using a continuous stirred tank reactor(s) (CSTR), the methods being capable of achieving excellent impurity-suppressing effects (quality improvement), reduction in reaction-tank size, continuous production, and such. The present inventors conducted studies on cyclization reactions using a CSTR(s), which had not been conventionally used for cyclization reactions for cyclic compounds. As a result, the inventors have found that the present methods can achieve excellent impurity-suppressing effects (quality improvement), reduction in reaction-tank size, continuous production, and such, as compared with conventional cyclization methods. Furthermore, the present inventors have also found that the above-mentioned improvement effects can efficiently be achieved even in the production of cyclic peptides and heterocyclic compounds by applying simulation methods that had been conventionally used mainly at the fine chemicals plant level to the cyclization reactions of the present invention, thereby experimentally predicting the reaction rate of a cyclization reaction, and setting the flow volume (residence time), the concentrations of precursor and cyclic organic compound, and the temperature for the cyclization reaction and such which affect these conditions, in the cyclization reaction using a CSTR(s).

An objective of the present invention is to provide methods of producing a cyclic organic compound using a continuous stirred tank reactor(s) (CSTR), the methods being capable of achieving excellent impurity-suppressing effects (quality improvement), reduction in reaction-tank size, continuous production, and such. The present inventors conducted studies on cyclization reactions using a CSTR(s), which had not been conventionally used for cyclization reactions for cyclic compounds. As a result, the inventors have found that the present methods can achieve excellent impurity-suppressing effects (quality improvement), reduction in reaction-tank size, continuous production, and such, as compared with conventional cyclization methods. Furthermore, the present inventors have also found that the above-mentioned improvement effects can efficiently be achieved even in the production of cyclic peptides and heterocyclic compounds by applying simulation methods that had been conventionally used mainly at the fine chemicals plant level to the cyclization reactions of the present invention, thereby experimentally predicting the reaction rate of a cyclization reaction, and setting the flow volume (residence time), the concentrations of precursor and cyclic organic compound, and the temperature for the cyclization reaction and such which affect these conditions, in the cyclization reaction using a CSTR(s).

Provided is a novel method whereby an amide compound can be produced by highly stereoselectively and efficiently performing amidation between a plurality of amino acids and/or peptides. A compound of general formula (3) is synthesized by forming an amide bond between the carboxyl group on the right side of general formula (1) in a compound represented thereby and the amino group on the left side of general formula (2) in a compound represented thereby, in the presence of a Lewis acid catalyst and a silylating agent [in formulae (1), (2) and (3), each symbol has the same meaning as defined in claims

Aspects of the application provide methods of preparing a multiplexed sample for polypeptide sequencing, and compositions, kits and devices useful for the same.