Disclosed are a conotoxin polypeptide κ-CPTx-bt101, a method for preparation thereof, and an application thereof. The conotoxin polypeptide of the present invention consists of 18 amino acids, has a molecular weight of 1872.72 daltons, and has the full sequence KCCTMSVCQPPPVCTCCA (SEQ. ID NO. 1).

Disclosed are a conotoxin polypeptide κ-CPTx-bt102, a method for preparation thereof, and an application thereof. The conotoxin polypeptide of the present invention consists of 15 amino acids, has a molecular weight of 1660.61 daltons, and has the full sequence RCRCEQTCGTCVPCC (SEQ. ID NO. 1).

The present application discloses in detail mutant ligands of the human G protein alpha-subunit—Gαi1—, wherein at least one amino acid residue has been replaced with alanine if the at least one amino acid residue is a non-alanine residue, or at least one amino acid residue has been replace with glycine if the at least one amino acid residue is alanine and wherein the at least one amino acid residue is comprised in a first group containing of the amino acid residues with position R32A, K54A, I55A, I56A, H57A, R176A, E245A, Y296A, T327A, N331A, V332A and D350A or is comprised in a second group containing G42A, A59G, T177A, D200A, A226G, E297A, A300G and F334A or is comprised in a third group containing V50A, A59G, R178A 30 and K180A.

The present application discloses in detail mutant ligands of the human G protein alpha-subunit—Gαi1—, wherein at least one amino acid residue has been replaced with alanine if the at least one amino acid residue is a non-alanine residue, or at least one amino acid residue has been replace with glycine if the at least one amino acid residue is alanine and wherein the at least one amino acid residue is comprised in a first group containing of the amino acid residues with position R32A, K54A, I55A, I56A, H57A, R176A, E245A, Y296A, T327A, N331A, V332A and D350A or is comprised in a second group containing G42A, A59G, T177A, D200A, A226G, E297A, A300G and F334A or is comprised in a third group containing V50A, A59G, R178A 30 and K180A.

The present invention relates to a factor VII composition having a substantially homogeneous isoelectric point and to a method for formulating such a composition. The present invention also relates to the therapeutic use of a factor VII composition having a substantially homogeneous isoelectric point.

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.

A composition which includes oxyntomodulin and polyethylene glycol polymer (PEG polymer) linked via a reversible linker such as 9-fluorenylmethoxycarbonyl (Fmoc) or 2-sulfo-9-fluorenylmethoxycarbonyl (FMS) is disclosed. Pharmaceutical compositions comprising the reverse pegylated oxyntomodulin and methods of using same are also disclosed.

The present invention relates to methods and other technologies that may be used to determine whether compositions (e.g., pharmaceutical compositions) comprising interleukin-10 molecules (e.g., pegylated interleukin-10) meet particular product-related specifications prior to being administered to a subject for the treatment and/or prevention of the diseases, disorders and conditions, and/or the symptoms thereof, described herein.

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